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Pancreatic cancer

February 12, 2023

Pancreatic cancer arises when cells in the pancreas, a glandular organ behind the stomach, begin to multiply out of control and form a mass. These cancerous cells have the ability to invade other parts of the body.[9] A number of types of pancreatic cancer are known.[10]

Pancreatic cancer
Diagram showing the position of the pancreas, behind the stomach (which is transparent in this schematic).
SpecialtyGastroenterology, Hepatology, Oncology
Symptoms
[1]
Usual onsetAfter 40 years old[2]
Risk factors
[2]
Diagnostic method
[3][4]
PreventionNot smoking, low alcohol intake, maintaining a healthy weight, low red meat diet[5]
Treatment
[1]
PrognosisFive year survival rate 6%[6]
Frequency393,800 (2015)[7]
Deaths411,600 (2015)[8]

The most common, pancreatic adenocarcinoma, accounts for about 90% of cases,[11] and the term "pancreatic cancer" is sometimes used to refer only to that type.[10] These adenocarcinomas start within the part of the pancreas that makes digestive enzymes.[10] Several other types of cancer, which collectively represent the majority of the non-adenocarcinomas, can also arise from these cells.[10] About 1–2% of cases of pancreatic cancer are neuroendocrine tumors, which arise from the hormone-producing cells of the pancreas.[10] These are generally less aggressive than pancreatic adenocarcinoma.[10]

Signs and symptoms of the most-common form of pancreatic cancer may include yellow skin, abdominal or back pain, unexplained weight loss, light-colored stools, dark urine, and loss of appetite.[1] Usually, no symptoms are seen in the disease's early stages, and symptoms that are specific enough to suggest pancreatic cancer typically do not develop until the disease has reached an advanced stage.[1][2] By the time of diagnosis, pancreatic cancer has often spread to other parts of the body.[10][12]

Pancreatic cancer rarely occurs before the age of 40, and more than half of cases of pancreatic adenocarcinoma occur in those over 70.[2] Risk factors for pancreatic cancer include tobacco smoking, obesity, diabetes, and certain rare genetic conditions.[2] About 25% of cases are linked to smoking,[3] and 5–10% are linked to inherited genes.[2] Pancreatic cancer is usually diagnosed by a combination of medical imaging techniques such as ultrasound or computed tomography, blood tests, and examination of tissue samples (biopsy).[3][4] The disease is divided into stages, from early (stage I) to late (stage IV).[12] Screening the general population has not been found to be effective.[13]

The risk of developing pancreatic cancer is lower among nonsmokers, and people who maintain a healthy weight and limit their consumption of red or processed meat;[5] however, the risk is greater for men, especially at very high levels of red meat consumption.[14] Smokers' chances of developing the disease decrease if they stop smoking and almost return to that of the rest of the population after 20 years.[10] Pancreatic cancer can be treated with surgery, radiotherapy, chemotherapy, palliative care, or a combination of these.[1] Treatment options are partly based on the cancer stage.[1] Surgery is the only treatment that can cure pancreatic adenocarcinoma,[12] and may also be done to improve quality of life without the potential for cure.[1][12] Pain management and medications to improve digestion are sometimes needed.[12] Early palliative care is recommended even for those receiving treatment that aims for a cure.[15]

In 2015, pancreatic cancers of all types resulted in 411,600 deaths globally.[8] Pancreatic cancer is the fifth-most-common cause of death from cancer in the United Kingdom,[16] and the third most-common in the United States.[17] The disease occurs most often in the developed world, where about 70% of the new cases in 2012 originated.[10] Pancreatic adenocarcinoma typically has a very poor prognosis; after diagnosis, 25% of people survive one year and 5% live for five years.[6][10] For cancers diagnosed early, the five-year survival rate rises to about 20%.[18] Neuroendocrine cancers have better outcomes; at five years from diagnosis, 65% of those diagnosed are living, though survival considerably varies depending on the type of tumor.[10]

Types

 
The pancreas has many functions, served by the endocrine cells in the islets of Langerhans and the exocrine acinar cells. Pancreatic cancer may arise from any of these and disrupt any of their functions.
 
Relative incidences of various pancreatic neoplasms, with pancreatic cancers in red/pink color.[19]

The many types of pancreatic cancer can be divided into two general groups. The vast majority of cases (about 95%) occur in the part of the pancreas that produces digestive enzymes, known as the exocrine component. Several subtypes of exocrine pancreatic cancers are described, but their diagnosis and treatment have much in common. The small minority of cancers that arise in the hormone-producing (endocrine) tissue of the pancreas have different clinical characteristics and are called pancreatic neuroendocrine tumors, sometimes abbreviated as "PanNETs". Both groups occur mainly (but not exclusively) in people over 40, and are slightly more common in men, but some rare subtypes mainly occur in women or children.[20][21]

Exocrine cancers

The exocrine group is dominated by pancreatic adenocarcinoma (variations of this name may add "invasive" and "ductal"), which is by far the most common type, representing about 85% of all pancreatic cancers.[2] Nearly all these start in the ducts of the pancreas, as pancreatic ductal adenocarcinoma (PDAC).[22] This is despite the fact that the tissue from which it arises – the pancreatic ductal epithelium – represents less than 10% of the pancreas by cell volume, because it constitutes only the ducts (an extensive but capillary-like duct-system fanning out) within the pancreas.[23] This cancer originates in the ducts that carry secretions (such as enzymes and bicarbonate) away from the pancreas. About 60–70% of adenocarcinomas occur in the head of the pancreas.[2]

The next-most common type, acinar cell carcinoma of the pancreas, arises in the clusters of cells that produce these enzymes, and represents 5% of exocrine pancreas cancers.[24] Like the 'functioning' endocrine cancers described below, acinar cell carcinomas may cause over-production of certain molecules, in this case digestive enzymes, which may cause symptoms such as skin rashes and joint pain.

Cystadenocarcinomas account for 1% of pancreatic cancers, and they have a better prognosis than the other exocrine types.[24]

Pancreatoblastoma is a rare form, mostly occurring in childhood, and with a relatively good prognosis. Other exocrine cancers include adenosquamous carcinomas, signet ring cell carcinomas, hepatoid carcinomas, colloid carcinomas, undifferentiated carcinomas, and undifferentiated carcinomas with osteoclast-like giant cells. Solid pseudopapillary tumor is a rare low-grade neoplasm that mainly affects younger women, and generally has a very good prognosis.[2][25]

Pancreatic mucinous cystic neoplasms are a broad group of pancreas tumors that have varying malignant potential. They are being detected at a greatly increased rate as CT scans become more powerful and common, and discussion continues as how best to assess and treat them, given that many are benign.[26]

Neuroendocrine

Main article: Pancreatic neuroendocrine tumor

The small minority of tumors that arise elsewhere in the pancreas are mainly pancreatic neuroendocrine tumors (PanNETs).[27] Neuroendocrine tumors (NETs) are a diverse group of benign or malignant tumors that arise from the body's neuroendocrine cells, which are responsible for integrating the nervous and endocrine systems. NETs can start in most organs of the body, including the pancreas, where the various malignant types are all considered to be rare. PanNETs are grouped into 'functioning' and 'nonfunctioning' types, depending on the degree to which they produce hormones. The functioning types secrete hormones such as insulin, gastrin, and glucagon into the bloodstream, often in large quantities, giving rise to serious symptoms such as low blood sugar, but also favoring relatively early detection. The most common functioning PanNETs are insulinomas and gastrinomas, named after the hormones they secrete. The nonfunctioning types do not secrete hormones in a sufficient quantity to give rise to overt clinical symptoms, so nonfunctioning PanNETs are often diagnosed only after the cancer has spread to other parts of the body.[28]

As with other neuroendocrine tumors, the history of the terminology and classification of PanNETs is complex.[27] PanNETs are sometimes called "islet cell cancers",[29] though they are now known to not actually arise from islet cells as previously thought.[28]

Signs and symptoms

 
Jaundice can be a symptom, due to biliary obstruction from a pancreatic tumor.

Since pancreatic cancer usually does not cause recognizable symptoms in its early stages, the disease is typically not diagnosed until it has spread beyond the pancreas itself.[4] This is one of the main reasons for the generally poor survival rates. Exceptions to this are the functioning PanNETs, where over-production of various active hormones can give rise to symptoms (which depend on the type of hormone).[30]

Bearing in mind that the disease is rarely diagnosed before the age of 40, common symptoms of pancreatic adenocarcinoma occurring before diagnosis include:

  • Pain in the upper abdomen or back, often spreading from around the stomach to the back. The location of the pain can indicate the part of the pancreas where a tumor is located. The pain may be worse at night and may increase over time to become severe and unremitting.[24] It may be slightly relieved by bending forward. In the UK, about half of new cases of pancreatic cancer are diagnosed following a visit to a hospital emergency department for pain or jaundice. In up to two-thirds of people, abdominal pain is the main symptom, for 46% of the total accompanied by jaundice, with 13% having jaundice without pain.[12]
  • Jaundice, a yellow tint to the whites of the eyes or skin, with or without pain, and possibly in combination with darkened urine, results when a cancer in the head of the pancreas obstructs the common bile duct as it runs through the pancreas.[31]
  • Unexplained weight loss, either from loss of appetite, or loss of exocrine function resulting in poor digestion.[12]
  • The tumor may compress neighboring organs, disrupting digestive processes and making it difficult for the stomach to empty, which may cause nausea and a feeling of fullness. The undigested fat leads to foul-smelling, fatty feces that are difficult to flush away.[12] Constipation is also common.[32]
  • At least 50% of people with pancreatic adenocarcinoma have diabetes at the time of diagnosis.[2] While long-standing diabetes is a known risk factor for pancreatic cancer (see Risk factors), the cancer can itself cause diabetes, in which case recent onset of diabetes could be considered an early sign of the disease.[33] People over 50 who develop diabetes have eight times the usual risk of developing pancreatic adenocarcinoma within three years, after which the relative risk declines.[12]

Other findings

Other common manifestations of the disease include weakness and tiring easily, dry mouth, sleep problems, and a palpable abdominal mass.[32]

Symptoms of spread

 
Cross-section of a human liver, at autopsy, showing many large pale tumor deposits, that are secondary tumors derived from pancreatic cancer

The spread of pancreatic cancer to other organs (metastasis) may also cause symptoms. Typically, pancreatic adenocarcinoma first spreads to nearby lymph nodes, and later to the liver or to the peritoneal cavity, large intestine, or lungs.[3] Uncommonly, it spreads to the bones or brain.[34]

Cancers in the pancreas may also be secondary cancers that have spread from other parts of the body. This is uncommon, found in only about 2% of cases of pancreatic cancer. Kidney cancer is by far the most common cancer to spread to the pancreas, followed by colorectal cancer, and then cancers of the skin, breast, and lung. Surgery may be performed on the pancreas in such cases, whether in hope of a cure or to alleviate symptoms.[35]

Risk factors

Risk factors for pancreatic adenocarcinoma include:[2][10][12][36][37][excessive citations]

  • Age, sex, and ethnicity – the risk of developing pancreatic cancer increases with age. Most cases occur after age 65,[10] while cases before age 40 are uncommon. The disease is slightly more common in men than in women.[10] In the United States, it is over 1.5 times more common in African Americans, though incidence in Africa is low.[10]
  • Cigarette smoking is the best-established avoidable risk factor for pancreatic cancer, approximately doubling risk among long-term smokers, the risk increasing with the number of cigarettes smoked and the years of smoking. The risk declines slowly after smoking cessation, taking some 20 years to return to almost that of nonsmokers.[38]
  • Obesity – a body mass index greater than 35 increases relative risk by about half.[12][39]
  • Family history – 5–10% of pancreatic cancer cases have an inherited component, where people have a family history of pancreatic cancer.[2][40] The risk escalates greatly if more than one first-degree relative had the disease, and more modestly if they developed it before the age of 50.[4] Most of the genes involved have not been identified.[2][41] Hereditary pancreatitis gives a greatly increased lifetime risk of pancreatic cancer of 30–40% to the age of 70.[3] Screening for early pancreatic cancer may be offered to individuals with hereditary pancreatitis on a research basis.[42] Some people may choose to have their pancreas surgically removed to prevent cancer from developing in the future.[3]
Pancreatic cancer has been associated with these other rare hereditary syndromes: Peutz–Jeghers syndrome due to mutations in the STK11 tumor suppressor gene (very rare, but a very strong risk factor); dysplastic nevus syndrome (or familial atypical multiple mole and melanoma syndrome, FAMMM-PC) due to mutations in the CDKN2A tumor suppressor gene; autosomal recessive ataxia-telangiectasia and autosomal dominantly inherited mutations in the BRCA2 and PALB2 genes; hereditary non-polyposis colon cancer (Lynch syndrome); and familial adenomatous polyposis. PanNETs have been associated with multiple endocrine neoplasia type 1 (MEN1) and von Hippel Lindau syndromes.[2][3][4]
  • Chronic pancreatitis appears to almost triple risk, and as with diabetes, new-onset pancreatitis may be a symptom of a tumor.[3] The risk of pancreatic cancer in individuals with familial pancreatitis is particularly high.[3][41]
  • Diabetes mellitus is a risk factor for pancreatic cancer and (as noted in the Signs and symptoms section) new-onset diabetes may also be an early sign of the disease. People who have been diagnosed with type 2 diabetes for longer than 10 years may have a 50% increased risk, as compared with individuals without diabetes.[3] In 2021, Venturi reported that pancreas is able to absorb in great quantity radioactive cesium (Cs-134 and Cs-137) causing chronic pancreatitis and probably pancreatic cancer with damage of pancreatic islands, causing type 3c (pancreatogenic) diabetes.[43] Chronic pancreatitis, pancreatic cancer and diabetes mellitus increased in contaminated population, particularly children and adolescents, after Fukushima and Chernobyl nuclear incidents. At the same time, worldwide pancreatic diseases, diabetes and environmental radiocesium are increasing.
  • Specific types of food (as distinct from obesity) have not been clearly shown to increase the risk of pancreatic cancer.[2][44] Dietary factors for which some evidence shows slightly increased risk include processed meat, red meat, and meat cooked at very high temperatures (e.g. by frying, broiling, or grilling).[44][45]

Alcohol

Drinking alcohol excessively is a major cause of chronic pancreatitis, which in turn predisposes to pancreatic cancer, but considerable research has failed to firmly establish alcohol consumption as a direct risk factor for pancreatic cancer. Overall, the association is consistently weak and the majority of studies have found no association, with smoking a strong confounding factor. The evidence is stronger for a link with heavy drinking, of at least six drinks per day.[3][46]

Pathophysiology

 
Micrograph of pancreatic ductal adenocarcinoma (the most common type of pancreatic cancer), H&E stain

Precancer

 
Micrographs of normal pancreas, pancreatic intraepithelial neoplasia (precursors to pancreatic carcinoma) and pancreatic carcinoma, H&E stain
 
Progression of pancreatic intraepithelial neoplasia, including mutations.[47]

Exocrine cancers are thought to arise from several types of precancerous lesions within the pancreas, but these lesions do not always progress to cancer, and the increased numbers detected as a byproduct of the increasing use of CT scans for other reasons are not all treated.[3] Apart from pancreatic serous cystadenomas, which are almost always benign, four types of precancerous lesion are recognized.

The first is pancreatic intraepithelial neoplasia (PanIN). These lesions are microscopic abnormalities in the pancreas and are often found in autopsies of people with no diagnosed cancer. These lesions may progress from low to high grade and then to a tumor. More than 90% of cases at all grades carry a faulty KRAS gene, while in grades 2 and 3, damage to three further genes – CDKN2A (p16), p53, and SMAD4 – are increasingly often found.[2]

A second type is the intraductal papillary mucinous neoplasm (IPMN). These are macroscopic lesions, which are found in about 2% of all adults. This rate rises to about 10% by age 70. These lesions have about a 25% risk of developing into invasive cancer. They may have KRAS gene mutations (40–65% of cases) and in the GNAS Gs alpha subunit and RNF43, affecting the Wnt signaling pathway.[2] Even if removed surgically, a considerably increased risk remains of pancreatic cancer developing subsequently.[3]

The third type, pancreatic mucinous cystic neoplasm (MCN), mainly occurs in women, and may remain benign or progress to cancer.[48] If these lesions become large, cause symptoms, or have suspicious features, they can usually be successfully removed by surgery.[3]

A fourth type of cancer that arises in the pancreas is the intraductal tubulopapillary neoplasm. This type was recognised by the WHO in 2010 and constitutes about 1–3% of all pancreatic neoplasms. Mean age at diagnosis is 61 years (range 35–78 years). About 50% of these lesions become invasive. Diagnosis depends on histology, as these lesions are very difficult to differentiate from other lesions on either clinical or radiological grounds.[49]

Invasive cancer

The genetic events found in ductal adenocarcinoma have been well characterized, and complete exome sequencing has been done for the common types of tumor. Four genes have each been found to be mutated in the majority of adenocarcinomas: KRAS (in 95% of cases), CDKN2A (also in 95%), TP53 (75%), and SMAD4 (55%). The last of these is especially associated with a poor prognosis.[3] SWI/SNF mutations/deletions occur in about 10–15% of the adenocarcinomas.[2] The genetic alterations in several other types of pancreatic cancer and precancerous lesions have also been researched.[3] Transcriptomics analyses and mRNA sequencing for the common forms of pancreatic cancer have found that 75% of human genes are expressed in the tumors, with some 200 genes more specifically expressed in pancreatic cancer as compared to other tumor types.[50][51]

PanNETs

The genes often found mutated in PanNETs are different from those in exocrine pancreatic cancer.[52] For example, KRAS mutation is normally absent. Instead, hereditary MEN1 gene mutations give risk to MEN1 syndrome, in which primary tumors occur in two or more endocrine glands. About 40–70% of people born with a MEN1 mutation eventually develop a PanNet.[53] Other genes that are frequently mutated include DAXX, mTOR, and ATRX.[28]

Diagnosis

 
The head, body, and tail of the pancreas: The stomach is faded out in this image to show the entire pancreas, of which the body and tail lie behind the stomach, and the neck partially behind.
 
Axial CT image with IV contrast and added color: Cross lines towards top left surround a macrocystic adenocarcinoma of the pancreatic head.
 
Abdominal ultrasonography of pancreatic cancer (presumably adenocarcinoma), with a dilated pancreatic duct to the right.

The symptoms of pancreatic adenocarcinoma do not usually appear in the disease's early stages, and they are not individually distinctive to the disease.[3][12][31] The symptoms at diagnosis vary according to the location of the cancer in the pancreas, which anatomists divide (from left to right on most diagrams) into the thick head, the neck, and the tapering body, ending in the tail.

Regardless of a tumor's location, the most common symptom is unexplained weight loss, which may be considerable. A large minority (between 35% and 47%) of people diagnosed with the disease will have had nausea, vomiting, or a feeling of weakness. Tumors in the head of the pancreas typically also cause jaundice, pain, loss of appetite, dark urine, and light-colored stools. Tumors in the body and tail typically also cause pain.[31]

People sometimes have recent onset of atypical type 2 diabetes that is difficult to control, a history of recent but unexplained blood vessel inflammation caused by blood clots (thrombophlebitis) known as Trousseau sign, or a previous attack of pancreatitis.[31] A doctor may suspect pancreatic cancer when the onset of diabetes in someone over 50 years old is accompanied by typical symptoms such as unexplained weight loss, persistent abdominal or back pain, indigestion, vomiting, or fatty feces.[12] Jaundice accompanied by a painlessly swollen gallbladder (known as Courvoisier's sign) may also raise suspicion, and can help differentiate pancreatic cancer from gallstones.[54]

Medical imaging techniques, such as computed tomography (CT scan) and endoscopic ultrasound (EUS) are used both to confirm the diagnosis and to help decide whether the tumor can be surgically removed (its "resectability").[12] On contrast CT scan, pancreatic cancer typically shows a gradually increasing radiocontrast uptake, rather than a fast washout as seen in a normal pancreas or a delayed washout as seen in chronic pancreatitis.[55] Magnetic resonance imaging and positron emission tomography may also be used,[2] and magnetic resonance cholangiopancreatography may be useful in some cases.[31] Abdominal ultrasound is less sensitive and will miss small tumors, but can identify cancers that have spread to the liver and build-up of fluid in the peritoneal cavity (ascites).[12] It may be used for a quick and cheap first examination before other techniques.[56]

 
Fine needle aspiration of well-differentiated pancreatic adenocarcinoma, showing a flat sheet with prominent honeycombing. The disorganization, nuclear overlapping, and lack of uniform nuclear spacing provides a clue that is this adenocarcinoma (as opposed to non-neoplastic duct epithelium).

A biopsy by fine needle aspiration, often guided by endoscopic ultrasound, may be used where there is uncertainty over the diagnosis, but a histologic diagnosis is not usually required for removal of the tumor by surgery to go ahead.[12]

Liver function tests can show a combination of results indicative of bile duct obstruction (raised conjugated bilirubin, γ-glutamyl transpeptidase and alkaline phosphatase levels). CA19-9 (carbohydrate antigen 19.9) is a tumor marker that is frequently elevated in pancreatic cancer. However, it lacks sensitivity and specificity, not least because 5% of people lack the Lewis (a) antigen and cannot produce CA19-9. It has a sensitivity of 80% and specificity of 73% in detecting pancreatic adenocarcinoma, and is used for following known cases rather than diagnosis.[2][12]

Histopathology

The most common form of pancreatic cancer (adenocarcinoma) is typically characterized by moderately to poorly differentiated glandular structures on microscopic examination. There is typically considerable desmoplasia or formation of a dense fibrous stroma or structural tissue consisting of a range of cell types (including myofibroblasts, macrophages, lymphocytes and mast cells) and deposited material (such as type I collagen and hyaluronic acid). This creates a tumor microenvironment that is short of blood vessels (hypovascular) and so of oxygen (tumor hypoxia).[2] It is thought that this prevents many chemotherapy drugs from reaching the tumor, as one factor making the cancer especially hard to treat.[2][3]

Cancer type Relative incidence[11] Microscopy findings[11] Micrograph Immunohistochemistry markers[11] Genetic alterations[11]
Pancreatic ductal adenocarcinoma (PDAC) 90% Glands and desmoplasia  
Pancreatic acinar cell carcinoma (ACC) 1% to 2% Granular appearance  
Adenosquamous carcinoma 1% to 4%[57] Combination of gland-like cells and squamous epithelial cells.   Positive for:

Negative for:

Pancreatic neuroendocrine tumor 5% Multiple nests of tumor cells
 
Gastrinoma
Pre-cancer below for comparison:
Precancer:
Intraductal papillary mucinous neoplasm (IPMN) 		3% Mucinous epithelial cells.[58] Growth within the pancreatic ducts.[59]  

Staging

Exocrine cancers

Pancreatic cancer is usually staged following a CT scan.[31] The most widely used cancer staging system for pancreatic cancer is the one formulated by the American Joint Committee on Cancer (AJCC) together with the Union for International Cancer Control (UICC). The AJCC-UICC staging system designates four main overall stages, ranging from early to advanced disease, based on TNM classification of Tumor size, spread to lymph Nodes, and Metastasis.[60]

To help decide treatment, the tumors are also divided into three broader categories based on whether surgical removal seems possible: in this way, tumors are judged to be "resectable", "borderline resectable", or "unresectable".[61] When the disease is still in an early stage (AJCC-UICC stages I and II), without spread to large blood vessels or distant organs such as the liver or lungs, surgical resection of the tumor can normally be performed, if the patient is willing to undergo this major operation and is thought to be sufficiently fit.[12]

The AJCC-UICC staging system allows distinction between stage III tumors that are judged to be "borderline resectable" (where surgery is technically feasible because the celiac axis and superior mesenteric artery are still free) and those that are "unresectable" (due to more locally advanced disease); in terms of the more detailed TNM classification, these two groups correspond to T3 and T4 respectively.[3]

  • Pancreatic cancer staging (TNM classification)
  •  

    Stage T1 pancreatic cancer

  •  

    Stage T2 pancreatic cancer

  •  

    Stage T3 pancreatic cancer

  •  

    Stage T4 pancreatic cancer

  •  

    Pancreatic cancer in nearby lymph nodes – Stage N1

 
Pancreatic cancer metastasized – stage M1

Locally advanced adenocarcinomas have spread into neighboring organs, which may be any of the following (in roughly decreasing order of frequency): the duodenum, stomach, transverse colon, spleen, adrenal gland, or kidney. Very often they also spread to the important blood or lymphatic vessels and nerves that run close to the pancreas, making surgery far more difficult. Typical sites for metastatic spread (stage IV disease) are the liver, peritoneal cavity and lungs, all of which occur in 50% or more of fully advanced cases.[62]

PanNETs

The 2010 WHO classification of tumors of the digestive system grades all the pancreatic neuroendocrine tumors (PanNETs) into three categories, based on their degree of cellular differentiation (from "NET G1" through to the poorly differentiated "NET G3").[21] The U.S. National Comprehensive Cancer Network recommends use of the same AJCC-UICC staging system as pancreatic adenocarcinoma.[63]: 52  Using this scheme, the stage-by-stage outcomes for PanNETs are dissimilar to those of the exocrine cancers.[64] A different TNM system for PanNETs has been proposed by the European Neuroendocrine Tumor Society.[21]

Prevention and screening

Apart from not smoking, the American Cancer Society recommends keeping a healthy weight, and increasing consumption of fruits, vegetables, and whole grains, while decreasing consumption of red and processed meat, although there is no consistent evidence this will prevent or reduce pancreatic cancer specifically.[65] A 2014 review of research concluded that there was evidence that consumption of citrus fruits and curcumin reduced risk of pancreatic cancer, while there was possibly a beneficial effect from whole grains, folate, selenium, and non-fried fish.[46]

In the general population, screening of large groups is not considered effective and may be harmful as of 2019,[66] although newer techniques, and the screening of tightly targeted groups, are being evaluated.[67][68] Nevertheless, regular screening with endoscopic ultrasound and MRI/CT imaging is recommended for those at high risk from inherited genetics.[4][56][68][69]

Use of aspirin is said to lower the risk of pancreatic cancer.[70][71]

Management

Exocrine cancer

A key assessment that is made after diagnosis is whether surgical removal of the tumor is possible (see Staging), as this is the only cure for this cancer. Whether or not surgical resection can be offered depends on how much the cancer has spread. The exact location of the tumor is also a significant factor, and CT can show how it relates to the major blood vessels passing close to the pancreas. The general health of the person must also be assessed, though age in itself is not an obstacle to surgery.[3]

Chemotherapy and, to a lesser extent, radiotherapy are likely to be offered to most people, whether or not surgery is possible. Specialists advise that the management of pancreatic cancer should be in the hands of a multidisciplinary team including specialists in several aspects of oncology, and is, therefore, best conducted in larger centers.[2][3]

Surgery

 
Parts of the body removed in Whipple's operation

Surgery with the intention of a cure is only possible in around one-fifth (20%) of new cases.[12] Although CT scans help, in practice it can be difficult to determine whether the tumor can be fully removed (its "resectability"), and it may only become apparent during surgery that it is not possible to successfully remove the tumor without damaging other vital tissues. Whether or not surgical resection can be offered depends on various factors, including the precise extent of local anatomical adjacency to, or involvement of, the venous or arterial blood vessels,[2] as well as surgical expertise and a careful consideration of projected post-operative recovery.[72][73] The age of the person is not in itself a reason not to operate, but their general performance status needs to be adequate for a major operation.[12]

One particular feature that is evaluated is the encouraging presence, or discouraging absence, of a clear layer or plane of fat creating a barrier between the tumor and the vessels.[3] Traditionally, an assessment is made of the tumor's proximity to major venous or arterial vessels, in terms of "abutment" (defined as the tumor touching no more than half a blood vessel's circumference without any fat to separate it), "encasement" (when the tumor encloses most of the vessel's circumference), or full vessel involvement.[74]: 22  A resection that includes encased sections of blood vessels may be possible in some cases,[75][76] particularly if preliminary neoadjuvant therapy is feasible,[77][78][79] using chemotherapy[73][74]: 36 [80] and/or radiotherapy.[74]: 29–30 

Even when the operation appears to have been successful, cancerous cells are often found around the edges ("margins") of the removed tissue, when a pathologist examines them microscopically (this will always be done), indicating the cancer has not been entirely removed.[2] Furthermore, cancer stem cells are usually not evident microscopically, and if they are present they may continue to develop and spread.[81][82] An exploratory laparoscopy (a small, camera-guided surgical procedure) may therefore be performed to gain a clearer idea of the outcome of a full operation.[83]

 
How the pancreas and bowel are joined back together after a Whipple's operation

For cancers involving the head of the pancreas, the Whipple procedure is the most commonly attempted curative surgical treatment. This is a major operation which involves removing the pancreatic head and the curve of the duodenum together ("pancreato-duodenectomy"), making a bypass for food from the stomach to the jejunum ("gastro-jejunostomy") and attaching a loop of jejunum to the cystic duct to drain bile ("cholecysto-jejunostomy"). It can be performed only if the person is likely to survive major surgery and if the cancer is localized without invading local structures or metastasizing. It can, therefore, be performed only in a minority of cases. Cancers of the tail of the pancreas can be resected using a procedure known as a distal pancreatectomy, which often also entails removal of the spleen.[2][3] Nowadays, this can often be done using minimally invasive surgery.[2][3]

Although curative surgery no longer entails the very high death rates that occurred until the 1980s, a high proportion of people (about 30–45%) still have to be treated for a post-operative sickness that is not caused by the cancer itself. The most common complication of surgery is difficulty in emptying the stomach.[3] Certain more limited surgical procedures may also be used to ease symptoms (see Palliative care): for instance, if the cancer is invading or compressing the duodenum or colon. In such cases, bypass surgery might overcome the obstruction and improve quality of life but is not intended as a cure.[12]

Chemotherapy

After surgery, adjuvant chemotherapy with gemcitabine or 5-FU can be offered if the person is sufficiently fit, after a recovery period of one to two months.[4][56] In people not suitable for curative surgery, chemotherapy may be used to extend life or improve its quality.[3] Before surgery, neoadjuvant chemotherapy or chemoradiotherapy may be used in cases that are considered to be "borderline resectable" (see Staging) in order to reduce the cancer to a level where surgery could be beneficial. In other cases neoadjuvant therapy remains controversial, because it delays surgery.[3][4][84]

Gemcitabine was approved by the United States Food and Drug Administration (FDA) in 1997, after a clinical trial reported improvements in quality of life and a five-week improvement in median survival duration in people with advanced pancreatic cancer.[85] This was the first chemotherapy drug approved by the FDA primarily for a nonsurvival clinical trial endpoint.[86] Chemotherapy using gemcitabine alone was the standard for about a decade, as a number of trials testing it in combination with other drugs failed to demonstrate significantly better outcomes. However, the combination of gemcitabine with erlotinib was found to increase survival modestly, and erlotinib was licensed by the FDA for use in pancreatic cancer in 2005.[87]

The FOLFIRINOX chemotherapy regimen using four drugs was found more effective than gemcitabine, but with substantial side effects, and is thus only suitable for people with good performance status. This is also true of protein-bound paclitaxel (nab-paclitaxel), which was licensed by the FDA in 2013 for use with gemcitabine in pancreas cancer.[88] By the end of 2013, both FOLFIRINOX and nab-paclitaxel with gemcitabine were regarded as good choices for those able to tolerate the side-effects, and gemcitabine remained an effective option for those who were not. A head-to-head trial between the two new options is awaited, and trials investigating other variations continue. However, the changes of the last few years have only increased survival times by a few months.[85] Clinical trials are often conducted for novel adjuvant therapies.[4]

Radiotherapy

The role of radiotherapy as an auxiliary (adjuvant) treatment after potentially curative surgery has been controversial since the 1980s.[3] In the early 2000s the European Study Group for Pancreatic Cancer Research (ESPAC) showed prognostic superiority of adjuvant chemotherapy over chemoradiotherapy.[89][90][4] The European Society for Medical Oncology recommends that adjuvant radiotherapy should only be used for people enrolled in clinical trials.[56] However, there is a continuing tendency for clinicians in the US to be more ready to use adjuvant radiotherapy than those in Europe. Many clinical trials have tested a variety of treatment combinations since the 1980s, but have failed to settle the matter conclusively.[3][4]

Radiotherapy may form part of treatment to attempt to shrink a tumor to a resectable state, but its use on unresectable tumors remains controversial as there are conflicting results from clinical trials. The preliminary results of one trial, presented in 2013, "markedly reduced enthusiasm" for its use on locally advanced tumors.[2]

PanNETs

Main articles: Neuroendocrine tumor and Pancreatic neuroendocrine tumor

Treatment of PanNETs, including the less common malignant types, may include a number of approaches.[63][91][92][93] Some small tumors of less than 1 cm. that are identified incidentally, for example on a CT scan performed for other purposes, may be followed by watchful waiting.[63] This depends on the assessed risk of surgery which is influenced by the site of the tumor and the presence of other medical problems.[63] Tumors within the pancreas only (localized tumors), or with limited metastases, for example to the liver, may be removed by surgery. The type of surgery depends on the tumor location, and the degree of spread to lymph nodes.[21]

For localized tumors, the surgical procedure may be much less extensive than the types of surgery used to treat pancreatic adenocarcinoma described above, but otherwise surgical procedures are similar to those for exocrine tumors. The range of possible outcomes varies greatly; some types have a very high survival rate after surgery while others have a poor outlook. As all this group are rare, guidelines emphasize that treatment should be undertaken in a specialized center.[21][28] Use of liver transplantation may be considered in certain cases of liver metastasis.[94]

For functioning tumors, the somatostatin analog class of medications, such as octreotide, can reduce the excessive production of hormones.[21] Lanreotide can slow tumor growth.[95] If the tumor is not amenable to surgical removal and is causing symptoms, targeted therapy with everolimus or sunitinib can reduce symptoms and slow progression of the disease.[28][96][97] Standard cytotoxic chemotherapy is generally not very effective for PanNETs, but may be used when other drug treatments fail to prevent the disease from progressing,[28] or in poorly differentiated PanNET cancers.[98]

Radiation therapy is occasionally used if there is pain due to anatomic extension, such as metastasis to bone. Some PanNETs absorb specific peptides or hormones, and these PanNETs may respond to nuclear medicine therapy with radiolabeled peptides or hormones such as iobenguane (iodine-131-MIBG).[99][100][101][102] Radiofrequency ablation (RFA), cryoablation, and hepatic artery embolization may also be used.[103][104]

Palliative care

Palliative care is medical care which focuses on treatment of symptoms from serious illness, such as cancer, and improving quality of life.[105] Because pancreatic adenocarcinoma is usually diagnosed after it has progressed to an advanced stage, palliative care as a treatment of symptoms is often the only treatment possible.[106]

Palliative care focuses not on treating the underlying cancer, but on treating symptoms such as pain or nausea, and can assist in decision-making, including when or if hospice care will be beneficial.[107] Pain can be managed with medications such as opioids or through procedural intervention, by a nerve block on the celiac plexus (CPB). This alters or, depending on the technique used, destroys the nerves that transmit pain from the abdomen. CPB is a safe and effective way to reduce the pain, which generally reduces the need to use opioid painkillers, which have significant negative side effects.[3][108]

Other symptoms or complications that can be treated with palliative surgery are obstruction by the tumor of the intestines or bile ducts. For the latter, which occurs in well over half of cases, a small metal tube called a stent may be inserted by endoscope to keep the ducts draining.[31] Palliative care can also help treat depression that often comes with the diagnosis of pancreatic cancer.[3]

Both surgery and advanced inoperable tumors often lead to digestive system disorders from a lack of the exocrine products of the pancreas (exocrine insufficiency). These can be treated by taking pancreatin which contains manufactured pancreatic enzymes, and is best taken with food.[12] Difficulty in emptying the stomach (delayed gastric emptying) is common and can be a serious problem, involving hospitalization. Treatment may involve a variety of approaches, including draining the stomach by nasogastric aspiration and drugs called proton-pump inhibitors or H2 antagonists, which both reduce production of gastric acid.[12] Medications like metoclopramide can also be used to clear stomach contents.

Outcomes

Outcomes in pancreatic cancers according to clinical stage, as of 2014[61]
Clinical stage U.S. five-year survival (%)
for 1992–1998 diagnoses
Exocrine pancreatic cancer Neuroendocrine treated with surgery
IA / I 14 61
IB 12
IIA / II 7 52
IIB 5
III 3 41
IV 1 16

Pancreatic adenocarcinoma and the other less common exocrine cancers have a very poor prognosis, as they are normally diagnosed at a late stage when the cancer is already locally advanced or has spread to other parts of the body.[2] Outcomes are much better for PanNETs: Many are benign and completely without clinical symptoms, and even those cases not treatable with surgery have an average five-year survival rate of 16%,[61] although the outlook varies considerably according to the type.[30]

For locally advanced and metastatic pancreatic adenocarcinomas, which together represent over 80% of cases, numerous trials comparing chemotherapy regimes have shown increased survival times, but not to more than one year.[2][85] Overall five-year survival for pancreatic cancer in the US has improved from 2% in cases diagnosed in 1975–1977, and 4% in 1987–1989 diagnoses, to 6% in 2003–2009.[109] In the less than 20% of cases of pancreatic adenocarcinoma with a diagnosis of a localized and small cancerous growth (less than 2 cm in Stage T1), about 20% of Americans survive to five years.[18]

About 1500 genes are linked to outcomes in pancreatic adenocarcinoma. These include both unfavorable genes, where high expression is related to poor outcome, for example C-Met and MUC-1, and favorable genes where high expression is associated with better survival, for example the transcription factor PELP1.[50][51]

Distribution

 
Deaths from pancreatic cancer per million persons in 2012
  0–4
  5–6
  7–9
  10–15
  16–25
  26–33
  34–70
  71–121
  122–162
  163–235

In 2015, pancreatic cancers of all types resulted in 411,600 deaths globally.[8] In 2014, an estimated 46,000 people in the US are expected to be diagnosed with pancreatic cancer and 40,000 to die of it.[2] Although it accounts for only 2.5% of new cases, pancreatic cancer is responsible for 6% of cancer deaths each year.[110] It is the seventh highest cause of death from cancer worldwide.[10] Pancreatic cancer is the fifth most common cause of death from cancer in the United Kingdom,[16] and the third most common in the United States.[17]

Globally pancreatic cancer is the 11th most common cancer in women and the 12th most common in men.[10] The majority of recorded cases occur in developed countries.[10] People from the United States have an average lifetime risk of about 1 in 67 (or 1.5%) of developing the disease,[111] slightly higher than the figure for the UK.[112] The disease is more common in men than women,[2][10] though the difference in rates has narrowed over recent decades, probably reflecting earlier increases in female smoking. In the United States the risk for African Americans is over 50% greater than for whites, but the rates in Africa and East Asia are much lower than those in North America or Europe. The United States, Central, and eastern Europe, and Argentina and Uruguay all have high rates.[10]

PanNETs

The annual incidence of clinically recognized PanNETs is low (about 5 per one million person-years) and is dominated by the non-functioning types.[25] Somewhere between 45% and 90% of PanNETs are thought to be of the non-functioning types.[21][28] Studies of autopsies have uncovered small PanNETs rather frequently, suggesting that the prevalence of tumors that remain inert and asymptomatic may be relatively high.[28] Overall PanNETs are thought to account for about 1 to 2% of all pancreatic tumors.[25] The definition and classification of PanNETs has changed over time, affecting what is known about their epidemiology and clinical relevance.[52]

History

Recognition and diagnosis

The earliest recognition of pancreatic cancer has been attributed to the 18th-century Italian scientist Giovanni Battista Morgagni, the historical father of modern-day anatomic pathology, who claimed to have traced several cases of cancer in the pancreas. Many 18th and 19th-century physicians were skeptical about the existence of the disease, given the similar appearance of pancreatitis. Some case reports were published in the 1820s and 1830s, and a genuine histopathologic diagnosis was eventually recorded by the American clinician Jacob Mendes Da Costa, who also doubted the reliability of Morgagni's interpretations. By the start of the 20th century, cancer of the head of the pancreas had become a well-established diagnosis.[113]

Regarding the recognition of PanNETs, the possibility of cancer of the islet cells was initially suggested in 1888. The first case of hyperinsulinism due to a tumor of this type was reported in 1927. Recognition of a non-insulin-secreting type of PanNET is generally ascribed to the American surgeons, R. M. Zollinger and E. H. Ellison, who gave their names to Zollinger–Ellison syndrome, after postulating the existence of a gastrin-secreting pancreatic tumor in a report of two cases of unusually severe peptic ulcers published in 1955.[113] In 2010, the WHO recommended that PanNETs be referred to as "neuroendocrine" rather than "endocrine" tumors.[27]

Small precancerous neoplasms for many pancreatic cancers are being detected at greatly increased rates by modern medical imaging. One type, the intraductal papillary mucinous neoplasm (IPMN) was first described by Japanese researchers in 1982. It was noted in 2010 that: "For the next decade, little attention was paid to this report; however, over the subsequent 15 years, there has been a virtual explosion in the recognition of this tumor."[62]

Surgery

The first reported partial pancreaticoduodenectomy was performed by the Italian surgeon Alessandro Codivilla in 1898, but the patient only survived 18 days before succumbing to complications. Early operations were compromised partly because of mistaken beliefs that people would die if their duodenum were removed, and also, at first, if the flow of pancreatic juices stopped. Later it was thought, also mistakenly, that the pancreatic duct could simply be tied up without serious adverse effects; in fact, it will very often leak later on. In 1907–1908, after some more unsuccessful operations by other surgeons, experimental procedures were tried on corpses by French surgeons.[114]

In 1912 the German surgeon Walther Kausch was the first to remove large parts of the duodenum and pancreas together (en bloc). This was in Breslau, now Wrocław, in Poland. In 1918 it was demonstrated, in operations on dogs, that it is possible to survive even after complete removal of the duodenum, but no such result was reported in human surgery until 1935, when the American surgeon Allen Oldfather Whipple published the results of a series of three operations at Columbia Presbyterian Hospital in New York. Only one of the patients had the duodenum entirely removed, but he survived for two years before dying of metastasis to the liver.

The first operation was unplanned, as cancer was only discovered in the operating theater. Whipple's success showed the way for the future, but the operation remained a difficult and dangerous one until recent decades. He published several refinements to his procedure, including the first total removal of the duodenum in 1940, but he only performed a total of 37 operations.[114]

The discovery in the late 1930s that vitamin K prevented bleeding with jaundice, and the development of blood transfusion as an everyday process, both improved post-operative survival,[114] but about 25% of people never left hospital alive as late as the 1970s.[115] In the 1970s a group of American surgeons wrote urging that the procedure was too dangerous and should be abandoned. Since then outcomes in larger centers have improved considerably, and mortality from the operation is often less than 4%.[23]

In 2006 a report was published of a series of 1,000 consecutive pancreatico-duodenectomies performed by a single surgeon from Johns Hopkins Hospital between 1969 and 2003. The rate of these operations had increased steadily over this period, with only three of them before 1980, and the median operating time reduced from 8.8 hours in the 1970s to 5.5 hours in the 2000s, and mortality within 30 days or in hospital was only 1%.[114][115] Another series of 2,050 operations at the Massachusetts General Hospital between 1941 and 2011 showed a similar picture of improvement.[116]

Research directions

Early-stage research on pancreatic cancer includes studies of genetics and early detection, treatment at different cancer stages, surgical strategies, and targeted therapies, such as inhibition of growth factors, immune therapies, and vaccines.[41][117][118][119][120] Bile acids may have a role in the carcinogenesis of pancreatic cancer.[121]

A key question is the timing of events as the disease develops and progresses – particularly the role of diabetes,[117][33] and how and when the disease spreads.[122] The knowledge that new onset of diabetes can be an early sign of the disease could facilitate timely diagnosis and prevention if a workable screening strategy can be developed.[117][33][123] The European Registry of Hereditary Pancreatitis and Familial Pancreatic Cancer (EUROPAC) trial is aiming to determine whether regular screening is appropriate for people with a family history of the disease.[124]

Keyhole surgery (laparoscopy) rather than Whipple's procedure, particularly in terms of recovery time, is being evaluated.[125] Irreversible electroporation is a relatively novel ablation technique with potential for downstaging and prolonging survival in persons with locally advanced disease, especially for tumors in proximity to peri-pancreatic vessels without risk of vascular trauma.[126][127]

Efforts are underway to develop new drugs, including those targeting molecular mechanisms for cancer onset,[128][129] stem cells,[82] and cell proliferation.[129][130] A further approach involves the use of immunotherapy, such as oncolytic viruses.[131] Galectin-specific mechanisms of the tumor microenvironment are under study.[132]

See also

References

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February 12, 2023
pancreatic, cancer, arises, when, cells, pancreas, glandular, organ, behind, stomach, begin, multiply, control, form, mass, these, cancerous, cells, have, ability, invade, other, parts, body, number, types, pancreatic, cancer, known, diagram, showing, position. Pancreatic cancer arises when cells in the pancreas a glandular organ behind the stomach begin to multiply out of control and form a mass These cancerous cells have the ability to invade other parts of the body 9 A number of types of pancreatic cancer are known 10 Pancreatic cancerDiagram showing the position of the pancreas behind the stomach which is transparent in this schematic SpecialtyGastroenterology Hepatology OncologySymptomsYellow skinabdominal or back painunexplained weight losslight colored stoolsdark urineloss of appetite 1 Usual onsetAfter 40 years old 2 Risk factorsTobacco smokingheavy alcohol intakeobesitydiabetescertain rare genetic conditions 2 Diagnostic methodMedical imagingblood teststissue biopsy 3 4 PreventionNot smoking low alcohol intake maintaining a healthy weight low red meat diet 5 TreatmentSurgeryradiotherapychemotherapypalliative care 1 PrognosisFive year survival rate 6 6 Frequency393 800 2015 7 Deaths411 600 2015 8 The most common pancreatic adenocarcinoma accounts for about 90 of cases 11 and the term pancreatic cancer is sometimes used to refer only to that type 10 These adenocarcinomas start within the part of the pancreas that makes digestive enzymes 10 Several other types of cancer which collectively represent the majority of the non adenocarcinomas can also arise from these cells 10 About 1 2 of cases of pancreatic cancer are neuroendocrine tumors which arise from the hormone producing cells of the pancreas 10 These are generally less aggressive than pancreatic adenocarcinoma 10 Signs and symptoms of the most common form of pancreatic cancer may include yellow skin abdominal or back pain unexplained weight loss light colored stools dark urine and loss of appetite 1 Usually no symptoms are seen in the disease s early stages and symptoms that are specific enough to suggest pancreatic cancer typically do not develop until the disease has reached an advanced stage 1 2 By the time of diagnosis pancreatic cancer has often spread to other parts of the body 10 12 Pancreatic cancer rarely occurs before the age of 40 and more than half of cases of pancreatic adenocarcinoma occur in those over 70 2 Risk factors for pancreatic cancer include tobacco smoking obesity diabetes and certain rare genetic conditions 2 About 25 of cases are linked to smoking 3 and 5 10 are linked to inherited genes 2 Pancreatic cancer is usually diagnosed by a combination of medical imaging techniques such as ultrasound or computed tomography blood tests and examination of tissue samples biopsy 3 4 The disease is divided into stages from early stage I to late stage IV 12 Screening the general population has not been found to be effective 13 The risk of developing pancreatic cancer is lower among nonsmokers and people who maintain a healthy weight and limit their consumption of red or processed meat 5 however the risk is greater for men especially at very high levels of red meat consumption 14 Smokers chances of developing the disease decrease if they stop smoking and almost return to that of the rest of the population after 20 years 10 Pancreatic cancer can be treated with surgery radiotherapy chemotherapy palliative care or a combination of these 1 Treatment options are partly based on the cancer stage 1 Surgery is the only treatment that can cure pancreatic adenocarcinoma 12 and may also be done to improve quality of life without the potential for cure 1 12 Pain management and medications to improve digestion are sometimes needed 12 Early palliative care is recommended even for those receiving treatment that aims for a cure 15 In 2015 pancreatic cancers of all types resulted in 411 600 deaths globally 8 Pancreatic cancer is the fifth most common cause of death from cancer in the United Kingdom 16 and the third most common in the United States 17 The disease occurs most often in the developed world where about 70 of the new cases in 2012 originated 10 Pancreatic adenocarcinoma typically has a very poor prognosis after diagnosis 25 of people survive one year and 5 live for five years 6 10 For cancers diagnosed early the five year survival rate rises to about 20 18 Neuroendocrine cancers have better outcomes at five years from diagnosis 65 of those diagnosed are living though survival considerably varies depending on the type of tumor 10 Contents 1 Types 1 1 Exocrine cancers 1 2 Neuroendocrine 2 Signs and symptoms 2 1 Other findings 2 2 Symptoms of spread 3 Risk factors 3 1 Alcohol 4 Pathophysiology 4 1 Precancer 4 2 Invasive cancer 4 3 PanNETs 5 Diagnosis 5 1 Histopathology 5 2 Staging 5 2 1 Exocrine cancers 5 2 2 PanNETs 6 Prevention and screening 7 Management 7 1 Exocrine cancer 7 1 1 Surgery 7 1 2 Chemotherapy 7 1 3 Radiotherapy 7 2 PanNETs 7 3 Palliative care 8 Outcomes 9 Distribution 9 1 PanNETs 10 History 10 1 Recognition and diagnosis 10 2 Surgery 11 Research directions 12 See also 13 References 14 External linksTypes Edit The pancreas has many functions served by the endocrine cells in the islets of Langerhans and the exocrine acinar cells Pancreatic cancer may arise from any of these and disrupt any of their functions Relative incidences of various pancreatic neoplasms with pancreatic cancers in red pink color 19 The many types of pancreatic cancer can be divided into two general groups The vast majority of cases about 95 occur in the part of the pancreas that produces digestive enzymes known as the exocrine component Several subtypes of exocrine pancreatic cancers are described but their diagnosis and treatment have much in common The small minority of cancers that arise in the hormone producing endocrine tissue of the pancreas have different clinical characteristics and are called pancreatic neuroendocrine tumors sometimes abbreviated as PanNETs Both groups occur mainly but not exclusively in people over 40 and are slightly more common in men but some rare subtypes mainly occur in women or children 20 21 Exocrine cancers Edit The exocrine group is dominated by pancreatic adenocarcinoma variations of this name may add invasive and ductal which is by far the most common type representing about 85 of all pancreatic cancers 2 Nearly all these start in the ducts of the pancreas as pancreatic ductal adenocarcinoma PDAC 22 This is despite the fact that the tissue from which it arises the pancreatic ductal epithelium represents less than 10 of the pancreas by cell volume because it constitutes only the ducts an extensive but capillary like duct system fanning out within the pancreas 23 This cancer originates in the ducts that carry secretions such as enzymes and bicarbonate away from the pancreas About 60 70 of adenocarcinomas occur in the head of the pancreas 2 The next most common type acinar cell carcinoma of the pancreas arises in the clusters of cells that produce these enzymes and represents 5 of exocrine pancreas cancers 24 Like the functioning endocrine cancers described below acinar cell carcinomas may cause over production of certain molecules in this case digestive enzymes which may cause symptoms such as skin rashes and joint pain Cystadenocarcinomas account for 1 of pancreatic cancers and they have a better prognosis than the other exocrine types 24 Pancreatoblastoma is a rare form mostly occurring in childhood and with a relatively good prognosis Other exocrine cancers include adenosquamous carcinomas signet ring cell carcinomas hepatoid carcinomas colloid carcinomas undifferentiated carcinomas and undifferentiated carcinomas with osteoclast like giant cells Solid pseudopapillary tumor is a rare low grade neoplasm that mainly affects younger women and generally has a very good prognosis 2 25 Pancreatic mucinous cystic neoplasms are a broad group of pancreas tumors that have varying malignant potential They are being detected at a greatly increased rate as CT scans become more powerful and common and discussion continues as how best to assess and treat them given that many are benign 26 Neuroendocrine Edit Main article Pancreatic neuroendocrine tumor The small minority of tumors that arise elsewhere in the pancreas are mainly pancreatic neuroendocrine tumors PanNETs 27 Neuroendocrine tumors NETs are a diverse group of benign or malignant tumors that arise from the body s neuroendocrine cells which are responsible for integrating the nervous and endocrine systems NETs can start in most organs of the body including the pancreas where the various malignant types are all considered to be rare PanNETs are grouped into functioning and nonfunctioning types depending on the degree to which they produce hormones The functioning types secrete hormones such as insulin gastrin and glucagon into the bloodstream often in large quantities giving rise to serious symptoms such as low blood sugar but also favoring relatively early detection The most common functioning PanNETs are insulinomas and gastrinomas named after the hormones they secrete The nonfunctioning types do not secrete hormones in a sufficient quantity to give rise to overt clinical symptoms so nonfunctioning PanNETs are often diagnosed only after the cancer has spread to other parts of the body 28 As with other neuroendocrine tumors the history of the terminology and classification of PanNETs is complex 27 PanNETs are sometimes called islet cell cancers 29 though they are now known to not actually arise from islet cells as previously thought 28 Signs and symptoms Edit Jaundice can be a symptom due to biliary obstruction from a pancreatic tumor Since pancreatic cancer usually does not cause recognizable symptoms in its early stages the disease is typically not diagnosed until it has spread beyond the pancreas itself 4 This is one of the main reasons for the generally poor survival rates Exceptions to this are the functioning PanNETs where over production of various active hormones can give rise to symptoms which depend on the type of hormone 30 Bearing in mind that the disease is rarely diagnosed before the age of 40 common symptoms of pancreatic adenocarcinoma occurring before diagnosis include Pain in the upper abdomen or back often spreading from around the stomach to the back The location of the pain can indicate the part of the pancreas where a tumor is located The pain may be worse at night and may increase over time to become severe and unremitting 24 It may be slightly relieved by bending forward In the UK about half of new cases of pancreatic cancer are diagnosed following a visit to a hospital emergency department for pain or jaundice In up to two thirds of people abdominal pain is the main symptom for 46 of the total accompanied by jaundice with 13 having jaundice without pain 12 Jaundice a yellow tint to the whites of the eyes or skin with or without pain and possibly in combination with darkened urine results when a cancer in the head of the pancreas obstructs the common bile duct as it runs through the pancreas 31 Unexplained weight loss either from loss of appetite or loss of exocrine function resulting in poor digestion 12 The tumor may compress neighboring organs disrupting digestive processes and making it difficult for the stomach to empty which may cause nausea and a feeling of fullness The undigested fat leads to foul smelling fatty feces that are difficult to flush away 12 Constipation is also common 32 At least 50 of people with pancreatic adenocarcinoma have diabetes at the time of diagnosis 2 While long standing diabetes is a known risk factor for pancreatic cancer see Risk factors the cancer can itself cause diabetes in which case recent onset of diabetes could be considered an early sign of the disease 33 People over 50 who develop diabetes have eight times the usual risk of developing pancreatic adenocarcinoma within three years after which the relative risk declines 12 Other findings Edit Trousseau s syndrome in which blood clots form spontaneously in the portal blood vessels portal vein thrombosis the deep veins of the extremities deep vein thrombosis or the superficial veins superficial vein thrombosis anywhere on the body may be associated with pancreatic cancer and is found in about 10 of cases 3 Clinical depression has been reported in association with pancreatic cancer in some 10 20 of cases and can be a hindrance to optimal management The depression sometimes appears before the diagnosis of cancer suggesting that it may be brought on by the biology of the disease 3 Other common manifestations of the disease include weakness and tiring easily dry mouth sleep problems and a palpable abdominal mass 32 Symptoms of spread Edit Cross section of a human liver at autopsy showing many large pale tumor deposits that are secondary tumors derived from pancreatic cancer The spread of pancreatic cancer to other organs metastasis may also cause symptoms Typically pancreatic adenocarcinoma first spreads to nearby lymph nodes and later to the liver or to the peritoneal cavity large intestine or lungs 3 Uncommonly it spreads to the bones or brain 34 Cancers in the pancreas may also be secondary cancers that have spread from other parts of the body This is uncommon found in only about 2 of cases of pancreatic cancer Kidney cancer is by far the most common cancer to spread to the pancreas followed by colorectal cancer and then cancers of the skin breast and lung Surgery may be performed on the pancreas in such cases whether in hope of a cure or to alleviate symptoms 35 Risk factors EditRisk factors for pancreatic adenocarcinoma include 2 10 12 36 37 excessive citations Age sex and ethnicity the risk of developing pancreatic cancer increases with age Most cases occur after age 65 10 while cases before age 40 are uncommon The disease is slightly more common in men than in women 10 In the United States it is over 1 5 times more common in African Americans though incidence in Africa is low 10 Cigarette smoking is the best established avoidable risk factor for pancreatic cancer approximately doubling risk among long term smokers the risk increasing with the number of cigarettes smoked and the years of smoking The risk declines slowly after smoking cessation taking some 20 years to return to almost that of nonsmokers 38 Obesity a body mass index greater than 35 increases relative risk by about half 12 39 Family history 5 10 of pancreatic cancer cases have an inherited component where people have a family history of pancreatic cancer 2 40 The risk escalates greatly if more than one first degree relative had the disease and more modestly if they developed it before the age of 50 4 Most of the genes involved have not been identified 2 41 Hereditary pancreatitis gives a greatly increased lifetime risk of pancreatic cancer of 30 40 to the age of 70 3 Screening for early pancreatic cancer may be offered to individuals with hereditary pancreatitis on a research basis 42 Some people may choose to have their pancreas surgically removed to prevent cancer from developing in the future 3 Pancreatic cancer has been associated with these other rare hereditary syndromes Peutz Jeghers syndrome due to mutations in the STK11 tumor suppressor gene very rare but a very strong risk factor dysplastic nevus syndrome or familial atypical multiple mole and melanoma syndrome FAMMM PC due to mutations in the CDKN2A tumor suppressor gene autosomal recessive ataxia telangiectasia and autosomal dominantly inherited mutations in the BRCA2 and PALB2 genes hereditary non polyposis colon cancer Lynch syndrome and familial adenomatous polyposis PanNETs have been associated with multiple endocrine neoplasia type 1 MEN1 and von Hippel Lindau syndromes 2 3 4 Chronic pancreatitis appears to almost triple risk and as with diabetes new onset pancreatitis may be a symptom of a tumor 3 The risk of pancreatic cancer in individuals with familial pancreatitis is particularly high 3 41 Diabetes mellitus is a risk factor for pancreatic cancer and as noted in the Signs and symptoms section new onset diabetes may also be an early sign of the disease People who have been diagnosed with type 2 diabetes for longer than 10 years may have a 50 increased risk as compared with individuals without diabetes 3 In 2021 Venturi reported that pancreas is able to absorb in great quantity radioactive cesium Cs 134 and Cs 137 causing chronic pancreatitis and probably pancreatic cancer with damage of pancreatic islands causing type 3c pancreatogenic diabetes 43 Chronic pancreatitis pancreatic cancer and diabetes mellitus increased in contaminated population particularly children and adolescents after Fukushima and Chernobyl nuclear incidents At the same time worldwide pancreatic diseases diabetes and environmental radiocesium are increasing Specific types of food as distinct from obesity have not been clearly shown to increase the risk of pancreatic cancer 2 44 Dietary factors for which some evidence shows slightly increased risk include processed meat red meat and meat cooked at very high temperatures e g by frying broiling or grilling 44 45 Alcohol Edit Drinking alcohol excessively is a major cause of chronic pancreatitis which in turn predisposes to pancreatic cancer but considerable research has failed to firmly establish alcohol consumption as a direct risk factor for pancreatic cancer Overall the association is consistently weak and the majority of studies have found no association with smoking a strong confounding factor The evidence is stronger for a link with heavy drinking of at least six drinks per day 3 46 Pathophysiology Edit Micrograph of pancreatic ductal adenocarcinoma the most common type of pancreatic cancer H amp E stain Precancer Edit Micrographs of normal pancreas pancreatic intraepithelial neoplasia precursors to pancreatic carcinoma and pancreatic carcinoma H amp E stain Progression of pancreatic intraepithelial neoplasia including mutations 47 Exocrine cancers are thought to arise from several types of precancerous lesions within the pancreas but these lesions do not always progress to cancer and the increased numbers detected as a byproduct of the increasing use of CT scans for other reasons are not all treated 3 Apart from pancreatic serous cystadenomas which are almost always benign four types of precancerous lesion are recognized The first is pancreatic intraepithelial neoplasia PanIN These lesions are microscopic abnormalities in the pancreas and are often found in autopsies of people with no diagnosed cancer These lesions may progress from low to high grade and then to a tumor More than 90 of cases at all grades carry a faulty KRAS gene while in grades 2 and 3 damage to three further genes CDKN2A p16 p53 and SMAD4 are increasingly often found 2 A second type is the intraductal papillary mucinous neoplasm IPMN These are macroscopic lesions which are found in about 2 of all adults This rate rises to about 10 by age 70 These lesions have about a 25 risk of developing into invasive cancer They may have KRAS gene mutations 40 65 of cases and in the GNAS Gs alpha subunit and RNF43 affecting the Wnt signaling pathway 2 Even if removed surgically a considerably increased risk remains of pancreatic cancer developing subsequently 3 The third type pancreatic mucinous cystic neoplasm MCN mainly occurs in women and may remain benign or progress to cancer 48 If these lesions become large cause symptoms or have suspicious features they can usually be successfully removed by surgery 3 A fourth type of cancer that arises in the pancreas is the intraductal tubulopapillary neoplasm This type was recognised by the WHO in 2010 and constitutes about 1 3 of all pancreatic neoplasms Mean age at diagnosis is 61 years range 35 78 years About 50 of these lesions become invasive Diagnosis depends on histology as these lesions are very difficult to differentiate from other lesions on either clinical or radiological grounds 49 Invasive cancer Edit The genetic events found in ductal adenocarcinoma have been well characterized and complete exome sequencing has been done for the common types of tumor Four genes have each been found to be mutated in the majority of adenocarcinomas KRAS in 95 of cases CDKN2A also in 95 TP53 75 and SMAD4 55 The last of these is especially associated with a poor prognosis 3 SWI SNF mutations deletions occur in about 10 15 of the adenocarcinomas 2 The genetic alterations in several other types of pancreatic cancer and precancerous lesions have also been researched 3 Transcriptomics analyses and mRNA sequencing for the common forms of pancreatic cancer have found that 75 of human genes are expressed in the tumors with some 200 genes more specifically expressed in pancreatic cancer as compared to other tumor types 50 51 PanNETs Edit The genes often found mutated in PanNETs are different from those in exocrine pancreatic cancer 52 For example KRAS mutation is normally absent Instead hereditary MEN1 gene mutations give risk to MEN1 syndrome in which primary tumors occur in two or more endocrine glands About 40 70 of people born with a MEN1 mutation eventually develop a PanNet 53 Other genes that are frequently mutated include DAXX mTOR and ATRX 28 Diagnosis Edit The head body and tail of the pancreas The stomach is faded out in this image to show the entire pancreas of which the body and tail lie behind the stomach and the neck partially behind Axial CT image with IV contrast and added color Cross lines towards top left surround a macrocystic adenocarcinoma of the pancreatic head Abdominal ultrasonography of pancreatic cancer presumably adenocarcinoma with a dilated pancreatic duct to the right The symptoms of pancreatic adenocarcinoma do not usually appear in the disease s early stages and they are not individually distinctive to the disease 3 12 31 The symptoms at diagnosis vary according to the location of the cancer in the pancreas which anatomists divide from left to right on most diagrams into the thick head the neck and the tapering body ending in the tail Regardless of a tumor s location the most common symptom is unexplained weight loss which may be considerable A large minority between 35 and 47 of people diagnosed with the disease will have had nausea vomiting or a feeling of weakness Tumors in the head of the pancreas typically also cause jaundice pain loss of appetite dark urine and light colored stools Tumors in the body and tail typically also cause pain 31 People sometimes have recent onset of atypical type 2 diabetes that is difficult to control a history of recent but unexplained blood vessel inflammation caused by blood clots thrombophlebitis known as Trousseau sign or a previous attack of pancreatitis 31 A doctor may suspect pancreatic cancer when the onset of diabetes in someone over 50 years old is accompanied by typical symptoms such as unexplained weight loss persistent abdominal or back pain indigestion vomiting or fatty feces 12 Jaundice accompanied by a painlessly swollen gallbladder known as Courvoisier s sign may also raise suspicion and can help differentiate pancreatic cancer from gallstones 54 Medical imaging techniques such as computed tomography CT scan and endoscopic ultrasound EUS are used both to confirm the diagnosis and to help decide whether the tumor can be surgically removed its resectability 12 On contrast CT scan pancreatic cancer typically shows a gradually increasing radiocontrast uptake rather than a fast washout as seen in a normal pancreas or a delayed washout as seen in chronic pancreatitis 55 Magnetic resonance imaging and positron emission tomography may also be used 2 and magnetic resonance cholangiopancreatography may be useful in some cases 31 Abdominal ultrasound is less sensitive and will miss small tumors but can identify cancers that have spread to the liver and build up of fluid in the peritoneal cavity ascites 12 It may be used for a quick and cheap first examination before other techniques 56 Fine needle aspiration of well differentiated pancreatic adenocarcinoma showing a flat sheet with prominent honeycombing The disorganization nuclear overlapping and lack of uniform nuclear spacing provides a clue that is this adenocarcinoma as opposed to non neoplastic duct epithelium A biopsy by fine needle aspiration often guided by endoscopic ultrasound may be used where there is uncertainty over the diagnosis but a histologic diagnosis is not usually required for removal of the tumor by surgery to go ahead 12 Liver function tests can show a combination of results indicative of bile duct obstruction raised conjugated bilirubin g glutamyl transpeptidase and alkaline phosphatase levels CA19 9 carbohydrate antigen 19 9 is a tumor marker that is frequently elevated in pancreatic cancer However it lacks sensitivity and specificity not least because 5 of people lack the Lewis a antigen and cannot produce CA19 9 It has a sensitivity of 80 and specificity of 73 in detecting pancreatic adenocarcinoma and is used for following known cases rather than diagnosis 2 12 Histopathology Edit The most common form of pancreatic cancer adenocarcinoma is typically characterized by moderately to poorly differentiated glandular structures on microscopic examination There is typically considerable desmoplasia or formation of a dense fibrous stroma or structural tissue consisting of a range of cell types including myofibroblasts macrophages lymphocytes and mast cells and deposited material such as type I collagen and hyaluronic acid This creates a tumor microenvironment that is short of blood vessels hypovascular and so of oxygen tumor hypoxia 2 It is thought that this prevents many chemotherapy drugs from reaching the tumor as one factor making the cancer especially hard to treat 2 3 Cancer type Relative incidence 11 Microscopy findings 11 Micrograph Immunohistochemistry markers 11 Genetic alterations 11 Pancreatic ductal adenocarcinoma PDAC 90 Glands and desmoplasia Aberrant p53 SMAD4 loss MUC1 MSLN CA19 9 p53 SMAD4 KRAS p16Pancreatic acinar cell carcinoma ACC 1 to 2 Granular appearance Trypsin Chymotrypsin Lipase p53 SMAD4 APC ARID1A GNASAdenosquamous carcinoma 1 to 4 57 Combination of gland like cells and squamous epithelial cells Positive for CK5 6 CK7 p63Negative for CK20 p16 p53 KRAS p53Pancreatic neuroendocrine tumor 5 Multiple nests of tumor cells Gastrinoma Chromogranin Synaptophysin MEN1 DAXX ATRXPre cancer below for comparison Precancer Intraductal papillary mucinous neoplasm IPMN 3 Mucinous epithelial cells 58 Growth within the pancreatic ducts 59 Mucin 5AC KRAS GNASStaging Edit Exocrine cancers Edit Pancreatic cancer is usually staged following a CT scan 31 The most widely used cancer staging system for pancreatic cancer is the one formulated by the American Joint Committee on Cancer AJCC together with the Union for International Cancer Control UICC The AJCC UICC staging system designates four main overall stages ranging from early to advanced disease based on TNM classification of Tumor size spread to lymph Nodes and Metastasis 60 To help decide treatment the tumors are also divided into three broader categories based on whether surgical removal seems possible in this way tumors are judged to be resectable borderline resectable or unresectable 61 When the disease is still in an early stage AJCC UICC stages I and II without spread to large blood vessels or distant organs such as the liver or lungs surgical resection of the tumor can normally be performed if the patient is willing to undergo this major operation and is thought to be sufficiently fit 12 The AJCC UICC staging system allows distinction between stage III tumors that are judged to be borderline resectable where surgery is technically feasible because the celiac axis and superior mesenteric artery are still free and those that are unresectable due to more locally advanced disease in terms of the more detailed TNM classification these two groups correspond to T3 and T4 respectively 3 Pancreatic cancer staging TNM classification Stage T1 pancreatic cancer Stage T2 pancreatic cancer Stage T3 pancreatic cancer Stage T4 pancreatic cancer Pancreatic cancer in nearby lymph nodes Stage N1 Pancreatic cancer metastasized stage M1 Locally advanced adenocarcinomas have spread into neighboring organs which may be any of the following in roughly decreasing order of frequency the duodenum stomach transverse colon spleen adrenal gland or kidney Very often they also spread to the important blood or lymphatic vessels and nerves that run close to the pancreas making surgery far more difficult Typical sites for metastatic spread stage IV disease are the liver peritoneal cavity and lungs all of which occur in 50 or more of fully advanced cases 62 PanNETs Edit The 2010 WHO classification of tumors of the digestive system grades all the pancreatic neuroendocrine tumors PanNETs into three categories based on their degree of cellular differentiation from NET G1 through to the poorly differentiated NET G3 21 The U S National Comprehensive Cancer Network recommends use of the same AJCC UICC staging system as pancreatic adenocarcinoma 63 52 Using this scheme the stage by stage outcomes for PanNETs are dissimilar to those of the exocrine cancers 64 A different TNM system for PanNETs has been proposed by the European Neuroendocrine Tumor Society 21 Prevention and screening EditApart from not smoking the American Cancer Society recommends keeping a healthy weight and increasing consumption of fruits vegetables and whole grains while decreasing consumption of red and processed meat although there is no consistent evidence this will prevent or reduce pancreatic cancer specifically 65 A 2014 review of research concluded that there was evidence that consumption of citrus fruits and curcumin reduced risk of pancreatic cancer while there was possibly a beneficial effect from whole grains folate selenium and non fried fish 46 In the general population screening of large groups is not considered effective and may be harmful as of 2019 66 although newer techniques and the screening of tightly targeted groups are being evaluated 67 68 Nevertheless regular screening with endoscopic ultrasound and MRI CT imaging is recommended for those at high risk from inherited genetics 4 56 68 69 Use of aspirin is said to lower the risk of pancreatic cancer 70 71 Management EditExocrine cancer Edit A key assessment that is made after diagnosis is whether surgical removal of the tumor is possible see Staging as this is the only cure for this cancer Whether or not surgical resection can be offered depends on how much the cancer has spread The exact location of the tumor is also a significant factor and CT can show how it relates to the major blood vessels passing close to the pancreas The general health of the person must also be assessed though age in itself is not an obstacle to surgery 3 Chemotherapy and to a lesser extent radiotherapy are likely to be offered to most people whether or not surgery is possible Specialists advise that the management of pancreatic cancer should be in the hands of a multidisciplinary team including specialists in several aspects of oncology and is therefore best conducted in larger centers 2 3 Surgery Edit Parts of the body removed in Whipple s operation Surgery with the intention of a cure is only possible in around one fifth 20 of new cases 12 Although CT scans help in practice it can be difficult to determine whether the tumor can be fully removed its resectability and it may only become apparent during surgery that it is not possible to successfully remove the tumor without damaging other vital tissues Whether or not surgical resection can be offered depends on various factors including the precise extent of local anatomical adjacency to or involvement of the venous or arterial blood vessels 2 as well as surgical expertise and a careful consideration of projected post operative recovery 72 73 The age of the person is not in itself a reason not to operate but their general performance status needs to be adequate for a major operation 12 One particular feature that is evaluated is the encouraging presence or discouraging absence of a clear layer or plane of fat creating a barrier between the tumor and the vessels 3 Traditionally an assessment is made of the tumor s proximity to major venous or arterial vessels in terms of abutment defined as the tumor touching no more than half a blood vessel s circumference without any fat to separate it encasement when the tumor encloses most of the vessel s circumference or full vessel involvement 74 22 A resection that includes encased sections of blood vessels may be possible in some cases 75 76 particularly if preliminary neoadjuvant therapy is feasible 77 78 79 using chemotherapy 73 74 36 80 and or radiotherapy 74 29 30 Even when the operation appears to have been successful cancerous cells are often found around the edges margins of the removed tissue when a pathologist examines them microscopically this will always be done indicating the cancer has not been entirely removed 2 Furthermore cancer stem cells are usually not evident microscopically and if they are present they may continue to develop and spread 81 82 An exploratory laparoscopy a small camera guided surgical procedure may therefore be performed to gain a clearer idea of the outcome of a full operation 83 How the pancreas and bowel are joined back together after a Whipple s operation For cancers involving the head of the pancreas the Whipple procedure is the most commonly attempted curative surgical treatment This is a major operation which involves removing the pancreatic head and the curve of the duodenum together pancreato duodenectomy making a bypass for food from the stomach to the jejunum gastro jejunostomy and attaching a loop of jejunum to the cystic duct to drain bile cholecysto jejunostomy It can be performed only if the person is likely to survive major surgery and if the cancer is localized without invading local structures or metastasizing It can therefore be performed only in a minority of cases Cancers of the tail of the pancreas can be resected using a procedure known as a distal pancreatectomy which often also entails removal of the spleen 2 3 Nowadays this can often be done using minimally invasive surgery 2 3 Although curative surgery no longer entails the very high death rates that occurred until the 1980s a high proportion of people about 30 45 still have to be treated for a post operative sickness that is not caused by the cancer itself The most common complication of surgery is difficulty in emptying the stomach 3 Certain more limited surgical procedures may also be used to ease symptoms see Palliative care for instance if the cancer is invading or compressing the duodenum or colon In such cases bypass surgery might overcome the obstruction and improve quality of life but is not intended as a cure 12 Chemotherapy Edit After surgery adjuvant chemotherapy with gemcitabine or 5 FU can be offered if the person is sufficiently fit after a recovery period of one to two months 4 56 In people not suitable for curative surgery chemotherapy may be used to extend life or improve its quality 3 Before surgery neoadjuvant chemotherapy or chemoradiotherapy may be used in cases that are considered to be borderline resectable see Staging in order to reduce the cancer to a level where surgery could be beneficial In other cases neoadjuvant therapy remains controversial because it delays surgery 3 4 84 Gemcitabine was approved by the United States Food and Drug Administration FDA in 1997 after a clinical trial reported improvements in quality of life and a five week improvement in median survival duration in people with advanced pancreatic cancer 85 This was the first chemotherapy drug approved by the FDA primarily for a nonsurvival clinical trial endpoint 86 Chemotherapy using gemcitabine alone was the standard for about a decade as a number of trials testing it in combination with other drugs failed to demonstrate significantly better outcomes However the combination of gemcitabine with erlotinib was found to increase survival modestly and erlotinib was licensed by the FDA for use in pancreatic cancer in 2005 87 The FOLFIRINOX chemotherapy regimen using four drugs was found more effective than gemcitabine but with substantial side effects and is thus only suitable for people with good performance status This is also true of protein bound paclitaxel nab paclitaxel which was licensed by the FDA in 2013 for use with gemcitabine in pancreas cancer 88 By the end of 2013 both FOLFIRINOX and nab paclitaxel with gemcitabine were regarded as good choices for those able to tolerate the side effects and gemcitabine remained an effective option for those who were not A head to head trial between the two new options is awaited and trials investigating other variations continue However the changes of the last few years have only increased survival times by a few months 85 Clinical trials are often conducted for novel adjuvant therapies 4 Radiotherapy Edit The role of radiotherapy as an auxiliary adjuvant treatment after potentially curative surgery has been controversial since the 1980s 3 In the early 2000s the European Study Group for Pancreatic Cancer Research ESPAC showed prognostic superiority of adjuvant chemotherapy over chemoradiotherapy 89 90 4 The European Society for Medical Oncology recommends that adjuvant radiotherapy should only be used for people enrolled in clinical trials 56 However there is a continuing tendency for clinicians in the US to be more ready to use adjuvant radiotherapy than those in Europe Many clinical trials have tested a variety of treatment combinations since the 1980s but have failed to settle the matter conclusively 3 4 Radiotherapy may form part of treatment to attempt to shrink a tumor to a resectable state but its use on unresectable tumors remains controversial as there are conflicting results from clinical trials The preliminary results of one trial presented in 2013 markedly reduced enthusiasm for its use on locally advanced tumors 2 PanNETs Edit Main articles Neuroendocrine tumor and Pancreatic neuroendocrine tumor Treatment of PanNETs including the less common malignant types may include a number of approaches 63 91 92 93 Some small tumors of less than 1 cm that are identified incidentally for example on a CT scan performed for other purposes may be followed by watchful waiting 63 This depends on the assessed risk of surgery which is influenced by the site of the tumor and the presence of other medical problems 63 Tumors within the pancreas only localized tumors or with limited metastases for example to the liver may be removed by surgery The type of surgery depends on the tumor location and the degree of spread to lymph nodes 21 For localized tumors the surgical procedure may be much less extensive than the types of surgery used to treat pancreatic adenocarcinoma described above but otherwise surgical procedures are similar to those for exocrine tumors The range of possible outcomes varies greatly some types have a very high survival rate after surgery while others have a poor outlook As all this group are rare guidelines emphasize that treatment should be undertaken in a specialized center 21 28 Use of liver transplantation may be considered in certain cases of liver metastasis 94 For functioning tumors the somatostatin analog class of medications such as octreotide can reduce the excessive production of hormones 21 Lanreotide can slow tumor growth 95 If the tumor is not amenable to surgical removal and is causing symptoms targeted therapy with everolimus or sunitinib can reduce symptoms and slow progression of the disease 28 96 97 Standard cytotoxic chemotherapy is generally not very effective for PanNETs but may be used when other drug treatments fail to prevent the disease from progressing 28 or in poorly differentiated PanNET cancers 98 Radiation therapy is occasionally used if there is pain due to anatomic extension such as metastasis to bone Some PanNETs absorb specific peptides or hormones and these PanNETs may respond to nuclear medicine therapy with radiolabeled peptides or hormones such as iobenguane iodine 131 MIBG 99 100 101 102 Radiofrequency ablation RFA cryoablation and hepatic artery embolization may also be used 103 104 Palliative care Edit Palliative care is medical care which focuses on treatment of symptoms from serious illness such as cancer and improving quality of life 105 Because pancreatic adenocarcinoma is usually diagnosed after it has progressed to an advanced stage palliative care as a treatment of symptoms is often the only treatment possible 106 Palliative care focuses not on treating the underlying cancer but on treating symptoms such as pain or nausea and can assist in decision making including when or if hospice care will be beneficial 107 Pain can be managed with medications such as opioids or through procedural intervention by a nerve block on the celiac plexus CPB This alters or depending on the technique used destroys the nerves that transmit pain from the abdomen CPB is a safe and effective way to reduce the pain which generally reduces the need to use opioid painkillers which have significant negative side effects 3 108 Other symptoms or complications that can be treated with palliative surgery are obstruction by the tumor of the intestines or bile ducts For the latter which occurs in well over half of cases a small metal tube called a stent may be inserted by endoscope to keep the ducts draining 31 Palliative care can also help treat depression that often comes with the diagnosis of pancreatic cancer 3 Both surgery and advanced inoperable tumors often lead to digestive system disorders from a lack of the exocrine products of the pancreas exocrine insufficiency These can be treated by taking pancreatin which contains manufactured pancreatic enzymes and is best taken with food 12 Difficulty in emptying the stomach delayed gastric emptying is common and can be a serious problem involving hospitalization Treatment may involve a variety of approaches including draining the stomach by nasogastric aspiration and drugs called proton pump inhibitors or H2 antagonists which both reduce production of gastric acid 12 Medications like metoclopramide can also be used to clear stomach contents Outcomes EditOutcomes in pancreatic cancers according to clinical stage as of 2014 61 Clinical stage U S five year survival for 1992 1998 diagnosesExocrine pancreatic cancer Neuroendocrine treated with surgeryIA I 14 61IB 12IIA II 7 52IIB 5III 3 41IV 1 16Pancreatic adenocarcinoma and the other less common exocrine cancers have a very poor prognosis as they are normally diagnosed at a late stage when the cancer is already locally advanced or has spread to other parts of the body 2 Outcomes are much better for PanNETs Many are benign and completely without clinical symptoms and even those cases not treatable with surgery have an average five year survival rate of 16 61 although the outlook varies considerably according to the type 30 For locally advanced and metastatic pancreatic adenocarcinomas which together represent over 80 of cases numerous trials comparing chemotherapy regimes have shown increased survival times but not to more than one year 2 85 Overall five year survival for pancreatic cancer in the US has improved from 2 in cases diagnosed in 1975 1977 and 4 in 1987 1989 diagnoses to 6 in 2003 2009 109 In the less than 20 of cases of pancreatic adenocarcinoma with a diagnosis of a localized and small cancerous growth less than 2 cm in Stage T1 about 20 of Americans survive to five years 18 About 1500 genes are linked to outcomes in pancreatic adenocarcinoma These include both unfavorable genes where high expression is related to poor outcome for example C Met and MUC 1 and favorable genes where high expression is associated with better survival for example the transcription factor PELP1 50 51 Distribution Edit Deaths from pancreatic cancer per million persons in 2012 0 4 5 6 7 9 10 15 16 25 26 33 34 70 71 121 122 162 163 235 In 2015 pancreatic cancers of all types resulted in 411 600 deaths globally 8 In 2014 an estimated 46 000 people in the US are expected to be diagnosed with pancreatic cancer and 40 000 to die of it 2 Although it accounts for only 2 5 of new cases pancreatic cancer is responsible for 6 of cancer deaths each year 110 It is the seventh highest cause of death from cancer worldwide 10 Pancreatic cancer is the fifth most common cause of death from cancer in the United Kingdom 16 and the third most common in the United States 17 Globally pancreatic cancer is the 11th most common cancer in women and the 12th most common in men 10 The majority of recorded cases occur in developed countries 10 People from the United States have an average lifetime risk of about 1 in 67 or 1 5 of developing the disease 111 slightly higher than the figure for the UK 112 The disease is more common in men than women 2 10 though the difference in rates has narrowed over recent decades probably reflecting earlier increases in female smoking In the United States the risk for African Americans is over 50 greater than for whites but the rates in Africa and East Asia are much lower than those in North America or Europe The United States Central and eastern Europe and Argentina and Uruguay all have high rates 10 PanNETs Edit The annual incidence of clinically recognized PanNETs is low about 5 per one million person years and is dominated by the non functioning types 25 Somewhere between 45 and 90 of PanNETs are thought to be of the non functioning types 21 28 Studies of autopsies have uncovered small PanNETs rather frequently suggesting that the prevalence of tumors that remain inert and asymptomatic may be relatively high 28 Overall PanNETs are thought to account for about 1 to 2 of all pancreatic tumors 25 The definition and classification of PanNETs has changed over time affecting what is known about their epidemiology and clinical relevance 52 History EditRecognition and diagnosis Edit The earliest recognition of pancreatic cancer has been attributed to the 18th century Italian scientist Giovanni Battista Morgagni the historical father of modern day anatomic pathology who claimed to have traced several cases of cancer in the pancreas Many 18th and 19th century physicians were skeptical about the existence of the disease given the similar appearance of pancreatitis Some case reports were published in the 1820s and 1830s and a genuine histopathologic diagnosis was eventually recorded by the American clinician Jacob Mendes Da Costa who also doubted the reliability of Morgagni s interpretations By the start of the 20th century cancer of the head of the pancreas had become a well established diagnosis 113 Regarding the recognition of PanNETs the possibility of cancer of the islet cells was initially suggested in 1888 The first case of hyperinsulinism due to a tumor of this type was reported in 1927 Recognition of a non insulin secreting type of PanNET is generally ascribed to the American surgeons R M Zollinger and E H Ellison who gave their names to Zollinger Ellison syndrome after postulating the existence of a gastrin secreting pancreatic tumor in a report of two cases of unusually severe peptic ulcers published in 1955 113 In 2010 the WHO recommended that PanNETs be referred to as neuroendocrine rather than endocrine tumors 27 Small precancerous neoplasms for many pancreatic cancers are being detected at greatly increased rates by modern medical imaging One type the intraductal papillary mucinous neoplasm IPMN was first described by Japanese researchers in 1982 It was noted in 2010 that For the next decade little attention was paid to this report however over the subsequent 15 years there has been a virtual explosion in the recognition of this tumor 62 Surgery Edit The first reported partial pancreaticoduodenectomy was performed by the Italian surgeon Alessandro Codivilla in 1898 but the patient only survived 18 days before succumbing to complications Early operations were compromised partly because of mistaken beliefs that people would die if their duodenum were removed and also at first if the flow of pancreatic juices stopped Later it was thought also mistakenly that the pancreatic duct could simply be tied up without serious adverse effects in fact it will very often leak later on In 1907 1908 after some more unsuccessful operations by other surgeons experimental procedures were tried on corpses by French surgeons 114 In 1912 the German surgeon Walther Kausch was the first to remove large parts of the duodenum and pancreas together en bloc This was in Breslau now Wroclaw in Poland In 1918 it was demonstrated in operations on dogs that it is possible to survive even after complete removal of the duodenum but no such result was reported in human surgery until 1935 when the American surgeon Allen Oldfather Whipple published the results of a series of three operations at Columbia Presbyterian Hospital in New York Only one of the patients had the duodenum entirely removed but he survived for two years before dying of metastasis to the liver The first operation was unplanned as cancer was only discovered in the operating theater Whipple s success showed the way for the future but the operation remained a difficult and dangerous one until recent decades He published several refinements to his procedure including the first total removal of the duodenum in 1940 but he only performed a total of 37 operations 114 The discovery in the late 1930s that vitamin K prevented bleeding with jaundice and the development of blood transfusion as an everyday process both improved post operative survival 114 but about 25 of people never left hospital alive as late as the 1970s 115 In the 1970s a group of American surgeons wrote urging that the procedure was too dangerous and should be abandoned Since then outcomes in larger centers have improved considerably and mortality from the operation is often less than 4 23 In 2006 a report was published of a series of 1 000 consecutive pancreatico duodenectomies performed by a single surgeon from Johns Hopkins Hospital between 1969 and 2003 The rate of these operations had increased steadily over this period with only three of them before 1980 and the median operating time reduced from 8 8 hours in the 1970s to 5 5 hours in the 2000s and mortality within 30 days or in hospital was only 1 114 115 Another series of 2 050 operations at the Massachusetts General Hospital between 1941 and 2011 showed a similar picture of improvement 116 Research directions EditEarly stage research on pancreatic cancer includes studies of genetics and early detection treatment at different cancer stages surgical strategies and targeted therapies such as inhibition of growth factors immune therapies and vaccines 41 117 118 119 120 Bile acids may have a role in the carcinogenesis of pancreatic cancer 121 A key question is the timing of events as the disease develops and progresses particularly the role of diabetes 117 33 and how and when the disease spreads 122 The knowledge that new onset of diabetes can be an early sign of the disease could facilitate timely diagnosis and prevention if a workable screening strategy can be developed 117 33 123 The European Registry of Hereditary Pancreatitis and Familial Pancreatic Cancer EUROPAC trial is aiming to determine whether regular screening is appropriate for people with a family history of the disease 124 Keyhole surgery laparoscopy rather than Whipple s procedure particularly in terms of recovery time is being evaluated 125 Irreversible electroporation is a relatively novel ablation technique with potential for downstaging and prolonging survival in persons with locally advanced disease especially for tumors in proximity to peri pancreatic vessels 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10 1093 annonc mdu013 PMID 24631947 a b Tang SC Chen YC August 2014 Novel therapeutic targets for pancreatic cancer World Journal of Gastroenterology 20 31 10825 44 doi 10 3748 wjg v20 i31 10825 PMC 4138462 PMID 25152585 Rossi ML Rehman AA Gondi CS August 2014 Therapeutic options for the management of pancreatic cancer World Journal of Gastroenterology 20 32 11142 59 doi 10 3748 wjg v20 i32 11142 PMC 4145755 PMID 25170201 Ady JW Heffner J Klein E Fong Y 2014 Oncolytic viral therapy for pancreatic cancer current research and future directions Oncolytic Virotherapy 3 35 46 doi 10 2147 OV S53858 PMC 4918362 PMID 27512661 Ren B Cui M Yang G Wang H Feng M You L Zhao Y July 2018 Tumor microenvironment participates in metastasis of pancreatic cancer Molecular Cancer 17 1 108 doi 10 1186 s12943 018 0858 1 PMC 6065152 PMID 30060755 External links Edit Wikimedia Commons has media related to Pancreatic cancer Pancreatic cancer at Curlie Retrieved from https en wikipedia org w index php title 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