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Cardiac amyloidosis

January 01, 1970

Cardiac amyloidosis is a subcategory of amyloidosis where there is depositing of the protein amyloid in the cardiac muscle and surrounding tissues. Amyloid, a misfolded and insoluble protein, can become a deposit in the heart's atria, valves, or ventricles. These deposits can cause thickening of different sections of the heart, leading to decreased cardiac function.[1] The overall decrease in cardiac function leads to a plethora of symptoms.[2] This multisystem disease was often misdiagnosed, with a corrected analysis only during autopsy. Advancements of technologies have increased earlier accuracy of diagnosis. Cardiac amyloidosis has multiple sub-types including light chain, familial, and senile.[3] One of the most studied types is light chain cardiac amyloidosis.[2] Prognosis depends on the extent of the deposits in the body and the type of amyloidosis.[4] New treatment methods are actively being researched in regards to the treatment of heart failure and specific cardiac amyloidosis problems.[5][6]

Cardiac amyloidosis
Human heart

Types edit

The multiple subtypes of cardiac amyloidosis have varying epidemiological, diagnostic, and prognostic characteristics.[4]

Light chain (AL-CM) edit

This relatively rare form of cardiac amyloidosis occurs in an estimated six to ten cases per 1,000,000 people.[4] This sub- type usually affects males over the age of 60[4] and is rapidly progressive. Pathogenesis of this form is due to the aggregation of immunoglobulin lambda light chains.[3] These chains are created by an abnormal expansion of plasma cells.[3] Over time, these light chains deposit into the interstitial tissue within the myocardium.[4] Diagnostic tests includes serum and urine electrophoresis,[4] laboratory testing for the determination of elevated levels of troponin and BNP, and ECGs showing low QRS voltages.[2]

Familial (ATTRm-CM) edit

This type is caused by mutations of proteins involved in amyloid formation, including transthyretin (TTR), fibrinogen, apolipoprotein A1, or apolipoprotein A2. Due to the multiple number of potential genetic causes the incidence of this form is variable. The vast majority of familial cardiac amyloidosis still present after the age of 60.[4] A common mutation is the TTR gene mutation Val122Ile.[2] It is estimated that 3.5–4% of African Americans in The United States have the Val 122lle mutation.[4] This type of amyloidosis can be identified by genetic testing for protein mutation.[4] For the diagnosis of familial cardiac amyloidosis to be made a biopsy with histological evaluation must be obtained.[7] In this histological evaluation special stains are utilized to visualize the amyloid deposits.[7] One such stain is Congo Red, which binds specifically to the amyloid deposit and can be characterized by various lighting methods.[7] Under polarized light, the amyloid deposits while show pathognomonic apple green birefringence, and under plain light the deposits will appear a light salmon pink color.[7] Familial amyloidosis symptoms are centered around neuropathological and cardiac problems.[3] Cardiac manifestations of the TTR mutation present more often in The United States.[4]

Wild-type (ATTRwt-CM) edit

This type is considered the wild-type mutation which leads to the development of TTR deposits.[2] It usually affects males over 70 years with the manifestation of carpal tunnel syndrome.[4] Similar to the other subtypes of cardiac amyloidosis, a biopsy is required for diagnosis.[4] However, formal diagnosis of Senile cardiac amyloidosis is a diagnosis of exclusion.[4] Biopsy with histological evaluation can rule out Light chain and Familial subtypes, leaving the diagnosis of Senile.[4] This type is often misdiagnosed. However, greater use of cardiac magnetic resonance has increased the rate of diagnosis[2] The severity of the disease tends to be less than the Light chain and Familial variants.[4] This is due to the amount of time that it takes to accumulate the amyloid depositions being longer in the Senile variant.[4]

Symptoms and signs edit

Symptoms of cardiac amyloidosis are a combination of heart failure and amyloid deposition in various other organs.[2] Amyloid deposition in the heart causes restrictive diastolic heart failure that progresses to systolic heart failure.[8]

Cardiac manifestations include:

For patients with light-chain amyloidosis, there can be depositions of amyloid into numerous different organs.[2] Deposition of amyloid into other organs makes the diagnosis of cardiac amyloidosis difficult as these extracardiac manifestations mask the diagnosis.[2] Extracardiac manifestations include:

Cause edit

The general cause of cardiac amyloidosis is the misfolding of a specific protein precursor depending on the amyloidosis type. Protein precursors include immunoglobulin-derived light chains and transthyretin mutations.[3] The misfolding of the protein causes it to have insoluble beta-pleated sheets,[2] creating an amyloid. Amyloid, the aggregation, or clumping, of proteins, is resistant to degradation by the body. Amyloids are mostly fibrils, while also containing a P component, apolipoprotein, collagen, fibronectin, and laminin.[2] The P component, a pentameric protein, stabilizes the fibrils of the amyloid, which reduces their clearance from the body.[1] Deposits of the amyloids can occur throughout the body, including the heart, liver, kidneys, spleen, adrenal glands, and bones. Deposits in the extracellular cardiac space can stiffen the heart, resulting in restriction of the ventricles.[3] This restriction in ventricular motion results in a decreased ability for the heart to pump efficiently, leading to the various symptoms associated with cardiac amyloidosis.[4]

Diagnosis edit

2D echocardiogram. Subcostal long axis showing severe thickening of ventricles secondary to amyloid deposition and maladaptive cardiac remodeling, as well as a pericardial effusion.

Echocardiography edit

Echocardiography is a safe and non-invasive method that can be used to assess the structural and functional disease of the heart.[4] Amyloidosis presents with ventricle and valvular thickening, biatrial enlargement,[4] restrictive filling pattern, with normal to mildly reduced systolic function[8] and decreased diastolic filling.[4] An echo can be used to evaluate for prognosis of the disease, measuring the different strains within the heart.[4] Cardiac amyloidosis produces specific alterations to the functionality of the heart. Echocardiography can be utilized to detect this specific pattern (relative preservation of the apical myocardium with decreased longitudinal strain in the mid and basal sections), which is 90–95% sensitive and 80–85% specific for cardiac amyloidosis.[4] Echocardiography can be used to help physicians with diagnosis, however, it can only be used for the suggestion of the disease, not the confirmation, unless it is late stage amyloidosis.[1]

ECG/EKG edit

ECGs of patients with cardiac amyloidosis usually show a low voltage in the limb leads, with an unusual extreme right axis. There is usually a normal P-wave, however, it can be slightly prolonged. For patients with light-chain amyloidosis, the QRS complex pattern is skewed,[1] with poor R-waves of the chest leads.[2]

Holter ECGs can be used to identify asymptomatic arrhythmias.[2]

EKG changes may be present, showing low voltage and conduction abnormalities like atrioventricular block or sinus node dysfunction.[8] Atrial fibrillation (AF) is observed in up to 70% of patients at the time of diagnosis, and patients typically have controlled ventricular rates caused by concomitant conduction system disease.[11]

Laboratory tests edit

Laboratory tests including urea and creatinine levels, liver enzymes, glucose, thyroid function, full blood count, and clotting tests. The analysis of serum and urine for presence of monoclonal immunoglobulin is also done through immunofixation for detection of the monoclonal band. Presence of the monoclonal band would be consistent with light chain amyloidosis. For light chain amyloidosis, serum immunoglobulin free light chain assay can be used for diagnosis and following of the amyloidosis.[1] In light-chain amyloidosis, a low paraprotein level can be present.[3]

Cardiac biomarkers edit

There are two main cardiac biomarkers used in the assessment of cardiac amyloidosis, troponin and N-terminal proBNP.[12] As expected, with cardiac damage and dysfunction, there can be an elevation of these markers in patients with cardiac amyloidosis. These markers have been incorporated into the various staging/scoring systems used by physicians to determine severity of the disease and prognosis.[12]

 
Cardiac Amyloidosis, H&E stain. Dark pink material showing cardiac myocytes, and light pink material interspersed throughout is amyloid.

Biopsies edit

Extracardiac biopsies of tissues of the kidney, liver, peripheral nerve, or abdominal fat can be used to confirm the presence of amyloid deposits. Amyloid deposits in biopsy samples are confirmed through the use of Congo red dye, which produces a green birefringence when viewed under polarized light. Sirius red staining or electron microscopy examination can also be done. The determination of the type of amyloid can be done by immunohisto-labeling techniques as well as immunofluorescence staining.[1]

For light-chain amyloidosis patients, bone marrow biopsies could be conducted to determine the baseline percentage of plasma cells and to rule out multiple myeloma.[3]

Catheterization edit

Right heart catheterization is the test used to test for elevated diastolic ventricular pressures. This test is more invasive and would be performed after inconclusive endomyocardial biopsy samples.[1]

Cardiac magnetic resonance imaging edit

Cardiac magnetic resonance (CMR) is capable of measuring the thickness of different areas of the heart. This can be used for quantification of the deposits in the heart.[1] CMR also shows the characterization of myocardial tissue through patterns of gadolinium enhancements.[2] However, none of the CMR technique is able to differentiate ATTR-CM and AL-CM definitely.[13]

For AL-CM, 68% of them have symmetrical and concentric left ventricular hypertrophy. On the other hand, for ATTR-CM, 79% of them have asymmetrical left ventricular hypertrophy and 18% of them have symmetrical and concentric left ventricular hypertrophy.[13]

In T1-weighted imaging, edema in the heart can be detected with a high T1 signal. Meanwhile, enlargement of heart cells will reduce the T1 signal. Using T1 signal, Extracellular volume (ECV) is useful to determine the degree of amyloid deposition around the heart cells and detect the regression of amyloid deposits after treatment. ECV is higher in ATTR-CM than in AL-CM.[13]

In T2-weighted imaging, the T2 signal is increased in acute myocarditis (inflammation of heart muscles), and myocardial infarction (heart attack). T2 signal is also increased in AL-CM and ATTR-CM but the signal is greater in AL-CM before starting chemotherapy.[13]

Late gadolinum enhancement (LGE) can determine the severity of deposition of amyloid in heart tissue. The higher the LGE signal, the more severe the heart involvement. It can be divided into three stages: no LGE, subendocardial LGE, and full-thickness (transmural) LGE.[13]

Scintigraphy/radionuclide imaging edit

Scintigraphy can be used to measure the extent and distribution of the amyloid throughout the body, including the liver, kidney, spleen, and heart.[2] A radiolabelled serum amyloid P component can be administered to a patient intravenously and the P component pools to the amyloid deposit proportional to the size of the deposit. The labeling of the P component can then be pictured by a gamma camera.[1]

Technetium radionuclide scans can now reliably diagnosis cardiac amyloidosis, with certain scanning methods having greater than 99% sensitivity (but only 91% specific for amyloidosis).[14] In this method of imaging, radiolabeled technetium is injected into the body where it binds to cardiac amyloid deposits.[14] A subsequent scan is taken to determine where the tracer stays, therefore highlighting the amyloid deposition in the heart.[14] This method allows for a noninvasive definitive diagnosis of cardiac amyloidosis (as in the past an endomyocardial biopsy was required)[14]

Mass spectrometry edit

Mass spectrometry can be used to determine whether the protein is light-chain or familial amyloidosis by identifying the protein subunit.[9]

Treatments edit

Treatments differ according to the type of amyloidosis present.[1] The majority of treatment is aimed at preserving heart function and treating heart failure symptoms.[3]

Light chain (AL-CM) Treatment: Since the cause of this subtype of cardiac amyloidosis is the excessive production of free light chains, the major goal of treatment is the reduction in concentration of light chains.[5] For light-chain amyloidosis, the use of FLC assays and NT-proBNP levels can be used to monitor the progression of amyloidosis and any response to treatments.[1] One of the major routes to decrease the production of these excess light chains is to kill the abnormal cells that are producing them.[5] Chemotherapeutic agents such as melphalan or bortezomib can be used to kill off the abnormal cell line that is producing the free light chains.[5] Following chemotherapy, a bone marrow transplant can be utilized to restore the normal cell lines.[5] There are newer medications (ixazomib, carfilzomib, daratumumab, elotuzumab) under research for the treatment of multiple myeloma that can help to decrease the production of free light chains.[5] New data suggests that orthotopic heart transplant followed by melphalan and stem cell transplant produces results similar to non cardiac amyloidosis indicated heart transplant.[5] To treat complications, medications can be prescribed including midodrine for autonomic neuropathy, amiodarone for patients with atrial fibrillation to prevent arrhythmias, and warfarin used after a cardioembolic episode.[1] Beta-blockers should be avoided due to the usual symptom of hypotension.[citation needed]

Familial (ATTRm-CM) Treatment: In recent years there have been developments in the treatment of Familial/Transthyretin cardiac amyloidosis including methods to suppress transthyretin production, stabilize amyloid fibrils, and medications that can destroy already existing fibrils.[6] For familial amyloidosis, ACE-inhibitors and beta-blockers can be prescribed if there is no autonomic neuropathy.[1]

  • Suppression of transthyretin production: liver transplantation and medications that decreases the activity of the transthyretin genes (patisiran and inotersen).[6] In patients with familial transthyretin mutations, liver transplantation can provide the body with a source of normal transthyretin.[15] By changing the source of transthyretin from the original liver that contains the mutated transthyretin to a healthy liver, there will be no more production of the abnormal protein.[15] However, liver transplant does not reverse the disease.[15] The goal of liver transplant is to prevent additional amyloid deposition and prevent new symptoms/complications from happening.[15] These medications bind to the mRNA of transthyretin and prevent the production of the transthyretin protein, thus decreasing the overall amount of transthyretin that can accumulate in the body.[6]
  • Stabilization of abnormal transthyretin: There are medications that can stabilize the normally folded transthyretin, preventing misfolding and subsequent amyloid deposition.[6] These medications include Tafamidis, the NSAID Diflunisal, and AG10.[6] Tafamidis is a medication that binds to transthyretin and keeps it in its normal shape, stopping it from aggregating into amyloid fibrils.[6] Diflunisal and AG10 work in a similar manner to Tafamidis in their ability to bind to and stabilize Transthyretin.[16]
  • Destruction of existing amyloid fibrils: There are multiple medications that show amyloid destroying properties, Doxycycline, Tauro-ursodeoxy-cholic acid (TUDCA), and monoclonal antibodies.[6]

The use of pacemakers (both right ventricular pacing and biventricular pacing) or implantable cardioverter defibrillators remains questionable in cardiac amyloidosis.[17]

In 2012, Craig Lewis, a 55 year old Texan, presented at the Texas Heart Institute with a severe case of amyloidosis. He was given an experimental continuous-flow artificial heart transplant which saved his life. Lewis died 5 weeks later of liver failure after slipping into a coma due to the amyloidosis.[18]

Prognosis edit

Overall prognosis is dependent on the extent of cardiac dysfunction. Worse outcomes have been seen when echocardiography shows left ventricular wall thickness, poor systolic function and severe diastolic dysfunction.[1]

Light chain (AL-CM) Prognosis: For light-chain amyloidosis early detection leads to best possibility of therapies prolonging the period of remission.[3] Well treated light chain cardiac amyloidosis has a 4-year survival rate of around 90%.[5] In patients that undergo stem cell transplant the average survival time increases to 10 years.[5] Staging systems have been developed to stratify severity of the disease, including the Mayo Biomarker Stage, which utilizes various biomarkers such as troponin I, troponin T, BNP, and NT-proBNP, and Free light chain concentrations.[5]

Familial (ATTRm-CM) Prognosis: Due to the extensive number of variables involved in this subtype, prognosis varies depending on the specific type of familial cardiac amyloidosis.[5] Variables involve mutant vs wild type transthyretin mutation and age of onset of symptoms.[5] In comparison to light chain amyloidosis, the familial subtype is slower to progress and has a more favorable prognosis.[5] However, the Val 122lle mutation (most common cause of familial cardiac amyloidosis) has a 4-year survival rate of 16% with an average length of 26 months.[5] A delay in recognition plays a major factor in this reduced survival rate.[5]

References edit

  1. ^ a b c d e f g h i j k l m n Fikrle M, Paleček T, Kuchynka P, Němeček E, Bauerová L, Straub J, et al. (2013-02-01). "Cardiac amyloidosis: A comprehensive review". Cor et Vasa. 55 (1): e60–e75. doi:10.1016/j.crvasa.2012.11.018. ISSN 0010-8650.
  2. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa Banypersad SM, Moon JC, Whelan C, Hawkins PN, Wechalekar AD (2012-04-24). "Updates in Cardiac Amyloidosis: A Review". Journal of the American Heart Association. 1 (2): e000364. doi:10.1161/JAHA.111.000364. ISSN 2047-9980. PMC 3487372. PMID 23130126.
  3. ^ a b c d e f g h i j k l Falk RH, Alexander KM, et al. (2016-09-20). "AL (Light-Chain) Cardiac Amyloidosis: A Review of Diagnosis and Therapy". Journal of the American College of Cardiology. 68 (12): 1323–1341. doi:10.1016/j.jacc.2016.06.053. ISSN 0735-1097. PMID 27634125.
  4. ^ a b c d e f g h i j k l m n o p q r s t u v Bhogal S, Ladia V, Sitwala P, Cook E, Bajaj K, Ramu V, et al. (2018-01-01). "Cardiac Amyloidosis: An Updated Review With Emphasis on Diagnosis and Future Directions". Current Problems in Cardiology. 43 (1): 10–34. doi:10.1016/j.cpcardiol.2017.04.003. ISSN 0146-2806. PMID 29173805.
  5. ^ a b c d e f g h i j k l m n o Siddiqi OK, Ruberg FL (January 2018). "Cardiac amyloidosis: An update on pathophysiology, diagnosis, and treatment". Trends in Cardiovascular Medicine. 28 (1): 10–21. doi:10.1016/j.tcm.2017.07.004. ISSN 1873-2615. PMC 5741539. PMID 28739313.
  6. ^ a b c d e f g h Manolis AS, Manolis AA, Manolis TA, Melita H (September 2019). "Cardiac amyloidosis: An underdiagnosed/underappreciated disease". European Journal of Internal Medicine. 67: 1–13. doi:10.1016/j.ejim.2019.07.022. ISSN 0953-6205. PMID 31375251. S2CID 199388460.
  7. ^ a b c d Ruberg FL, Berk JL (2012-09-04). "Transthyretin (TTR) Cardiac Amyloidosis". Circulation. 126 (10): 1286–1300. doi:10.1161/CIRCULATIONAHA.111.078915. ISSN 0009-7322. PMC 3501197. PMID 22949539.
  8. ^ a b c Falk RH, Comenzo RL, et al. (25 September 1997). "The Systemic Amyloidoses". New England Journal of Medicine. 337 (13): 898–909. doi:10.1056/NEJM199709253371306. PMID 9302305.
  9. ^ a b Gertz MA, Dispenzieri A, Sher T (2014-10-14). "Pathophysiology and treatment of cardiac amyloidosis". Nature Reviews Cardiology. 12 (2): 91–102. doi:10.1038/nrcardio.2014.165. ISSN 1759-5002. PMID 25311231. S2CID 2080325.
  10. ^ Clemmensen TS, Soerensen J, Hansson N, Tolbod LP, Harms HJ, Eiskjær H, et al. (2018-11-06). "Myocardial Oxygen Consumption and Efficiency in Patients With Cardiac Amyloidosis". Journal of the American Heart Association. 7 (21): e009974. doi:10.1161/JAHA.118.009974. ISSN 2047-9980. PMC 6404209. PMID 30571379.
  11. ^ Hartnett, Jack; Jaber, Wael; Maurer, Mathew; Sperry, Brett; Hanna, Mazen; Collier, Patrick; Patel, Divyang R.; Wazni, Oussama M.; Donnellan, Eoin (October 2021). "Electrophysiological Manifestations of Cardiac Amyloidosis". JACC: CardioOncology. 3 (4): 506–515. doi:10.1016/j.jaccao.2021.07.010. PMC 8543134. PMID 34729522. S2CID 239554406.
  12. ^ a b Kyriakou P, Mouselimis D, Tsarouchas A, Rigopoulos A, Bakogiannis C, Noutsias M, et al. (December 2018). "Diagnosis of cardiac amyloidosis: a systematic review on the role of imaging and biomarkers". BMC Cardiovascular Disorders. 18 (1): 221. doi:10.1186/s12872-018-0952-8. ISSN 1471-2261. PMC 6278059. PMID 30509186.
  13. ^ a b c d e Martinez-Naharro A, Baksi AJ, Hawkins PN, Fontana M (July 2020). "Diagnostic imaging of cardiac amyloidosis". Nature Reviews Cardiology. 17 (7): 413–426. doi:10.1038/s41569-020-0334-7. ISSN 1759-5002. PMID 32042139. S2CID 211067205.
  14. ^ a b c d Gillmore JD, Maurer MS, Falk RH, Merlini G, Damy T, Dispenzieri A, et al. (2016-06-14). "Nonbiopsy Diagnosis of Cardiac Transthyretin Amyloidosis". Circulation. 133 (24): 2404–2412. doi:10.1161/CIRCULATIONAHA.116.021612. hdl:11392/2415152. ISSN 0009-7322. PMID 27143678. S2CID 7106253.
  15. ^ a b c d Rocha A, Lobato L (April 2015). "Reply: Liver transplantation in transthyretin amyloidosis: Issues and challenges". Liver Transplantation: n/a. doi:10.1002/lt.24150. ISSN 1527-6465. PMID 25891323.
  16. ^ Lohrmann G, Pipilas A, Mussinelli R, Gopal DM, Berk JL, Connors LH, et al. (September 2020). "Stabilization of Cardiac Function With Diflunisal in Transthyretin (ATTR) Cardiac Amyloidosis". Journal of Cardiac Failure. 26 (9): 753–759. doi:10.1016/j.cardfail.2019.11.024. ISSN 1532-8414. PMC 7758872. PMID 31805416.
  17. ^ Cheung CC, Roston TM, Andrade JG, Bennett MT, Davis MK (March 2020). "Arrhythmias in Cardiac Amyloidosis: Challenges in Risk Stratification and Treatment". The Canadian Journal of Cardiology. 36 (3): 416–423. doi:10.1016/j.cjca.2019.11.039. ISSN 1916-7075. PMID 32145868. S2CID 212638552.
  18. ^ Baum, Dan (February 29, 2012). "No Pulse: How Doctors Reinvented The Human Heart". Popular Science. Retrieved February 16, 2021.

January 01, 1970
cardiac, amyloidosis, subcategory, amyloidosis, where, there, depositing, protein, amyloid, cardiac, muscle, surrounding, tissues, amyloid, misfolded, insoluble, protein, become, deposit, heart, atria, valves, ventricles, these, deposits, cause, thickening, di. Cardiac amyloidosis is a subcategory of amyloidosis where there is depositing of the protein amyloid in the cardiac muscle and surrounding tissues Amyloid a misfolded and insoluble protein can become a deposit in the heart s atria valves or ventricles These deposits can cause thickening of different sections of the heart leading to decreased cardiac function 1 The overall decrease in cardiac function leads to a plethora of symptoms 2 This multisystem disease was often misdiagnosed with a corrected analysis only during autopsy Advancements of technologies have increased earlier accuracy of diagnosis Cardiac amyloidosis has multiple sub types including light chain familial and senile 3 One of the most studied types is light chain cardiac amyloidosis 2 Prognosis depends on the extent of the deposits in the body and the type of amyloidosis 4 New treatment methods are actively being researched in regards to the treatment of heart failure and specific cardiac amyloidosis problems 5 6 Cardiac amyloidosisHuman heart Contents 1 Types 1 1 Light chain AL CM 1 2 Familial ATTRm CM 1 3 Wild type ATTRwt CM 2 Symptoms and signs 3 Cause 4 Diagnosis 4 1 Echocardiography 4 2 ECG EKG 4 3 Laboratory tests 4 4 Cardiac biomarkers 4 5 Biopsies 4 6 Catheterization 4 7 Cardiac magnetic resonance imaging 4 8 Scintigraphy radionuclide imaging 4 9 Mass spectrometry 5 Treatments 6 Prognosis 7 ReferencesTypes editThe multiple subtypes of cardiac amyloidosis have varying epidemiological diagnostic and prognostic characteristics 4 Light chain AL CM edit This relatively rare form of cardiac amyloidosis occurs in an estimated six to ten cases per 1 000 000 people 4 This sub type usually affects males over the age of 60 4 and is rapidly progressive Pathogenesis of this form is due to the aggregation of immunoglobulin lambda light chains 3 These chains are created by an abnormal expansion of plasma cells 3 Over time these light chains deposit into the interstitial tissue within the myocardium 4 Diagnostic tests includes serum and urine electrophoresis 4 laboratory testing for the determination of elevated levels of troponin and BNP and ECGs showing low QRS voltages 2 Familial ATTRm CM edit This type is caused by mutations of proteins involved in amyloid formation including transthyretin TTR fibrinogen apolipoprotein A1 or apolipoprotein A2 Due to the multiple number of potential genetic causes the incidence of this form is variable The vast majority of familial cardiac amyloidosis still present after the age of 60 4 A common mutation is the TTR gene mutation Val122Ile 2 It is estimated that 3 5 4 of African Americans in The United States have the Val 122lle mutation 4 This type of amyloidosis can be identified by genetic testing for protein mutation 4 For the diagnosis of familial cardiac amyloidosis to be made a biopsy with histological evaluation must be obtained 7 In this histological evaluation special stains are utilized to visualize the amyloid deposits 7 One such stain is Congo Red which binds specifically to the amyloid deposit and can be characterized by various lighting methods 7 Under polarized light the amyloid deposits while show pathognomonic apple green birefringence and under plain light the deposits will appear a light salmon pink color 7 Familial amyloidosis symptoms are centered around neuropathological and cardiac problems 3 Cardiac manifestations of the TTR mutation present more often in The United States 4 Wild type ATTRwt CM edit This type is considered the wild type mutation which leads to the development of TTR deposits 2 It usually affects males over 70 years with the manifestation of carpal tunnel syndrome 4 Similar to the other subtypes of cardiac amyloidosis a biopsy is required for diagnosis 4 However formal diagnosis of Senile cardiac amyloidosis is a diagnosis of exclusion 4 Biopsy with histological evaluation can rule out Light chain and Familial subtypes leaving the diagnosis of Senile 4 This type is often misdiagnosed However greater use of cardiac magnetic resonance has increased the rate of diagnosis 2 The severity of the disease tends to be less than the Light chain and Familial variants 4 This is due to the amount of time that it takes to accumulate the amyloid depositions being longer in the Senile variant 4 Symptoms and signs editSymptoms of cardiac amyloidosis are a combination of heart failure and amyloid deposition in various other organs 2 Amyloid deposition in the heart causes restrictive diastolic heart failure that progresses to systolic heart failure 8 Cardiac manifestations include Dyspnea on exertion 2 Peripheral edema and ascites 2 Pericardial effusion 2 Arrhythmias secondary to disruption of the normal electrical system of the heart Atrial arrhythmias such as atrial fibrillation 2 First second degree heart blocks 2 Syncope 2 Elevated neck veins and jugular venous pressure 9 Myocardial ischemia Angina secondary to amyloid deposition in the small arteries of the heart 2 Myocardial oxygen demand is increased in patients with cardiac amyloidosis regardless of changes to coronary perfusion 10 For patients with light chain amyloidosis there can be depositions of amyloid into numerous different organs 2 Deposition of amyloid into other organs makes the diagnosis of cardiac amyloidosis difficult as these extracardiac manifestations mask the diagnosis 2 Extracardiac manifestations include Macroglossia 2 Periorbital bruising 2 Loss of the third and fourth heart sound 3 Thromboembolisms 2 Symmetric sensory neuropathy such as bilateral carpal tunnel 3 Postural hypotension secondary to autonomic neuropathy 2 Nephrotic syndrome secondary to free light chain damage to the kidneys deposition of amyloid in the kidneys 2 Cause editThe general cause of cardiac amyloidosis is the misfolding of a specific protein precursor depending on the amyloidosis type Protein precursors include immunoglobulin derived light chains and transthyretin mutations 3 The misfolding of the protein causes it to have insoluble beta pleated sheets 2 creating an amyloid Amyloid the aggregation or clumping of proteins is resistant to degradation by the body Amyloids are mostly fibrils while also containing a P component apolipoprotein collagen fibronectin and laminin 2 The P component a pentameric protein stabilizes the fibrils of the amyloid which reduces their clearance from the body 1 Deposits of the amyloids can occur throughout the body including the heart liver kidneys spleen adrenal glands and bones Deposits in the extracellular cardiac space can stiffen the heart resulting in restriction of the ventricles 3 This restriction in ventricular motion results in a decreased ability for the heart to pump efficiently leading to the various symptoms associated with cardiac amyloidosis 4 Diagnosis edit source source source source source source 2D echocardiogram Subcostal long axis showing severe thickening of ventricles secondary to amyloid deposition and maladaptive cardiac remodeling as well as a pericardial effusion Echocardiography edit Echocardiography is a safe and non invasive method that can be used to assess the structural and functional disease of the heart 4 Amyloidosis presents with ventricle and valvular thickening biatrial enlargement 4 restrictive filling pattern with normal to mildly reduced systolic function 8 and decreased diastolic filling 4 An echo can be used to evaluate for prognosis of the disease measuring the different strains within the heart 4 Cardiac amyloidosis produces specific alterations to the functionality of the heart Echocardiography can be utilized to detect this specific pattern relative preservation of the apical myocardium with decreased longitudinal strain in the mid and basal sections which is 90 95 sensitive and 80 85 specific for cardiac amyloidosis 4 Echocardiography can be used to help physicians with diagnosis however it can only be used for the suggestion of the disease not the confirmation unless it is late stage amyloidosis 1 ECG EKG edit ECGs of patients with cardiac amyloidosis usually show a low voltage in the limb leads with an unusual extreme right axis There is usually a normal P wave however it can be slightly prolonged For patients with light chain amyloidosis the QRS complex pattern is skewed 1 with poor R waves of the chest leads 2 Holter ECGs can be used to identify asymptomatic arrhythmias 2 EKG changes may be present showing low voltage and conduction abnormalities like atrioventricular block or sinus node dysfunction 8 Atrial fibrillation AF is observed in up to 70 of patients at the time of diagnosis and patients typically have controlled ventricular rates caused by concomitant conduction system disease 11 Laboratory tests edit Laboratory tests including urea and creatinine levels liver enzymes glucose thyroid function full blood count and clotting tests The analysis of serum and urine for presence of monoclonal immunoglobulin is also done through immunofixation for detection of the monoclonal band Presence of the monoclonal band would be consistent with light chain amyloidosis For light chain amyloidosis serum immunoglobulin free light chain assay can be used for diagnosis and following of the amyloidosis 1 In light chain amyloidosis a low paraprotein level can be present 3 Cardiac biomarkers edit There are two main cardiac biomarkers used in the assessment of cardiac amyloidosis troponin and N terminal proBNP 12 As expected with cardiac damage and dysfunction there can be an elevation of these markers in patients with cardiac amyloidosis These markers have been incorporated into the various staging scoring systems used by physicians to determine severity of the disease and prognosis 12 nbsp Cardiac Amyloidosis H amp E stain Dark pink material showing cardiac myocytes and light pink material interspersed throughout is amyloid Biopsies edit Extracardiac biopsies of tissues of the kidney liver peripheral nerve or abdominal fat can be used to confirm the presence of amyloid deposits Amyloid deposits in biopsy samples are confirmed through the use of Congo red dye which produces a green birefringence when viewed under polarized light Sirius red staining or electron microscopy examination can also be done The determination of the type of amyloid can be done by immunohisto labeling techniques as well as immunofluorescence staining 1 For light chain amyloidosis patients bone marrow biopsies could be conducted to determine the baseline percentage of plasma cells and to rule out multiple myeloma 3 Catheterization edit Right heart catheterization is the test used to test for elevated diastolic ventricular pressures This test is more invasive and would be performed after inconclusive endomyocardial biopsy samples 1 Cardiac magnetic resonance imaging edit Cardiac magnetic resonance CMR is capable of measuring the thickness of different areas of the heart This can be used for quantification of the deposits in the heart 1 CMR also shows the characterization of myocardial tissue through patterns of gadolinium enhancements 2 However none of the CMR technique is able to differentiate ATTR CM and AL CM definitely 13 For AL CM 68 of them have symmetrical and concentric left ventricular hypertrophy On the other hand for ATTR CM 79 of them have asymmetrical left ventricular hypertrophy and 18 of them have symmetrical and concentric left ventricular hypertrophy 13 In T1 weighted imaging edema in the heart can be detected with a high T1 signal Meanwhile enlargement of heart cells will reduce the T1 signal Using T1 signal Extracellular volume ECV is useful to determine the degree of amyloid deposition around the heart cells and detect the regression of amyloid deposits after treatment ECV is higher in ATTR CM than in AL CM 13 In T2 weighted imaging the T2 signal is increased in acute myocarditis inflammation of heart muscles and myocardial infarction heart attack T2 signal is also increased in AL CM and ATTR CM but the signal is greater in AL CM before starting chemotherapy 13 Late gadolinum enhancement LGE can determine the severity of deposition of amyloid in heart tissue The higher the LGE signal the more severe the heart involvement It can be divided into three stages no LGE subendocardial LGE and full thickness transmural LGE 13 Scintigraphy radionuclide imaging edit Scintigraphy can be used to measure the extent and distribution of the amyloid throughout the body including the liver kidney spleen and heart 2 A radiolabelled serum amyloid P component can be administered to a patient intravenously and the P component pools to the amyloid deposit proportional to the size of the deposit The labeling of the P component can then be pictured by a gamma camera 1 Technetium radionuclide scans can now reliably diagnosis cardiac amyloidosis with certain scanning methods having greater than 99 sensitivity but only 91 specific for amyloidosis 14 In this method of imaging radiolabeled technetium is injected into the body where it binds to cardiac amyloid deposits 14 A subsequent scan is taken to determine where the tracer stays therefore highlighting the amyloid deposition in the heart 14 This method allows for a noninvasive definitive diagnosis of cardiac amyloidosis as in the past an endomyocardial biopsy was required 14 Mass spectrometry edit Mass spectrometry can be used to determine whether the protein is light chain or familial amyloidosis by identifying the protein subunit 9 Treatments editTreatments differ according to the type of amyloidosis present 1 The majority of treatment is aimed at preserving heart function and treating heart failure symptoms 3 Light chain AL CM Treatment Since the cause of this subtype of cardiac amyloidosis is the excessive production of free light chains the major goal of treatment is the reduction in concentration of light chains 5 For light chain amyloidosis the use of FLC assays and NT proBNP levels can be used to monitor the progression of amyloidosis and any response to treatments 1 One of the major routes to decrease the production of these excess light chains is to kill the abnormal cells that are producing them 5 Chemotherapeutic agents such as melphalan or bortezomib can be used to kill off the abnormal cell line that is producing the free light chains 5 Following chemotherapy a bone marrow transplant can be utilized to restore the normal cell lines 5 There are newer medications ixazomib carfilzomib daratumumab elotuzumab under research for the treatment of multiple myeloma that can help to decrease the production of free light chains 5 New data suggests that orthotopic heart transplant followed by melphalan and stem cell transplant produces results similar to non cardiac amyloidosis indicated heart transplant 5 To treat complications medications can be prescribed including midodrine for autonomic neuropathy amiodarone for patients with atrial fibrillation to prevent arrhythmias and warfarin used after a cardioembolic episode 1 Beta blockers should be avoided due to the usual symptom of hypotension citation needed Familial ATTRm CM Treatment In recent years there have been developments in the treatment of Familial Transthyretin cardiac amyloidosis including methods to suppress transthyretin production stabilize amyloid fibrils and medications that can destroy already existing fibrils 6 For familial amyloidosis ACE inhibitors and beta blockers can be prescribed if there is no autonomic neuropathy 1 Suppression of transthyretin production liver transplantation and medications that decreases the activity of the transthyretin genes patisiran and inotersen 6 In patients with familial transthyretin mutations liver transplantation can provide the body with a source of normal transthyretin 15 By changing the source of transthyretin from the original liver that contains the mutated transthyretin to a healthy liver there will be no more production of the abnormal protein 15 However liver transplant does not reverse the disease 15 The goal of liver transplant is to prevent additional amyloid deposition and prevent new symptoms complications from happening 15 These medications bind to the mRNA of transthyretin and prevent the production of the transthyretin protein thus decreasing the overall amount of transthyretin that can accumulate in the body 6 Stabilization of abnormal transthyretin There are medications that can stabilize the normally folded transthyretin preventing misfolding and subsequent amyloid deposition 6 These medications include Tafamidis the NSAID Diflunisal and AG10 6 Tafamidis is a medication that binds to transthyretin and keeps it in its normal shape stopping it from aggregating into amyloid fibrils 6 Diflunisal and AG10 work in a similar manner to Tafamidis in their ability to bind to and stabilize Transthyretin 16 Destruction of existing amyloid fibrils There are multiple medications that show amyloid destroying properties Doxycycline Tauro ursodeoxy cholic acid TUDCA and monoclonal antibodies 6 The use of pacemakers both right ventricular pacing and biventricular pacing or implantable cardioverter defibrillators remains questionable in cardiac amyloidosis 17 In 2012 Craig Lewis a 55 year old Texan presented at the Texas Heart Institute with a severe case of amyloidosis He was given an experimental continuous flow artificial heart transplant which saved his life Lewis died 5 weeks later of liver failure after slipping into a coma due to the amyloidosis 18 Prognosis editOverall prognosis is dependent on the extent of cardiac dysfunction Worse outcomes have been seen when echocardiography shows left ventricular wall thickness poor systolic function and severe diastolic dysfunction 1 Light chain AL CM Prognosis For light chain amyloidosis early detection leads to best possibility of therapies prolonging the period of remission 3 Well treated light chain cardiac amyloidosis has a 4 year survival rate of around 90 5 In patients that undergo stem cell transplant the average survival time increases to 10 years 5 Staging systems have been developed to stratify severity of the disease including the Mayo Biomarker Stage which utilizes various biomarkers such as troponin I troponin T BNP and NT proBNP and Free light chain concentrations 5 Familial ATTRm CM Prognosis Due to the extensive number of variables involved in this subtype prognosis varies depending on the specific type of familial cardiac amyloidosis 5 Variables involve mutant vs wild type transthyretin mutation and age of onset of symptoms 5 In comparison to light chain amyloidosis the familial subtype is slower to progress and has a more favorable prognosis 5 However the Val 122lle mutation most common cause of familial cardiac amyloidosis has a 4 year survival rate of 16 with an average length of 26 months 5 A delay in recognition plays a major factor in this reduced survival rate 5 References edit a b c d e f g h i j k l m n Fikrle M Palecek T Kuchynka P Nemecek E Bauerova L Straub J et al 2013 02 01 Cardiac amyloidosis A comprehensive review Cor et Vasa 55 1 e60 e75 doi 10 1016 j crvasa 2012 11 018 ISSN 0010 8650 a b c d e f g h i j k l m n o p q r s t u v w x y z aa Banypersad SM Moon JC Whelan C Hawkins PN Wechalekar AD 2012 04 24 Updates in Cardiac Amyloidosis A Review Journal of the American Heart Association 1 2 e000364 doi 10 1161 JAHA 111 000364 ISSN 2047 9980 PMC 3487372 PMID 23130126 a b c d e f g h i j k l Falk RH Alexander KM et al 2016 09 20 AL Light Chain Cardiac Amyloidosis A Review of Diagnosis and Therapy Journal of the American College of Cardiology 68 12 1323 1341 doi 10 1016 j jacc 2016 06 053 ISSN 0735 1097 PMID 27634125 a b c d e f g h i j k l m n o p q r s t u v Bhogal S Ladia V Sitwala P Cook E Bajaj K Ramu V et al 2018 01 01 Cardiac Amyloidosis An Updated Review With Emphasis on Diagnosis and Future Directions Current Problems in Cardiology 43 1 10 34 doi 10 1016 j cpcardiol 2017 04 003 ISSN 0146 2806 PMID 29173805 a b c d e f g h i j k l m n o Siddiqi OK Ruberg FL January 2018 Cardiac amyloidosis An update on pathophysiology diagnosis and treatment Trends in Cardiovascular Medicine 28 1 10 21 doi 10 1016 j tcm 2017 07 004 ISSN 1873 2615 PMC 5741539 PMID 28739313 a b c d e f g h Manolis AS Manolis AA Manolis TA Melita H September 2019 Cardiac amyloidosis An underdiagnosed underappreciated disease European Journal of Internal Medicine 67 1 13 doi 10 1016 j ejim 2019 07 022 ISSN 0953 6205 PMID 31375251 S2CID 199388460 a b c d Ruberg FL Berk JL 2012 09 04 Transthyretin TTR Cardiac Amyloidosis Circulation 126 10 1286 1300 doi 10 1161 CIRCULATIONAHA 111 078915 ISSN 0009 7322 PMC 3501197 PMID 22949539 a b c Falk RH Comenzo RL et al 25 September 1997 The Systemic Amyloidoses New England Journal of Medicine 337 13 898 909 doi 10 1056 NEJM199709253371306 PMID 9302305 a b Gertz MA Dispenzieri A Sher T 2014 10 14 Pathophysiology and treatment of cardiac amyloidosis Nature Reviews Cardiology 12 2 91 102 doi 10 1038 nrcardio 2014 165 ISSN 1759 5002 PMID 25311231 S2CID 2080325 Clemmensen TS Soerensen J Hansson N Tolbod LP Harms HJ Eiskjaer H et al 2018 11 06 Myocardial Oxygen Consumption and Efficiency in Patients With Cardiac Amyloidosis Journal of the American Heart Association 7 21 e009974 doi 10 1161 JAHA 118 009974 ISSN 2047 9980 PMC 6404209 PMID 30571379 Hartnett Jack Jaber Wael Maurer Mathew Sperry Brett Hanna Mazen Collier Patrick Patel Divyang R Wazni Oussama M Donnellan Eoin October 2021 Electrophysiological Manifestations of Cardiac Amyloidosis JACC CardioOncology 3 4 506 515 doi 10 1016 j jaccao 2021 07 010 PMC 8543134 PMID 34729522 S2CID 239554406 a b Kyriakou P Mouselimis D Tsarouchas A Rigopoulos A Bakogiannis C Noutsias M et al December 2018 Diagnosis of cardiac amyloidosis a systematic review on the role of imaging and biomarkers BMC Cardiovascular Disorders 18 1 221 doi 10 1186 s12872 018 0952 8 ISSN 1471 2261 PMC 6278059 PMID 30509186 a b c d e Martinez Naharro A Baksi AJ Hawkins PN Fontana M July 2020 Diagnostic imaging of cardiac amyloidosis Nature Reviews Cardiology 17 7 413 426 doi 10 1038 s41569 020 0334 7 ISSN 1759 5002 PMID 32042139 S2CID 211067205 a b c d Gillmore JD Maurer MS Falk RH Merlini G Damy T Dispenzieri A et al 2016 06 14 Nonbiopsy Diagnosis of Cardiac Transthyretin Amyloidosis Circulation 133 24 2404 2412 doi 10 1161 CIRCULATIONAHA 116 021612 hdl 11392 2415152 ISSN 0009 7322 PMID 27143678 S2CID 7106253 a b c d Rocha A Lobato L April 2015 Reply Liver transplantation in transthyretin amyloidosis Issues and challenges Liver Transplantation n a doi 10 1002 lt 24150 ISSN 1527 6465 PMID 25891323 Lohrmann G Pipilas A Mussinelli R Gopal DM Berk JL Connors LH et al September 2020 Stabilization of Cardiac Function With Diflunisal in Transthyretin ATTR Cardiac Amyloidosis Journal of Cardiac Failure 26 9 753 759 doi 10 1016 j cardfail 2019 11 024 ISSN 1532 8414 PMC 7758872 PMID 31805416 Cheung CC Roston TM Andrade JG Bennett MT Davis MK March 2020 Arrhythmias in Cardiac Amyloidosis Challenges in Risk Stratification and Treatment The Canadian Journal of Cardiology 36 3 416 423 doi 10 1016 j cjca 2019 11 039 ISSN 1916 7075 PMID 32145868 S2CID 212638552 Baum Dan February 29 2012 No Pulse How Doctors Reinvented The Human Heart Popular Science Retrieved February 16 2021 Retrieved from https en wikipedia org w index php title Cardiac amyloidosis amp oldid 1206431252, wikipedia, wiki, book, books, library,

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