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Subcutaneous emphysema

April 05, 2024

Subcutaneous emphysema (SCE, SE) occurs when gas or air accumulates and seeps under the skin, where normally no gas should be present. Subcutaneous refers to the subcutaneous tissue, and emphysema refers to trapped air pockets. Since the air generally comes from the chest cavity, subcutaneous emphysema usually occurs around the upper torso, such as on the chest, neck, face, axillae and arms, where it is able to travel with little resistance along the loose connective tissue within the superficial fascia.[1] Subcutaneous emphysema has a characteristic crackling-feel to the touch, a sensation that has been described as similar to touching warm Rice Krispies.[2] This sensation of air under the skin is known as subcutaneous crepitation, a form of crepitus.

Subcutaneous emphysema
Other namesSurgical emphysema, tissue emphysema, sub Q air
An abdominal CT scan of a patient with subcutaneous emphysema (arrows)
SpecialtyEmergency medicine

Numerous etiologies of subcutaneous emphysema have been described. Pneumomediastinum was first recognized as a medical entity by Laennec, who reported it as a consequence of trauma in 1819. Later, in 1939, at Johns Hopkins Hospital, Dr. Louis Hamman described it in postpartum woman; indeed, subcutaneous emphysema is sometimes known as Hamman's syndrome. However, in some medical circles, it can instead be more commonly known as Macklin's Syndrome after L. Macklin, in 1939, and C.C. and M.T. Macklin, in 1944, who cumulatively went on to describe the pathophysiology in more detail.[3]

Subcutaneous emphysema can result from puncture of parts of the respiratory or gastrointestinal systems. Particularly in the chest and neck, air may become trapped as a result of penetrating trauma (e.g., gunshot wounds or stab wounds) or blunt trauma. Infection (e.g., gas gangrene) can cause gas to be trapped in the subcutaneous tissues. Subcutaneous emphysema can be caused by medical procedures and medical conditions that cause the pressure in the alveoli of the lung to be higher than that in the tissues outside of them.[4] Its most common causes are pneumothorax or a chest tube that has become occluded by a blood clot or fibrinous material. It can also occur spontaneously due to rupture of the alveoli, with dramatic presentation.[5] When the condition is caused by surgery it is called surgical emphysema.[6] The term spontaneous subcutaneous emphysema is used when the cause is not clear.[5] Subcutaneous emphysema is not typically dangerous in and of itself, however it can be a symptom of very dangerous underlying conditions, such as pneumothorax.[7] Although the underlying conditions require treatment, subcutaneous emphysema usually does not; small amounts of air are reabsorbed by the body. However, subcutaneous emphysema can be uncomfortable and may interfere with breathing, and is often treated by removing air from the tissues, for example by using large bore needles, skin incisions or subcutaneous catheterization.

Symptoms and signs edit

Signs and symptoms of spontaneous subcutaneous emphysema vary based on the cause, but it is often associated with swelling of the neck and chest pain, and may also involve sore throat, neck pain, difficulty swallowing, wheezing and difficulty breathing.[5] Chest X-rays may show air in the mediastinum, the middle of the chest cavity.[5] A significant case of subcutaneous emphysema can be detected by touching the overlying skin, which will feel like tissue paper or Rice Krispies.[8] Touching the bubbles causes them to move and sometimes make a crackling noise.[9] The air bubbles, which are painless and feel like small nodules to the touch, may burst when the skin above them is palpated.[9] The tissues surrounding SCE are usually swollen. If large amounts of air leak into the tissues around the head, the face can swell considerably.[8] In cases of subcutaneous emphysema around the neck, there may be a feeling of fullness in the neck, and the sound of the voice may change.[10] If SCE is particularly extreme around the neck and chest, the swelling can interfere with breathing. The air can travel to many parts of the body, including the abdomen and limbs, because there are no separations in the fatty tissue in the skin to prevent the air from moving.[11]

Causes edit

Trauma edit

Conditions that cause subcutaneous emphysema may result from both blunt and penetrating trauma;[5] SCE is often the result of a stabbing or gunshot wound.[12] Subcutaneous emphysema is often found in car accident victims because of the force of the crash.

Chest trauma, a major cause of subcutaneous emphysema, can cause air to enter the skin of the chest wall from the neck or lung.[9] When the pleural membranes are punctured, as occurs in penetrating trauma of the chest, air may travel from the lung to the muscles and subcutaneous tissue of the chest wall.[9] When the alveoli of the lung are ruptured, as occurs in pulmonary laceration, air may travel beneath the visceral pleura (the membrane lining the lung), to the hilum of the lung, up to the trachea, to the neck and then to the chest wall.[9] The condition may also occur when a fractured rib punctures a lung;[9] in fact, 27% of patients who have rib fractures also have subcutaneous emphysema.[11] Rib fractures may tear the parietal pleura, the membrane lining the inside of chest wall, allowing air to escape into the subcutaneous tissues.[13]

Subcutaneous emphysema is frequently found in pneumothorax (air outside of the lung in the chest cavity)[14][15] and may also result from pneumomediastinum (air in the mediastinum) or pneumopericardium (air in the pericardial cavity around the heart).[16] A tension pneumothorax, in which air builds up in the pleural cavity and exerts pressure on the organs within the chest, makes it more likely that air will enter the subcutaneous tissues through pleura torn by a broken rib.[13] When subcutaneous emphysema results from pneumothorax, air may enter tissues including those of the face, neck, chest, armpits, or abdomen.[1]

Pneumomediastinum can result from a number of events. For example, foreign body aspiration, in which someone inhales an object, can cause pneumomediastinum (and lead to subcutaneous emphysema) by puncturing the airways or by increasing the pressure in the affected lung(s) enough to cause them to burst.[17]

Subcutaneous emphysema of the chest wall is commonly among the first indications that barotrauma, damage caused by excessive pressure, has occurred;[1][18] it suggests that the lung was subjected to significant barotrauma.[19] Thus the phenomenon may occur in diving injuries.[5][20]

Trauma to parts of the respiratory system other than the lungs, such as rupture of a bronchial tube, may also cause subcutaneous emphysema.[13] Air may travel upward to the neck from a pneumomediastinum that results from a bronchial rupture, or downward from a torn trachea or larynx into the soft tissues of the chest.[13] It may also occur with fractures of the facial bones, neoplasms, during asthma attacks, as an adverse effect of the Heimlich maneuver, and during childbirth.[5]

Injury with pneumatic tools is also known to cause subcutaneous emphysema, even in extremities (the arms and legs).[21] It can also occur as a result of rupture of the esophagus; when it does, it is usually as a late sign.[22]

Medical treatment edit

Subcutaneous emphysema is a common result of certain types of surgery; for example it is not unusual in chest surgery.[8] It may also occur from surgery around the esophagus, and is particularly likely in prolonged surgery.[7] Other potential causes are positive pressure ventilation for any reason and by any technique, in which its occurrence is frequently unexpected. It may also occur as a result of oral surgery,[23] laparoscopy,[7] and cricothyrotomy. In a pneumonectomy, in which an entire lung is removed, the remaining bronchial stump may leak air, a rare but very serious condition that leads to progressive subcutaneous emphysema.[8] Air can leak out of the pleural space through an incision made for a thoracotomy to cause subcutaneous emphysema.[8] On infrequent occasions, the condition can result from dental surgery, usually due to use of high-speed tools that are air driven.[24] These cases result in immediate onset (usually) painless swelling of the face and neck; crepitus (crunching sound) typical of subcutaneous emphysema is often present and the subcutaneous air will be visible on X-ray.[24]

One of the main causes of subcutaneous emphysema, along with pneumothorax, is an improperly functioning chest tube.[2] Thus subcutaneous emphysema is often a sign that something is wrong with a chest tube; it may be clogged, clamped, or out of place.[2] The tube may need to be replaced, or, if large amounts of air are leaking, a new tube may be added.[2]

Since mechanical ventilation can worsen a pneumothorax, it can force air into the tissues; when subcutaneous emphysema occurs in a ventilated patient, it is an indication that the ventilation may have caused a pneumothorax.[2] It is not unusual for subcutaneous emphysema to result from positive pressure ventilation.[25] Another possible cause is a ruptured trachea.[2] The trachea may be injured by tracheostomy or tracheal intubation; in cases of tracheal injury, large amounts of air can enter the subcutaneous space.[2] An endotracheal tube can puncture the trachea or bronchi and cause subcutaneous emphysema.[12]

Infection edit

Air can be trapped under the skin in necrotizing infections such as gangrene, occurring as a late sign in gas gangrene,[2] of which it is the hallmark sign. Subcutaneous emphysema is also considered a hallmark of Fournier gangrene.[26] Symptoms of subcutaneous emphysema can result when infectious organisms produce gas by fermentation. When emphysema occurs due to infection, signs that the infection is systemic (i.e. that it has spread beyond the initial location) are also present.[9][21]

Pathophysiology edit

Air is able to travel to the soft tissues of the neck from the mediastinum and the retroperitoneum (the space behind the abdominal cavity) because these areas are connected by fascial planes.[4] From the punctured lungs or airways, the air travels up the perivascular sheaths and into the mediastinum, from which it can enter the subcutaneous tissues.[17]

Spontaneous subcutaneous emphysema is thought to result from increased pressures in the lung that cause alveoli to rupture.[5] In spontaneous subcutaneous emphysema, air travels from the ruptured alveoli into the interstitium and along the blood vessels of the lung, into the mediastinum and from there into the tissues of the neck or head.[5]

Diagnosis edit

Significant cases of subcutaneous emphysema are easy to diagnose because of the characteristic signs of the condition.[1] In some cases, the signs are subtle, making diagnosis more difficult.[13] Medical imaging is used to diagnose the condition or confirm a diagnosis made using clinical signs. On a chest radiograph, subcutaneous emphysema may be seen as radiolucent striations in the pattern expected from the pectoralis major muscle group. Air in the subcutaneous tissues may interfere with radiography of the chest, potentially obscuring serious conditions such as pneumothorax.[18] It can also reduce the effectiveness of chest ultrasound.[27] On the other hand, since subcutaneous emphysema may become apparent in chest X-rays before a pneumothorax does, its presence may be used to infer that of the latter injury.[13] Subcutaneous emphysema can also be seen in CT scans, with the air pockets appearing as dark areas. CT scanning is so sensitive that it commonly makes it possible to find the exact spot from which air is entering the soft tissues.[13] In 1944, M.T. Macklin and C.C. Macklin published further insights into the pathophysiology of spontaneous Macklin's Syndrome occurring as a result of a severe asthmatic attack.

The presence of subcutaneous emphysema in a person who appears quite ill and febrile after bouts of vomiting followed by left chest pain is very suggestive of the diagnosis of Boerhaave's syndrome, which is a life-threatening emergency caused by rupture of the distal esophagus.

Subcutaneous emphysema can be a complication of CO2 insufflation with laparoscopic surgery.  A sudden rise in end-tidal CO2 following the initial rise that occurs with insufflation (first 15-30 min) should raise suspicion of subcutaneous emphysema.[4] Of note, there are no changes in the pulse oximetry or airway pressure in subcutaneous emphysema, unlike in endobronchial intubation, capnothorax, pneumothorax, or CO2 embolism.

 
Bubbles of air in the subcutaneous tissue (arrow) feel like mobile nodules that move around easily
 
A chest X-ray of a right sided pulmonary contusion associated with flail chest and subcutaneous emphysema
 
Subcutaneous air (arrows) can be seen as black areas on this pelvic CT scan.

Treatment edit

Subcutaneous emphysema is usually benign.[1] Most of the time, SCE itself does not need treatment (though the conditions from which it results may); however, if the amount of air is large, it can interfere with breathing and be uncomfortable.[28] It occasionally progresses to a state "Massive Subcutaneous Emphysema" which is quite uncomfortable and requires surgical drainage. When the amount of air pushed out of the airways or lung becomes massive, usually due to positive pressure ventilation, the eyelids may swell so much that the patient cannot see. The pressure of the air may impede the blood flow to the areolae of the breast and skin of the scrotum or labia which can lead to necrosis. The latter are urgent situations requiring rapid, adequate decompression.[29][30][31] Severe cases can compress the trachea and do require treatment.[32]

In severe cases of subcutaneous emphysema, catheters can be placed in the subcutaneous tissue to release the air.[1] Small cuts, or "blow holes", may be made in the skin to release the gas.[16] When subcutaneous emphysema occurs due to pneumothorax, a chest tube is frequently used to control the latter; this eliminates the source of the air entering the subcutaneous space.[2] If the volume of subcutaneous air is increasing, it may be that the chest tube is not removing air rapidly enough, so it may be replaced with a larger one.[8] Suction may also be applied to the tube to remove air faster.[8] The progression of the condition can be monitored by marking the boundaries of the emphysema on the patient's skin.[32]

Since treatment usually involves dealing with the underlying condition, cases of spontaneous subcutaneous emphysema may require nothing more than bed rest, medication to control pain, and perhaps supplemental oxygen.[5] Breathing oxygen may help the body to absorb the subcutaneous air more quickly.[10]

Prognosis edit

Air in subcutaneous tissue does not usually pose a lethal threat;[4] small amounts of air are reabsorbed by the body.[8] Once the pneumothorax or pneumomediastinum that causes the subcutaneous emphysema is resolved, with or without medical intervention, the subcutaneous emphysema will usually clear.[18] However, spontaneous subcutaneous emphysema can, in rare cases, progress to a life-threatening condition,[5] and subcutaneous emphysema due to mechanical ventilation may induce ventilatory failure.[25]

History edit

The first report of subcutaneous emphysema resulting from air in the mediastinum was made in 1850 in a patient who had been coughing violently.[5] In 1900, the first recorded case of spontaneous subcutaneous emphysema was reported in a bugler for the Royal Marines who had had a tooth extracted: playing the instrument had forced air through the hole where the tooth had been and into the tissues of his face.[5] Since then, another case of spontaneous subcutaneous emphysema was reported in a submariner for the US Navy who had had a root canal in the past; the increased pressure in the submarine forced air through it and into his face. A case was reported at the University Hospital of Wales of a young man who had been coughing violently causing a rupture in the esophagus resulting in SE.[5] The cause of spontaneous subcutaneous emphysema was clarified between 1939 and 1944 by Macklin, contributing to the current understanding of the pathophysiology of the condition.[5]

References edit

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External links edit

April 05, 2024
subcutaneous, emphysema, occurs, when, accumulates, seeps, under, skin, where, normally, should, present, subcutaneous, refers, subcutaneous, tissue, emphysema, refers, trapped, pockets, since, generally, comes, from, chest, cavity, subcutaneous, emphysema, us. Subcutaneous emphysema SCE SE occurs when gas or air accumulates and seeps under the skin where normally no gas should be present Subcutaneous refers to the subcutaneous tissue and emphysema refers to trapped air pockets Since the air generally comes from the chest cavity subcutaneous emphysema usually occurs around the upper torso such as on the chest neck face axillae and arms where it is able to travel with little resistance along the loose connective tissue within the superficial fascia 1 Subcutaneous emphysema has a characteristic crackling feel to the touch a sensation that has been described as similar to touching warm Rice Krispies 2 This sensation of air under the skin is known as subcutaneous crepitation a form of crepitus Subcutaneous emphysemaOther namesSurgical emphysema tissue emphysema sub Q airAn abdominal CT scan of a patient with subcutaneous emphysema arrows SpecialtyEmergency medicineNumerous etiologies of subcutaneous emphysema have been described Pneumomediastinum was first recognized as a medical entity by Laennec who reported it as a consequence of trauma in 1819 Later in 1939 at Johns Hopkins Hospital Dr Louis Hamman described it in postpartum woman indeed subcutaneous emphysema is sometimes known as Hamman s syndrome However in some medical circles it can instead be more commonly known as Macklin s Syndrome after L Macklin in 1939 and C C and M T Macklin in 1944 who cumulatively went on to describe the pathophysiology in more detail 3 Subcutaneous emphysema can result from puncture of parts of the respiratory or gastrointestinal systems Particularly in the chest and neck air may become trapped as a result of penetrating trauma e g gunshot wounds or stab wounds or blunt trauma Infection e g gas gangrene can cause gas to be trapped in the subcutaneous tissues Subcutaneous emphysema can be caused by medical procedures and medical conditions that cause the pressure in the alveoli of the lung to be higher than that in the tissues outside of them 4 Its most common causes are pneumothorax or a chest tube that has become occluded by a blood clot or fibrinous material It can also occur spontaneously due to rupture of the alveoli with dramatic presentation 5 When the condition is caused by surgery it is called surgical emphysema 6 The term spontaneous subcutaneous emphysema is used when the cause is not clear 5 Subcutaneous emphysema is not typically dangerous in and of itself however it can be a symptom of very dangerous underlying conditions such as pneumothorax 7 Although the underlying conditions require treatment subcutaneous emphysema usually does not small amounts of air are reabsorbed by the body However subcutaneous emphysema can be uncomfortable and may interfere with breathing and is often treated by removing air from the tissues for example by using large bore needles skin incisions or subcutaneous catheterization Contents 1 Symptoms and signs 2 Causes 2 1 Trauma 2 2 Medical treatment 2 3 Infection 3 Pathophysiology 4 Diagnosis 5 Treatment 6 Prognosis 7 History 8 References 9 External linksSymptoms and signs editSigns and symptoms of spontaneous subcutaneous emphysema vary based on the cause but it is often associated with swelling of the neck and chest pain and may also involve sore throat neck pain difficulty swallowing wheezing and difficulty breathing 5 Chest X rays may show air in the mediastinum the middle of the chest cavity 5 A significant case of subcutaneous emphysema can be detected by touching the overlying skin which will feel like tissue paper or Rice Krispies 8 Touching the bubbles causes them to move and sometimes make a crackling noise 9 The air bubbles which are painless and feel like small nodules to the touch may burst when the skin above them is palpated 9 The tissues surrounding SCE are usually swollen If large amounts of air leak into the tissues around the head the face can swell considerably 8 In cases of subcutaneous emphysema around the neck there may be a feeling of fullness in the neck and the sound of the voice may change 10 If SCE is particularly extreme around the neck and chest the swelling can interfere with breathing The air can travel to many parts of the body including the abdomen and limbs because there are no separations in the fatty tissue in the skin to prevent the air from moving 11 Causes editTrauma edit Conditions that cause subcutaneous emphysema may result from both blunt and penetrating trauma 5 SCE is often the result of a stabbing or gunshot wound 12 Subcutaneous emphysema is often found in car accident victims because of the force of the crash Chest trauma a major cause of subcutaneous emphysema can cause air to enter the skin of the chest wall from the neck or lung 9 When the pleural membranes are punctured as occurs in penetrating trauma of the chest air may travel from the lung to the muscles and subcutaneous tissue of the chest wall 9 When the alveoli of the lung are ruptured as occurs in pulmonary laceration air may travel beneath the visceral pleura the membrane lining the lung to the hilum of the lung up to the trachea to the neck and then to the chest wall 9 The condition may also occur when a fractured rib punctures a lung 9 in fact 27 of patients who have rib fractures also have subcutaneous emphysema 11 Rib fractures may tear the parietal pleura the membrane lining the inside of chest wall allowing air to escape into the subcutaneous tissues 13 Subcutaneous emphysema is frequently found in pneumothorax air outside of the lung in the chest cavity 14 15 and may also result from pneumomediastinum air in the mediastinum or pneumopericardium air in the pericardial cavity around the heart 16 A tension pneumothorax in which air builds up in the pleural cavity and exerts pressure on the organs within the chest makes it more likely that air will enter the subcutaneous tissues through pleura torn by a broken rib 13 When subcutaneous emphysema results from pneumothorax air may enter tissues including those of the face neck chest armpits or abdomen 1 Pneumomediastinum can result from a number of events For example foreign body aspiration in which someone inhales an object can cause pneumomediastinum and lead to subcutaneous emphysema by puncturing the airways or by increasing the pressure in the affected lung s enough to cause them to burst 17 Subcutaneous emphysema of the chest wall is commonly among the first indications that barotrauma damage caused by excessive pressure has occurred 1 18 it suggests that the lung was subjected to significant barotrauma 19 Thus the phenomenon may occur in diving injuries 5 20 Trauma to parts of the respiratory system other than the lungs such as rupture of a bronchial tube may also cause subcutaneous emphysema 13 Air may travel upward to the neck from a pneumomediastinum that results from a bronchial rupture or downward from a torn trachea or larynx into the soft tissues of the chest 13 It may also occur with fractures of the facial bones neoplasms during asthma attacks as an adverse effect of the Heimlich maneuver and during childbirth 5 Injury with pneumatic tools is also known to cause subcutaneous emphysema even in extremities the arms and legs 21 It can also occur as a result of rupture of the esophagus when it does it is usually as a late sign 22 Medical treatment edit Subcutaneous emphysema is a common result of certain types of surgery for example it is not unusual in chest surgery 8 It may also occur from surgery around the esophagus and is particularly likely in prolonged surgery 7 Other potential causes are positive pressure ventilation for any reason and by any technique in which its occurrence is frequently unexpected It may also occur as a result of oral surgery 23 laparoscopy 7 and cricothyrotomy In a pneumonectomy in which an entire lung is removed the remaining bronchial stump may leak air a rare but very serious condition that leads to progressive subcutaneous emphysema 8 Air can leak out of the pleural space through an incision made for a thoracotomy to cause subcutaneous emphysema 8 On infrequent occasions the condition can result from dental surgery usually due to use of high speed tools that are air driven 24 These cases result in immediate onset usually painless swelling of the face and neck crepitus crunching sound typical of subcutaneous emphysema is often present and the subcutaneous air will be visible on X ray 24 One of the main causes of subcutaneous emphysema along with pneumothorax is an improperly functioning chest tube 2 Thus subcutaneous emphysema is often a sign that something is wrong with a chest tube it may be clogged clamped or out of place 2 The tube may need to be replaced or if large amounts of air are leaking a new tube may be added 2 Since mechanical ventilation can worsen a pneumothorax it can force air into the tissues when subcutaneous emphysema occurs in a ventilated patient it is an indication that the ventilation may have caused a pneumothorax 2 It is not unusual for subcutaneous emphysema to result from positive pressure ventilation 25 Another possible cause is a ruptured trachea 2 The trachea may be injured by tracheostomy or tracheal intubation in cases of tracheal injury large amounts of air can enter the subcutaneous space 2 An endotracheal tube can puncture the trachea or bronchi and cause subcutaneous emphysema 12 Infection edit Air can be trapped under the skin in necrotizing infections such as gangrene occurring as a late sign in gas gangrene 2 of which it is the hallmark sign Subcutaneous emphysema is also considered a hallmark of Fournier gangrene 26 Symptoms of subcutaneous emphysema can result when infectious organisms produce gas by fermentation When emphysema occurs due to infection signs that the infection is systemic i e that it has spread beyond the initial location are also present 9 21 Pathophysiology editAir is able to travel to the soft tissues of the neck from the mediastinum and the retroperitoneum the space behind the abdominal cavity because these areas are connected by fascial planes 4 From the punctured lungs or airways the air travels up the perivascular sheaths and into the mediastinum from which it can enter the subcutaneous tissues 17 Spontaneous subcutaneous emphysema is thought to result from increased pressures in the lung that cause alveoli to rupture 5 In spontaneous subcutaneous emphysema air travels from the ruptured alveoli into the interstitium and along the blood vessels of the lung into the mediastinum and from there into the tissues of the neck or head 5 Diagnosis editSignificant cases of subcutaneous emphysema are easy to diagnose because of the characteristic signs of the condition 1 In some cases the signs are subtle making diagnosis more difficult 13 Medical imaging is used to diagnose the condition or confirm a diagnosis made using clinical signs On a chest radiograph subcutaneous emphysema may be seen as radiolucent striations in the pattern expected from the pectoralis major muscle group Air in the subcutaneous tissues may interfere with radiography of the chest potentially obscuring serious conditions such as pneumothorax 18 It can also reduce the effectiveness of chest ultrasound 27 On the other hand since subcutaneous emphysema may become apparent in chest X rays before a pneumothorax does its presence may be used to infer that of the latter injury 13 Subcutaneous emphysema can also be seen in CT scans with the air pockets appearing as dark areas CT scanning is so sensitive that it commonly makes it possible to find the exact spot from which air is entering the soft tissues 13 In 1944 M T Macklin and C C Macklin published further insights into the pathophysiology of spontaneous Macklin s Syndrome occurring as a result of a severe asthmatic attack The presence of subcutaneous emphysema in a person who appears quite ill and febrile after bouts of vomiting followed by left chest pain is very suggestive of the diagnosis of Boerhaave s syndrome which is a life threatening emergency caused by rupture of the distal esophagus Subcutaneous emphysema can be a complication of CO2 insufflation with laparoscopic surgery A sudden rise in end tidal CO2 following the initial rise that occurs with insufflation first 15 30 min should raise suspicion of subcutaneous emphysema 4 Of note there are no changes in the pulse oximetry or airway pressure in subcutaneous emphysema unlike in endobronchial intubation capnothorax pneumothorax or CO2 embolism nbsp Bubbles of air in the subcutaneous tissue arrow feel like mobile nodules that move around easily nbsp A chest X ray of a right sided pulmonary contusion associated with flail chest and subcutaneous emphysema nbsp Subcutaneous air arrows can be seen as black areas on this pelvic CT scan Treatment editSubcutaneous emphysema is usually benign 1 Most of the time SCE itself does not need treatment though the conditions from which it results may however if the amount of air is large it can interfere with breathing and be uncomfortable 28 It occasionally progresses to a state Massive Subcutaneous Emphysema which is quite uncomfortable and requires surgical drainage When the amount of air pushed out of the airways or lung becomes massive usually due to positive pressure ventilation the eyelids may swell so much that the patient cannot see The pressure of the air may impede the blood flow to the areolae of the breast and skin of the scrotum or labia which can lead to necrosis The latter are urgent situations requiring rapid adequate decompression 29 30 31 Severe cases can compress the trachea and do require treatment 32 In severe cases of subcutaneous emphysema catheters can be placed in the subcutaneous tissue to release the air 1 Small cuts or blow holes may be made in the skin to release the gas 16 When subcutaneous emphysema occurs due to pneumothorax a chest tube is frequently used to control the latter this eliminates the source of the air entering the subcutaneous space 2 If the volume of subcutaneous air is increasing it may be that the chest tube is not removing air rapidly enough so it may be replaced with a larger one 8 Suction may also be applied to the tube to remove air faster 8 The progression of the condition can be monitored by marking the boundaries of the emphysema on the patient s skin 32 Since treatment usually involves dealing with the underlying condition cases of spontaneous subcutaneous emphysema may require nothing more than bed rest medication to control pain and perhaps supplemental oxygen 5 Breathing oxygen may help the body to absorb the subcutaneous air more quickly 10 Prognosis editAir in subcutaneous tissue does not usually pose a lethal threat 4 small amounts of air are reabsorbed by the body 8 Once the pneumothorax or pneumomediastinum that causes the subcutaneous emphysema is resolved with or without medical intervention the subcutaneous emphysema will usually clear 18 However spontaneous subcutaneous emphysema can in rare cases progress to a life threatening condition 5 and subcutaneous emphysema due to mechanical ventilation may induce ventilatory failure 25 History editThe first report of subcutaneous emphysema resulting from air in the mediastinum was made in 1850 in a patient who had been coughing violently 5 In 1900 the first recorded case of spontaneous subcutaneous emphysema was reported in a bugler for the Royal Marines who had had a tooth extracted playing the instrument had forced air through the hole where the tooth had been and into the tissues of his face 5 Since then another case of spontaneous subcutaneous emphysema was reported in a submariner for the US Navy who had had a root canal in the past the increased pressure in the submarine forced air through it and into his face A case was reported at the University Hospital of Wales of a young man who had been coughing violently causing a rupture in the esophagus resulting in SE 5 The cause of spontaneous subcutaneous emphysema was clarified between 1939 and 1944 by Macklin contributing to the current understanding of the pathophysiology of the condition 5 References edit a b c d e f Papiris SA Roussos C 2004 Pleural disease in the intensive care unit In Bouros D ed Pleural Disease Lung Biology in Health and Disease Florida Bendy Jean Baptiste pp 771 777 ISBN 978 0 8247 4027 6 Retrieved 2008 05 16 a b c d e f g h i Lefor Alan T 2002 Critical Care on Call New York Lange Medical Books McGraw Hill Medical Publishing Division pp 238 240 ISBN 978 0 07 137345 6 Retrieved 2008 05 09 Macklin M T C C Macklin 1944 Malignant interstitial emphysema of the lungs and mediastinum as an important occult complication in many respiratory diseases and other conditions an interpretation of the clinical literature in the light of laboratory experiment Medicine 23 4 281 358 doi 10 1097 00005792 194412000 00001 S2CID 56803581 a b c d Maunder RJ Pierson DJ Hudson LD July 1984 Subcutaneous and mediastinal emphysema Pathophysiology 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Administration p 3 15 ISBN 978 0 16 035939 2 Retrieved 2008 05 09 a b Schnyder P Wintermark M 2000 Radiology of Blunt Trauma of the Chest Berlin Springer pp 10 11 ISBN 978 3 540 66217 4 Retrieved 2008 05 06 a b Peart O 2006 Subcutaneous emphysema Radiologic Technology 77 4 296 PMID 16543482 a b c d e f g Wicky S Wintermark M Schnyder P Capasso P Denys A 2000 Imaging of blunt chest trauma European Radiology 10 10 1524 1538 doi 10 1007 s003300000435 PMID 11044920 S2CID 22311233 Hwang JC Hanowell LH Grande CM 1996 Peri operative concerns in thoracic trauma Bailliere s Clinical Anaesthesiology 10 1 123 153 doi 10 1016 S0950 3501 96 80009 2 Myers JW Neighbors M Tannehill Jones R 2002 Principles of Pathophysiology and Emergency Medical Care Albany N Y Delmar Thomson Learning p 121 ISBN 978 0 7668 2548 2 Retrieved 2008 06 16 a b Grathwohl KW Miller S 2004 Anesthetic implications of minimally invasive urological surgery In Bonnett R Moore RG Bishoff JT Loenig S Docimo SG eds Minimally Invasive Urological Surgery London Taylor amp Francis Group p 105 ISBN 978 1 84184 170 0 Retrieved 2008 05 11 a b Findlay CA Morrissey S Paton JY July 2003 Subcutaneous emphysema secondary to foreign body aspiration Pediatric Pulmonology 36 1 81 82 doi 10 1002 ppul 10295 PMID 12772230 S2CID 33808524 a b c Criner GJ D Alonzo GE 2002 Critical Care Study Guide text and review Berlin Springer p 169 ISBN 978 0 387 95164 5 Retrieved 2008 05 12 Rankine JJ Thomas AN Fluechter D July 2000 Diagnosis of pneumothorax in critically ill adults Postgraduate Medical Journal 76 897 399 404 doi 10 1136 pmj 76 897 399 PMC 1741653 PMID 10878196 Raymond LW June 1995 Pulmonary barotrauma and related events in divers Chest 107 6 1648 52 doi 10 1378 chest 107 6 1648 PMID 7781361 Archived from the original on 2020 03 22 Retrieved 2009 07 05 a b van der Molen AB Birndorf M Dzwierzynski WW Sanger JR May 1999 Subcutaneous tissue emphysema of the hand secondary to noninfectious etiology a report of two cases Journal of Hand Surgery 24 3 638 41 doi 10 1053 jhsu 1999 0638 PMID 10357548 Kosmas EN Polychronopoulos VS 2004 Pleural effusions in gastrointestinal tract diseases In Bouros D ed Pleural Disease Lung Biology in Health and Disease New York N Y Marcel Dekker p 798 ISBN 978 0 8247 4027 6 Retrieved 2008 05 16 Pan PH 1989 Perioperative subcutaneous emphysema Review of differential diagnosis complications management and anesthetic implications Journal of Clinical Anesthesia 1 6 457 459 doi 10 1016 0952 8180 89 90011 1 PMID 2696508 a b Monsour PA Savage NW October 1989 Cervicofacial emphysema following dental procedures Australian Dental Journal 34 5 403 406 doi 10 1111 j 1834 7819 1989 tb00695 x PMID 2684113 a b Conetta R Barman AA Iakovou C Masakayan RJ September 1993 Acute ventilatory failure from massive subcutaneous emphysema Chest 104 3 978 980 doi 10 1378 chest 104 3 978 PMID 8365332 Archived from the original on 2020 03 22 Retrieved 2008 05 09 Levenson RB Singh AK Novelline RA 2008 Fournier gangrene Role of imaging Radiographics 28 2 519 528 doi 10 1148 rg 282075048 PMID 18349455 Gravenstein N Lobato E Kirby RM 2007 Complications in Anesthesiology Hagerstown MD Lippincott Williams amp Wilkins p 171 ISBN 978 0 7817 8263 0 Retrieved 2008 05 12 Abu Omar Y Catarino PA February 2002 Progressive subcutaneous emphysema and respiratory arrest Journal of the Royal Society of Medicine 95 2 90 91 doi 10 1177 014107680209500210 PMC 1279319 PMID 11823553 Maunder R J D J Pierson L D Hudson July 1984 Subcutaneous and mediastinal emphysema Pathophysiology diagnosis and management Archives of Internal Medicine 144 7 1447 1453 doi 10 1001 archinte 144 7 1447 ISSN 0003 9926 PMID 6375617 Romero Kleber J Maximo H Trujillo 2010 04 21 Spontaneous pneumomediastinum and subcutaneous emphysema in asthma exacerbation The Macklin effect Heart amp Lung The Journal of Critical Care 39 5 444 7 doi 10 1016 j hrtlng 2009 10 001 ISSN 1527 3288 PMID 20561891 Ito Takeo Koichi Goto Kiyotaka Yoh Seiji Niho Hironobu Ohmatsu Kaoru Kubota Kanji Nagai Eishi Miyazaki Toshihide Kumamoto Yutaka Nishiwaki July 2010 Hypertrophic pulmonary osteoarthropathy as a paraneoplastic manifestation of lung cancer Journal of Thoracic Oncology 5 7 976 980 doi 10 1097 JTO 0b013e3181dc1f3c ISSN 1556 1380 PMID 20453688 S2CID 2989121 a b Carpenito Moyet LJ 2004 Nursing Care Plans and Documentation Nursing Diagnoses and Collaborative Problems Hagerstown MD Lippincott Williams amp Wilkins p 889 ISBN 978 0 7817 3906 1 Retrieved 2008 05 12 External links edit Retrieved from https en wikipedia org w index php title Subcutaneous emphysema amp oldid 1179687508, wikipedia, wiki, book, books, library,

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