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'''Abdominal angina''' is [[abdominal pain]] after eating caused by a reduction in blood flow to [[inferior mesenteric artery]] (IMA), [[celiac trunk]], [[superior mesenteric artery]] (SMA), or the surrounding organs.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=969}} Symptoms include postprandial [[abdominal pain]], [[weight loss]], [[diarrhea]], [[nausea]], [[vomiting]], and an aversion or fear of eating caused by the pain associated with eating.
'''Abdominal angina''' is [[abdominal pain]] after eating caused by a reduction of blood flow to the [[celiac trunk]], [[superior mesenteric artery|superior mesenteric arteries]] (SMA), [[inferior mesenteric artery]] (IMA), or the surrounding organs.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=969}} Symptoms include [[abdominal pain]], [[weight loss]], [[diarrhea]], [[nausea]], [[vomiting]], and an aversion or fear of eating caused by the pain associated with eating.


Abdominal angina is caused by obstruction or [[stenosis]] of the [[inferior mesenteric artery]], [[celiac trunk]], or [[superior mesenteric artery]]. Gender, age, smoking, [[hypertension]], [[diabetes]], and [[hyperlipidemia]] are all significant risk factors for abdominal angina. The [[digestive tract]] relies on the celiac, superior mesenteric, and inferior mesenteric arteries for blood flow. Abdominal pain occurs when these arteries fail to provide adequate blood flow, causing [[ischemia]] of affected tissues. The gastrointestinal system has [[collateral circulation]], which can worsen in cases of vascular stenosis. The number of arteries required for persistent ischemia symptoms is debatable, and angina occurrence is determined by factors like the lesions location, advancement time, and concurrent disorders impacting [[angiogenesis]].
Abdominal angina is caused by obstruction or [[stenosis]] of the [[inferior mesenteric artery]], [[celiac trunk]], or [[superior mesenteric artery]]. Gender, age, smoking, [[hypertension]], [[diabetes]], and [[hyperlipidemia]] are risk factors for abdominal angina. The [[digestive tract]] relies on the celiac, superior mesenteric, and inferior mesenteric arteries for blood flow. Abdominal pain occurs when these arteries fail to provide adequate blood flow.


Abdominal angina is diagnosed using imaging to identify [[stenosis]]. Differential diagnoses include [[GERD]], [[Food intolerance|dietary sensitivities]], [[constipation]], [[pancreatitis]], abdominal abscess, [[appendicitis]], [[irritable bowel syndrome]], [[gastroenteritis]], [[hepatitis]], and gastrointestinal system inflammation. [[Duplex ultrasound]], [[MR angiography]], [[angiography]], and [[CT angiography]] can help confirm the diagnosis of abdominal angina. Abdominal angina is treated based on severity and cause. [[Chronic mesenteric ischemia]] requires surgical [[revascularization]] and treatment like [[Stent|stents]], transaortic [[endarterectomy]], or bypassing the arteries.
Abdominal angina is diagnosed using imaging to identify [[stenosis]]. Differential diagnoses include [[GERD]], [[Food intolerance|dietary sensitivities]], [[constipation]], [[pancreatitis]], abdominal abscess, [[appendicitis]], [[irritable bowel syndrome]], [[gastroenteritis]], [[hepatitis]], and gastrointestinal system inflammation. [[Chronic mesenteric ischemia]] requires surgical [[revascularization]] and treatment like [[Stent|stents]], transaortic [[endarterectomy]], or bypassing the arteries.


Abdominal angina often presents with a one-year delay between symptoms and treatment, leading to complications like malnutrition or bowel infarction. Abdominal angina is more prevalent in females with a 3:1 ratio, and the average age of onset is 60 years. Abdominal angina, first coined by Dr. Baccelli in 1918, refers to lower abdominal pain after eating. Dunphy connected it to gastrointestinal necrosis in 1936, and 21 years later, Mikkelson introduced surgery to restore blood flow.
Abdominal angina often has a one-year delay between symptoms and treatment, leading to complications like [[malnutrition]] or bowel infarction. Abdominal angina is more prevalent in females with a 3:1 ratio, and the average age of onset is 60 years. Abdominal angina was first described by Dr. Baccelli in 1918 as lower abdominal pain after eating.


== Signs and symptoms ==
== Signs and symptoms ==
Line 41: Line 42:
== Causes ==
== Causes ==
[[File:Arterial atherosclerosis.jpg|thumb|Enhanced [[computed tomography]] showing severe [[atherosclerosis]] of the arteries. The [[aorta]] shows broad calcifications, and the [[celiac artery]] shows moderate [[stenosis]], although the lumen of the [[superior mesenteric artery]] was relatively patent. In addition, [[stenosis]] of the [[inferior mesenteric artery]] was very severe.|326x326px]]
[[File:Arterial atherosclerosis.jpg|thumb|Enhanced [[computed tomography]] showing severe [[atherosclerosis]] of the arteries. The [[aorta]] shows broad calcifications, and the [[celiac artery]] shows moderate [[stenosis]], although the lumen of the [[superior mesenteric artery]] was relatively patent. In addition, [[stenosis]] of the [[inferior mesenteric artery]] was very severe.|326x326px]]
Abdominal angina is caused by obstruction or [[stenosis]] of the [[inferior mesenteric artery]] (IMA), [[celiac trunk]], or [[superior mesenteric artery]] (SMA).{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=970}} More than 95% of the time abdominal angina is caused by stenosis of the splanchnic arteries due to local [[atherosclerosis]].{{sfn | van Bockel | Geelkerken | Wasser | 2001 | p=102}}{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=389}} The occlusion mainly affects the ostia or the last few proximal centimetres of the [[mesenteric arteries]].{{sfn | Tyson | 2010 | p=19}}
Abdominal angina is caused by obstruction or [[stenosis]] of the [[inferior mesenteric artery]] (IMA), [[celiac trunk]], or [[superior mesenteric artery]] (SMA).{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=970}} More than 95% of abdominal angina is caused by stenosis of the splanchnic arteries due to local [[atherosclerosis]].{{sfn | van Bockel | Geelkerken | Wasser | 2001 | p=102}}{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=389}} The occlusion mainly affects the ostia or the last few centimetres of the [[mesenteric arteries]].{{sfn | Tyson | 2010 | p=19}}


In rare cases, compression of the celiac trunk by the diaphragm's arcuate ligament can result in isolated occlusive disease (also known as "[[median arcuate ligament syndrome]]").{{sfn | van Bockel | Geelkerken | Wasser | 2001 | p=102}} Other less common causes of vascular obstruction include [[vasculitis]], chronic mesenteric [[venous thrombosis]], [[fibromuscular dysplasia]], [[radiation enteritis]], and, in rare cases, extrinsic obstruction or vessel encasement by a tumour.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=390}}
In rare cases, compression of the celiac trunk by the diaphragm's arcuate ligament can result in isolated occlusive disease (also known as "[[median arcuate ligament syndrome]]").{{sfn | van Bockel | Geelkerken | Wasser | 2001 | p=102}} Other less common causes of vascular obstruction include [[vasculitis]], chronic mesenteric [[venous thrombosis]], [[fibromuscular dysplasia]], [[radiation enteritis]], and, in rare cases, extrinsic obstruction or vessel encasement by a tumour.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=390}}


=== Risk factors ===
=== Risk factors ===
Gender appears to play a crucial effect in the development of abdominal angina. Women are threefold more likely to develop abdominal angina than men. Age also plays a role. The average age of onset is more than 60. This data corresponds with the vascular damage that occurs during the aging process. Furthermore, smoking has been demonstrated to play an important function in the development of abdominal angina. Smokers account for 75% to 80% of all abdominal angina cases. [[Hypertension]] is another known risk factor. Six out of ten patients with abdominal angina will be hypertensive. Approximately 82% have [[diabetes]]. [[Hyperlipidemia]], which frequently causes [[peripheral vascular disease]], raises the risk of abdominal angina by 70% and correlates with the [[Atherosclerosis|atherosclerotic]] aspect of the disease process.{{sfn | Tyson | 2010 | p=18}}
Approximately 82% of those with abdominal angina have [[diabetes]]. [[Hyperlipidemia]], which frequently causes [[peripheral vascular disease]], raises the risk of abdominal angina by 70% and correlates with the [[Atherosclerosis|atherosclerotic]] aspect of the disease process. Smoking plays a part in the development of abdominal angina. Smokers account for 75% to 80% of all abdominal angina cases. Age also plays a role. The average age of onset is more than 60. This data corresponds with the vascular damage that occurs with age. Gender appears to play a role in the development of abdominal angina. Women are threefold more likely to develop abdominal angina than men. [[Hypertension]] is another known risk factor. Six out of ten of those with abdominal angina will be hypertensive.{{sfn | Tyson | 2010 | p=18}}


== Mechanisms ==
== Mechanisms ==
Line 66: Line 67:
The [[Celiac artery|celiac]], [[Superior mesenteric artery|superior mesenteric]], and [[Inferior mesenteric artery|inferior mesenteric]] arteries are the three primary blood vessels that support the [[digestive tract]]. [[Abdominal pain]] happens because the digestive processes require increased blood flow to the stomach. The stenotic or occluded artery cannot give adequate blood flow. The pain is caused by [[ischemia]] of the affected tissues, which do not receive the essential perfusion to preform digestion.{{sfn | Tyson | 2010 | p=19}}
The [[Celiac artery|celiac]], [[Superior mesenteric artery|superior mesenteric]], and [[Inferior mesenteric artery|inferior mesenteric]] arteries are the three primary blood vessels that support the [[digestive tract]]. [[Abdominal pain]] happens because the digestive processes require increased blood flow to the stomach. The stenotic or occluded artery cannot give adequate blood flow. The pain is caused by [[ischemia]] of the affected tissues, which do not receive the essential perfusion to preform digestion.{{sfn | Tyson | 2010 | p=19}}


The gastrointestinal system has significant [[collateral circulation]], which may worsen in cases of slowly progressing vascular [[stenosis]]. Along with the protection provided by collateral blood flow, the colon possesses various other mechanisms to prevent [[ischemia]] injury, such as opening of all mesenteric capillaries, redistribution of intramural blood supply, and improved oxygen extraction. But if those are exceeded, these defensive mechanisms become overwhelmed and no longer provide protection.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=390}}
The gastrointestinal system has significant [[collateral circulation]], which may worsen in cases of vascular [[stenosis]]. Along with the protection provided by collateral blood flow, the colon possesses various other mechanisms to prevent [[ischemia]], such as opening of all mesenteric capillaries, redistribution of intramural blood supply, and improved oxygen extraction. But if those are exceeded, these defensive mechanisms become overwhelmed and no longer provide protection.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=390}}


Some people with a single-vessel lesion experience discomfort, while others with up to three lesions are asymptomatic; hence, the number of arteries required to cause symptoms of persistent ischemia is debatable. Furthermore, the occurrence of angina is determined by criteria besides the number of arteries affected, such as the location of the lesion, the time of advancement of the lesions, and concurrent disorders that impact [[angiogenesis]].{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=390}}
Some people with a single-vessel lesion experience symptoms, while others with up to three lesions are asymptomatic; hence, the number of arteries required to cause symptoms of ischemia is debatable. The occurrence of angina is determined by factors besides the number of arteries affected, such as the location of the lesion, the time of advancement of the lesions, and concurrent disorders that impact [[angiogenesis]].{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=390}}


== Diagnosis ==
== Diagnosis ==
[[File:Stenosis of the superior mesenteric artery.jpg|thumb|A [[Computed tomography angiography|computed tomography angiogram]] showing [[stenosis]] of the [[superior mesenteric artery]] (arrow).]]
[[File:Stenosis of the superior mesenteric artery.jpg|thumb|A [[Computed tomography angiography|computed tomography angiogram]] showing [[stenosis]] of the [[superior mesenteric artery]] (arrow).]]
Abdominal angina is diagnosed by identifying [[stenosis]] with imaging.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=973}} Since the symptoms of abdominal angina overlap with various other disorders, other causes of symptoms are ruled out as a part of the diagnostic process. [[Gastric ulcers]], [[Abdominal aortic aneurysm|abdominal aortic aneurysms]], and [[Gastrointestinal cancer|gastrointestinal cancers]] can have similar symptoms and can be ruled out by [[esophagogastroduodenoscopy]], [[CT scan]]s, or [[MR angiogram]]. Other differential diagnoses include [[Gastroesophageal reflux disease|GERD]], dietary or [[food sensitivities]], [[constipation]], [[pancreatitis]], abdominal abscess, [[appendicitis]], [[irritable bowel syndrome]], [[gastroenteritis]], [[hepatitis]], and inflammation of the gastrointestinal system.{{sfn | Tyson | 2010 | pp=20-21}} [[Duplex ultrasound]], [[MR angiography]], [[angiography]], and [[computed tomography angiography]] can be used to help confirm the diagnosis of abdominal angina.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=391}} Duplex ultrasound may be used to screen for abdominal angina but isn't ideal for visualizing stenosis. Angiography, MR angiography, or CT angiography can be used to further visualize the celiac and mesenteric arteries.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=393}}
Abdominal angina is diagnosed by identifying [[stenosis]] with imaging.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=973}} Since the symptoms of abdominal angina overlap with various other disorders, other causes of symptoms are ruled out as a part of the diagnostic process. [[Gastric ulcers]], [[Abdominal aortic aneurysm|abdominal aortic aneurysms]], and [[Gastrointestinal cancer|gastrointestinal cancers]] can have similar symptoms and can be ruled out by [[esophagogastroduodenoscopy]], [[CT scan]]s, or [[MR angiogram]]. Other differential diagnoses include [[Gastroesophageal reflux disease|GERD]], dietary or [[food sensitivities]], [[constipation]], [[pancreatitis]], abdominal abscess, [[appendicitis]], [[irritable bowel syndrome]], [[gastroenteritis]], [[hepatitis]], and inflammation of the gastrointestinal system.{{sfn | Tyson | 2010 | pp=20-21}} [[Duplex ultrasound]], [[MR angiography]], [[angiography]], and [[computed tomography angiography]] can be used to help confirm the diagnosis of abdominal angina.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=391}} Duplex ultrasound may be used to screen for abdominal angina but is not ideal for visualizing stenosis. Angiography, MR angiography, or CT angiography can be used to further visualize the celiac and mesenteric arteries.{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=393}}


== Treatment ==
== Treatment and outlook ==
Abdominal angina is treated differently based on the severity and cause. [[Antibiotic]]s are often used in the case of [[colonic ischemia]] as there is often cooccuring infections. When possible the underlying cause of abdominal angina may be treated. This includes medications to treat [[heart failure]], [[hypertension]], [[Arrhythmia|dysrhythmia]], or [[hyperlipidemia]].{{sfn | Tyson | 2010 | p=21}}
Abdominal angina is treated differently based on the severity and cause. [[Antibiotic]]s are often used in the case of [[colonic ischemia]] as there is often cooccuring infections. When possible the underlying cause of abdominal angina may be treated. This includes medications to treat [[heart failure]], [[hypertension]], [[Arrhythmia|dysrhythmia]], or [[hyperlipidemia]].{{sfn | Tyson | 2010 | p=21}}


The most effective treatment for [[chronic mesenteric ischemia]] is surgical [[revascularization]] and percutaneous treatment such as [[Stent|stents]].{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=393}} Surgical treatment may include transaortic [[endarterectomy]] of the effected arteries or creating a retrograde or anterograde bypass in the arteries.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=974}}
The most effective treatment for [[chronic mesenteric ischemia]] is surgical [[revascularization]] and percutaneous treatment such as [[Stent|stents]].{{sfn | Biolato | Miele | Gasbarrini | Grieco | 2009 | p=393}} Surgical treatment may include transaortic [[endarterectomy]] of the effected arteries or creating a retrograde or anterograde bypass in the arteries.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=974}}


== Outlook ==
Similarly to other [[vascular disorders]], abdominal angina can be slowly progressive. There is often a one-year delay between the onset of symptoms and treatment. Complications of abdominal angina such as [[malnutrition]] or [[bowel infarction]] can cause increased morbidity and mortality in this population.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=970}}{{sfn | Waldman | 2014 | p=213}}
Similarly to other [[vascular disorders]], abdominal angina can be slowly progressive. There is often a one-year delay between the onset of symptoms and treatment. Complications of abdominal angina such as [[malnutrition]] or [[bowel infarction]] can cause increased morbidity and mortality in this population.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=970}}{{sfn | Waldman | 2014 | p=213}}


== Epidemiology ==
== Epidemiology and history ==
The prevalence of abdominal angina is unknown. It is more prevalent in females than males with a ratio of 3:1. The mean age of those affected is 60 years old.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=970}}
The prevalence of abdominal angina is unknown. It is more prevalent in females than males with a ratio of 3:1. The mean age of those affected is 60 years old.{{sfn | Cademartiri | Raaijmakers | Kuiper | van Dijk | 2004 | p=970}}


The term "abdominal angina" was first used by Dr. Baccelli in 1918. He used the term to describe a group of patients who had developed lower abdominal pain after eating. In 1936 Dunphy made the connection between abdominal angina and gastrointestinal necrosis. 21 years later Mikkelson introduced a surgery which could help restore blood flow to the gastrointestinal system. Although there was early interest in research, there has been very little subsequent research in the years following.{{sfn | Tyson | 2010 | p=16}}
== History ==
The term "abdominal angina" was first used by Dr. Baccelli in 1918. He used the term to describe a group of patients who had developed lower abdominal pain after eating. In 1936 Dunphy made the connection between abdominal angina and gastrointestinal necrosis. 21 years later Mikkelson introduced a surgery which could help restore blood flow to the gastrointestinal system.{{sfn | Tyson | 2010 | p=16}}


== See also ==
== See also ==

Latest revision as of 06:23, 27 October 2024

Abdominal angina
Other namesIntestinal angina
CT angiogram demonstrating stenosis of the superior mesenteric artery.
SpecialtyGeneral surgery

Abdominal angina is abdominal pain after eating caused by a reduction of blood flow to the celiac trunksuperior mesenteric arteries (SMA), inferior mesenteric artery (IMA), or the surrounding organs.[1] Symptoms include abdominal pain, weight loss, diarrhea, nausea, vomiting, and an aversion or fear of eating caused by the pain associated with eating.

Abdominal angina is caused by obstruction or stenosis of the inferior mesenteric artery, celiac trunk, or superior mesenteric artery. Gender, age, smoking, hypertension, diabetes, and hyperlipidemia are risk factors for abdominal angina. The digestive tract relies on the celiac, superior mesenteric, and inferior mesenteric arteries for blood flow. Abdominal pain occurs when these arteries fail to provide adequate blood flow.

Abdominal angina is diagnosed using imaging to identify stenosis. Differential diagnoses include GERD, dietary sensitivities, constipation, pancreatitis, abdominal abscess, appendicitis, irritable bowel syndrome, gastroenteritis, hepatitis, and gastrointestinal system inflammation. Chronic mesenteric ischemia requires surgical revascularization and treatment like stents, transaortic endarterectomy, or bypassing the arteries.

Abdominal angina often has a one-year delay between symptoms and treatment, leading to complications like malnutrition or bowel infarction. Abdominal angina is more prevalent in females with a 3:1 ratio, and the average age of onset is 60 years. Abdominal angina was first described by Dr. Baccelli in 1918 as lower abdominal pain after eating.

Signs and symptoms

[edit]

Symptoms of abdominal angina include postprandial abdominal pain, weight loss, diarrhea, nausea, vomiting, and an aversion or fear of eating caused by the pain associated with eating.[2]

Abdominal angina usually starts 30 minutes after eating and persists for one to three hours. Individuals typically express the pain as a dull ache by clenching their fists over the epigastrium (Levine sign).[3]

Sometimes people may reduce their caloric intake in an attempt to decrease pain which can lead to weight loss. There may also be changes in bowel habits, most commonly diarrhea from malabsorption or rarely constipation.[3]

Causes

[edit]
Enhanced computed tomography showing severe atherosclerosis of the arteries. The aorta shows broad calcifications, and the celiac artery shows moderate stenosis, although the lumen of the superior mesenteric artery was relatively patent. In addition, stenosis of the inferior mesenteric artery was very severe.

Abdominal angina is caused by obstruction or stenosis of the inferior mesenteric artery (IMA), celiac trunk, or superior mesenteric artery (SMA).[4] More than 95% of abdominal angina is caused by stenosis of the splanchnic arteries due to local atherosclerosis.[5][6] The occlusion mainly affects the ostia or the last few centimetres of the mesenteric arteries.[7]

In rare cases, compression of the celiac trunk by the diaphragm's arcuate ligament can result in isolated occlusive disease (also known as "median arcuate ligament syndrome").[5] Other less common causes of vascular obstruction include vasculitis, chronic mesenteric venous thrombosis, fibromuscular dysplasia, radiation enteritis, and, in rare cases, extrinsic obstruction or vessel encasement by a tumour.[8]

Risk factors

[edit]

Approximately 82% of those with abdominal angina have diabetes. Hyperlipidemia, which frequently causes peripheral vascular disease, raises the risk of abdominal angina by 70% and correlates with the atherosclerotic aspect of the disease process. Smoking plays a part in the development of abdominal angina. Smokers account for 75% to 80% of all abdominal angina cases. Age also plays a role. The average age of onset is more than 60. This data corresponds with the vascular damage that occurs with age. Gender appears to play a role in the development of abdominal angina. Women are threefold more likely to develop abdominal angina than men. Hypertension is another known risk factor. Six out of ten of those with abdominal angina will be hypertensive.[9]

Mechanisms

[edit]
Blood supply of the gastrointestinal system.
The celiac artery and its branches.
The superior mesenteric artery and its branches.
The inferior mesenteric artery and its branches.

The celiac, superior mesenteric, and inferior mesenteric arteries are the three primary blood vessels that support the digestive tract. Abdominal pain happens because the digestive processes require increased blood flow to the stomach. The stenotic or occluded artery cannot give adequate blood flow. The pain is caused by ischemia of the affected tissues, which do not receive the essential perfusion to preform digestion.[7]

The gastrointestinal system has significant collateral circulation, which may worsen in cases of vascular stenosis. Along with the protection provided by collateral blood flow, the colon possesses various other mechanisms to prevent ischemia, such as opening of all mesenteric capillaries, redistribution of intramural blood supply, and improved oxygen extraction. But if those are exceeded, these defensive mechanisms become overwhelmed and no longer provide protection.[8]

Some people with a single-vessel lesion experience symptoms, while others with up to three lesions are asymptomatic; hence, the number of arteries required to cause symptoms of ischemia is debatable. The occurrence of angina is determined by factors besides the number of arteries affected, such as the location of the lesion, the time of advancement of the lesions, and concurrent disorders that impact angiogenesis.[8]

Diagnosis

[edit]
A computed tomography angiogram showing stenosis of the superior mesenteric artery (arrow).

Abdominal angina is diagnosed by identifying stenosis with imaging.[10] Since the symptoms of abdominal angina overlap with various other disorders, other causes of symptoms are ruled out as a part of the diagnostic process. Gastric ulcers, abdominal aortic aneurysms, and gastrointestinal cancers can have similar symptoms and can be ruled out by esophagogastroduodenoscopy, CT scans, or MR angiogram. Other differential diagnoses include GERD, dietary or food sensitivities, constipation, pancreatitis, abdominal abscess, appendicitis, irritable bowel syndrome, gastroenteritis, hepatitis, and inflammation of the gastrointestinal system.[11] Duplex ultrasound, MR angiography, angiography, and computed tomography angiography can be used to help confirm the diagnosis of abdominal angina.[3] Duplex ultrasound may be used to screen for abdominal angina but is not ideal for visualizing stenosis. Angiography, MR angiography, or CT angiography can be used to further visualize the celiac and mesenteric arteries.[12]

Treatment and outlook

[edit]

Abdominal angina is treated differently based on the severity and cause. Antibiotics are often used in the case of colonic ischemia as there is often cooccuring infections. When possible the underlying cause of abdominal angina may be treated. This includes medications to treat heart failure, hypertension, dysrhythmia, or hyperlipidemia.[13]

The most effective treatment for chronic mesenteric ischemia is surgical revascularization and percutaneous treatment such as stents.[12] Surgical treatment may include transaortic endarterectomy of the effected arteries or creating a retrograde or anterograde bypass in the arteries.[14]

Similarly to other vascular disorders, abdominal angina can be slowly progressive. There is often a one-year delay between the onset of symptoms and treatment. Complications of abdominal angina such as malnutrition or bowel infarction can cause increased morbidity and mortality in this population.[4][15]

Epidemiology and history

[edit]

The prevalence of abdominal angina is unknown. It is more prevalent in females than males with a ratio of 3:1. The mean age of those affected is 60 years old.[4]

The term "abdominal angina" was first used by Dr. Baccelli in 1918. He used the term to describe a group of patients who had developed lower abdominal pain after eating. In 1936 Dunphy made the connection between abdominal angina and gastrointestinal necrosis. 21 years later Mikkelson introduced a surgery which could help restore blood flow to the gastrointestinal system. Although there was early interest in research, there has been very little subsequent research in the years following.[16]

See also

[edit]

References

[edit]

Ciatations

[edit]
  1. ^ Cademartiri et al. 2004, p. 969.
  2. ^ Tyson 2010, p. 20.
  3. ^ a b c Biolato et al. 2009, p. 391.
  4. ^ a b c Cademartiri et al. 2004, p. 970.
  5. ^ a b van Bockel, Geelkerken & Wasser 2001, p. 102.
  6. ^ Biolato et al. 2009, p. 389.
  7. ^ a b Tyson 2010, p. 19.
  8. ^ a b c Biolato et al. 2009, p. 390.
  9. ^ Tyson 2010, p. 18.
  10. ^ Cademartiri et al. 2004, p. 973.
  11. ^ Tyson 2010, pp. 20–21.
  12. ^ a b Biolato et al. 2009, p. 393.
  13. ^ Tyson 2010, p. 21.
  14. ^ Cademartiri et al. 2004, p. 974.
  15. ^ Waldman 2014, p. 213.
  16. ^ Tyson 2010, p. 16.

Sources

[edit]
  • Cademartiri, Filippo; Raaijmakers, Rolf H. J. M.; Kuiper, Jan W.; van Dijk, Lukas C.; Pattynama, Peter M. T.; Krestin, Gabriel P. (July 2004). "Multi–Detector Row CT Angiography in Patients with Abdominal Angina". RadioGraphics. 24 (4). Radiological Society of North America (RSNA): 969–984. doi:10.1148/rg.244035166. ISSN 0271-5333. PMID 15256621.
  • Tyson, Ronald Lee (November 2010). "Diagnosis and treatment of abdominal angina". The Nurse Practitioner. 35 (11). Ovid Technologies (Wolters Kluwer Health): 16–22. doi:10.1097/01.NPR.0000388938.08875.99. ISSN 0361-1817. PMID 20935581.
  • Biolato, Marco; Miele, Luca; Gasbarrini, Giovanni; Grieco, Antonio (November 2009). "Abdominal Angina". The American Journal of the Medical Sciences. 338 (5). Elsevier: 389–395. doi:10.1097/MAJ.0b013e3181a85c3b. PMID 19794303.
  • van Bockel, J.Hajo; Geelkerken, Robert H.; Wasser, Martin N. (February 2001). "Chronic splanchnic ischaemia". Best Practice & Research Clinical Gastroenterology. 15 (1). Elsevier: 99–119. doi:10.1053/bega.2001.0158. ISSN 1521-6918. PMID 11355903.
  • Waldman, Steven D. (2014). "Abdominal Angina". Atlas of Uncommon Pain Syndromes. Elsevier. doi:10.1016/b978-1-4557-0999-1.00073-3. ISBN 978-1-4557-0999-1.

Further reading

[edit]
[edit]