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Small bowel ischemia and infarction



Gastrointestinal system


Peritoneum and peritoneal cavity
Upper gastrointestinal tract disorders
Lower gastrointestinal tract disorders
Liver, gallbladder and pancreas disorders
Gastrointestinal system pathology review

Small bowel ischemia and infarction


0 / 5 complete


1 / 3 complete
High Yield Notes
20 pages

Small bowel ischemia and infarction

5 flashcards

USMLE® Step 1 style questions USMLE

3 questions

USMLE® Step 2 style questions USMLE

3 questions

A 77-year-old woman comes to the emergency department because of acute abdominal pain. She rates the pain a 10 on a 10-point scale and localizes it to her umbilicus. She also says she experiences nausea and vomiting. She denies diarrhea or constipation. She has a past medical history of congestive heart failure. She has never had any surgeries. She has a 10-pack-year history of smoking cigarettes. Her temperature is 37.0ºC (98.6ºF), pulse is 80/min, respirations are 16/min, and blood pressure is 120/90 mm Hg. Physical examination shows a soft, nontender, nondistended abdomen with no rebound tenderness or guarding. The lower extremities have 1+ pitting edema

Which of the following is the most likely pathological process underlying this patient’s condition? 


Small bowel refers to the small intestine and infarction is when ischemia, which is an inadequate blood supply, causes necrosis, or tissue death.

So, a small bowel infarction happens when there’s a reduced blood supply to the small intestine causing parts of the intestinal wall to necrose or die which can be life threatening.

Now, the small intestine is made of several layers.

The innermost layer is the mucosal layer and it’s composed of a few of its own layers.

The first layer is the epithelial lining and it faces the lumen; next is the lamina propria, which is rich with blood and lymph vessels; and finally the muscularis mucosae, which has smooth muscle.

Deep to this mucosal layer is the submucosal layer, which has connective tissue with proteins like collagen and elastin, as well as glands, and additional blood vessels.

The submucosal layer also contains the Meissner plexus which is a part of the enteric nervous system.

Below the submucosal layer is the muscularis propria which is basically two layers of smooth muscle with the myenteric plexus, another part of the enteric nervous system, sandwiched between them.

These muscles are particularly important in helping to move food through the bowel.

Finally, there’s the serosal layer which is the outermost layer of the small intestines that faces the abdominal cavity.

The superior mesenteric artery is the main supplier of blood to the small intestine.

Branches of the artery spread through the mesentery - called mesenteric arteries - and penetrate the serosa layer and travel to the submucosa where they branch further into arterioles.

Because the small intestine has a high demand for oxygen and nutrients to sustain digestion, it is highly susceptible to tissue injury from ischemia.

To reduce the risk of that happening, the mesenteric arteries branch and reconnect at points forming collateral circulation.

That’s protective because if blood flow is reduced in one pathway, then the tissue can still receive blood through another pathway.

Once the small intestines have gotten oxygenated blood, that blood leaves through the superior mesenteric vein.

Small bowel infarction happens when there’s a significant decrease in blood flow to the small intestine.

This reduction in blood flow decreases blood pressure, and can cause an insufficient blood flow throughout the collateral circulation which initiates ischemic injury in a wide region of tissue.

At the cellular level, ischemic injury can lead to the production of reactive oxygen species which can damage DNA, RNA, and proteins in the cell, leading to cell death.

If blood flow returns to the ischemic tissue, it’s called reperfusion.

Unfortunately, though, that process can cause further injury - called reperfusion injury.

In reperfusion injury, the influx of oxygen into an already damaged cell can be overwhelming and can cause even more oxidative stress, which worsens the cell damage.

As damaged cells release reactive oxygen species, it triggers an inflammatory response which attracts immune cells, like neutrophils.

The immune cells remove dead and damaged cells and release of cytokines, like Tumor necrosis factor-alpha.

The cytokines cause blood vessels to become more permeable to fluid and more immune cells - resulting in bowel edema or swelling of the small intestinal wall.

Small bowel ischemia and infarction becomes more severe as the damage extends from just the mucosal layer, called a mucosal infarct, to all layers, known as a transmural infarction.

Early on bowel ischemia can make the bowels simply not work - resulting in an ileus - where food lingers and doesn’t get pushed along.

Severe damage to the small intestines can also cause a break in the epithelial lining of the small intestines, allowing bacteria in the lumen to get into the blood vessels in the wall.