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Lower gastrointestinal bleeding

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Title: Lower gastrointestinal bleeding  
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Subject: Gastrointestinal bleeding, Ischemic colitis, Hematochezia, Blood in stool, Colorectal cancer
Collection: Bleeding, Gi Tract Disorders
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Lower gastrointestinal bleeding

Lower gastrointestinal bleeding
Classification and external resources
ICD-10 K92.2
ICD-9-CM 578.9
MedlinePlus 003133
eMedicine radio/301

Lower gastrointestinal bleeding, commonly abbreviated LGIB, refers to any form of bleeding in the lower gastrointestinal tract. LGIB is a common ailment seen at emergency departments.[1] It presents less commonly than upper gastrointestinal bleeding (UGIB). It is estimated that UGIB accounts for 100–200 per 100,000 cases versus 20–27 per 100,000 cases for LGIB.[2] Approximately 85% of lower gastrointestinal bleeding involves the colon, 10% are from bleeds that are actually upper gastrointestinal bleeds, and 3–5% involve the small intestines.[3]


  • Symptoms and Signs 1
    • History 1.1
    • Physical findings 1.2
      • Vital signs 1.2.1
      • Abdominal examination 1.2.2
      • Rectal examination 1.2.3
  • Laboratory Findings 2
  • Presentation 3
  • Causes 4
  • Diagnosis 5
    • Anoscopy 5.1
    • Flexible sigmoidoscopy 5.2
    • Colonoscopy 5.3
  • Management 6
  • See also 7
  • References 8

Symptoms and Signs


The history in these patients should focus on factors that could be associated with potential causes: blood coating the stool suggests hemorrhoidal bleeding while blood mixed in the stool implies a more proximal source; bloody diarrhea and tenesmus is associated with inflammatory bowel disease while bloody diarrhea with fever and abdominal pain especially with recent travel history suggests infectious colitis; pain with defecation occurs with hemorrhoids and anal fissure; change in stool caliber and weight loss is concerning for colon cancer; abdominal pain can be associated with inflammatory bowel disease, infectious colitis, or ischemic colitis; painless bleeding is characteristic of diverticular bleeding, arteriovenous malformation (AVM), and radiation proctitis; nonsteroidal anti-inflammatory drug (NSAID) use is a risk factor for diverticular bleeding and NSAID-induced colonic ulcer; and recent colonoscopy with polypectomy suggests postpolypectomy bleeding. Patients should be asked about symptoms of hemodynamic compromise, including dyspnea, chest pain, lightheadedness, and fatigue.[4]

Physical findings

Vital signs

Orthostatic hypotension implies at least a 15% loss of blood volume.

Abdominal examination

Evaluate for tenderness, masses, liver span, and splenomegaly.

Rectal examination

Key elements include inspection of the anus,palpation for masses,characterization of the stool color, and stool guaiac card test.

Laboratory Findings

Among the blood tests that should be performed are a complete blood count, Prothrombin time, Partial thromboplastin time, electrolytes, and typing and cross-matching for blood products.[5] Coagulopathy and thrombocytopenia should be immediately corrected if possible. Platelets should be maintained above 50,000/mL and coagulopathy should be corrected with vitamin K or fresh frozen plasma.Vitamin K should be taken orally unless the patient has cirrhosis or biliary obstruction, in which case it should be administered subcutaneously.The full effect of vitamin K is not obtained for 12–24 hours, unlike fresh frozen plasma which immediately reverses coagulopathy.The intravenous formulation of vitamin K reverses coagulopathy more quickly and may be used in cases of severe bleeding, however, patients should be monitored for anaphylaxis.The effects of fresh frozen plasma last about 3–5 hours and large volumes (> 2–3 L) may be required to completely reverse coagulopathy, depending on the initial prothrombin time. Recombinant activated factor VII has been approved for use in patients with hemophilia A and B with factor VIII and IX inhibitors. Evidence of possible benefit in patients with cirrhosis and GI bleeding has been demonstrated, although the optimal dose is unclear and recombinant activated factor VII is very expensive.[6]


A lower Gastrointestinal Bleed is referred as any bleed that occurs distal to the ligament of Treitz and superior to the anus. This includes the last 1/4 of the duodenum and the entire area of the jejunum, ileum, colon, rectum, and anus.[1]

The stool of a person with a lower gastrointestinal bleed is a good (but not infallible) indication of where the bleeding is occurring. Black tarry appearing stools medically referred to as melena usually indicates blood that has been in the GI tract for at least 8 hours.[1] Melena is four-times more likely to come from an upper gastrointestinal bleed than from the lower GI tract; however, it can also occur in either the duodenum and jejunum, and occasionally the portions of the small intestine and proximal colon.[7] Bright red stool, called hematochezia, is the sign of a fast moving active GI bleed.[1] The bright red or Maroon color is due to the short time taken from the site of the bleed and the exiting at the anus. The presence of hematochezia is six-times greater in a LGIB than with a UGIB.[7]

Occasionally, a person with a LGIB will not present with any signs of internal bleeding, especially if there is a chronic bleed with ongoing low levels of blood loss. In these cases, a diagnostic assessment or pre-assessment should watch for other signs and symptoms that the patient may present with. These include, but are not limited to, hypotension, tachycardia, angina, syncope, weakness, confusion, stroke, myocardial infarction/heart attack, and shock.


The following are possible diagnosis of a LGIB:


Diverticular disease – a cause of LGIBs

Diagnostic evaluation must be performed after patients have been adequately resuscitated. If an upper GI source is suspected, an upper endoscopy should be performed first. Lower gastrointestinal series evaluation can be performed with anoscopy, flexible sigmoidoscopy, colonoscopy, rarely barium enema, and various radiologic studies.[8]


Anoscopy is useful only for diagnosing bleeding sources from the anorectal junction and anal canal, including internal hemorrhoids and anal fissures.It is superior to flexible sigmoidoscopy for detecting hemorrhoids in an outpatient setting and can be performed quickly in the office or at the bedside as an adjunct to flexible sigmoidoscopy and colonoscopy.

Flexible sigmoidoscopy

Flexible sigmoidoscopy uses a 65-cm long sigmoidoscope that visualizes the left colon. It can be performed without sedation and only minimal preparation with enemas. However, the diagnostic yield of flexible sigmoidoscopy in acute lower GI bleeding is only 9%. The role of anoscopy and flexible sigmoidoscopy in inpatients with acute lower GI bleeding is limited, as most patients should undergo colonoscopy.


Colonoscopy is the test of choice in the majority of patients with acute Lower GI bleeding as it can be both diagnostic and therapeutic. The diagnostic accuracy of colonoscopy in lower GI bleeding ranges from 48% to 90%, and urgent colonoscopy appears to increase diagnostic yield. This wide range in yield is partially explained by different criteria for diagnosis, as often if no active bleeding, nonbleeding visible vessel, or adherent clot is found, bleeding is attributed to a lesion if blood is present in the area.The presence of fresh blood in the terminal ileum is presumed to indicate a non colonic source of bleeding. The overall complication rate of colonoscopy in acute lower GI bleeding is 1.3%. Bowel preparation is safe and well-tolerated in most patients. The complication rate of colonoscopy in an unprepped colon may be higher. About 2–6% of colonoscopy preparations in acute lower GI bleeding are poor. Between 4 and 8 L of Golytely should be administered orally or via nasogastric tube until the effluence is clear.[9]


Basic algorithm for the management of lower GI bleed.

In most cases requiring emergency hospital admission, the bleeding will resolve spontaneously.[10] If a patient is suspected of having severe blood loss they will most likely be placed on a vital sign monitor and administered oxygen either by nasal cannula or simple face mask. An intravenous catheter will be placed into an easily accessible area and IV fluids will be administered to replace lost volume.[1] Predicting which patients will suffer adverse outcomes, complications or severe bleeding can be difficult. One recent study identified poor renal function (creatinine > 150 μm), age over 60 years, abnormal haemodynamic parameters on presentation (low blood pressure) and persistent bleeding within the first 24 hours as risk factors for worse outcome.[10]

Surgical intervention is warranted in some cases. It is most likely that a surgical consult will be ordered if the patient is unable to be stabilized by non-invasive techniques, or a perforation is found that requires surgery.[1]

See also


  1. ^ a b c d e f Allan B. Wolfson, ed. (2005). Harwood-Nuss' Clinical Practice of Emergency Medicine (4th ed.). pp. 349–352.  
  2. ^ Farrell JJ, Friedman LS (June 2001). "Gastrointestinal bleeding in the elderly". Gastroenterol. Clin. North Am. 30 (2): 377–407, viii.  
  3. ^ Dutta G, Panda M (2008). "An uncommon cause of lower gastrointestinal bleeding: a case report". Cases J 1 (1): 235.  
  4. ^ Green, BT; Rockey, DC; Portwood, G; Tarnasky, PR; Guarisco, S; Branch, MS; Leung, J; Jowell, P (November 2005). "Urgent colonoscopy for evaluation and management of acute lower gastrointestinal hemorrhage: a randomized controlled trial.". The American journal of gastroenterology 100 (11): 2395–402.  
  5. ^ Velayos, FS; Williamson, A; Sousa, KH; Lung, E; Bostrom, A; Weber, EJ; Ostroff, JW; Terdiman, JP (June 2004). "Early predictors of severe lower gastrointestinal bleeding and adverse outcomes: a prospective study.". Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association 2 (6): 485–90.  
  6. ^ Strate, LL; Orav, EJ; Syngal, S (14 April 2003). "Early predictors of severity in acute lower intestinal tract bleeding.". Archives of Internal Medicine 163 (7): 838–43.  
  7. ^ a b Peura DA, Lanza FL, Gostout CJ, Foutch PG (June 1997). "The American College of Gastroenterology Bleeding Registry: preliminary findings". Am. J. Gastroenterol. 92 (6): 924–8.  
  8. ^ Strate, LL; Orav, EJ; Syngal, S (14 April 2003). "Early predictors of severity in acute lower intestinal tract bleeding.". Archives of Internal Medicine 163 (7): 838–43.  
  9. ^ Strate, LL; Saltzman, JR; Ookubo, R; Mutinga, ML; Syngal, S (August 2005). "Validation of a clinical prediction rule for severe acute lower intestinal bleeding.". The American journal of gastroenterology 100 (8): 1821–7.  
  10. ^ a b Newman J, Fitzgerald JE, Gupta S, von Roon AC, Sigurdsson HH, Allen-Mersh TG (August 2012). "Outcome predictors in acute surgical admissions for lower gastrointestinal bleeding". Colorectal Dis. 14 (8): 1020–8.  
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