1. Upper GIT Haemorrhage
Prof/ Walid Elshazly
A prof of surgery

2. Acute Gastrointestinal Bleeding
Prof/ Walid Elshazly

3. GI Bleeding Clinical Presentation Acute Upper GI Bleed
Acute Lower GI Bleed

4. Clinical Presentation
Hematemesis: bloody vomitus (bright red or coffee-grounds)
Melena: black, tarry, foul-smelling stool
Hematochezia: bright red or maroon blood per rectum
Occult: positive guaiac test
Symptoms of anemia: angina, dyspnea, or lightheadedness

5. Patient Assessment Hemodynamic status Localization of bleeding source
CBC, PT, and T & C
Risk factors
Prior h/o PUD or bleeding
Cirrhosis
Coagulopathy
ASA or NSAID’s

6. Resuscitation 2 large bore peripheral IV’s Normal saline or LR
Packed RBCs
Correct coagulopathy

7. Location of Bleeding Upper Lower Proximal to Ligament of Treitz
Melena ( cc of blood)
Nasogatric aspirate
Lower
Distal to Ligament of Treitz
Hematochezia

8. Acute UGIB Demographics
10, ,000 deaths annually
Mortality stable at 10%
80% self-limited
Continued or recurrent bleeding - mortality 30-40%

9. Acute UGIB Prognostic Indicators
Cause of bleeding
Severity of initial bleed
Age of the patient
Comorbid conditions
Onset of bleeding during hospitalization

10. Acute UGIB Prognostic Indicators
Tedesco et al. ASGE Bleeding Survey. Gastro Endo

11. Acute UGIB Differential Diagnosis

12. Acute UGIB Differential Diagnosis
Peptic ulcer disease
Gastric ulcer
Duodenal ulcer
Portal hypertension
Esophagogastric varices
Gastropathy
Esophagitis
Mallory-Weiss tear
Dieulafoy’s lesion
Vascular anomalies
Hemobilia
Hemorrhagic gastropathy
Aortoenteric fistula
Neoplasms
Gastric cancer
Kaposi’s sarcoma

13. Acute UGIB Final Diagnoses of the Cause in 2225 Patients
Tedesco et al. ASGE Bleeding Survey. Gastro Endo

14. Acute UGIB Causes in CURE Hemostasis Studies (n=948)
Savides et al. Endoscopy 1996;28:244-8.

15. Endoscopic Appearance of Ulcers

16. Endoscopic Therapy Thermal Mechanical Injection Bipolar probe
Monopolar probe
Argon plasma coagulator
Heater probe
Mechanical
Hemoclips
Band ligation
Injection
Epinephrine
Alcohol
Ethanolamine
Polidocal

17. Endoscopic Therapy
Laine and Peterson New Eng J Med 1994;331:

18. Adjuvant Medical Therapy
Acid suppression (intragastric pH > 4)
Histamine 2 Receptor Antagonists (H2RAs)
Ranitidine (Zantac)
Famotidine (Pepcid)
Proton Pump Inhibitors (PPIs)
Pantoprazole (Protonix)
Lansoprazole (Prevacid)
Esomeprazole (Nexium)

19. Mallory-Weiss Tear

20. Esophageal Varices

21. Variceal Band Ligation

22. Variceal Band Ligation

23. MEDICAL THERAPY Acute Variceal Bleeding
Vasopressin/Glypressin
Nonselective vasoconstrictor
50% efficacy in controlling bleeding
25% vasospastic side effects
Octreotide
Cyclic octapeptide analog of somatostatin
Longer acting than somatostatin
Equivalent to sclerotherapy and improves endoscopic results

24. TIPS
Coronary Vein
IVC
Splenic Vein
Portal Vein

25. Aortoduodenal Fistula
Aorta
Duodenum
Fistula
Graft

26. Lower GIT Haemorrhage
Prof/ Walid Elshazly
A prof of surgery

27. Lower gastrointestinal hemorrhage
Lower gastrointestinal hemorrhage refers to a spectrum of intestinal bleeding that arises distal to the ligament of Treitz.
Incidence rate: 20/100,000/ year
Disease of the elderly
200 fold increase from the 3rd to 9th decades of life
Mortality 2-4 %
80 – 85 % bleeding stop spontaneously

28. BLEEDING FRANK OCCULT SMALL BLEED MASSIVE BLEED (rare) ANAEMIA
ٍٍٍSELF LIMITED
ٍٍٍNON-SELF LIMITED

29. Degrees of hemorrhage
Lower gastrointestinal bleeding presents with varying degrees of hemorrhage.
Minor and self-limited,
patient describe the passage of 100–250 mL of blood, possibly a few clots, and often mixed with mucous.
2) Major and self-limited
Patients experience brisk, copious bleeding
3) Major and ongoing ?
Patients present with massive and continuous hemorrhage associated with hypovolemia.

30. Lower gastrointestinal hemorrhage
Massive lower intestinal hemorrhage is difficult to define. Patients often describe massive bleeding into their commode even when a small amount of blood discolors the water.
True massive intestinal hemorrhage typically include
Hematocrit less than 30%,
Transfusion requirements (up to 3–5 units of blood/blood products), or
Orthostasis requiring resuscitation.

31. Lower gastrointestinal hemorrhage
The hemorrhage may present as melena or hematochezia.
Melena typically suggests bleeding from a more proximal source in the colon or small intestine.
Hematochezia suggests left colonic, rectal, or anal sources.
It is wise to note that upper gastrointestinal hemorrhage may present with the rectal bleeding given blood’s cathartic effect and rapid intestinal transit.

32. Etiologies Common causes for lower gastrointestinal hemorrhage include
Diverticulosis ( %)
Angiodysplasia ( %)
Neoplastic (10- 15%) cancer, polyp
Inflammatory ( %)
Inflammatory bowel disease.
Ischemic colitis, and
Anorectal diseases (5-10 %)
Unusual causes include
Hemorrhage also stems from intestinal tumors or malignancies.
Nonsteroidal antiinflammatory drug (NSAID)-related nonspecific colitis,
Meckel’s diverticulum, and

33. LGIB Diverticulosis(30 - 50%)
Sac-like protrusions of the colonic mucosa, particularly at locations where blood vessels (vasa recta) enter the colon.
LGIB (ARTERIAL) when the diverticula blood supply is damaged
Trauma,
Ischemia, or
Poor clotting).

34. Diverticulosis

35. LGIB Diverticulosis(30 - 50%)
5 – 15 % of people with diverticula will have LGIB.
Bleeding is PAINLESS.
The bleeding
In most cases, bleeding ceases spontaneously
In 10 to 20 % of cases, the bleeding continues unabated in the absence of intervention

36. Diverticular Bleeding

37. LGIB Diverticulosis(30 - 50%)
The risk of rebleeding
After an episode of bleeding is approximately 25%
Increases to 50% among patients who have had two or more prior episodes of diverticular bleeding.
Diverticulitis- not a cause of GIT bleeding

38. LGIB Angiodysplasia (20 - 30%)
Angiodysplasia ( %) (or AVM, or Vascular Ectasias)
Composed of ectatic, dilated, thin-walled arteriovenous communications
located within the submucosa and mucosa of the intestine.
lined by endothelium alone.

39. LGIB Angiodysplasia (20 - 30%)
No one is quite certain precisely why angiodysplasias occur.
Current hypotheses suggest
a loss of vascular integrity related to loss of transforming growth factor (TGF) β signaling cascade or
a deficiency in mucosal type IV collagen.

40. Adults Angiodysplasia (20 - 30%)
Risk Factors
Older (65 y.o.) > Younger
End stage renal disease
Von Willebrand's disease
Aortic stenosis? (Heyde’s syndrome),
Hereditary hemorrhagic telangiectasias (Osler-Weber-Rendu)
Low fiber diet
Obesity

41. LGIB Angiodysplasia (20 - 30%)
LGIB (VENOUS) is usually occult and PAINLESS.
Located within
Cecum 37%,
Sigmoid 18%,
Ascending 17%,
Rectum 14%,
Transverse and Descending 7%.

42. LGIB Angiodysplasia (20 - 30%)
Angiography remains the gold standard for the diagnosis of angiodysplasia.
After injection of contrast, a series of images are collected in three phases.
Early venous filling which normally occurs in later phases.
During the next phase, capillary phase, small, tortuous tufts are seen entangled and filled with contrast.
Finally, the late phase study demonstrates a persistent of this arteriovenous tuft and a persistent of a slow, emptying vein.

43. LGIB Angiodysplasia (20 - 30%)
When angiography identifies a bleeding angiodysplasia, treatment with
Embolization therapy or
Directed infusion of vasopressin will decrease or stop the bleeding.

44. LGIB Angiodysplasia (20 - 30%)
The colonoscopic criteria in describing these lesions.
The mucosal surface contains a cherry red lesion that is typically flat.
The lesions are greater than 2 mm in size and have a “fern-like” appearance.
A central feeding vessel is not always visible.

45. LGIB Neoplastic (10- 15%)
Cancer
Polyps

46. LGIB Inflammatory (15 - 20%)
Radiation
Intestinal damage due to fibrosis and ischemia.
IBD
Ulcerative
Crohn’s Disease
Radiation colitis
Ulcerative colitis
Sever Crohn’s Disease

47. LGIB Inflammatory (15 - 20%)
Infectious (E. Coli, C. Difficile, C. Jejuni …)
Ischemic (Hypoperfusion and Vasoconstriction)
Hypotension, Heart Failure, Arrhythmia
Vasculitis
Infective colitis
Ischemic colitis

48. LGIB Inflammatory (15 - 20%)
Pseudomembransous Colitis
Complication of antibiotic therapy that causes severe inflammation, irritation and swelling of the colon mucosa.
Almost any antibiotic can cause this condition.
Clostridium difficile, which occurs normally in the intestine, overgrows when antibiotics are taken. This bacterium releases a powerful toxin which causes the symptoms.

49. LGIB Inflammatory (15 - 20%)
Pseudomembransous Colitis
Ampicillin is the most common cause of this condition in children.
Stopping the antibiotic with rehydration therapy and metronidazole is usually used to treat the disorder.

50. LGIB Ano-rectal causes (5 – 10%)
Hemorrhoids (< 50 y.o. most common)
Anal fissures (most common in child)
Anal fistulas
Proctitis
Gonorrheal or mycoplasmal infections
Rectal trauma
Foreign objects
Rectal CA
Rectal polyp

51. LGIB Others (5 – 10%)
Small intestinal tumors, known also as gastrointestinal stromal tumors (GIST).
These lesions enlarge and surpass their blood supply.
In that event, the ischemia in the tumor will ulcerate and may cause a localized hemorrhage.
Post-polypectomy bleeding
Aortoenteric fistula
Coagulation deficiency

52. LGIB Others (5 – 10%)
Finally, NSAID-associated intestinal hemorrhage occurs most frequently in the terminal ileum and cecum.
Diaphragm-like strictures are pathognomonic for NSAID injuries and
may result from a healing ridge related to repeated injuries from the agents.

53. LGIB Others (5 – 10%) Intussusception
Most common abdominal emergency to affect children under 2 years of age.
Boys = 2 X Girls, in frequency
Meckel’s Diverticulum (embryonic diverticulum)
Rule of 2's:
2% of the population
2% of cases are symptomatic
2 feet from the ileocecal valve
2 inches in length
Often present within 2 years of age

54. Children and Young Adults LGIB
Anal Fissure
Most often the result of hard stool and prolonged constipation.
After forced hard bowel movement.
Infectious Colitis
IBD
Crohn’s Disease
Ulcerative Colitis
Polyps
Intussusception
Meckel’s Diverticulum (embryonic diverticulum)
Pseudomembransous Colitis

55. Management
Resuscitation for major bleeds
Find site
Treat the cause

56. Information about bleeding
Volume and frequency of bleeding
Painful defecation?
Relationship of bleeding to defecation?
[before, during (mixed into faeces or coating surface?) or after]
Associated abdominal pain?
Colour of blood?

57. Initial Assessment, Resuscitation, and Stabilization
Placement of vascular access with large bore intravenous fluids.
Further hemodynamic monitoring requires
Cardiac rhythm monitoring and
placement of a urinary catheter.
A nasogastric tube placed will screen for the presence of upper gastric sources for bleeding.

58. Initial Assessment, Resuscitation, and Stabilization
The treatment goals for resuscitation are to
Restore volume and,
Replete red blood cell deficiencies and their impact on oxygen delivery.
In addition, all coagulopathies require reversal.
Patients require laboratory profiles that include a
Complete blood count,
Serum electrolytes,
Coagulation profile,
and a type and cross match for packed red blood cells.

59. Initial Assessment, Resuscitation, and Stabilization
The initial specific diagnostic evaluation begins with
Digital anorectal examination and anoscopy.
A rigid proctosigmoidoscopy will allow the examiner to evacuate the rectum of blood and clots.
A complete mucosal assessment serves to exclude internal hemorrhoids, anorectal solitary ulcers, neoplasms, and colitis.

60. Initial Assessment, Resuscitation, and Stabilization
Once the resuscitation demonstrates a stable patient, the next phase of the diagnostic evaluation ensues.
What is the first test to evaluate the cause of bleeding? Currently, three tests are considered for the initial evaluation. These tests include
Colonoscopy,
Nuclear scintigraphy, and
Angiography.

61. Initial Assessment, Resuscitation, and Stabilization
Colonoscopy and angiography offer therapeutic intervention whereas nuclear scanning is purely diagnostic.
Decisions as to which test to use depend on
The clinical judgment,
Local expertise,
Severity of the event, and
The current activity of the hemorrhage.

62. Initial Assessment, Resuscitation, and Stabilization
It may be helpful to subdivide patients into three general clinical categories based on the history, physical, and the initial laboratory data. Is the hemorrhagic event
1) Minor and self-limited,
2) Major and self-limited, or
3) Major and ongoing ?

63. Initial Assessment, Resuscitation, and Stabilization
Major ongoing hemorrhage requires prompt intervention with
Angiography or
Surgery.
Minor, self-limited may undergo a colonic lavage and colonoscopy within 24 hours.

64. Initial Assessment, Resuscitation, and Stabilization
Major, self-limited may be more difficult to define create the current controversy.
These patients need a diagnostic test to determine if they require
prompt therapy or
observation.
Should these patients undergo
nuclear imaging or
colonoscopy?

65. Colonoscopy
Colonoscopy should be the first study in patients with major bleeding that appears self-limited.
Patients with extremely brisk hemorrhage require a prompt angiogram.
Colonoscopy in such patients proves difficult to prep with lavage and the acute exsanguinations may limit intraluminal visualization

66. Colonoscopy
The major benefit of colonoscopy depends on the ability to provide a definitive localization of ongoing active bleeding and the potential for therapy.
Once the endoscopist highlights a bleeding source, the region of the intestine requires a tattoo to mark the site with India ink.
In such patients, if the hemorrhage continues and fails medical management, the tattoo greatly assists the surgeon in localizing the hemorrhage.

67. Colonoscopy

68. Colonoscopy Therapeutic options for the colon includes
Thermal agents such as heater probes, bipolar coagulation, argon beam, and laser therapy
Injection therapy primarily uses topical and intramucosal epinephrine.
Mechanical therapy includes endoscopically applied clips.

69. Colonoscopy
Precise localization
Can be therapeutic
70 – 90% accurate
Cecum reached in over 95% of cases.
Advantages
Colon must be prepped
Risks of sedation
Dis-advantages

70. Argon beam arrest of AVM

71. Radionuclide imaging
Two general techniques are used for nuclear imaging,
Technetium sulfur colloid scans and
99mTc pertechnetate-tagged red blood cells (RBCs).
Sulfur colloid scans have
a short half-life and detect very low rates of hemorrhage (0.1 mL/min).
It is effective to detect brisk hemorrhage but cannot detect sporadic bleeding.
The more frequently preferred agent for lower gastrointestinal hemorrhage radionuclide scanning is the pertechnetate-tagged RBC scans. The tagged RBC scans may cover a period of hours and allow for re-imaging within 24 hours.

72. Radionuclide imaging
Radionuclide imaging detects the slowest bleeding rates. It is able to detect rates of 0.1 – 0.5 mL/min. Thus, it is a technique that is more sensitive than angiography.
Unfortunately, the nuclear scanning cannot reliably localize the site of hemorrhage.
Nuclear scintigraphy has variable results, suggesting that scan timing, technical skills, and experience may increase accuracy.
Current reports suggest accuracies ranging from 24% to 91%.

73. Selected images from a 99mTc-labeled RBC gastrointestinal bleeding study in a patient with known diureticulosis.Images acquired at 1 minute (A) and 14 minutes (B). Abnormal increased isotopic activity developed in the proximal transverse colon, which progressed antegrade to the descending colon.

74. Technetium labelled RBC scan showing extravasation of radiolabelled blood in a loop of ileum (arrow(

76. Radionuclide
Noninvasive
High sensitivity
90+ sensitivity,
80+ specificity
Advantages
Requires active bleeding of
> 0.1 ml/min
Does not localize site
Dis-advantages

77. Angiography
Angiography is diagnostic and therapeutic in the treatment of intestinal hemorrhage.
The clinical judgment for choosing angiography involves three different types of hemorrhage.
First, acute, major hemorrhage with ongoing bleeding requires emergency angiography.
Second, patients with an early blush during nuclear scintigraphy may benefit from therapeutic angiography.
Finally, angiograms may define a potential source for hemorrhage in occult and recurrent gastrointestinal hemorrhage.

78. Angiography
To appreciate an angiographic blush of contrast, the study requires a hemorrhage rate of at least 1 mL/min.
Angiography provides
Highly accurate localization of the site of bleeding .
Angiographic blush may suggest a specific etiology, but it lacks the accuracy of colonoscopy.
Angiography could used for treatment by either
Intra-arterial vasopressin infusion
Arterial embolization

79. Diverticular hge in the caecum
Extravasation hge in
the caecum AVM

80. Angiography vasopressin infusion
Hemorrhagic site may receive highly selective, intra-arterial vasopressin infusion.
Vasopressin controls bleeding in as many as 91% of patients.
Bleeding may recur in as many as 50% of patients once the vasopressin is tapered.

81. Angiography Arterial embolization
Angiographic technology also allows for arterial embolization to control hemorrhage.
Superselective mesenteric angiography with current microcatheters allows for embolization of the vasa recta of the intestine, vessels as small as 1 mm.
In the past, arterial embolization of larger vessels risked intestinal ischemia or infarction. The risk of intestinal infarctions of larger selective vessels may exceed 20%.
Arteriography also has complication rates related to angiography, separate from the therapy delivered at the site of bleeding.
These include arterial thrombosis, distant arterial emboli, and renal toxicity from the angiographic dye.

82. Angiography Arterial embolization
Embolization therapy provides immediate arrest of the bleeding. Embolization uses a combination of agents to control bleeding including
Gelfoam pledgets,
Coils, and
Polyvinyl alcohol particles.

83. Angiography
Precise localization (100% specific)
No bowel prep
Therapeutic via Vasopressin infusion or Embolizati
Advantages
Variable sensitivity
Requires active bleeding of
1 – 1.5 ml/min
Complications with procedure
Dis-advantages

84. Occult Hemorrhage
The traditional tests of Colonoscopy, and Nuclear scintigraphy, and Angiography provide no solution
Occult bleeding noted in no more than 5% of all patients admitted with lower gastrointestinal massive hemorrhage.
Patients in this situation may benefit from
Small bowel contrast radiography or
Capsule endoscopy.
Additionally, elective angiography with cecal magnification may reveal small angiodysplasias.

85. Capsule Endoscopy

86. Capsule Endoscopy
Bleeding
Suspected Crohn’s
Tumors
Celiac Disease

87. Occult Hemorrhage
If the occult hemorrhage recurs and investigations fail to reveal the source a variety of provocative diagnostic angiographic studies have been described.
Most studies prefer to incite bleeding using either heparin or thrombolytics. Once the site of bleeding is identified, it may be difficult to control without an operation.
In these instances, the surgeon should prepare and hold an operating room.
Once the location is identified, a superselective catheter is left in the distal artery.
During the conduct of surgery, the surgeon can palpate the catheter within the vessel and direct the surgical resection.

88. Operative Therapy
Surgical therapy for massive lower intestinal bleeding is
Rare,
Often definitive, and
Associated with significant mortality.
Most sources of bleeding spontaneously resolve or are controlled with the current therapeutic interventions.

89. Operative Therapy Few patients currently require surgical treatment.
If the patient is hemodynamically unresponsive to the initial resuscitation, then radiographic, radionuclide, and endoscopic evaluations are usurped by the need for urgent surgery.
Other patients may have the site of hemorrhage localized, yet the available therapeutic interventions fail to control the bleeding.

90. Operative Therapy
Patient mortality increases with their transfusion requirements
Mortality of (7%) for patients requiring < 10 units of blood.
Mortality increased to (27%) for patients > 10 units.
Therefore, once a patient reaches 6–7 units during the resuscitation and the hemorrhage remains ongoing, surgical intervention becomes eminent.

91. Operative Therapy
The surgeon tailors the approach to the patient and depends on the diagnostic information gathered before the operation.
All patients require
Open laparotomy
Thorough examination of the entire intestine.
The first objective in surgery focuses on the location of the intraluminal blood with the hope of segmentally isolating the possible sources of bleeding.

92. Operative Therapy
Once the surgeon completes the initial visual inspection, a complete exploration ensues.
The exploration begins in the stomach, duodenum, and considers possible missed upper gastrointestinal sources.
Next, the small intestine must undergo examination from the ligament of Treitz to the ileocecal valve.
Palpation of the intestine may demonstrate such etiologies as a Meckel’s diverticulum, ileitis, colitis, or a GIST.

93. Operative Therapy
Upon completion of the exploration phase, if no source appears obvious, the surgeon may consider intestinal enteroscopy.
The enteroscope or colonoscope will expose the luminal surface and transilluminate the intestinal wall for occult lesions.
Transillumination may identify vascular anomalies, small ulcers or tumors.
Endoscopic access to the intestine may require
Upper enteroscope,
Transgastric approach,
Transcolonic approach, or
Insertion through the anus.

94. Operative Therapy
Once a hemorrhage site is identified, the surgeon can perform an appropriate segmental resection.
Intra-operative endoscopy is a technically difficult endeavor.
A team approach with two surgeons or
The availability of an experienced endoscopist is important to identify the elusive lesions causing the hemorrhage.

95. Operative Therapy
If the source of bleeding cannot be found, and it appears to arise from the colon,
the surgeon should perform a subtotal or total colectomy.
Stable patients will tolerate a primary ileosigmoid or ileorectal anastomosis in this circumstance.
Unstable patients require an end ileostomy with closure of the rectal stump or a mucous fistula.
Once stable, the patient may return for ileostomy closure.
The rectum and sigmoid colon require reexamination endoscopically to assure no bleeding persists.

96. Operative Therapy The key concerns with operative management are,
first, a delay in the decision to operate until the hemorrhage reaches a critical point beyond 10 units of blood. This seems to contribute to the high mortality rate.
Second, mortality rates for patients requiring urgent surgery consistently reach a range between 10% and 35%.
Third, notable recurrence rates of 10% are attributable to the limits of isolating the precise cause of the bleeding.

97. Operative Therapy The key concerns with operative management are,
The rates of recurrence increase if a surgeon
Elects to perform a limited right or left colectomy without precise localization of the hemorrhage excessive persistent bleed rates of 20%, and still have high mortalitiy
A total colectomy offers the same mortality with a lower chance of recurrent or persistent hemorrhage.

98. Massive lower GIT bleeding
Hypotension and shock
Yes No
Resuscitation
Digital rectal examination and ano-proctoscopy
Nasogastric tube or upper GIT endoscopy
Positive
Negative
Bleeding source could be localized
Treat pathology
Colonoscopy
Yes No
Bleeding source detected
Bleeding source not detected
Endoscopic therapy
Endoscopic treatment or other
Hematochezia
Massive bleeding

99. Bleeding source not detected
Colonoscopy
Bleeding source not detected
Hematochezia with negative UGIE
Massive bleeding
Active bleeding of
1 – 1.5 ml/min
Active bleeding of
> 0.1 ml/min
Small bowel contrast radiography
Capsule endoscopy.
elective angiography
with cecal magnification.
RBC radionucleotide scan
Angiography diagnostic and therapeutic
success
failed
Surgery

100. Thank you