Gastroenterology
6.1 Diverticulitis
Gastroenterol Clin N Am 1988;17:357; Dis Colon Rectum 2000:289
Cause: Diverticulosis with secondary infection.
Epidem: Diverticulosis present in almost all patients age > 40 yr in U.S. if on a low-bulk diet. Increased risk in alcoholics (Brit J Surg 1999;86:1067).
Pathophys: Low-residue diet leads to increased intracolonic pressures causing outpocketings.
Sx: Left lower quadrant pain, usually, although may be anywhere.
Si: Localized abdominal tenderness (LLQ in 67% < 40 yr of age); fever; tachycardia (Am J Emerg Med 2000;18:140).
Crs: Variable, with obesity as risk for accurate diagnosis and surgical treatment, if needed.
Cmplc: Perforation; peritonitis; partial obstruction; abscess; fistulas; and/or bleeding from diverticulosis alone.
Diff Dx: Intestinal gas; gastroenteritis; abdominal wall muscle strain; colitis; hernia; right-sided angiodysplasia of the colon, often seen in elderly and associated with aortic stenosis.
X-ray: Plain films if looking for free air (Dis Colon Rectum 1970;13:444); CT delineates site/process.
Emergency Management:
Iv with parenteral narcotics, if needed for pain control, this does not obscure the diagnosis (J Am Coll Surg 2003;196:18).
Antibiotics for acute disease (TMP/SMX DS 1 pill bid + metronidazole 500 mg tid; ciprofloxacin 500 mg bid + metronidazole; or amoxicillin/clavulanate 875 mg bid) for 2 wk of oral therapy. May use intravenous equivalents for those needing admission, such as ciprofloxacin 400 mg, metronidazole 500 mg, or ampicillin/sulbactam 3 gm iv.
Surgical staged colonic resection with temporary colostomy for recurrent disease, perforation, or abscess. Perhaps primary surgical therapy in those < 40 yr of age (Am J Surg 1997;174:733). Prevent with high fiber diet.
6.2 Esophageal Foreign Bodies
Gastroenterol Clin N Am 1991;1:691
Cause: Inadvertent ingestion of foreign body or large food bolus.
Epidem: 80% peds.
Pathophys: Pediatric esophagus with 5 natural narrowings, adults may have rings, webs, dysmotility, or mass lesions.
Sx: Foreign body sensation anywhere from oropharynx to epigastrium, inability to swallow saliva.
Si: Drooling is almost pathognomonic.
Crs: If no foreign body on exam or plain film, no hypersalivation, and no obstruction or foreign body on barium swallow, then expectant management OK (Jacep 1979;8:101), except as noted under “Cmplc.”
Button batteries (Ann Otol Rhinol Laryngol 1984;93:364) and sharp objects may need removal even if they have passed
through the esophagus—erosion and laceration are still potential complications. Button batteries are given 48 hr to pass through the pylorus (Jama 1983;249:2495). Sharp objects past the esophagus may be managed expectantly as long as they are small (relative to patient size) and not causing secondary problems (perforation). All sewing needle ingestions should be referred to a surgeon or gastroenterologist.
Cocaine packet ingestion (these patients referred to as “mules”) may warrant surgery, Golytely or expectant passage.
Aspiration
Tracheal compression in peds (Am J Roentgenol Radium Ther Nucl Med 1974;122:80)
Lab: CXR to r/o aspiration, and to identify location if radio-opaque. Consider lateral neck film or abdominal film if unable to locate object in chest. Barium swallow if still uncertain.
Emergency Management: For esophageal foreign bodies without an acute abdomen:
INT (heplock)
TNG 0.4 mg sl (Nejm 1973;289:23).
If unsuccessful, glucagon 1 mg iv (Radiology 1986;159:567; Jacep 1979;8:228), or consider pulse doses every 30 min of 20-100 µg iv (GE 1975;69:160).
Perhaps effervescent drink to push bolus forward or facilitate regurgitation (Radiology 1983;146:299; Ann EM 1988;17:693).
If unsuccessful, gi consult for EGD; surgery consult if acute abdomen.
Potential use of radiologists with balloon catheter extraction in selected patients with proximal foreign bodies (Am J Roentgenol 1979;132:441; Arch Otolaryngol 1983;109:323), but not first choice (Gastrointest Endosc 1993;39:626).
6.3 Esophageal Rupture
Chest Surg Clin N Am 1994;4:819
Cause: Full thickness esophageal tear, known as Boerhaave’s syndrome (named after the Danish physician who first diagnosed this after the Danish grand admiral had vomited portions of a duck). May occur secondary to a weakened esophagus or after violent emesis, but the hx is nonspecific most of the time. Ingested sharp or corrosive foreign bodies, or direct penetrating trauma are also risk factors.
Epidem: Uncommon, many diagnoses made postmortem. If diagnosis made promptly, outcome as good as with esophageal perforation secondary to endoscopy (Chest 1987;92:995).
Pathophys: Cause as above, leakage of enteric contents causes the secondary mediastinitis. One hypothesis is lack of muscularis mucosa at site of rupture (Am J Surg 1989;158:420).
Sx: Hx of vomiting; chest pain, abdominal pain, fever, otherwise nonspecific.
Si: Rales; subcutaneous emphysema.
Crs: Worse with delayed diagnosis; classic triad of vomiting, chest pain, and subcutaneous emphysema is not common (Am Surg 1999;65:449).
Cmplc: Mediastinitis—mortality > 70% with delayed diagnosis.
Diff Dx: Stomach rupture (Jama 1982;247:811); tension pneumothorax; bronchial tear; pulmonary embolus.
Lab: Low SaO2; pleural fluid for food particles if radiographic studies equivocal (Chest 1992;102:976).
X-ray: CXR—pneumothorax, pleural effusion, pneumomediastinum, or subcutaneous emphysema (Am J Gastroenterol 1978;69:212); Gastrografin swallow (Brit J Surg 1985;72:204) or CT (Arch IM 1988;148:223) confirmatory.
Emergency Management:
Treat/anticipate shock—iv access with fluid resuscitation.
Immediate surgical consult.
Anecdotally, conservative treatment has worked in some patients (Am J Surg 1981;141:531).
6.4 Esophageal Varices
Gastrointest Endosc Clin N Am 1999;9:175; Drug Ther Bull 2000;38:37; Nejm 2001;345:669)
Cause: End-stage hepatic failure has many etiologies, one of the four major complications is hemorrhage, and esophageal bleeding is the most life threatening. Other complications are ascites, renal failure, and encephalopathy.
Pathophys: Portal hypertension leading to varices; bleeding from depressed prothrombin and fibrinogen; depressed platelets from bleeding and hypersplenism; perhaps diminished platelet function from increased BUN; increased plasminogen activators due to diminished hepatic filtration.
Sx/Si: Hematemesis, melena.
Crs: Cause of death in 20% of patients with cirrhosis.
Complc: Coagulopathy; encephalopathy.
Diff Dx: See Upper GI Bleed p 127.
Emergency Management:
(Gastrointest Endosc Clin N Am 1999;9:287)
FFP, if coagulopathy
Somatostatin 250 µg iv bolus, then 250 µg/hr continuous drip (GE 1990;99:1388); or, octreotide 25 µg/h iv drip (Can J Gastroenterol 1997;11:339)
or 50 µg iv over 20 min then 50 µg/h drip.
Vasopressin no longer advocated, somatostatin or its analog (such as terlipressin) with less transfusion requirements (Hepatology 1993;18:61). Terlipressin and nitroglycerin better than balloon tamponade (Hepatology 1990;11:678).
Sengstaaken-Blakemore tube (Surg Gynecol Obstet 1976;142:529) with accessory NG tube until endoscopy available if pt hemorrhaging—applying external traction not necessary (GE 1978;75:566); not a substitute nor should it delay endoscopy (Surg Gynecol Obstet 1988;167:331).
Endoscopic ligation as good as surgery (50% survival), better than medical treatment using Nadolol and isosorbide mononitrate after a bleed—(Hepatology 1997;25:1101) vs (Nejm 2001;345:647) yet best to use both for bleeding control (Nejm 2001;344:23); do not use ligation prophylactically if patient has never bled, and is better than sclerosis (Surg Gynecol Obstet 1985;161:438; Endoscopy 1997:241). Sclerotherapy better than medical therapy (Hepatology 1989;9:274), and better hemorrhage control when combined with octreotide (Nejm 1995;333:555).
Perhaps eventual portocaval or splenorenal (Ann Surg 1982;195:393) surgical shunting.
6.5 Gallbladder Disease
Cause: Cholelithiasis may cause lodging of stones in the cystic duct, the common duct, or they may pass to the duodenum. Colic (misnomer) is an obstructed gallbladder, usually due to stones but may be due to a mass lesion. Cholecystitis is inflammation/infection
of the gallbladder; acalculous cholecystitis is inflammation without stones. Cholangitis is infection of the biliary system, and may be due to a gallstone lodged in the common duct.
of the gallbladder; acalculous cholecystitis is inflammation without stones. Cholangitis is infection of the biliary system, and may be due to a gallstone lodged in the common duct.
Epidem: Cholecystitis is F/M 2:1, with stones present in 10% of adult women in U.S., 70% of Southwestern Native American women. Higher incidence of stone with the following:
Increasing age
Multiple pregnancies
During pregnancy, but later reverting to normal
+/− Chronic thiazide treatment
Hemolytic disease
Birth control and other estrogen use
Ethanol abuse
Cirrhosis
Vagotomy
Prolonged starvation/fasting
Obesity, especially during weight loss
Ileal disease
Elevated triglycerides
Pathophys: Stones are usually mucin protein + cholesterol, less often with bilirubin and calcium.
Sx: Steady epigastric or right upper quadrant pain (colic is a misnomer in this case), radiates to right scapula, nausea, vomiting—temporary relief after vomiting.
Si: Fever, pressure at the right subcostal area inhibits patient from taking deep breath when prompted secondary to pain [Murphy’s sign—97% sensitivity (Ann EM 1996;28:267)].
Crs: Those with stones will have a 10-20% chance of having symptoms over 20-30 yr; after first symptoms, 50% will recur over 20 yr, with 25-50% getting complications—these are the low numbers, it may be higher.
Cmplc: Pancreatitis; cholangitis; hydrops, emphysema, or empyema of gallbladder; perforation and peritonitis; gallstone ileus is rare—a small bowel obstruction from a gallstone that has lodged at the ileocecal valve after eroding through the gallbladder into the duodenum; perhaps gallbladder cancer—cause and effect in these cases is uncertain.
Diff Dx: Chronic acalculous cholecystitis [seen mainly in white females (Jsls 1999;3:221)]; hepatitis; PUD; pyelonephritis; Saint’s triad—hiatal hernia, colonic diverticulosis, and cholelithiasis.
Lab: CBC with diff, LFTs, amylase, lipase—the elderly may have moderate to severe disease with little supportive serum laboratory data, age ≥ 65 yr (Acad Emerg Med 1997;4:51); Perhaps CRP (Eur J Surg 1992;158:365); gallbladder US (Gastrointest Radiol 1986;11:334); consider HIDA scan (Radiology 1982;144:369), if US equivocal—No dye in gallbladder is consistent with cholecystitis, no dye into duodenum is consistent with common duct stone. Abdominal x-ray usually not helpful, even for emphysematous cholecystitis (Brit J Radiol 1997;70:986)—US better. If UA obtained, may show WBCs, but should lack bacteria.
Emergency Management:
Iv access for nausea, vomiting, and pain control—some consider MSO4 to cause spasm at the sphincter of Oddi, but is not supported by good evidence. Perhaps NSAIDs of use, such as diclofenac 75 mg im (Dig Dis Sci 1989;34:809). Doubt the efficacy of glycopyrrolate for pain control (Ann EM 2005;45:172).
Parenteral antibiotics such as ampicillin/sulbactam, cefotetan, cefoperazone, or ceftriaxone (Chemotherapy 1988;34:30) for acute cholecystitis with fever and/or elevated white count, and surgical consult.
Parenteral antibiotics as above for cholangitis, and gi consult to consider ERCP. Would also get gi consult if concerned about common duct stone for any other reason.
6.6 Hepatitis, Acute Viral
Am J Clin Pathol 2000;113:12; hep A (Vaccine 1992;10:S15); hep B (Nejm 2004;350:1118; Vaccine 1998;16:S11; Microbiol Mol Biol Rev 2000;64:51); hep C (Cmaj 2000;102:827; J Clin Gastroenterol 2000;30:125)
Cause: Hepatitis in general is inflammation of the liver from infectious, autoimmune, toxin, or metabolic disorder. Common causes are mononucleosis, hepatitis A, hepatitis B, hepatitis C, ethanol, and autoimmune hepatitis (Biomed Pharmacother 1999;53:255).
Hepatitis A is usually a fecal-oral passage. Higher in parents of day care children and common in developing countries.
Hepatitis B and hepatitis C is parenteral or via sexual contact.
Hepatitis C is the leading cause of chronic liver disease (J Hepatol 2000;32:98).
Other hepatitides are of a more chronic basis and most will be outpt work-up.
Hepatitis A is an RNA enterovirus, with peak incidence in late summer and early winter.
Hepatitis B is a DNA virus that may incorporate into liver genome, associated with liver carcinoma—perhaps due to secondary carcinogenic exposures (Cancer Surv 1986;5:765). Hepatitis D (delta particle) (Antivir Ther 1998;3:37) can only infect in conjunction with hepatitis B.
Hepatitis C is an RNA virus that appears to merit no protective antibody response
Sx:
Hepatitis A with 15-40 d incubation period. Only 5-15% of children get symptoms, with malaise, anorexia, abdominal pain, nausea, vomiting, diarrhea, light colored stools, and darkcolored urine being found in symptomatic children and adults.
Hepatitis B has a 60-160 d incubation period, with arthralgias, arthritis, urticaria, and other rashes being common.
Hepatitis C has a 2 to 20-wk incubation period (6-7 wk being average).
Chronic hepatitis associated with autoantibodies (Prog Liver Dis 1994;12:137).
Si:
Hepatitis A with jaundice, although anicteric form also common and more benign.
Hepatitis B with many cases anicteric.
Hepatitis C with 80% anicteric.
Crs:
Hepatitis A is usually benign, with 15% morbidity and 0.3% mortality, symptoms peak 2 wk after onset and take about 4 wk to clear; 6% of patients will relapse in 1-3 mon.
Hepatitis B has many possibilities with acute hepatitis, typical or cholangitic, leading to the following:
Benign course, recover or relapsing, or chronic persistent (portal) or mild hepatitis; or
Acute liver necrosis, where all pts die; or
Submassive hepatic necrosis (bridging) pts 60% die or go on to postnecrotic cirrhosis, the balance of patients recover completely; or
Chronic active hepatitis, usually with a progressive downhill course over 5-10 yr; or
Asymptomatic carrier state in about 90% newborns, 20% school age children, < 1% young healthy adults (WWII vaccine epidemic)
Hepatitis C also has a variable course. 60-70% of patients still have elevated LFTs 12 mon later, but overall mortality over decades is not increased. Acute hepatitis, typical or cholangitic, leads to the following:
Chronic active hepatitis in most; or
Benign course, recover or have relapsing, or chronic persistent (mild or “portal”) hepatitis; or
Acute liver necrosis, where all pts die; or
Submassive hepatic necrosis (bridging) pts 60% die or go on to postnecrotic cirrhosis; the balance of patients recovering completely.
Hepatitis A with fulminant hepatitis or relapsing hepatitis.
Hepatitis B with hepatoma; 10% go on to chronic active hepatitis (Ann IM 2000;132:723); facilitates secondary infection with delta agent (hepatitis D) which is an RNA virus and this leads also to acute hepatitis or a severe chronic active hepatitis; fasting hypoglycemia; serum sickness; polyarteritis (J Clin Invest 1975;55:930); and nephritis, especially membranous GN.
Hepatitis C with 80% going onto chronic active hepatitis over 10 yr, and 20-35% of these people go onto cirrhosis over 20 yr; hepatocellular carcinoma over 30 yr independent of hep B; and may develop mixed cryoglobulinemia.
With fever: Mononucleosis, Q fever (GE 1982;83:474), toxoplasmosis, CMV, Fitzhugh-Curtis syndrome, psittacosis, hepatitis E, and other viral hepatitides
Without fever: Drugs (Nejm 2003;349:474; Baillieres Clin Gastroenterol 1988;2:385)—ethanol, acetaminophen, NSAIDs, other toxins; chronic autoimmune hepatitis; hemochromatosis; Wilson’s disease; α-antitrypsin deficiency; α-methyldopa (Aldomet)-induced hepatitis; oxyphenisatin laxative induction; primary biliary cirrhosis; diabetes; myxedema; hepatitis G and other viral hepatitides; myopathy.
Lab: CBC with diff, LFTs, amylase, lipase, monospot; PT/PTT, if suspect fulminant hepatitis (Vaccine 1992;10:S21); Get CPK, especially if LDH > AST (SGOT) > ALT (SGPT) to r/o myopathy—may also check aldolase.
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