GI Lectures 6-10 PDF

Summary

This document details various disorders of the upper gastrointestinal (GI) tract, including the gastric phase, somatostatin regulation, and the role of NSAIDs. It also discusses bilirubin metabolism, gallstones, and other related topics. The document seems to be part of a larger educational series on the GI system.

Full Transcript

‭Lecture 6: Disorders of upper GI‬

‭‬ V
‭ agal fibers release gastrin-releasing peptide (GRP)‬
‭‬ ‭Grinding, mixing, gastric emptying of solids → antral motor function‬
‭‬ ‭Gastric phase:‬
‭○‬ ‭Food triggers vagovagal reflexes‬
‭○‬ ‭Stimulates gastrin secretion‬
‭‬ ‭Acidification of the gastric antrum stimulates‬‭somatostatin‬
‭‬ ‭Somatostatin‬
‭○‬ ‭Inhibits‬‭gastrin release and acid secretion‬
‭○‬ ‭Vagal acetylcholine (Ach)‬‭inhibits‬‭somatostatin‬
‭‬ ‭NSAIDs‬‭reduce‬‭acid secretion‬
‭‬ ‭Disruption of protective mechanisms → gastropathy/gastritis‬
‭○‬ ‭inhibition of COX by NSAIDs‬
‭○‬ ‭inhibition of gastric bicarb transporters by ammonium ions‬
‭○‬ ‭reduced mucin and bicarb secretion‬
‭○‬ ‭decreased oxygen delivery‬
‭‬ ‭H. pylori‬‭is implicated in almost all non-NSAID-induced GI mucosal inflammation‬
‭○‬ ‭Causes‬‭type B gastritis‬‭(antrum and body of the stomach)‬
‭○‬ ‭Peptic ulcer, Gastric adenocarcinoma, Gastric lymphoma‬
‭‬ ‭Almost all patients with‬‭gastric cancer‬‭have had‬‭H.pylori‬‭or‬‭gastric ulcer‬
‭‬ ‭Neutrophils are present in acute‬‭gastritis‬
‭‬ ‭Inflammatory cells are absent in‬‭gastropathy‬
‭‬ ‭Carcinoid tumors‬‭secrete‬‭serotonin‬
‭○‬ ‭Serotonin secrets in the‬‭hepatic portal circulation‬
‭‬ ‭Major components of bile → bilirubin, bile salts, cholesterol, phospholipids‬
‭‬ ‭Bilirubin‬
‭○‬ ‭Normal serum bilirubin = 0.3=1.2 mg/dL‬
‭‬ ‭2-2.5 mg/dL‬‭and above =‬‭jaundice‬
‭○‬ ‭Rate of bilirubin production = hepatic uptake, conjugation, biliary excretion‬
‭○‬ ‭Unconjugated‬‭→ largely‬‭insoluble‬‭and cannot be excreted in the urine‬
‭○‬ ‭Conjugated‬‭→‬‭water-soluble‬‭and loosely bound to serum albumin, it can be excreted in the urine‬
‭‬ ‭Hepatocellular disease, bile duct injury, biliary obstru3ction‬
‭‬ ‭Black gallstones‬‭= calcium bilirubinate with‬‭mucin glycoproteins‬
‭○‬ ‭Chronic liver disease, hemolytic disease‬
‭‬ ‭Pigmented brown gallstones‬‭= calcium bilirubinate with‬‭fatty acid soaps‬‭that bind with calcium‬
‭○‬ ‭Biliary stasis, bacterial infections, biliary parasites‬
‭‬ ‭Saliva‬‭becomes‬‭hypotonic‬‭due to the duct reabsorbing NaCl (but not water)‬
‭‬ ‭Most common site of fistulization = esophagus‬
‭‬ ‭Most common form of congenital intestinal atresia = imperforate anus‬
‭‬ ‭Most frequent cause of esophagitis = reflux of gastric contents‬
‭‬ ‭Contraction occurs in the intersphincteric esophagus → peristalsis contractions‬
‭‬ ‭Stones commonly formed within the‬‭gallbladder‬‭→ cholesterol and black stones‬
‭‬ ‭Stones commonly formed within the‬‭bile duct‬‭→ brownstones‬
 ‭‬ C
‭ ommon cause of‬‭epiglottitis‬‭→‬‭H. influenzae‬
‭‬ ‭4 main layers of the GI tract‬
‭○‬ ‭Mucosa → Specialized epithelial cells that line the lumen‬
‭‬ ‭Lamina propria‬‭→ contains small blood and lymphatic vessels, immune‬
‭cells, and nerve fibers‬
‭‬ ‭Muscular mucosa‬‭→ used to determine whether cancer of the GIT is still‬
‭localized‬
‭○‬ ‭Submucosa → contains larger blood and lymphatic vessels‬
‭‬ ‭Nerve plexus of the intrinsic or‬‭enteric NS‬‭, termed‬‭the‬‭submucosal nerve (Meissner) plexus‬
‭‬ ‭Controls absorption and secretion‬
‭○‬ ‭Muscularis → responsible for the motility of the GIT‬
‭‬ ‭Myenteric nerve (Auerbach) plexus‬‭, a division of the‬‭enteric NS that regulates motility‬
‭○‬ ‭Serosa‬
‭‬ ‭Enteric neurons‬‭are organized by‬‭submucosal‬‭plexus‬‭&‬‭myenteric‬‭plexus‬
‭‬ ‭PNS‬‭efferents stimulate‬‭intestinal motility‬‭&‬‭exocrine‬‭secretion‬

‭Product‬ ‭Physiologic Actions‬ ‭Site of Release‬ ‭Stimulus for Release‬ ‭Disease Association‬
‭True hormones‬
‭Gastrin‬ ‭Stimulates acid secretion and growth of gastric oxyntic gland‬ ‭Gastric antrum (and‬ ‭Zollinger–Ellison syndrome,‬
‭mucosa‬ ‭duodenum)‬ ‭Peptides, amino acids, distension, vagal‬ ‭peptic ulcer disease‬
‭stimulation‬

‭CCK‬ ‭Stimulates gallbladder contraction, pancreatic enzyme and‬ ‭Duodenum and jejunum‬
‭bicarbonate secretion, and growth of exocrine pancreas‬ ‭Peptides, amino acids, long-chain fatty‬
‭acids, (acid)‬

‭Secretin‬ ‭Duodenum‬ ‭Acid (fat)‬
‭ timulates pancreatic bicarbonate secretion, biliary bicarbonate‬
S
‭secretion, growth of exocrine pancreas, and pepsin secretion;‬
‭inhibits gastric acid secretion, trophic effects of gastrin‬

‭GIP‬ ‭Stimulates insulin release (inhibits gastric acid secretion)‬ ‭Duodenum and jejunum‬ ‭Glucose, amino acids, fatty acids‬

‭Other polypeptides with hormone function‬
‭Stimulates gastric and duodenal motility‬ ‭Duodenum and‬ ‭Unknown‬ ‭Irritable bowel syndrome;‬
‭Motilin‬ ‭jejunum‬ ‭diabetic gastroparesis‬
‭Inhibits pancreatic bicarbonate and enzyme secretion‬ ‭Pancreatic islets of‬ ‭Protein (fat and glucose)‬
‭Pancreatic peptide‬ ‭Langerhans‬
‭Stimulates insulin secretion, thereby lowering blood glucose‬ ‭Ileum and colon‬ ‭Glucose and fat‬ ‭Inflammatory conditions‬
‭ lucagon-like‬
G ‭and diabetes mellitus‬
‭peptide-1 (GLP-1‬‭)‬

‭Paracrine factors‬
‭Somatostatin‬ ‭ I tract mucosa, pancreatic‬
G ‭Acid stimulates, vagus nerve inhibits release‬ ‭Gallstones‬
‭Inhibits release of most other peptide hormones (eg, acid stimulates‬ ‭islets of Langerhans‬
‭somatostatin to block gastrin)‬
‭Prostaglandins‬ ‭Multiple‬ ‭Various‬ ‭NSAID-induced gastritis and ulcer‬
‭Promote blood flow, increase mucus and bicarbonate secretion from‬ ‭disease‬
‭gastric mucosa‬
‭Histamine‬ ‭Oxyntic gland mucosa‬ ‭Gastrin and unknown others‬
‭Stimulates gastric acid secretion‬
‭Serotonin‬ ‭Increased intestinal motility and secretion‬ ‭enterochromaffin (EC) cells‬ ‭distension of the gut wall‬ ‭Carcinoid tumors arise from EC cells and most‬
‭commonly secrete serotonin.‬

‭Neurocrines‬
‭VIP‬ ‭Relaxes sphincters and gut circular muscle; stimulates intestinal and‬ ‭Mucosa and smooth muscle of‬ ‭Enteric nervous system‬ ‭Secretory diarrhea‬
‭pancreatic secretion‬ ‭GI tract‬
‭Bombesin‬ ‭Stimulates gastrin release‬ ‭Gastric mucosa‬ ‭Enteric nervous system‬

‭Enkephalins‬ ‭Stimulate smooth muscle contraction; inhibit intestinal secretion‬ ‭Mucosa and smooth muscle of‬ ‭Enteric nervous system‬
‭GI tract‬

‭Other products‬
‭Intrinsic factor‬ ‭Binds vitamin B12 to facilitate its absorption‬ ‭Parietal cells of the stomach‬ ‭Constitutive secretion‬ ‭Autoimmune destruction of parietal‬
‭cells causes pernicious anemia‬

‭Mucin‬ ‭Lubrication and protection‬ ‭Goblet cells along the entire‬ ‭GI tract irritation‬ ‭Viscid mucus in cystic fibrosis,‬
‭intestinal mucosa and surface‬ ‭attenuation in some cases of peptic‬
‭cells in the stomach‬ ‭ulcer‬
‭Acid‬ ‭Prevents infection; initiates digestion‬ ‭Parietal cells of the stomach‬ ‭Gastrin, histamine, acetylcholine, NSAIDs‬ ‭Acid-peptic disease‬
‭(indirectly)‬
‭‬ ‭Hirschsprung disease‬
‭○‬ ‭RET gene‬
‭○‬ ‭Lack of myenteric neurons in the distal colon‬
‭‬ ‭Sjogren’s syndrome‬
‭○‬ ‭an autoimmune disease that destroys exocrine glands and most commonly affects tear and saliva production‬
‭○‬ ‭Dry eyes, mouth → halitosis & dental caries‬
‭‬ ‭Gastroparesis‬
‭○‬ ‭Complications of‬‭diabetes mellitus‬
‭○‬ ‭Alterations in:‬
‭‬ ‭Mucosal immune cell infiltration‬
‭‬ ‭Cytokine expression‬
‭‬ ‭Peptic Ulcer Disorder‬
‭○‬ ‭Elevated gastric acid secretion or diminished mucosal defense‬
‭‬ ‭Secretory diarrhea‬
‭○‬ ‭secretagogues maintain elevated rates of fluid transport out of epithelial cells into the GI tract lumen‬
‭‬ ‭Osmotic diarrhea‬
‭○‬ ‭Malabsorbed nutrients‬
‭○‬ ‭Poorly absorbed electrolytes that retain water in the lumen‬
‭○‬ ‭Stops when the patient fast‬
‭‬ ‭Gilbert Syndrome‬
‭○‬ ‭The buildup of bilirubin → jaundice (icterus)‬
‭‬ ‭Zollinger-Ellison syndrome‬
‭○‬ ‭gastrin-producing tumors‬
‭○‬ ‭gastrin-secreting tumor (‬‭gastrinoma‬‭) causes‬‭hypergastrinemia‬‭→ refractory PUD‬
‭‬ ‭Most gastrinomas are found in the pancreas or duodenum‬
‭○‬ ‭Tx: vagotomy‬
‭‬ ‭GERD‬
‭○‬ ‭Complication →‬‭Barrett’s esophagus‬
‭○‬ ‭"heartburn" (substernal chest pain)‬
‭○‬ ‭Occurs when the lower esophageal sphincter is incompetent → allowing the flow of gastric juices and contents back‬
‭into the esophagus‬
‭‬ ‭Barret’s esophagus‬
‭○‬ ‭GI metaplasia of the lower esophagus that results from chronic GERD-induced esophagitis‬
‭○‬ ‭Squamous epithelium → intestinal epithelium (metaplasia) → adenocarcinoma‬
‭○‬ ‭Greatest clinical concern should be increased risk of esophageal adenocarcinoma‬
‭‬ ‭Tracheoesophageal fistula‬
‭○‬ ‭Abnormal connection between trachea and esophagus‬
‭‬ ‭Esophageal atresia‬
‭○‬ ‭A congenital condition in which the esophagus ends in a blind pouch‬
‭‬ ‭Reflux of gastric contents‬
‭○‬ ‭Due to functional abnormality of the LES‬
‭○‬ ‭Recurrent reflux of gastric contents into the distal esophagus‬
‭‬ ‭Achalasia‬
‭○‬ ‭Caused by degeneration of the neurons in the esophageal wall → loss of inhibitory innervation in the LES‬
‭○‬ ‭Esophageal manometry shows → incomplete LES relaxation, absent peristalsis in the distal esophagus‬
‭○‬ ‭Barium swallow shows →‬‭bird-beak appearance‬
‭○‬ ‭Typically present with → insidious onset and progressive‬‭dysphagia‬‭for‬‭solids‬‭and‬‭liquids‬
‭‬ ‭Chole‬‭docho‬‭lithiasis‬‭→ stones in the‬‭extrahepatic bile‬‭duct‬
‭‬ ‭Chole‬‭stasis‬‭→ obstruction of the bile flow within‬‭the‬‭biliary tract‬
‭○‬ ‭Buildup of bile acid‬
‭‬ ‭Hepato‬‭lithiasis‬‭→ stones in the‬‭intrahepatic‬‭bile ducts‬
‭‬ ‭Chole‬‭cysto‬‭lithiasis‬‭→ stones in the‬‭gallbladder‬‭or‬‭cystic duct‬
‭‬ ‭Cholecystitis‬‭→ fever,‬‭leukocytosis‬‭,‬‭rebound tenderness‬‭,‬‭abdominal muscle guarding, biliary dilation,‬‭elevated‬‭serum‬
‭bilirubin‬‭and alkaline phosphatase‬
‭‬ ‭Acute cholangitis‬‭→ abdominal pain, jaundice,‬‭fever‬‭(Charcot triad)‬‭,‬‭Reynolds pentad‬‭(Charcot triad +‬‭hypotension and‬
‭AMS)‬
‭Lecture 7: Disorders of the small intestines and colon‬

‭‬ P ‭ olymers are broken down into → glucose and galactose‬
‭○‬ ‭By bacteria and amylase‬
‭‬ ‭SGLT-1‬‭with 2 Na+ ions absorbs glucose and galactose‬
‭‬ ‭Extrusion of Na+ by Na+-K+ ATPase drives the absorption of glucose and galactose against their concentration gradients‬
‭‬ ‭GLUT-5‬‭= fructose = facilitate diffusion‬
‭‬ ‭Toxin from cholera‬‭modifies G proteins → activates adenylyl cyclase → increases levels of‬‭cAMP‬
‭○‬ ‭Patients with cholera may excrete up to‬‭20 L of diarrhea per day‬‭→ rapid dehydration and death‬
‭‬ ‭Fluid and electrolyte secretion‬‭flushes bacterial products and toxins away‬
‭○‬ ‭Plays a role in mucosal defense‬
‭‬ ‭Secretagogues‬‭→ stimulate fluid and electrolyte secretion‬
‭○‬ ‭Neurotransmitter‬‭= VIP and acetylcholine‬
‭○‬ ‭Paracrine‬‭= bradykinin, serotonin, histamine, and prostaglandins‬
‭○‬ ‭Luminal‬‭= bacterial toxins (cholera toxin)‬
‭‬ L ‭ actase deficiency‬
‭○‬ ‭A rare autosomal recessive disorder caused by mutations in the gene encoding lactase.‬
‭○‬ ‭Sx: explosive diarrhea with watery, frothy stools,‬‭osmotic diarrhea‬‭. Abdominal distention after milk ingestion‬
‭○‬ ‭Congenital‬
‭‬‭Mutations in the gene encoding lactase‬
‭‬‭Explosive diarrhea with watery, frothy stool, and abdominal distention after milk ingestion‬
‭○‬ ‭Acquired‬‭- most common‬
‭‬‭Loss of lactase gene expression early in childhood‬
‭‬‭Manifest after the age of weaning from breast milk‬
‭○‬ ‭Transient‬
‭‬‭Small bowel injury, infectious or inflammatory insults‬
‭‬‭Reversible if the cause of the injury remits‬
‭‬ ‭Diarrhea‬
‭○‬ ‭Time-dependent water absorption → responsible for the normal soft/consistency of stool‬
‭○‬ ‭Acute = < 2 weeks‬
‭‬‭Usually due to infectious cause‬
‭○‬ ‭Chronic = > 4 weeks‬
‭○‬ ‭Medication side effects are the most common noninfectious causes‬
‭○‬ ‭The majority are infectious, toxic, or related to dietary intake‬
‭‬ ‭Osmotic diarrhea/malabsorption‬
‭○‬ ‭Glucose-galactose or fructose malabsorption / Mannitol, sorbitol ingestion / Ingestion of nutrient-binding substances‬
‭○‬ ‭Lactulose therapy / Bacterial overgrowth / Defective fat solubilization (disrupted enterohepatic circulation or defective bile formation)‬
‭ ‬ ‭Some salts (eg, magnesium sulfate), antacids (eg, calcium carbonate)‬
○
‭○‬ ‭Generalized malabsorption / Lymphatic obstruction (eg, lymphoma, tuberculosis‬
‭○‬ ‭Pancreatic enzyme inactivation (eg, by excess acid) / Loss of enterocytes (eg, radiation, infection, ischemia)‬
‭‬ ‭Pseudomembranous colitis‬
‭○‬ ‭Purulent inflammation in the inner lining of the bowel‬
‭○‬ ‭Very suggestive of‬‭C. diff‬
‭‬‭Presents with‬‭watery diarrhea‬‭(≥3 loose stools in 24 hrs), lower abd pain, fever‬
‭‬‭Toxin released by C.diff‬‭→‬‭ribosylation of small GTPases‬‭→ disruption of the epithelial cytoskeleton,‬‭tight junction‬
‭barrier loss, cytokine release, and apoptosis‬
‭○‬ ‭Labs:‬‭leukocytosis‬‭, hypoalbuminemia and lactic acidosis (severe)‬
‭○‬ ‭Dx by‬‭stool studies‬
‭‬‭Abd imaging to r/o‬‭toxic megacolon,‬‭bowel perforation, and other surgical intervention requirements‬
‭○‬ ‭Risk factors:‬‭hx of recent abx use‬‭(clinda most common),‬‭hospitalization, age > 65‬
‭‬ ‭Celiac disease‬
‭○‬ ‭Celiac sprue or gluten-sensitive enteropathy, is an immune-mediated disorder triggered by ingestion of gluten-containing‬
‭foods (wheat, rye, or barley)‬
‭○‬ ‭Gluten is digested by luminal and brush-border enzymes into amino acids and peptides, including a 33-amino acid‬
‭α-gliadin peptide‬‭that is resistant to degradation by gastric, pancreatic, and small intestinal proteases.‬
‭○‬ ‭Immune mechanisms involved in the tissue responses to gliadin:‬
‭‬‭Innate ( CD8 + intraepithelial T-cells, activated by IL-15)‬
‭‬‭Adaptive (CD4 +T cells and B-cells sensitization to gliadin)‬
‭○‬ ‭Gliadin peptides interact with‬‭HLA-DQ2 or HLA-DQ8‬‭on antigen-presenting cells and in turn, stimulate‬‭CD4+ T cells to‬
‭produce cytokines that exacerbate tissue damage‬
‭○‬ ‭Almost all people with celiac disease carry the class II‬‭HLA-DQ2 or HLA-DQ8 allele‬
‭‬ ‭Intestinal Obstruction‬
‭○‬ ‭Most common → small intestine (narrow lumen)‬
‭○‬ ‭Collectively, hernias, intestinal adhesions, intussusception, and volvulus account for‬‭80% of mechanical obstructions‬
‭‬ ‭Intussusception‬
‭○‬ ‭Occurs when a segment of the intestine,‬‭constricted‬‭by a wave of peristalsis‬‭,‬‭telescopes‬‭into the immediately‬‭distal‬
‭segment‬
‭○‬ ‭Most common cause of intestinal obstruction in children younger than 2yo‬
‭‬‭Uncommon in older children and adults‬
‭○‬ ‭Etiology: idiopathic,‬‭viral infection, and rotavirus vaccines‬
‭○‬ ‭1% pts with CF develop intussusception‬
‭‬ A ‭ betalipoproteinemia‬
‭○‬ ‭LDL-C < 60 mg/dL‬
‭○‬ ‭Rare autosomal recessive disease → inability to assemble triglyceride-rich lipoproteins‬
‭○‬ ‭Caused by mutation in microsomal triglyceride transfer protein‬‭(MTP, gene name MTTP)‬
‭‬‭Requires for transfer of lipids to nascent apolipoprotein B polypeptide in the ER‬
‭○‬ ‭Triglyceride accumulation = epithelial vacuolization‬
‭○‬ ‭Presents in infancy with failure to thrive, diarrhea, and steatorrhea‬
‭○‬ ‭Failure to absorb essential fatty acids → deficiencies of fat-soluble vitamins/lipid membrane defects‬
‭‬‭Presence of‬‭acanthocytes,‬‭red cells with spiky membrane protrusions, alteration in the lipid content of red cell‬
‭membranes‬
‭○‬ ‭Sx: progressive pigmented retinopathy → decreased night and color vision → reductions in daytime visual acuity →‬
‭near-blindness‬
‭○‬ ‭Low‬‭cholesterol‬
‭○‬ ‭Undetectable‬‭: chylomicrons, VLDLs, LDLs, and apoB‬
‭○‬ ‭Acanthocytes‬‭→ severe liver disease, rare patients with McLeod blood group‬
‭○‬ ‭Echinocytes‬‭→ severe uremia, in glycolytic red cell enzyme defects, and in microangiopathic hemolytic anemia‬
‭‬ ‭Paralytic Ileus‬
‭○‬ ‭spasms‬‭, which are very strong and often painful contractions that occur continuously in a dysregulated manner‬
‭○‬ ‭ileus‬‭, in which contractile activity is markedly decreased or absent‬
‭‬‭Ileus → irritation of the peritoneum that may occur with surgery, peritonitis, and pancreatitis.‬
‭○‬ ‭Failure of normal intestinal motility‬‭often occurring after intestinal or abdominal surgery, acute pancreatitis,‬‭intestinal‬
‭infection, cardiac dysfunction, or hypokalemia‬
‭○‬ ‭Strangulated obstruction → blood flow compromised → intestinal ischemia/necrosis/perforation if left untreated‬
‭○‬ ‭Chronic pseudo-obstruction associated with tumors or inflammatory disorders (large intestine)‬
‭‬ ‭Diverticular disease‬
‭○‬ ‭Usually at the site of‬‭arterial insertion‬
‭○‬ ‭Mucosa and submucosa herniate through the muscular layer‬
‭○‬ ‭Predisposed by chronic constipation and connective tissue disease‬
‭‬ ‭Diverticulitis‬
‭○‬ ‭Irritation or obstruction of diverticular entrance → closure and infection‬
‭○‬ ‭May cause perforation, abscess, fistula with surrounding structures‬
‭‬ ‭Inflammatory bowel disease (IBD)‬
‭○‬ ‭Chronic inflammatory condition triggered by the host immune response to intestinal microbes in genetically predisposed‬
‭individuals‬
‭○‬ ‭Encompasses two entities:‬
‭‬‭Crohn disease‬
‭‬ ‭Regional enteritis (bc of frequent ileal involvement)‬
‭‬ ‭May involve any area of the GIT and often produces‬‭transmural inflammation‬
‭‬‭Ulcerative colitis‬
‭‬ ‭Limited to the‬‭colon‬‭and‬‭rectum‬‭and involves only the‬‭mucosa‬‭and‬‭submucosa‬
‭‬ ‭May affect up to terminal ileum‬
‭‬ ‭High risk for colon cancer‬
‭‬ ‭Associated with PSC and Pyodermal Gangrenosum‬
‭○‬ ‭Patho‬‭→ It is proposed that the initial trigger is the‬‭presentation of microbial antigens‬
‭to CD4+ helper T cells‬‭, which are induced to differentiate into‬‭Th1 and Th17 cells‬‭by‬
‭cytokines such as‬‭IL-12 and IL-23‬
‭‬‭These then activate macrophages, recruit neutrophils, and release‬‭proinflammatory‬
‭cytokines such as TNF‬
‭‬‭depends on the specific mix of signaling proteins (‬‭cytokines‬‭) that the body produces‬
‭in response to bacteria and other microbes‬
‭‬ ‭Irritable bowel syndrome‬
‭○‬ ‭Can cause diarrhea, constipation, or alternation of both‬
‭○‬ ‭Idiopathic dysregulation of motility‬
‭‬ ‭Likely multiple phenotypes and mechanisms‬
‭‬‭Common threads of altered microbiota and enteric nervous system hypersensitivity to stress‬
‭Lecture 8: Exocrine Pancreas‬

‭‬ E
‭ xocrine portion‬‭→ makes up the bulk of the organs and is a‬‭major source of enzymes‬‭that are essential for digestion‬
‭‬ ‭The‬‭retroperitoneal location‬‭of the pancreas and the generally nonspecific signs and symptoms associated with disorders‬
‭of the exocrine portion‬‭allow many pancreatic diseases to remain undiagnosed for extended periods.‬
‭‬ ‭Normal pancreas‬
‭○‬ ‭main pancreatic duct‬‭(the duct of Wirsung)‬‭joins the common bile duct just proximal to the‬‭papilla of Vater‬‭, and the‬
‭accessory pancreatic duct‬‭(the duct of Santorini)‬‭drains into the duodenum through a separate minor papilla‬
‭‬ ‭Pancreatic divisum‬
‭○‬ ‭Failure of fusion of the fetal duct systems of the dorsal and ventral pancreatic primordia → the bulk of the pancreas‬
‭(formed by the dorsal pancreatic primordium) drains into the duodenum through the small-caliber minor papilla‬
‭‬ ‭Full-blown acute pancreatitis‬‭is a‬‭medical emergency‬‭of the first order‬
‭○‬ ‭Elevated serum lipase and amylase‬‭(increase 4 to 12 hrs after onset of pain)‬
‭‬ ‭Serum lipase remains elevated for 8-14 days‬
‭‬ ‭Serum amylase returns to normal in 3-5 days‬
‭‬ ‭Marker of acute pancreatitis → serum lipase‬
‭‬ ‭Acute pancreatitis‬
‭○‬ ‭Reversible‬‭inflammatory disorder that varies in severity, from focal edema and fat necrosis to widespread hemorrhagic‬
‭necrosis‬
‭○‬ ‭Caused by‬‭autodigestion‬‭of the pancreas by intraacinar activation of pancreatic enzymes‬
‭○‬ ‭Increasing due to obesity epidemic and related to increase in gallstone disease‬
‭○‬ ‭Recurrent can lead to chronic pancreatitis‬
‭○‬ ‭Common cause:‬
‭‬ ‭Gallstone‬
‭‬ ‭Chronic excessive alcohol use‬
‭○‬ ‭Remainder:‬
‭‬ ‭Non-gallstone-related obstruction of the pancreatic ducts, or parasites (Ascaris lumbricoides and Clonorchis‬
‭sinensis)‬
‭‬ ‭Metabolic disorders‬
‭‬ ‭Hypertriglyceridemia (above 1000 mg/dL)‬
‭‬ ‭Medications‬
‭‬ ‭Anticonvulsants, cancer chemo therapeutic agents, thiazide diuretics, estrogens‬
‭‬ ‭Infections‬
‭‬ ‭Mumps virus or coxsackievirus‬
‭‬ ‭Chronic pancreatitis‬
‭○‬ ‭long-standing inflammation that leads to‬‭irreversible‬‭destruction of the exocrine pancreas, followed eventually by loss of‬
‭the islets of Langerhans‬
‭○‬ ‭Common cause →‬‭chronic excessive alcohol consumption‬‭(esp. Middle-aged men)‬
‭Lecture 10: Liver disease‬

‭‬ P
‭ ortal triads = portal vein, hepatic artery, bile duct‬
‭‬ ‭Sinusoids‬‭= blood from portal vein + blood from hepatic artery mixed‬
‭○‬ ‭Separated by chains of hepatocytes‬
‭○‬ ‭Drain into the‬‭central vein‬
‭‬ ‭Form‬‭hepatic veins‬‭→ drain into‬‭inferior vena cava‬
‭‬ ‭Space of Disse‬‭= space between hepatocytes and endothelial‬
‭○‬ ‭Contains interstitial fluid‬
‭○‬ ‭Stellate (Ito) cells‬‭located here‬
‭‬ ‭Resting = antigen-presenting cells and‬‭storing vitamin A‬
‭‬ ‭Activate = myofibroblasts →‬‭liver fibrosis‬
‭‬ ‭Zone I‬
‭○‬ ‭Greatest delivery of oxygen and nutrients‬
‭○‬ ‭Preferentially undertake oxidative metabolism, ureagenesis, and bile acid production‬
‭‬ ‭Zone III‬
‭○‬ ‭Conc of oxygen and nutrients is the lowest‬
‭○‬ ‭Cells undertake glycolysis, ketogenesis, and detoxification reactions‬
‭‬ ‭Endocrine functions‬
‭○‬ ‭Main source of circulating‬‭IGF-1‬
‭○‬ ‭Secretes the iron-regulating hormone‬‭hepcidin‬
‭○‬ ‭Contributes to the activation of‬‭vitamin D‬
‭○‬ ‭Site for deiodination of thyroxine (T4) → tri-iodothyronine (T3)‬
‭‬ ‭Markers for‬‭hepatocellular injury‬
‭○‬ ‭AST‬
‭○‬ ‭ALT‬
‭‬ ‭Non-specific markets for‬‭biliary duct injury‬
‭○‬ ‭Alkaline phosphatase (AP)‬
‭○‬ ‭Gamma-glutamyl transferase (γGT)‬
‭‬ ‭Bilirubin‬‭→ function of hemoglobin breakdown and excretion pathway‬
‭‬ ‭Albumin/total protein‬‭→ rough assessment of overall synthetic function‬
‭‬ ‭Prothrombin time‬‭→ extrinsic clotting pathway‬
‭‬ ‭Ammonia‬‭→ detoxification functions‬
‭‬ ‭Hepatocytes secrete bile‬‭into the canaliculi‬
‭‬ ‭Sphincter of Oddi‬‭→ guards the opening of the ampulla into the duodenum‬
‭‬ ‭In several diseases,‬‭glycogen degradation is depressed, with an abnormal intracellular accumulation‬
‭‬ ‭Jaundice = accumulation of bilirubin and bilirubin glucuronide in the tissues‬
‭‬ ‭Marker for elevated risk of CV disease‬‭→ apolipoproteins put on lipid particles and allow for endocytosis and use by cells‬
‭‬ ‭Pro-atherogenic‬‭→ chylomicron remnants, VLDL, IDL, LDL, and Lp(a)‬
‭‬ ‭Anti-atherogenic‬‭→ HDL‬
‭‬ ‭Main lipids of chylomicron remnants → triglycerides and cholesterol‬
‭‬ ‭Major structure protein of chylomicrons and chylomicron remnants →‬‭Apo B-48‬
‭‬ ‭Triglycerides carried in chylomicrons are metabolized in muscle and adipose tissue by‬‭lipoprotein lipase‬
‭‬ ‭The endogenous lipoprotein pathway begins in the liver with the formation of VLDL‬
‭‬ ‭Delivery of cholesterol to the cell decreases the activity of‬‭HMG-CoA reductase‬‭&‬‭expression of LDL receptors‬
‭‬ ‭Low LDL receptors = high plasma LDL levels‬
‭‬ ‭High number of hepatic LDL receptors = low plasma LDL levels‬
‭‬ ‭PCSK9‬‭regulates the rate the degradation of LDL receptors‬
‭‬ ‭ApoB100‬‭is measured clinically to assess how many LDL particles are in the blood‬
‭‬ ‭Mature HDL can acquire additional cholesterol from cells via → ABCG1, SR-B1, or passive diffusion‬
‭‬ ‭Cholesterol efflux from macrophages to HDL →‬‭protecting from the development of atherosclerosis‬
‭‬ ‭VLDL‬‭→ only lipoprotein‬‭containing apolipoprotein B‬‭that is secreted from the liver‬
‭‬ ‭Fibrosis‬‭activates stellate cells‬
‭○‬ ‭Drugs that can cause: methotrexate & excess vitamin A‬
‭‬ M
‭ irrizi syndrome‬
‭○‬ ‭Common hepatic duct obstruction‬
‭‬ ‭Extrinsic compression from an impacted stone in the cystic duct or infundibulum of the gallbladder‬
‭○‬ ‭Sx: jaundice, fever, RUQ pain‬

‭‬ G
‭ allstone ileus‬
‭○‬ ‭Caused by impaction of a gallstone in the ileum after being passed through a biliary-enteric fistula‬

‭‬ N
‭ eonatal jaundice‬
‭○‬ ‭Elevated total serum bilirubin‬
‭○‬ ‭Hyperbilirubinemia → bilirubin that is deposited into the skin‬
‭○‬ ‭Sx: yellowish skin, sclerae, and mucous membranes‬
‭○‬ ‭Physiologic jaundice‬‭→ mild, transient, and self-liming condition‬
‭○‬ ‭Most common →‬‭unconjugated hyperbilirubinemia‬
‭‬ ‭Higher RBC mass and decreased RBC lifespan‬
‭‬ ‭Metabolic bilirubin clearance is also compromised due to impaired activity of‬‭UGT‬
‭‬ ‭Enzyme needed for bilirubin conjugation‬

‭‬ N
‭ onalcoholic fatty liver disease (NAFLD)‬
‭○‬ ‭The most common liver disease‬‭in Western countries‬
‭○‬ ‭Associated risk with metabolic risk factors: obesity, dyslipidemia, insulin resistance, and type 2 diabetes mellitus‬
‭○‬ ‭Insulin resistance‬‭→ key mechanism leading to hepatic steatosis and steatohepatitis‬
‭○‬ ‭Lipid accumulation in hepatocytes‬‭→ increased influx of lipids to the liver or decreased lipid disposal‬

‭‬ C
‭ irrhosis‬
‭○‬ ‭Irreversible distortion of normal liver architecture characterized by hepatic injury, fibrosis, and nodular regeneration‬
‭○‬ ‭Clinical presentations are the consequence of both progressive hepatocellular dysfunction and portal hypertension‬
‭○‬ ‭Advanced cirrhosis → spontaneous bacterial peritonitis‬

‭‬ H
‭ epatitis A - Picornavirus‬
‭○‬ ‭Common‬‭infectious‬‭etiology‬‭of‬‭acute hepatitis‬‭worldwide‬
‭○‬ ‭Abrupt‬‭onset‬
‭○‬ ‭Incubation period:‬‭15-50 days‬
‭○‬ ‭Sx: n/v, fatigue, malaise, abdominal pain, poor appetite, fever‬
‭○‬ ‭No chronic hepatitis or associated with malignancy‬
‭○‬ ‭Transmitted through oral-fecal route via exposure to contaminated food, water, close physical contact‬
‭○‬ ‭Early‬‭antibody response →‬‭IgM‬
‭○‬ ‭Late‬‭antibody response →‬‭IgG‬

‭‬ H
‭ epatitis B - Hepadnavirus‬
‭○‬ ‭Insidious onset‬
‭○‬ ‭Incubation period: 28-160‬
‭○‬ ‭Sx: arthralgia, rash, n/v‬
‭○‬ ‭DNA virus‬
‭○‬ ‭Sexual contact or contact with infected blood or other body fluids‬
‭○‬ ‭Most common transmission in adults → sexual contact‬
‭○‬ ‭Most common mode worldwide → perinatal and early childhood transmission‬
‭○‬ ‭Can develop chronic hepatitis B‬
‭○‬ ‭Marker of‬‭active viral gene expression‬‭→‬‭HBsAg‬
‭○‬ ‭Marker of‬‭infectivity‬‭→‬‭HBeAg‬
‭○‬ ‭Indication of‬‭immunity‬‭→‬‭anti-HBs‬‭or‬‭anti-HBe‬

‭‬ H
‭ epatitis C - Flavivirus‬
‭○‬ ‭Insidious onset‬
‭○‬ ‭Incubation period: 14-160‬
‭○‬ ‭Sx: n/v‬
‭○‬ ‭No antigen‬
‭○‬ ‭No vaccine‬
‭‬ H
‭ epatitis D - Delta Viridae‬
‭○‬ ‭Insidious onset‬
‭○‬ ‭Incubation period: 30-180‬
‭○‬ ‭Sx: fever, n/v, jaundice‬
‭○‬ ‭No antigen‬
‭○‬ ‭High mortality rate‬
‭○‬ ‭No vaccine‬
‭○‬ ‭Requires HBV helper function to cause infection‬
‭○‬ ‭High risk for chronically infected with HBV, injection drugs users, hemophilia‬

‭‬ H
‭ epatitis E - Caliciviridae‬
‭○‬ ‭Abrupt‬‭onset‬
‭○‬ ‭Incubation period:‬‭15-60‬
‭○‬ ‭Sx: arthralgia, rash, fever, n/v, jaundice‬
‭○‬ ‭Severe in preggo‬
‭○‬ ‭Fecal-oral route‬
‭○‬ ‭Can progress to chronic hepatitis‬
‭○‬ ‭Infected preggo during 3rd trimester →‬‭acute liver failure‬