Hepatic & GI Study Notes PDF

Summary

This document presents notes on hepatic and gastrointestinal (GI) topics, particularly focusing on liver function and its role in anesthetic management. The study guide covers various aspects of liver anatomy and physiology, such as carbohydrate metabolism, protein synthesis, blood flow, and bile production. It also discusses the effects of anesthetics on liver function.

Full Transcript

Hepatic & GI
Dr. Jordan Popp, DNP, CRNA, APRN
The Liver
Introduction
Largest internal organ in the body
Located in upper quadrant of the ABD
Function
Processing nutrients from food
Protein and other chemical synthesis
Energy storage
Toxin filtration
Fights infections
Structure
The basic structure in the liver is the lobule
Lobules are made up of hepatocytes
Blood Flow
Blood enters the liver through the hepatic artery and portal vein, and then flows, through the sinusoids
to the central veins.
The central veins empty into the hepatic veins, which carry blood out of the liver to the heart
Functions of the Liver
Carbohydrate metabolism Bile production
Gluconeogenesis Lipid metabolism
Glycogenolysis Lipogenesis
Glycogenesis Cholesterol synthesis
Protein synthesis Coagulation factor synthesis
Albumin (maintenance of Production of factors I, II, V, VII, IX,
osmolarity) X, and XI
Thrombopoietin (platelet Insulin clearance
production) Drug metabolism/transformation
Amino acid synthesis Bilirubin metabolism
Protein metabolism
Anesthetics and Liver Blood Flow
Inhaled Anesthetics
Mainly affect portal blood flow
Do not adversely affect liver integrity through blood flow changes
Hepatic Artery Buffer Response
Regulates total hepatic blood flow
Increases hepatic arterial flow when portal flow decreases
Liver Function
Protein, lipid, and hormone synthesis are maintained despite anesthetic use
No artificial substitutes can fully replicate the liver
Volatile Anesthetics & Hepatic Blood Flow
Volatile Agent Hepatic Artery Blood Flow Portal Vein Blood Flow
Desflurane Moderate dose-dependent Moderate dose-dependent
decrease decrease
Isoflurane Minimal dose-dependent decrease Minimal dose-dependent decrease
Sevoflurane Minimal dose-dependent decrease Minimal dose-dependent decrease
Carbohydrate Metabolism
Glucose
Main fuel source
Liver
Plays a central role in maintaining blood glucose levels
Balances supply and demand
Gluconeogenesis
Makes new glucose from non-carbs
Active when glycogen stores are low (fasting)
Glycogenolysis
Releases glucose from stored glycogen during fasting
Protein Synthesis and Clinical Concerns
Protein synthesis primarily occurs in the liver
Liver disease reduces circulating proteins
Decreased plasma oncotic pressure leads to fluid shifts and increased drug
distribution volume
Highly protein-bound drugs have a greater unbound fraction = more free
Muscle Relaxants
May need increased dose due to larger distribution volume
Succinylcholine and Ester LA
Prolonged effects due to reduced plasma cholinesterase
Bilirubin
A yellow pigment, byproduct of heme breakdown
Formation of Unconjugated Bilirubin
Reticuloendothelial cells (spleen) break down heme
Unconjugated bilirubin is potentially harmful at high levels
Transport to the Liver
Albumin binds and carries unconjugated bilirubin to the liver
Conjugation in the Liver
Liver cells attach glucuronic acid, making bilirubin conjugated
Excretion int the Intestine
Conjugated bilirubin joins bile, and digestive fluid
Bacteria further breaks down bilirubin
Elimination through feces
Most leaves the body through stool however some is reabsorbed and recycled
Bile Production
Liver Liver Disease
Makes bile Steatorrhea
Gallbladder Vitamin K Deficiency
Stores and concentrates bile Coagulopathy
Common Bile Duct (CBD) Coagulopathy in Liver Disease
Delivers bile to the small intestine Caused by both
Low clotting factor
Fat and Protein in Intestine Low Platelets
Trigger bile release from gall bladder Treatment
Bile Functions Vitamin K
FFP
Aids fat absorption
If coagulopathy is present caution high
Helps with fat-soluble vitamins blood loss and invasive procedures
Removes drug waste
Insulin Clearance
The liver is the main site for
insulin clearance
Removes 50% of insulin during
first portal pass
Can very widely under different
conditions
Drug Metabolism/Transformation
Drugs undergo chemical changes (metabolism) in the
liver before being eliminated Important Enzymes
Where Cytochrome P450 (CYP)
Mainly the liver Main player in Phase I
Drug Interactions
Why Can compete for CYP enzymes, affecting metabolism and
Make drug excretion easier potentially causing harmful effects

Process Tolerance
Phase I Some drugs induce enzyme production, leading to
Modifies drug structure (oxidation, reduction, hydrolysis) tolerance (needing higher dose for same effect)
Phase II Special Cases
Attaches molecules to make drug more water-soluble Some drugs rely heavily on liver function for metabolism
Elimination Reduced blood flow to the liver can impact their
Products excreted in bile or urine clearance
First-Pass Effect
Orally ingested drugs might be broken down in the liver
before entering circulation, reducing their effectiveness.
Drug Metabolism in the Liver
Phase I Reactions
Functionalization reactions
Addition or exposure of a functional group (e.g., oxidation, reduction, hydrolysis)
Typically result in the loss of pharmacologic activity (excluding prodrugs)
Important for metabolizing many of the anesthetic drugs (e.g., midazolam,
diazepam, codeine, phenobarbital, inhalation anesthetics, propofol)
Phase II Reactions
Conjugation reactions
Phase I product (substrate) conjugation with a second molecule
Lead to the formation of a covalent linkage between a functional group and
glucuronic acid, sulfate, glutathione, amino acid, or acetate (e.g., morphine,
acetaminophen)
Laboratory Evaluation of Liver Function
What is the problem Key markers
Parenchymal Transferases (ALT & AST)
Liver cell dysfunction Sensitive for acute injury, degree of
Obstructive elevation helps diagnose type
Bile flow blockage Alkaline Phosphatase (ALP), Y-Glutamyl
transferase (GGT)
Limitations of specific tests Indicate obstructive problems
Ammonia
Limited usefulness in assessing disease
Consider all markers, symptoms, and
severity physical exam together
Bilirubin Child-Pugh Classification
Elevated in many liver diseases Uses albumin, bilirubin, and PT to
Albumin assess overall liver function and guide
Slow to change, unreliable treatment
Grading Liver Function Using the Child-Pugh
Classification System
Clinical Significance of Liver Biochemical Tests
Volatile Anesthetic Selection
General Effects of Volatile Anesthetics: Halothane:
Reduce hepatic blood flow by 30-50% after Reduces hepatic blood flow most
induction. significantly.
Halothane causes the largest reduction, Associated with two types of liver injury:
followed by desflurane, sevoflurane, and Minor elevation in ALT (10-30% of patients).
isoflurane.
Severe "halothane hepatitis" (1 in 10,000).
May affect liver function, but studies suggest
minimal clinical impact with newer agents Largely replaced by newer agents
(desflurane, sevoflurane) due to safety
Desflurane and Sevoflurane: concerns.
Less impact on hepatic blood flow than Viral infections are more likely cause of
halothane. jaundice after halothane exposure
Sevoflurane may produce fluoride ions, but Other
generally below nephrotoxic levels.
Preferred for patients with liver disease. Regional anesthesia can also reduce hepatic
blood flow due to sympathectomy
Isoflurane:
Some vasodilatory effects, but may not fully
offset its impact on hepatic blood flow
Opioid Effects
Spasm of the Oddi sphincter is a medical condition that can cause biliary
colic, or pain in the upper right abdomen
Could cause false-positive on intraoperative cholangiography
Causes
All opioids have been shown to cause spasm of the Oddi sphincter
The more potent the opioid, the greater the resultant increase in biliary pressure
Prevention
Judicious titration of the anesthetic may help to reduce the occurrence of spasm
Even with fentanyl-based anesthesia, the incidence of spams is low
Treatment
If spasm is suspected, naloxone or nalbuphine can be administered to reverse the
effects of opioids
Atropine, Glycopyrrolate, Glucagon, & Nitroglycerin
Mechanical Ventilation
Mechanical ventilation can reduce hepatic blood flow by:
Increasing airway pressures, which reduces venous delivery to the right atrium and
CO2
Increasing positive end-expiratory pressure
Reduced hepatic blood flow can also be caused by:
Increased hepatic venous pressure
Increased reflex sympathetic tone
Hypercapnia and acidosis increase hepatic blood flow, while hypocapnia
and alkalosis decrease it.
Intraoperative variables like surgical site, ventilation mode, anesthetics,
and physiologic responses can affect hepatic blood flow variability.
Surgical Site & Hepatic Blood Flow
Diseases of the Liver
Acute Hepatitis
Hepatitis = liver inflammation
Can be caused by multiple factors
Toxins, Alcohol, Medications, Viral/Bacterial Infections, & Autoimmune Disease
Acute hepatitis has variable presentation
The cause is usually exposure to an infectious virus
Viral Hepatitis
Typically, hepatitis A, B, or C
Begins with a 1–2-week period of fever, fatigue, nausea, and vomiting
Jaundice occurs for the next 2-12 weeks
Recovery takes months, symptoms resolve but liver enzymes remain elevated
Full Resolution usually takes 4+ months
Liver Disease
Drug-Related Liver Injury
Drug related liver injury can be an idiosyncratic reaction to a substance or an
overdose
Risk Factors
Genetic predisposition is the main risk factor
Age, gender, exposure to other substances, and medical conditions
Alcohol Hepatitis
Alcoholic hepatitis is a common form of drug-induced hepatitis and causes fatty liver
Liver Disease
Chronic Hepatitis
Occurs in 1-10% of acute hepatitis B infections
Occurs in 10-40% of hepatitis C infections
Does not occur in hepatitis A infections
Chronic Persistent Hepatitis
Limited to portal areas, benign, hepatic cellular integrity is preserved, and rarely is cirrhosis seen
Chronic Lobular Hepatitis
Recurrent exacerbations of acute inflammation, cirrhosis is rare
Chronic Active Hepatitis
Progressive, hepatocyte destruction, cirrhosis and liver failure
Hepatic Failure
Multiorgan failure, encephalopathy, and esophageal varices
Other Symptoms
Fatigue, jaundice, thrombocytopenia, glomerulonephritis, myocarditis, arthritis, and neuropathy
Plasma albumin levels are usually low and PT is prolonged
Liver Disease – Nonalcoholic Fatty Liver
Disease
Broad spectrum of liver disorders related to fat buildup
Most common liver disease worldwide (1/3 of US adults)
Causes
Unknown but thought to be related to obesity, insulin resistance, and genetics
Symptoms
Often asymptomatic or may have fatigue, weight loss, and/or RUA pain
Treatment
No cure
Treatment to slow progression include lifestyle changes and medications
Hepatitis – Anesthetic Management
Chronic mild hepatitis:
No increased risk for complications during laparoscopic cholecystectomy.
Acute hepatitis:
Elective surgery should be delayed until liver function normalizes.
Alcohol intoxication:
Increased risk of complications, careful anesthetic management needed.
Alcohol withdrawal:
Surgery associated with higher mortality rate.
Urgent/emergent surgery:
Manage comorbidities for risk reduction and symptom control.
Anesthetic Management of the Patient with
Acute Hepatitis
Preserve hepatic blood flow:
Use isoflurane or desflurane and avoid halothane
Maintain normocapnia
Avoid PEEP if possible
Provide adequate/liberal intravenous hydration
Consider regional anesthesia if coagulation is acceptable and the procedure allows
Avoid medications with potential for hepatotoxicity or inhibition of CYP450:
Halothane
Acetaminophen
Sulfonamides
Tetracycline
Penicillin
Amiodarone
Neuromuscular blocking agents may be prolonged in patients with liver disease because of:
Reduced pseudocholinesterase activity
Decreased biliary excretion
Larger volume of distribution
Surgical Recommendations for the Acutely
Intoxicated Patient
Anesthetic requirement is reduced
Acute intoxication reduces MAC
Aspiration precautions are needed
Full stomach, alcohol-related impaired pharyngeal reflexes
Alcohol increases GABA receptor activity
Enhanced effects of benzodiazepines, barbiturates, propofol, other CNS
depressants
Alcohol inhibits NMDA receptors
Reduces CNS excitability
Cirrhosis
Liver disease characterized by scarring and fibrosis = disrupt blood flow
Symptoms vary and depend on severity, but common symptoms include:
Fatigue, weight loss, ABD pain, swelling, and jaundice
Complications:
Portal hypertension, ascites, encephalopathy, hepatorenal syndrome, and variceal
bleeding
Treatment:
No cure
Lifestyle changes, medications, and liver transplantation.
Prognosis
Varies depending on severity and casue
Causes of Cirrhosis
Viral Biliary
HBV Atresia
HCV Stone
HDV Tumor
Autoimmune Vascular
Autoimmune hepatitis Budd-Chiari syndrome
PBC Cardiac fibrosis
PSC Genetic
Toxic CF
Alcohol Lysosomal acid lipase deficiency
Arsenic Iatrogenic
Metabolic Biliary injury
α1-antitrypsin deficiency Drugs: high-dose vitamin A, methotrexate
Galactosemia
Glycogen storage disease
Hemochromatosis
Nonalcoholic fatty liver disease and steatohepatitis
Wilson disease
Laboratory Tests & Findings in Cirrhosis
Physical Changes Seen Systemically with
Portal HTN
Anesthetic Preparation and Management in
Cirrhosis
Preserve hepatic blood flow. Anticipate relative hypovolemia, worsened by
ascites
Avoid halothane (isoflurane is the best- Assess for the presence of high cardiac output
studied alternative, and better preserves and low peripheral resistance
flow). Suspect portal hypertension and/or variceal
bleeding, even without history
Consider regional anesthesia if procedure Anticipate depressed response to inotropes and
and coagulation status allows. vasopressors
Consider invasive monitoring
Avoid medications with situational Pharmacokinetics and Pharmacodynamics
potential hepatotoxicity when possible. Altered volume of distribution may occur
Anticipate presence, development, or Decreased serum albumin, increased gamma
globulins
abnormalities of: Intravascular volume unpredictable, especially
Coagulation with ascites
Attempt to correct prothrombin time Portosystemic shunted blood bypasses liver
Consider cryoprecipitate if fresh frozen plasma is Drugs that are highly extracted by liver are
ineffective or fibrinogen abnormality exists especially affected
Correct thrombocytopenia Increased sensitivity to sedative medications
Anticipate higher than normal blood loss
Hemodynamics
Perioperative Considerations in Liver Disease
Key Factors Optimizing Care
Disease Severity Address modifiable risk factors
Child-Pugh, MELD, and MELD-Na Individualize plan of care
predict potential complications
Minimize stress
Risk Factors
Comorbidities
Diagnostic Tools
Patient History
Physical Examination
Laboratory Tests
LFTs, Coags, Kidney function, CBC,
BMP, Glucose, and T&S
Cardiovascular Considerations
CV complications of cirrhosis:
Cardiac dysfunction
Abnormal central, splanchnic, and peripheral circulation
Hemodynamic changes caused by humoral and nervous dysregulation
Increased levels of endogenous vasodilators result in a hyperdynamic circulatory state
CV changes associated with liver disease:
Increased cardiac output
Decreased systemic vascular resistance
Decreased arterial blood pressure
Systemic collateral circulation
Arteriovenous shunting
Portal hypertension
Esophageal varices
Cardiomyopathy
Congestive heart failure
Fluid Balance and Renal Considerations in
Severe Hepatic Disease
Complications: Exudative process leads to protein-rich fluid in peritoneum
Ascites, Edema, Increased risk of infections, renal failure, poor Misplaced fluids create osmotic gradient and intravascular
long-term outcome hypovolemia
Fluid Status: Hepatorenal Syndrome (HRS):
Relative hypovolemia due to fluid removal and shunting Renal failure in advanced liver disease with portal hypertension
Impaired response to blood loss or stress Impaired renal function, abnormal arterial circulation, vasoactive
system activity
Perioperative Concerns: Triggered by GI hemorrhage, sepsis, surgery, aggressive diuretics
Maintain intravascular volume and electrolyte balance Signs: progressive ascites, azotemia, oliguria, multisystem organ
Ensure adequate renal perfusion failure
Water restriction, controlled IV fluids, potassium replacement Treatment: supportive therapy, liver transplantation
Fluid and Electrolyte Disturbances: Goal of HRS Therapy:
Hypoalbuminemia Increase renal blood flow through:
Renal function decline Renal vasodilation
Decreased free water clearance Splanchnic vasoconstriction (reducing blood flow to abdominal organs)
Dilutional hyponatremia
Hypokalemia
Mechanism of Ascites:
High pressure in lymphatic and hepatic venous systems
Low plasma oncotic pressure (due to hypoalbuminemia)
Hematologic Considerations
Anemia
Hemolysis, folate deficiency, hemorrhage, and bone marrow suppression
Thrombocytopenia
Splenic platelet sequestration, bone marrow suppression, antiviral therapy, and
decreased thrombopoietin
Coagulation
Deficiencies in clotting factors due to impaired liver synthesis
Decreased blood viscosity
Enhanced fibrinolysis
Excessive transfusion can worsen encephalopathy due to excess protein
burden
Recommended transfusions
FFP, Plt, Cryo
Respiratory Complications
Arterial hypoxemia is common and is often multifactorial
Ascites, hepatic hydrothorax, and COPD in pts with alcoholism)
Hepatopulmonary Syndrome (HPS)
Triad of liver disease, arterial deoxygenation, and widespread pulmonary
vasodilation
Causes:
Precapillary dilation in lungs
Blood shunting
Ventilation-perfusion mismatch
Increased alveolar-arterial oxygen gradient
Preoperative Management
Bassline oxygenation levels, address reversable lung issue, pick your drugs carefully
Hepatic Encephalopathy
Cause:
Failing liver can't clear neurotoxins like ammonia from gut bacteria.
Ammonia in systemic circulation disrupts brain function.
Shunting in cirrhosis bypasses liver, worsening ammonia problems.
Effects:
Altered mental state (confusion, personality change, coma).
Neurotransmitter imbalances and astrocyte injury.
Brain swelling and edema.
Treatment:
Medications to reduce ammonia levels (lactulose, rifaximin).
Avoiding sedatives if possible.
Intraoperative Anesthetic Consideration:
Monitoring
ECG
5-lead preferred
Monitor ST segments
Invasive
ART line for cont. BP and blood access
Cardiac output
Noninvasive monitors are unreliable in cirrhotic patients
Other
Blood glucose monitoring
Temp
Coag
IV access
TEE?
Anesthetic Technique: Medications
General Less an issue with acute failure
Maintain ABP and CO Rocuronium & Vec
Consider Regional Prolonged DOA
Cisatracurium
Volatile Anesthetics Good choice
Choose the agent with the least Liver Opioids
metabolism
Des, Sevo, ISO Caution due to hepatic metabolism
Avoid Nitrous if open ABD Fentanyl
Careful titration due to CYP3A4 interaction
Induction Morphine
Caution Benzos Avoid or titrate carefully
Neuromuscular Blockers Alfentanil
RSI for cirrhotic pts Altered elimination and distribution
Succinylcholine Remifentanil
Prolonged in chronic liver failure Short ½ life, not affected by liver function
Diseases of the Biliary Tract
Main symptom:
Reduced or stopped bile flow
Most common cause:
Blockage outside the liver
Blockage culprits:
Gallstones (most common)
Strictures (narrowing)
Tumors
Infections
Reduced blood flow (ischemia)
Gallstone composition:
90% cholesterol crystals (radiolucent)
10% calcium bilirubinate (in cirrhosis or hemolytic anemia)
Prevalence:
Affects 15-20 million adults in the US
A&P Overview
Cystohepatic Triangle (Calot's Triangle)
Gallbladder Function
Bile
Combination of hepatocyte and biliary tract
epithelial secretions
Functions include: fat and fat-soluble vitamin
absorption, bilirubin excretion, and duodenal
alkalization
Bile production is 500-1,000 mL/day
Bile ducts, gallbladder, and sphincter of Oddi
modify, store, and regulate bile flow
Absorbed bile returns to the liver via the
portal venous system
Hepatocytes secrete bilirubin, cholesterol.
Bile salts, lecithin, water, and electrolytes
Vagal stimulation, secretin, CCK, and gastrin
stimulate bile flow.
Bile acids increase bile secretion
Cholecystitis
Inflammation of the gallbladder
Caused by obstruction of the
cystic duct
Symptoms include RUQ pain,
fever, and leukocytosis
Treatment = Cholecystectomy
Pre-op
IV fluids, and gastric suction
Emergent laparotomy if ruptured
Cholelithiasis and Choledocholithiasis
Feature Cholelithiasis Choledocholithiasis

Location of Gallstones Gallbladder Common Bile Duct

Frequency More common Less common

Upper abdominal pain, nausea, Similar to cholelithiasis + jaundice,
Symptoms
vomiting, indigestion fever, chills

Treatment Cholecystectomy ERCP, sphincterotomy

Severity Less severe More serious
Cholelithiasis and Choledocholithiasis
Acute obstruction of the CBD can cause similar symptoms to
cholecystitis.
Recurrent cholecystitis can lead to fibrotic changes in the
gallbladder, making it difficult to expel bile.
Charcot triad (fever and/or chills, jaundice, right upper quadrant pain)
can help diagnose acute ductal obstruction.
Other symptoms include weight loss, anorexia, and fatigue.
Radiologic evaluation can confirm ductal patency.
X-ray, ultrasound, MRI, and CT
ERCP is the usual treatment for ductal stones.
Endoscopic Retrograde
Cholangiopancreatography
Anesthetic Considerations in Gallbladder and
Biliary Tract Disease
Goal NMB
Gallstone removal to prevent Monitoring and Management
complications Antiemetics for peritoneal irritation, opioid
Contraindications to laparoscopic use, and potential volume depletion
cholecystectomy Decreased Vt due to CO2 insufflation
Coagulopathy Hypotension from retroperitoneal
Sever COPD insufflation
ESLD Hypercarbia due to CO2 insufflation
CHF Hemodynamic compromise from
Trendelenburg position
Induction Unknown hemorrhage
Standard of RSI with ETT Ventilation
Airway Management PCV preferred over VC to minimize alveolar
ETT derecruitment and barotrauma with CO2
OG tube insufflation
Anesthetic Considerations in Gallbladder and
Biliary Tract Disease
Laparoscopic Approach: Muscle Relaxants
Uses insufflation with CO2, Awake Extubation
increasing intraabdominal pressure
(IAP). Postoperative Pain
15mm Hg: Routine pressure. Reduced due to small incisions
20-25 cm H2O: Increases cardiac Shoulder pain from
output & CVP. pneumoperitoneum
30-40 cm H2O: Decreases cardiac
output & CVP. Severe pain management options
PCA, Intercostal block, neuraxial
Anesthetics opioids
All maintenance drugs can be used
Avoid Nitrous Oxide
Anesthetic Considerations in Gallbladder and
Biliary Tract Disease
Full Stomach Precautions
Jaundice – alert you to hepatic dysfunction and increased risk for:
Hemorrhage
Exaggerated drug effects
Hemodynamic fluctuations
Monitoring
Depends on pt status
CBD Exploration
Glucagon
Anesthetic Considerations in Gallbladder and
Biliary Tract Disease
Open Cholecystectomy
Indicated for:
Emergent cases
Infections
Technically challenging laparoscopy
More complications including pain and resp splinting
Patients with comorbidities and prolonged surgery are at increased risk for
ischemia and ABD crisis
Esophagus Overview
Length: Approximately 18-25 cm.
Function: Carries food and liquids to the stomach.
Structure:
Three segments: Cervical, thoracic, and abdominal.
Muscular walls: Allow expansion and contraction.
Upper esophageal sphincter (UES): Prevents air entry at rest.
Lower esophageal sphincter (LES): Controls passage of food
into the stomach.
Movement:
Peristaltic action: Muscular waves push food down.
Regulation:
Parasympathetic nerves: Control peristalsis.
Cranial nerves IX, X, XI: Control muscle contractions and LES
relaxation.
Sympathetic nerves: Modulate motor activity.
Esophageal Disorders
Symptoms: Dysphagia, heartburn, chest pain.
Primary Motility Disorders:
Achalasia: Impaired LES relaxation, can be caused by other diseases.
Chronic achalasia: Esophageal dilation, frequent regurgitation.
GERD: Failure of antireflux barriers, abnormal reflux of stomach contents.
Symptoms: Heartburn
Complications: Barrett's esophagus (increased cancer risk).
Management:
Conservative (most patients):
Medications: Antacids, mucosal protectants, H2 blockers, proton pump inhibitors, prokinetics.
Surgical (if conservative fails):
Mechanically defective LES.
Recurring symptoms after stopping medication.
Unacceptable medication side effects.
Hiatal Hernia
Definition: Part of the abdomen (usually stomach) pushes through the
diaphragm into the chest.
Types:
Type I (Sliding): Upper stomach moves through an enlarged opening. (Most common)
Type II (Paraesophageal): Stomach moves next to the esophagus, not through the
opening.
Type III (Combined): Features of both Type I and II.
Type IV: Other organs (colon, small bowel) herniate through a large opening.
GERD: Contribution to GERD is debated, but important in severe cases.
Surgery: Various options, choice is usually made intraoperatively.
Anesthesia: Aspiration prophylaxis is important.
Cricoid pressure decreases pressure in the lower esophageal sphincter (LES), but its
value is debated.
Anesthetic Considerations in Esophageal
Disease
Occult disease (no symptoms) is less concerning than uncontrolled,
symptomatic disease.
If a patient has a history of reflux symptoms, consider aspiration
prophylaxis during anesthesia.
While best practices aren't established, modifying stomach acid or volume
is common pre-surgery.
Rapid sequence induction with cricoid pressure can help protect the
airway.
Laryngeal mask airway use is controversial due to its lack of complete
airway protection. Only consider it if endotracheal intubation is not
feasible.
Disease of the Stomach: Anatomy
Fundus: Thin-walled, upper
section for storage.
Body: Largest section, contains
most digestive cells, curved by
the lesser and greater
curvatures.
Pylorus: Thick-walled, lower
section for mixing and controlled
release of food into the
duodenum.
Disease of the Stomach: Function
Storage: The fundus relaxes to store food,
especially solids, for several hours.
Processing: The stomach breaks down
large food pieces into smaller particles.
Breakdown:
Liquids: Pass through the stomach quickly
along the lesser curvature.
Solids: Churned in the antrum and gradually
released into the duodenum through the
pylorus.
Digestion:
Starch: Partially broken down by salivary
amylase while in the stomach.
Overall: Facilitates digestion by breaking
down cell walls for further processing in the
small intestine.
“Quick” Overview
Wall layers: Serosa, muscularis externa (3 Acid and pepsinogen production: Stimulated by
layers), submucosa, and mucosa. sight and smell of food.
Muscularis externa: Contains a thick circular Gastrin: Major hormonal regulator of acid
muscle layer acting as the pyloric sphincter. secretion.
Submucosa: Contains blood vessels, lymphatic Acid secretion regulation:
vessels, and nerves. Stimulated by: Acetylcholine, gastrin, and
histamine.
Mucosa: Contains glands responsible for Inhibited by: Somatostatin, duodenal acid, and
various functions. negative feedback from gastrin.
Glands: Other functions:
Fundus: Secrete mucus (protection) and Barrier against pathogens (acidic environment and
hydrochloric acid (digestion). immune function).
Antrum: Secrete mucus (protection) and gastrin Temperature regulation of ingested substances.
(hormone).
Secretion of intrinsic factor (vitamin B12
Sphincters: Lower esophageal sphincter (LES) absorption).
and pyloric sphincter.
Capacity: Stores up to 1.5 liters of fluid.
Food storage: Up to 4 hours.
Peptic Ulcer Disease
Loss of stomach lining due to inflammation, can extend deeper into
stomach wall.
Types: Acute vs. Chronic (most common)
Causes:
H. pylori infection (most common)
NSAID use
Complications: Hemorrhage, perforation, obstruction
Duodenal ulcers:
More common in men 45-65 and women >55.
Caused by excess acid and pepsin.
Can involve lower stomach.
Gastritis
An inflammatory disorder of the stomach Treatment:
lining (gastric mucosa) Immediate: Fluid resuscitation, blood
Also called stress ulcers, erosive gastritis, or transfusion (if needed)
hemorrhagic gastritis Infection control: Antibiotics, source control
Stomach protection:
Can cause life-threatening bleeding Nasogastric tube (NG) for lavage and
decompression
Causes: Antisecretory drugs (proton pump inhibitors or
Multifactorial: H2 blockers) to reduce acid
Physical trauma, shock, sepsis, etc. Complications:
Medications, chemicals, or H. pylori infection Increased risk of infection and mortality
Reduced blood flow, mucus, or bicarbonate
secretion Who is at risk?
Reduced prostaglandins Critically ill patients
Stress: Hypoxia, sepsis, or organ failure Patients undergoing major surgery
Symptoms: Patients with underlying medical conditions
(e.g., coagulopathy)
Upper GI bleeding
Therapeutic Options in Peptic Ulcer Disease
Goals: Complications of antacids:
Relieve symptoms Acid rebound.
Heal the ulcer Milk-alkali syndrome (hypercalcemia, alkalosis,
Prevent recurrence elevated blood urea).
Treatment: H2-receptor antagonists:
H. pylori eradication: Main focus of medical Cimetidine, famotidine, and nizatidine
therapy. Block acid secretion and promote healing.
Medications: Adjust dosage for kidney function.
Antacids: Short-term symptom relief, can cause acid Potential side effects: altered drug metabolism,
rebound and milk-alkali syndrome. mental confusion, decreased blood flow.
H2-receptor antagonists: Block acid secretion, adjust
dosage for kidney function, potential side effects
include altered drug metabolism, mental confusion,
Proton pump inhibitors:
and decreased blood flow. Most effective acid blockers.
Proton pump inhibitors: Most effective acid blockers.
Sucralfate: Promotes healing and protects the ulcer,
Sucralfate:
minimal side effects. Promotes healing and protects the ulcer.
Misoprostol: Prevents ulcers in NSAID users. Minimal side effects.
Antibiotics: Eradicate H. pylori.
Surgery: Reserved for:
Intractable symptoms despite medication.
Complications: bleeding, perforation, obstruction.
Therapeutic Options in Peptic Ulcer Disease
Gastric Neoplastic Disease
Prevalence: Hematemesis (vomiting blood).
Gastric outlet obstruction symptoms.
Second most common cancer worldwide.
Seventh most common cause of cancer Diagnosis:
death in the US. Endoscopy with biopsy.
Types: Endoscopic ultrasound for staging.
95% adenocarcinoma. Treatment:
4% lymphoma. Early stage: Endoscopic mucosal resection.
1% leiomyosarcoma. Advanced stage:
Surgery (most common):
Symptoms: Total gastrectomy (proximal or diffuse tumors).
Early stage: May have no symptoms. Partial gastrectomy (distal tumors).

Advanced stage: Extended lymphadenectomy (may improve staging and
survival).
Epigastric pain (constant, non-radiating, not Other options: Chemotherapy, radiation therapy.
relieved by food).
Weight loss. Demographics:
Anorexia. More common in men (2:1 ratio).
Fatigue. Diagnosed in 5th-7th decades of life.
Vomiting.
Anesthetic Considerations in Gastric Disease
Patients: atelectasis, ileus.
Acutely ill (emergency surgery, e.g., bleeding ICU stay may be needed (peritonitis, large
ulcer) fluid resuscitation).
Stable (elective surgery, e.g., cancer, ulcer) Anesthetic technique:
Procedures: May include epidural catheter for pain
Often laparoscopic. management.
Preoperative considerations: Types of surgery:
Correct hypovolemia and anemia. Total/partial gastrectomy
Consider invasive monitoring for high-risk Billroth I/II (stomach reconstruction)
patients. Laparotomy with ulcer repair
Anticipate moderate fluid shift and blood Vagotomy (for ulcers):
loss.
Reduces acid secretion and promotes
Prepare for blood product transfusion. healing.
Postoperative complications: Can be truncal (broad) or selective (targeted).
Hemorrhage, hypovolemia, hypothermia,
Gastrostomy
Surgical creation of an opening in the stomach for feeding and decompression.
Patients are often neurologically impaired or debilitated with compromised airway
reflexes.
Increased aspiration risk due to compromised airway reflexes and stomach insufflation.
Procedure location:
Bedside, endoscopy suite, or operating room.
Guiding technique:
Percutaneous placement uses endoscopic guidance.
Pre-procedure considerations:
Stop tube feeding 8 hours prior.
Anesthesia:
Primary procedure: Sedation and local anesthesia.
General endotracheal anesthesia for laparotomy or contraindications to local anesthesia.
ETT may need to be held during gastroscope insertion/withdrawal.
Pancreatic Exocrine Functions
Location:
Head: curves around duodenum
Body: behind stomach
Tail: touches spleen
Length: 20 cm
Functions:
Exocrine (enzymes):
Secrete pancreatic juice (neutralizes stomach acid for enzyme activity)
Enzymes break down proteins, fats, and carbohydrates
Endocrine (hormones): (discussed on next slide)
Exocrine juice secretion:
Stimulated by hormones (secretin, CCK-PZ) and vagus nerve
Neutralizes stomach acid (optimal enzyme activity)
Regulation of exocrine secretion:
Hormones and nervous system activity
Vagolytic agents and vagotomy can decrease secretion
Pancreatic Endocrine Functions
Cell types:
Alpha (A) cells: Secrete glucagon (increases blood sugar).
Beta (B) cells: Secrete insulin (decreases blood sugar).
Delta (D) cells: Secrete somatostatin (regulates other hormones).
Delta-2 (D2) cells: Secrete vasoactive intestinal peptide (VIP).
PP (F) cells: Secrete pancreatic polypeptide (PP) (function not fully understood).
Main function: Regulate blood sugar levels.
Hormone actions:
Insulin: Promotes energy storage by lowering blood sugar, increasing protein synthesis, and
decreasing breakdown of glycogen and fat.
Glucagon: Promotes energy release by raising blood sugar through glycogen breakdown, new
glucose production, and increasing fat breakdown.
Regulation of insulin secretion:
Stimulated by: Parasympathetic nervous system, beta-adrenergic stimulation, and low blood sugar.
Inhibited by: Alpha-adrenergic stimulation, stress, and certain medications.
Acute Pancreatitis
Causes Symptoms
Alcohol abuse Pain (severe, radiating)
Gallstones Nausea, vomiting, and fever
Other factors (trauma, infections, Hypotension
medications)
Treatment
Phases Fluid resuscitation
1st – activation of trypsin in acinar cells Pain management (avoid morphine)
2nd – inflammatory response of the pancreas Nutritional support
3rd – systemic activation of the immune Surgery (for gallstones)
system
CRP level
Culprit enzymes Anesthetic
Those activated by trypsin, enterokinase, and
bile acids Choice of anesthetic technique depends on
pt presentation
Pancreatic inflammation, which is caused by
vascular breakdown, coagulation necrosis, fat Fluid status
necrosis, and parenchymal necrosis Anticipate labile hemodynamics and altered
Mimic an MI and can cause ARDS and DIC hepatic function
Chronic Pancreatitis
Permanent damage to the pancreas with and lungs
inflammation, scarring, and tissue destruction. Electrolyte Imbalances:
Causes: Hypoalbuminemia: Worsened by treatment with
Most common: Alcohol abuse (70% of cases) albumin-free fluids.
Other: Smoking, genetics, autoimmune disease, Hypomagnesemia: Common complication.
duct obstruction Hypocalcemia: Usually due to low albumin
Treatment: Calcium replacement only if ionized calcium
Diagnosis: is low.
"Classic triad": steatorrhea, pancreatic Endocrine Insufficiency:
calcification, diabetes mellitus
Steatorrhea only occurs with very low lipase Diabetes: Develops in half of patients after
secretion. resection or severe pancreatitis.
Increased risk of severe hypoglycemia: Due to
Symptoms: combined alpha and beta cell damage.
Abdominal pain Other
Weight loss and malnutrition
Pancreatic abscess: Requires surgical drainage.
Potential liver problems (jaundice, ascites, etc.)
Fistula formation: Possible, especially to the colon.
Malabsorption of fats and proteins
Hemorrhage: Possible due to erosion of major
Increased risk of fluid buildup around the heart arteries.
Pancreatic Pseudocysts
Fluid: Watery, rich in pancreatic enzymes.
Enzyme levels: Typically elevated in patients with pseudocysts.
Resolution:
Many resolve spontaneously without intervention.
Large (>6 cm) pseudocysts are less likely to resolve on their own.
Complications:
Symptoms: Tenderness, nausea, vomiting, early fullness, jaundice.
Bleeding: Erosion into blood vessels can cause bleeding.
Treatment:
Not mandatory for all cases.
Symptomatic or complicated cases: Drainage preferred.
Internal drainage:
Endoscopic (preferred for high surgical risk): Transpapillary, cystogastrostomy, cystoduodenostomy.
Surgical: Cystogastrostomy, cystoduodenostomy, Roux-en-Y cystojejunostomy.
Choice depends on expertise and pseudocyst location.
Surgical Therapy for Pancreatitis
Endoscopic Therapy (for drainage):
Pancreatic duct sphincterotomy
Stent placement
Pancreatic duct stone removal
Open Surgery (for chronic pancreatitis):
Intractable pain (failed medical therapy)
Complications with nearby organs
Failed endoscopic pseudocyst management
Internal pancreatic fistulas
Pseudocyst Drainage Surgery:
Performed after cyst maturation (6 weeks for acute pancreatitis)
Cystogastrostomy, cystojejunostomy, cystoduodenostomy, or distal pancreatectomy (depending on location)
Percutaneous Drainage (rare):
For particularly friable pseudocysts
Guided by CT scan
Pancreatic Tumors
Epidemiology: Imaging (CT, ERCP).
25,000-30,000 new cases per year in the US. Biopsy.
More common in men and older adults (60-80 years old). Treatment:
Risk factors: family history, smoking, diabetes. Surgery (if possible):
Types: Whipple procedure (head of pancreas, duodenum, etc.).
80-90% are ductal adenocarcinomas. Distal pancreatectomy (tail of pancreas).
Location: Other treatments: medication, radiation therapy.
Head/uncinate process (70%) - often cause jaundice. Other pancreatic tumors:
Body/tail - larger and spread before symptoms appear. Insulinoma (hypoglycemia) - treated with surgery.
Symptoms: Gastrinoma (Zollinger-Ellison syndrome) - excess stomach
Vague and non-specific. acid, treated with surgery and medication.
Jaundice (head tumors). Anesthetic Management
Pain (abdomen, back). Fluid and electrolytes
Anorexia, fatigue, weight loss. Know the tumor and what it could secrete
Nausea, vomiting, diarrhea.
New-onset diabetes.
Diagnosis:
Blood tests (bilirubin, alkaline phosphatase).
Anesthetic Considerations in Pancreatic
Disease
Clinical presentation:
Variable, from stable and jaundiced to severely ill with multi-organ involvement.
May have severe abdominal pain, possible intestinal obstruction.
Preoperative considerations:
Aspiration risk: High, requires precautions during anesthesia.
Blood sugar: Monitor and manage due to potential diabetes or hypoglycemia.
Fluids and blood products: Likely needed for hypotension and hypovolemia, consider invasive monitoring.
Electrolytes: Monitor and correct imbalances (calcium, magnesium, potassium, etc.).
Coagulation: Monitor regularly (platelets, PT, aPTT, fibrinogen).
Kidney function: Assess and monitor (BUN, creatinine, urine output).
Lungs: Assess for complications (effusions, mismatching, atelectasis) and risk factors (preoperative state, pain).
Heart: Assess for hemodynamic impairment and treat any existing issues.
ECG: Monitor for changes (may not indicate actual ischemia).
Celiac plexus block:
May be used for chronic pancreatitis pain management.
Uses combination of glucocorticoid and local anesthetic.
Celiac plexus neurolysis can be performed with alcohol injection under imaging guidance.
Pancreatectomy
Reasons for surgery:
Ductal obstruction
Pancreatic stones or cysts
Trauma
Tumors (benign or malignant)
Chronic pancreatitis
Endocrine tumors
Surgery types:
Partial pancreatectomy: Removes part of pancreas, duodenum, gallbladder, and bile duct.
Total pancreatectomy: Removes part of stomach, gallbladder, bile duct, spleen, lymph nodes, and entire pancreas.
Anesthesia:
General endotracheal preferred, with muscle relaxants.
Avoid nitrous oxide.
Epidural or intrathecal morphine for pain control.
Postoperative care:
May require ventilation and ICU monitoring due to surgery duration and patient health.
Small Intestine
Layers: Immune function:
Serosa: Outermost layer, single layer of cells. Lamina propria has immune cells for protection.
Muscularis propria: Composed of smooth muscle IgA antibodies in lamina propria prevent pathogen
for contraction. entry.
Auerbach plexus: Between muscle layers, controls
motility and secretion. Nervous system:
Submucosa: Strongest layer, contains connective Autonomic nervous system:
tissue and: Parasympathetic: Increases motility and secretions.
Meissner plexus: Regulates blood flow, motility, and Sympathetic: Inhibits motility and causes
secretions. vasoconstriction.
Mucosa: Innermost layer, with folds and villi for Enteric nervous system:
increased surface area: Intrinsic neurons within the wall of the small intestine,
Muscularis mucosae: Thin muscle layer separating pancreas, and gallbladder, controls local functions like
mucosa and submucosa. digestion and peristalsis.
Lamina propria: Connective tissue with immune cells Motility:
and support functions.
Epithelial layer: Covers villi and crypts, contains various Intestinal reflexes regulate movement and
cell types for: emptying.
Absorption: Absorptive cells take up nutrients. Electrical rhythm and muscle contractions mix and
Secretion: Goblet cells secrete mucus, villi secrete move food through the small intestine.
enzymes.
Hormone production: Endocrine cells release
hormones.
Small Intestine & Malabsorption Syndromes
Function: Protein malabsorption:
Largest endocrine gland Peripheral edema (swelling)
Digestion and nutrient absorption Ascites (fluid buildup)
Absorbs 85-90% of water entering the GI tract Calcium deficiency:
Malabsorption syndromes: Vitamin D or calcium malabsorption
Disrupt nutrient absorption due to: Fatty acids bind calcium
Brush border processing issues Tetany (muscle cramps)
Mucosal disruption Osteomalacia (bone softening)
Impaired transport Fractures
Examples: diverticulosis, radiation enteritis, gastric bypass
Symptoms: Treatment for steatorrhea:
Unexplained weight loss Pancreatic replacement enzymes (in some cases)
Steatorrhea (fatty stool) Causes of malabsorption syndromes:
Diarrhea
Disruption of intestinal lining (e.g., disease)
Other potential issues: anemia, bone loss, menstrual problems
Loss of absorptive surface area (e.g., surgery)
Affects absorption of: amino acids, carbohydrates, fats
Extent of surgery impacts severity of deficiencies
Fat malabsorption consequences:
Deficiencies in fat-soluble vitamins (A, D, E, K)
Vitamin K deficiency: bleeding problems
Vitamin B12 deficiency: anemia, nerve problems, tongue
inflammation
Maldigestion Syndrome
Cause: Failure of chemical digestion in the intestines.
Common causes:
Pancreatic deficiency
Lactase deficiency
Bile salt deficiency
Difference from malabsorption:
Maldigestion specifically refers to the breakdown issue, while malabsorption refers to the absorption issue.
Key symptom:
Steatorrhea (fatty stool)
Pancreatic insufficiency:
Usually present due to its large functional reserve.
Other causes:
Cystic fibrosis
Fistulas
Gallstones
Ischemic enteritis
Neoplastic diseases
Diabetes mellitus
Vitamin B6 or B12 deficiency
Large Intestine
Anatomy: colon), S2-S4 (descending colon, sigmoid colon,
Length: 3-5 feet and rectum)
Parts: Cecum, appendix, colon, rectum, anal canal Functions:
Blood Supply: Store and expel waste
Arteries: Superior mesenteric, inferior mesenteric, Absorb water and sodium (mostly in the right
internal iliac colon)
Veins: Drain into portal venous system (except Efficient absorption: Only 100-200mL out of 1-2L
rectum) daily fluid reaches the end
Importance: Individuals with ileostomy need extra
Lymphatic Drainage: sodium intake
Upper rectum and colon: Superior rectal and Electrolyte Balance:
inferior mesenteric nodes
Lower rectum and anal canal: Inguinal lymph Sodium: Actively reabsorbed, efficient process (5
nodes mEq/day needed for balance)
Loss after colectomy can overwhelm small
Innervation: intestine's compensatory ability
Motor and secretory control: Myenteric plexus Potassium: Passively absorbed/secreted, lost in
Sympathetic: T10-T12 (right), L1-L3 (left), presacral mucoid stools (colitis, villous adenoma)
nerves (rectum) Chloride: Absorbed with sodium, exchanged for
Parasympathetic: Vagus nerve (right & transverse bicarbonate
Inflammatory Bowel Disease
Types:
Crohn's disease: Affects any part of the GI tract, often the distal ileum and proximal colon.
Ulcerative colitis (UC): Affects the colonic mucosa, extending proximally.
Crohn's Disease:
Symptoms: Abdominal pain, diarrhea (with blood and mucus), right lower quadrant tenderness, anemia.
Complications: Fistulas, abscesses, kidney stones, nutritional deficiencies, increased cancer risk.
Treatment: Medication, surgery (for complications, limited effectiveness).
Ulcerative Colitis:
Symptoms: Abdominal pain, fever, bloody diarrhea, weight loss.
Complications: Toxic megacolon (severe distention and inflammation), arthritis, liver disease, increased cancer risk.
Treatment: Medication, surgery (curative for most cases).
Similarities:
Both are chronic inflammatory bowel diseases.
Both can cause anemia and nutritional deficiencies.
Both require similar supportive care for systemic issues.
Both may require surgery for complications.
Differences:
Crohn's disease can affect any part of the GI tract, while UC only affects the colon.
Crohn's disease often involves deeper layers of the intestine, leading to different complications.
Crohn's disease surgery is non-curative, while UC surgery can be curative.
UC has a higher risk of toxic megacolon.
Anesthetic Considerations in Inflammatory
Bowel Disease
Preoperative Optimization:
Correct anemia, fluid depletion, electrolyte imbalances, and acid-base issues.
Assess nutritional status.
Consider extracolonic complications (sepsis, liver issues, etc.).
Prophylactic steroids for long-term steroid users.
Intraoperative Considerations:
Avoid nitrous oxide (can cause bowel distention).
Many patients require TPN and bowel rest.
Be aware of TPN complications (hyperglycemia, electrolyte imbalances, etc.).
Maintain existing TPN infusion.
Monitor and correct fluid, electrolyte, and blood values regularly.
Technique and drug selection depend on severity of extracolonic issues.
Anticholinesterases for reversal have no effect on colonic suture lines.
Anesthetic Technique:
No specific technique required but combined (epidural and general) is common.
Combined spinal-epidural may be beneficial for specific cases.
Diverticulitis and Diverticulosis
Diverticulosis:
Outpouchings in the colon wall (most common in the left colon).
Usually asymptomatic.
Diverticulitis:
Inflammation of the diverticula.
Symptoms: abdominal pain, nausea, vomiting, diarrhea, dehydration.
Complications (requiring surgery):
Abscess formation
Visceral perforation
Bowel obstruction
Fistulas
Peritonitis
Treatment:
Initial: IV fluids, antibiotics, corticosteroids.
Surgical intervention for severe cases or complications.
Bleeding: uncommon but can be difficult to locate.
Elective surgery considered for:
Recurrent episodes
After a second attack (higher complication and mortality rates)
Diverticulitis in the right colon can mimic appendicitis, potentially requiring extended surgery.
Abdominal Compartment Syndrome
High pressure inside the abdomen (>20 mm Hg) that damages organs.
Normal pressure is less than 10 mm Hg.
Causes:
Trauma, bleeding, pancreatitis, bowel obstruction, fluid overload.
Pregnancy, ascites, tumors (chronic ACS).
Symptoms:
Difficulty breathing, decreased urine output, heart problems.
Can lead to multiple organ failure and death if not treated promptly.
Treatment:
Urgent surgery to decompress the abdomen.
Anesthesia considerations:
Manage existing health problems of the patient.
Maintain hemodynamic stability and ventilation.
Use drugs cautiously to avoid complications.
Complications:
Reperfusion syndrome (low blood pressure and acidosis after surgery).
Anesthetic Considerations in Elective Colon
Surgery
Surgeon removes diseased bowel section and connects remaining parts.
Intestinal cleaning is crucial to prevent infection:
Night before: Oral/NG tube solutions or enemas.
Diet: Fluids, low-residue food, clear liquids 24-48 hours before surgery.
Antibiotics: Aminoglycosides or cephalosporins + metronidazole.
Pre-existing conditions to be aware of:
Electrolyte imbalances from aggressive cleaning, especially in elderly/dehydrated
patients.
Anemia from blood loss.
Malnutrition with low protein (albumin).
Additional considerations:
Drainage tube (NG) might be needed for blocked or inactive colon.
Dehydration and electrolyte imbalance may require delaying surgery for correction.
 Carcinoma of the Colon
Common and treatable: 2nd most diagnosed, 3rd leading cause of cancer death
(US).
Development: Often starts from polyps.
Treatment: Primarily surgery (50% cure rate).
Risk factors: Diet (high red meat, low fiber), genetics, inflammatory bowel
disease.
Screening: Stool tests, rectal exam, colonoscopy.
Symptoms:
Right-sided: Pain, mass, anemia, dark blood in stool.
Left-sided: Abdominal distention, pain, vomiting, constipation, bright red blood in stool,
possible obstruction.
Prognosis: Worse with deeper tumor penetration and lymph node involvement.
Volvulus of the Colon
A twisting of the large intestine (colon) that cuts off blood supply and blocks the
flow of stool.
Most commonly affects the lower part of the colon (sigmoid colon).
Symptoms:
Sudden and severe abdominal pain, vomiting, and bloating.
Fever and low blood pressure can indicate a more serious case.
Treatment:
Initial: Fluids and a tube inserted through the rectum or colon to decompress the blockage.
Surgery: If the tube doesn't work, the affected part of the colon is removed with an opening
created in the abdomen (colostomy) or sewn shut (Hartmann procedure).
Who gets it?
Often affects elderly or people with long-term illnesses or disabilities.
May be linked to medications that affect gut movement.
Ischemic Bowl Disease
What is it?
Occurs when blood flow to the intestines is insufficient, damaging tissues.
Can be caused by various factors like narrowing of blood vessels, infections, and surgeries.
Symptoms:
Fever, vomiting, rectal bleeding, and abdominal pain (may last for weeks or months).
Sudden bleeding with left-sided pain and signs of infection suggest a serious case.
Who gets it?
Often affects elderly people with existing conditions like heart disease and high blood pressure.
Treatment:
Initially focuses on fluids, antibiotics, and managing symptoms.
Surgery may be needed to remove damaged tissue (bowel resection) and create an opening in the abdomen (colostomy) in
severe cases.
In some cases, vascular surgery might be an option to improve blood flow.
Notes:
Difficult to differentiate from other conditions like inflammatory bowel disease.
Definitive diagnosis involves endoscopy and biopsy.
X-rays or ultrasounds help rule out bowel perforation.
Diseases of the Rectum and Anus
Types:
Rectal cancer:
Treated with surgery (abdominal-perineal resection) or
chemotherapy/radiation (squamous cell).
Rectal prolapse:
Eversion of rectal wall, repaired with surgery
(rectosigmoidectomy or proctopexy).
Perirectal abscess:
Pus collection, treated with drainage (inpatient or outpatient).
Perirectal fistula:
Connection between an abscess and skin, treated with drainage
and delayed surgery.
Hemorrhoids:
Swollen veins in the rectum/anus, treated with rubber band
ligation, surgical excision (internal) or surgical excision (external).
Anesthesia:
Regional anesthesia (spinal, epidural) or local anesthesia
with sedation are common.
General anesthesia may be needed in some cases.
Anesthesia considerations include patient positioning and
its impact on cardiovascular and respiratory systems.
Radiation Enteritis
Inflammation of the small intestine caused by radiation therapy for abdominal and pelvic cancers.
Causes:
Radiation damaging healthy cells along with cancer cells.
Factors increasing risk:
Amount of radiation used.
Amount of small bowel exposed to radiation.
Previous intestinal surgery.
Concurrent chemotherapy.
Symptoms:
Acute (short-term):
Diarrhea
Abdominal pain
Malabsorption (difficulty absorbing nutrients)
Chronic (long-term):
Caused by blood vessel damage
Develops years after radiation therapy
Treatment:
Acute: Supportive care (fluids, medication)
Chronic: Surgery (bypass, resection) if complications like obstruction, fistula, perforation, or bleeding occur.
Complications:
Increased risk of bleeding and tissue damage during surgery due to adhesions and weakened tissues.
Relentless disease course with potential need for multiple surgeries.
Up to 25% mortality rate from complications.
Appendicitis
Inflammation of the appendix, a small finger-shaped organ attached to the large intestine.
Most common reason for emergency abdominal surgery.
Who gets it?
Typically affects people between 10-30 years old, slightly more common in males.
Symptoms:
Early: Vague upper abdominal pain that moves to the lower right abdomen.
Later: Nausea, vomiting, loss of appetite, fever, localized tenderness in the lower right abdomen (McBurney's point).
Complications of a perforated appendix:
Peritonitis (infection of the abdominal lining)
Abscess (collection of pus)
Thrombus in the portal vein
Treatment:
Appendectomy: Surgical removal of the appendix.
Laparoscopic (minimally invasive) surgery preferred for simple cases.
Open surgery may be needed in some cases.
Anesthesia:
General, regional, or local anesthesia with sedation may be used depending on the situation.
Preoperative fluids and antibiotics may be needed.
Splenic Disease
Location and Size: Spleen Removal (Splenectomy):
Upper left abdomen, behind the stomach and ribs. Can be done for various reasons, including:
Normal weight: less than 250g. Blood disorders (e.g., sickle cell disease, thalassemia).
Not usually palpable. Cancers (e.g., lymphoma).
Spleen infections or cysts.
Structure: Enlarged spleen (splenomegaly).
Capsule divided into 3 zones by connective tissue. People without a spleen are more susceptible to
White pulp (lymphoid tissue), red pulp (blood filtration), infections.
and marginal zone (interface).
Blood Supply:
Splenic artery supplies blood.
Splenic vein drains blood to the portal system.
Functions:
Filters blood: removes old/damaged red blood cells and
debris.
Immune system: helps fight infections and produces
antibodies.
Minor storage: platelets and red blood cells (in
emergencies).
Splenectomy
Minimally Invasive Surgery: Avoiding nitrous oxide to prevent bloating.
Laparoscopy is the preferred approach for most Maintain blood pressure and hydration.
splenectomies. Monitor all labs (BMP, CBC, Coag)
Benefits: faster recovery, lower risk of complications.
Patients with Past Chemotherapy:
May have weakened organ systems requiring careful
assessment.
Potential complications: heart problems, lung damage,
nerve damage, liver damage, kidney problems.
Preoperative Preparation:
Lab tests to assess blood cell counts, clotting function,
kidney function, and liver function.
Blood typing and crossmatching for potential transfusion.
Steroid administration if previously used in treatment.
Anesthesia:
General endotracheal anesthesia with or without epidural
for pain management is common.
Specific considerations:
Rapid sequence intubation for certain situations.
Carcinoid Tumors
What are they? Diagnosis:
Slow-growing cancers arising from hormone- Elevated levels of hormone breakdown
producing cells. products in urine.
Most common in the gastrointestinal tract, but
can occur elsewhere (lung, pancreas, etc.).
How do they cause problems?
Release hormones that can affect various body
functions.
Serotonin: flushing, diarrhea, heart problems.
(Elevated 5-HIAA found in the urine)
Histamine: bronchospasm, flushing.
Bradykinin: severe hypotension, flushing,
bronchospasm.
Carcinoid Syndrome and Crisis
Carcinoid Syndrome
A group of symptoms caused by hormones released from tumors, especially those that have spread to the liver.
Symptoms can include:
Flushing
Diarrhea
Heart problems
Wheezing
Abdominal pain
Low blood pressure or high blood pressure
Octreotide has improved patient prognosis
Carcinoid Crisis
A life-threatening form of carcinoid syndrome that can be triggered by surgery or other procedures.
Surgery can be an effective treatment for carcinoid tumors.
Important Note:
Carcinoid syndrome can cause complications during surgery, so careful management is needed.
Carcinoid Tumors and Carcinoid Syndrome:
Anesthetic Management
Main Goal: Prevent the release of hormones from tumors that can cause complications (carcinoid crisis).
Medications:
Octreotide and lanreotide (long-acting) are used to control symptoms before and after surgery.
Anesthesia:
General anesthesia is most common to avoid complications from neuraxial anesthesia.
Spinal anesthesia might be an option with careful monitoring and medication use.
Preoperative tests: standard blood work, ECG, and heart function assessment are crucial.
Monitoring: invasive monitoring (arterial line, CVP) is often needed due to potential blood pressure changes.
Induction:
Drugs that avoid triggering hormone release are preferred (propofol might be best).
Avoid drugs that cause histamine release (morphine, thiopental, some muscle relaxants).
Pain Management:
Opioids are used, but avoid those causing histamine release.
Vecuronium or rocuronium are preferred muscle relaxants for their cardiovascular stability.
Ventilation and Anesthetic Agents:
Balanced anesthesia with inhalation agents, muscle relaxants, opioids, and positive pressure ventilation is common.
Inhalation agents with low blood-gas solubility (desflurane) are preferred.
Nitrous oxide is safe to use.
High-dose opioids might be needed due to potential heart problems in these patients.
Blood Pressure Management:
Hypotension is a concern. Use medications that avoid further hormone release (alpha-receptor agonists like phenylephrine).
Enhanced Recovery After Surgery
The End!
You made it!