Absorption and Elimination PDF
Document Details
Uploaded by Deleted User
SUNY Rockland Community College
Cynthia Lasman
Tags
Summary
This document provides information on the anatomy and physiology of the lower gastrointestinal (GI) system. It discusses common laboratory tests and diagnostic tools, various GI conditions and their assessment, along with nursing care for patients experiencing them. It includes sections on constipation, and chronic pancreatitis, as well as enteral and parenteral feeding.
Full Transcript
Absorption and Elimination Cynthia Lasman, RNC-OB, MSN, CNE, C-EFM [email protected] Objectives Review anatomy and physiology of the lower GI system Discuss common laboratory tests and diagnostic tools for lower GI system Consider the etiology and incidence of lower GI dis...
Absorption and Elimination Cynthia Lasman, RNC-OB, MSN, CNE, C-EFM [email protected] Objectives Review anatomy and physiology of the lower GI system Discuss common laboratory tests and diagnostic tools for lower GI system Consider the etiology and incidence of lower GI disease and dysfunction Describe common assessment ndings with lower GI disease and dysfunction Describe select conditions of the lower GI system Explain appropriate nursing care and rationales for the care of patients experiencing lower GI disease and dysfunction A&P: Lower GI Mind and emotions play a role in function Small Intestine Longest segment of the GI tract (2/3 of total) Primary function is absorption 3 sections Duodenum (ampulla of Vater – opening from the common bile duct) Jejunum Ileum (ends with the ileocecal valve – prevents bacteria from ascending) Large Intestine Ascending (right side) Transverse (right to left across the upper abdomen Descending (left side) Sigmoid Colon Rectum Anus (internal and external sphincters to regulate output) Waste Products Fecal matter should be 75% 2uid and 25% solid Brown color is from breakdown of bile by gut bacteria GI tract contain gases formed from digestion Absorbed by portal circulation detoxied by the liver Expelled from the rectum as 2atus Process of elimination Rectal distention causes contractions of the musculature and relaxes the internal anal sphincter External anal sphincter is under voluntary control Contracting the abdominal muscles can aid in defecation Gut Microbiome Breakdown waste Vitamin synthesis Immune functions (protective and in2ammatory) Colonization begins at birth and is established by 2 years old Factors that in2uence the gut microbiome Age Genetics Diet Personal hygiene Infection Vaccinations Chronic disease Medication (especially antibiotics) Laboratory Studies Serum laboratory studies Stool tests Ultrasonography Genetic testing Imaging studies: CT, PET, MRI, scintigraphy, virtual colonoscopy Lower GI tract study GI motility studies Sigmoidoscopy / Colonoscopy Question Is the following statement true or false? When a colonoscopy is performed, the 2exible scope is passed through the rectum and sigmoid colon into the descending, transverse, and ascending colon. Answer to Question True Rationale: When a colonoscopy is performed, the 2exible scope is passed through the rectum and sigmoid colon into the descending, transverse, and ascending colon. When a 2exible beroptic sigmoidoscopy is performed, the 2exible scope is advanced past the proximal sigmoid and then into the descending colon. Constipation Constipation Fewer than three bowel movements weekly bowel movements that are hard, dry, small, or di3x upper limit Usually elevated within 24 hours of onset of symptoms Amylase returns to normal within 48-72 hours, lipase takes longer Abnormal imaging (CT, MRI, or ultrasound) Treatment - Relieve symptoms and prevent complications NPO Feeding by enteral route (parenteral only if feeding is not tolerated) Nasogastric suction to relieve N/V and abdominal distention (not routine use) Analgesia (suLcient to minimize restlessness) Often opioids – Avoid NSAIDS! Removal of blockage Chronic Pancreatitis Progressive in5ammatory condition Pancreatic cells are replaced by brous tissue Increases pressure within the pancreas leads to obstruction of pancreatic and common bile ducts Atrophy of the epithelium of the ducts Most often caused by excessive alcohol consumption in the U.S. Malnutrition is also a common cause worldwide Typical patient is 40-60 years old Assessment May be asymptomatic Usually recurrent attacks of upper abdominal and back pain accompanied by vomiting So painful even opioids do not give relief (risk for opioid dependence) Attacks become more frequent, severe and last longer with disease progression Weight loss and anorexia Frothy, frequent, foul stools, steatorrhea Calcium stones within the ducts (advanced disease) Chronic Pancreatitis Management Prevention of acute attacks Pain management Nonsurgical (2/3 of patients) Endoscopy (stone removal, widen strictures with stents, drain cysts) Medication management (pain ladder) Surgical (1/3 of patients) Pancreaticojejunostomy (Roux-en-Y) Allows drainage of pancreatic secretions into the jejunum Pain relief occurs within 6mo for most patients Other surgeries including Whipple’s resection Many patients with sx intervention continue to have some symptoms and complications Knowledge Check What is a major symptom of chronic pancreatitis? A. Recurrent attacks of severe upper abdominal and back pain accompanied by vomiting B. Fever, jaundice, confusion, and agitation C. Ecchymosis in the 5ank or umbilical area D. Abdominal guarding ANSWER A. Recurrent attacks of severe upper abdominal and back pain accompanied by vomiting Rationale: Chronic pancreatitis is characterized by recurrent attacks of severe upper abdominal and back pain accompanied by vomiting. Acute pancreatitis presents with fever, jaundice, confusion, agitation, ecchymosis in the 5ank or umbilical area, and abdominal guarding. Knowledge Check Is the following statement true or false? Patients with acute pancreatitis require a high- carbohydrate, low-protein, and low-fat diet. ANSWER True Rationale: In patients with acute pancreatitis, a high-carbohydrate, low-protein, and low-fat diet increases caloric intake without stimulating pancreatic secretions beyond the ability of the pancreas to respond. Review of Objectives Review anatomy and physiology of the biliary system Discuss common laboratory tests and diagnostic tools for biliary system dysfunction Consider the etiology and incidence of biliary system dysfunction Describe common assessment ndings with biliary system dysfunction Describe select conditions of the biliary system Explain appropriate nursing care and rationales for the care of patients experiencing biliary system dysfunction Alternative Nutrition Objectives Discuss enteral and parenteral feeding Describe methods for safely providing nutrition to patients Explain nursing care for the patient receiving enteral and/or parenteral feeding Click icon to add picture Delivering Nutrition Enterally Meet nutritional requirements when oral intake is inadequate or not possible, and the GI tract is functioning Advantages Safe and cost eGective Preserve GI integrity Preserve the normal sequence of intestinal and hepatic metabolism Maintain fat metabolism and lipoprotein synthesis Maintain normal insulin and glucagon ratios Enteral feeding routes Temporary Nasogastric Nasoduodenal or nasojejunal Used when the stomach needs to be bypassed for a short time (less than 4 weeks) or for a patient with a high risk of aspiration Long-term Gastrostomy (G-tube) Percutaneous endoscopic gastrostomy (PEG) Jejunostomy (J-tube) Click icon to add picture Enteral Feeding Routes Temporary Nasogastric Nasoduodenal Nasojejunal Used when the stomach needs to be bypassed for a short time (usually less than 4 weeks) or for a patient with a high risk of aspiration Typically < 12-Fr Click icon to add picture Enteral Feeding Routes Long-term Gastrostomy (G- tube) Percutaneous endoscopic gastrostomy (PEG) Jejunostomy (J-tube) Formulas Varity of preparations Caloric density Osmolality Fiber Minerals, Electrolytes Cost Formula does not include all water needed Bolus or Continuous Bolus Divide total daily feeding volume in 4-6 feeds (typically 200- 400 mL) Feeding given by syringe (>50 mL) by gravity Relatively quick (15-60 minutes) Start feeding slowly Raise or lower syringe to control rate Continuous or cyclic (over 8-18 hours) Used for critically ill patients, high aspiration risk, risk for intolerance, small bowel placements Pump used to control rate Administering Tube Feedings Dependent on location Patient education and preparation Tube insertion Conrming placement Clearing tube obstruction Monitoring the patient Maintaining tube function Oral and nasal care Monitoring, preventing, and managing complications Tube removal Assessment of the Patient Receiving an Enteral Feeding Tube placement Patient’s ability to tolerate formula and amount Clinical response Signs of dehydration Elevated blood glucose level, decreased urinary output, sudden weight gain, and periorbital or dependent edema Signs of infection Check gastric residual volume I&O, weekly weights, dietician consult Enteral Feeding Administer feeding at prescribed rate and method and according to patient tolerance Administer water before and after each medication and each feeding, every 4 to 6 hours, and whenever the tube feeding is discontinued or interrupted Do not mix medications with feedings Maintain delivery system as required. To avoid bacterial contamination, do not hang more than 4 to 8 hours of feeding in an open system (manufacturer’s recommendations) Maintain normal bowel elimination Refer to Table 39-3 Maintain hydration by supplying additional water and assessing for signs of dehydration Promote coping by support and encouragement; encourage self-care and activities Patient education Question #2 Is the following statement true or false? Measuring gastric residual volumes by removing gastric contents with a large syringe at routine intervals is common practice and recommended nursing management for patients receiving enteral nutrition. Answer to Question #2 False Rationale: Assessment of gastric residual volume has not been substantiated by research and may cause clogging of gastric tubes. This practice is not usually recommended. Question #3 What position should the patient’s head be in when receiving a tube feeding to prevent aspiration? A. Flat B. 10 degrees of elevation C. 30 degrees of elevation D. 45 degrees of elevation Answer to Question #3 C. 30 degrees of elevation Rationale: The semi-Fowler position is necessary for an NG feeding with the patient’s head elevated at least 30 degrees to reduce the risk of aspiration. The nurse must assess external tube marking to avoid drift in placement and observe the patient for signs and symptoms of nausea that could lead to gastric re5ux and aspiration. Parenteral Nutrition Assist in identifying patients who are candidates for PN Nutrition status; decreased oral intake >1 week Weight loss 10% or more of usual weight Muscle wasting, decreased tissue healing Persistent N&V Monitor Hydration status Electrolytes Caloric intake Complications Major goals include: Pneumothorax, air embolism Attaining an optimal level of nutrition Clotted or displaced catheter Absence of infection Sepsis Adequate 5uid volume Hyperglycemia Optimal level of activity Rebound hypoglycemia Knowledge of self-care Fluid overload Absence of complications Refer to Table 41-7 Parenteral Nutrition Nursing Interventions Maintaining optimal nutrition Maintaining 5uid balance Daily weight at same time of day infusion pump Accurate I&O do not increase or decrease 5ow rate Caloric count rapidly Trace elements included in solution I&O Weights Preventing infection Monitor blood glucose levels Appropriate catheter and IV site care Strict sterile technique for dressing changes Wear mask when changing the dressing Assess insertion site Assess for indicators of infection Proper IV and tubing care Hepatic System Professor Rose Frowd MS, RN BC-PMH, CASAC [email protected] Objectives Review anatomy and physiology of the hepatic system Discuss common laboratory tests and diagnostic tools for hepatic dysfunction Consider the etiology and incidence of liver dysfunction Describe common assessment ndings with liver dysfunction and liver failure Describe select conditions of the hepatic system Explain appropriate nursing care and rationales for the care of patients experiencing liver dysfunction Consider alternative and complimentary medications as they relate to the hepatic system A&P: Anatomy of the Liver Largest gland in the body Located right upper quadrant (RUQ) Not palpable (usually) Highly vascular Blood supply from GI tract via the Portal Vein and Hepatic Artery A&P: Metabolic Function Glucose metabolism Ammonia conversion Protein metabolism Vitamin and iron storag Drug metabolism Bile formation Bilirubin excretion Drug metabolism Liver Function Studies Serum Pigment studies: aminotransferases: direct and indirect serum AST bilirubin ALT urine bilirubin GGT urobilinogen GGTP Prothrombin time LDH Serum alkaline phosphatase Serum protein studies Serum ammonia Cholesterol Diagnostic Studies Ultrasound Computed Telemetry (CT) Magnetic Resonance Imagery (MRI) Endoscopy Liver Biopsy Left side or supine for procedure Right side for recovery Physical Assessment Physical Assessment Pallor or Jaundice Muscle atrophy Edema Skin excoriation (from scratching) Petechiae, ecchymosis, spider angiomas Palmar erythema Change in cognitive status Fluid in the abdomen Palpable liver Tenderness with palpation Liver Dysfunction: Etiology Alcoholism Infection Anorexia Metabolic Disorder Nutritional Deciencies Liver Dysfunction: Bilirubin Bilirubin is produced in the liver, spleen, and bone marrow Results from hemoglobin metabolism and is a byproduct of hemolysis Liver removes bilirubin from blood and excretes bilirubin in bile Two types of bilirubin Conjugated Unconjugated Direct bilirubin Indirect bilirubin Circulates in the blood Binds with protein in the blood Direct byproduct of Converted by liver for hemolysis excretion Liver Dysfunction: Jaundice Also called Icterus Skin Mucous membranes Sclera Sign of dysfunction (not a disorder) Yellow discoloration of tissue Result from high serum concentration of bilirubin Normal bilirubin: 0.2-1.3 mg/dL Serum bilirubin > 2.5 mg/dL = jaundice Varies for individual with dark skin tones Liver Dysfunction: Types Three types Hemolytic Excessive destruction of RBCs Elevated serum unconjugated bilirubin Hepatocellular Liver disease Elevated serum conjugated and unconjugated bilirubin Obstructive Caused by blockage of bile from the liver to the intestinal tract Elevated serum conjugated bilirubin Fulminate Hepatic Failure Sudden and severe Liver failure within 8 weeks of appearance of jaundice Liver Dysfunction: Hemolytic Jaundice Increased destruction of RBCs Pale or Jaundice Dark-colored urine Weakness Dizziness Activity Intolerance Liver Dysfunction: Hepatocellular Jaundice Loss of appetite Nausea Weight loss Malaise Fatigue Weakness Headache Chills Fever (if infectious etiology) Liver Dysfunction: Obstructive Jaundice Dark orange-brown urine Light clay-colored stools Dyspepsia Intolerance of fats Impaired digestion Pruritus Hepatitis: Types A systemic infection that causes necrosis and inBammation of liver cells with characteristic symptoms and cellular and biochemical changes Two types: Infectious and Toxic Viral Hepatitis A B C D E G, GB virus-C Nonviral Hepatitis Toxin (chemical substances, poisons) Drug-induced (medications) Hepatitis: Phases All types of Hepatitis have three phases (Pre-Icteric, Icteric, Post-Icteric) Pre Icteric Phase Icteric Phase Post Icteric Phase 1-3 weeks before jaundice lasts 2-6 weeks lasts 2-12 weeks appears Begins with appearance of Recovery Fatigue jaundice Clinical Anorexia Discomfort in RUQ due to manifestations enlargement of liver disappear Taste and smell changes Dark urine Jaundice subsides Nasal inflammation and discharge Light clay colored stools Continued Pruritis malaise Low grade temperature Anorexia Easily fatigued Mild flu-like symptoms Fatigue Abdominal discomfort Depression Joint pain Elevated direct bilirubin Weight loss Elevated AST, ALT and urinary bilirubin Hepatitis: A (HAV) Transmission: Fecal-oral (poor hygiene; hand-to-mouth contact, close contact, or through food and fluids) Incubation: 15-50 days Acute Illness: 4-8 weeks. Mortality: 0.5% for younger than age 40 1-2% for those over age 40 Assessment: mild flu-like symptoms low-grade fever Anorexia later jaundice and dark urine indigestion and epigastric distress enlargement of liver and spleen Hepatitis: A (HAV) Interventions: Prevention! Good handwashing Safe water Proper sewage disposal Vaccine Immunoglobulin for contacts to provide passive immunity Bed rest during acute stage Nutritional support Hepatitis: B (HBV) Transmission: blood, saliva, semen, and vaginal secretions (sexually transmitted, transmitted to infant at the time of birth) Incubation: 1-6 months Long Term Complications: Cirrhosis and liver cancer (major cause worldwide) May become chronic Assessment: insidious and variable similar to hepatitis A Antigenic particles that elicit specic antibody markers during diHerent stages of the disease Hepatitis: B (HBV) Treatment: Medications for chronic hepatitis type B include alpha interferon and antiviral agents Interventions: Prevention! Vaccine: for persons at high risk (healthcare workers, routine vaccination of infants Passive immunization for those exposed Standard precautions/infection control measures Screening of blood and blood products Bed rest Nutritional support Hepatitis: C The most common blood borne infection Transmission: blood and sexual contact Incubation: Variable Long Term Complications: Causes 1/3 of liver cancer Most common reason for liver transplant Frequently becomes chronic Assessment: Symptoms are usually mild Hepatitis: C Treatment: Direct Acting Antiviral (DAA) agents Curable for most patients Interventions: Prevention! Screening of blood Prevention of needle sticks for health care workers Measures to reduce spread of infection as with hepatitis B Hepatitis: D (HDV) & E (HEV) Hepatitis D Superinfection (or co-infection) Only persons with hepatitis B are at risk for hepatitis D Transmission is through blood and sexual contact Symptoms and treatment are similar to hepatitis B More likely to develop fulminant liver failure and chronic active hepatitis and cirrhosis Hepatitis E Transmitted by fecal-oral route Incubation period 15-65 days Resembles hepatitis A and is self-limited, with an abrupt onset No chronic form. Cirrhosis Obstructive liver disorder Non-brous connective scar tissue replaces normal liver cells Irreversible partial or complete occlusion of blood Bow through the liver Types Laennec’s (alcoholic) Most common Caused by excessive alcohol consumption or malnutrition Post Necrotic Secondary to infection (Hepatitis) Biliary Scarring around bile ducts Biliary obstruction and/or infection Cirrhosi s Signs/Symptoms of Complication Change in mental status DiKculty with ADLs, maintain a job/social relationships Anatomic distortion Indicators of bleeding (shock/melena/hematemesis) Fluid volume changes (shock/ascites) Changes in lab data Jaundice Complications Portal Hypertension Ascites Esophageal/gastric varices Cirrhosis: Interventions Imbalanced Nutrition Monitor I&O Encourage adequate intake Small frequent meals Patient preferences Supplements (especially B complex, water-soluble forms of fat- soluble vitamins if pt has steathorrhea) High calorie diet Sodium Restriction (if ascites is present) Protein Restriction (if at risk for hepatic encephalopathy) Risk for injury Prevent falls (side rails, clear pathway, adequate lighting…) Prevent trauma related to increased risk for bleeding Carefully evaluate any injury for excessive bleeding Cirrhosis: Interventions Activity Intolerance Encourage rest Position for respiratory eKciency Administer oxygen Plan mild exercise with rest periods Address nutritional status Interventions to prevent hazards of immobility Impaired Skin Integrity Frequent position changes Gentle skin care Consider interventions for itching Emollient cream Cholestyramine Resin as ordered Keep nails short Liver Dysfunction: Portal Hypertension Results in increased pressure throughout the portal venous system Complications Ascites Esophageal Varices Treatment - Portal systemic shunt Decrease portal pressure Can prevent portal hypertension Decreases risk for esophageal varices TIPS Transjugular Intrahepatic Portosystemic Shunt Creation of a tract from the hepatic to the portal vein A cannula with expandable stent is inserted in the portovenous system through the jugular vein The stent serves as the intrahepatic shunt between the hepatic vein and portal circulation to relieve portal hypertension May be carried out using Ascites Collection of Buid in the peritoneal cavity Etiology: Portal Hypertension increased capillary pressure obstruction of venous blood Bow Vasodilation of splanchnic circulation blood Bow to the major abdominal organs increases Changes in the ability to metabolize aldosterone increases Buid retention Albumen Decreased synthesis of albumen decreases serum osmotic pressure Movement of albumen into the peritoneal cavity Ascites: Assessment Abdominal girth Daily weights Inspect Striae Distended veins Umbilical hernia Percussion Monitor I&O Monitor Buid/electrolyte balance Fluid wave Ascites: Treatment Low sodium diet Foods to avoid: smoked, cured, salted, canned foods, cold cuts, ham, frankfurters (hot dogs), sausage, sardines, caviar, anchovies, frozen dinners, canned soups, salted nuts Medication Diuretics Albumin Ambulation as tolerated Paracentesis Transjugular intrahepatic portosystemic shunt (TIPS) Paracentesi s Procedure to remove ascitic Buid Needle is introduced through the abdominal wall Relieves discomfort from distention Relieves breathing diKculty from Buid pressing up on the diaphragm Make sure patient voids before procedure Up to 6-8L of Buid may be removed over 60-90 minutes Record volume of Buid withdrawn IV albumin is simultaneously infused to pull Buid back into the vascular space Monitor BP and urine output to evaluate Buid shifts Too much Buid removed can cause patient to go into hypovolemic shock Hypovolemic Shock Signs and Symptoms Rapid, thready (weak) pulse Rapid breathing Anxiety Decreased BP Increased HR Decreased urine output Cool clammy skin Weakness Pallor Diaphoresis Confusion Unconsciousness SHOCK Esophageal /Gastric Varices Etiology: Cirrhosis causes Portal Hypertension which increases pressure on vessels in the esophagus causing the veins to bulge Incidence: Bleeding occurs in 1/3 of patients with cirrhosis and varices Mortality: First bleeding episode has 30-50% mortality rate Esophageal /Gastric Varices: Assessment Hematemesis – vomit stained red (E) or black (G) Melena - black, tarry stools (G) General deterioration / Shock (loss of Buids, blood) Esophageal Varices: Treatment ENDOSCOPIC SCLEROTHERAPY Injection of a sclerosing agent into the esophageal varices through and endoscope Promotes thromboses and eventual sclerosis Obliterates the varices ESOPHAGEAL BANDING A rubber band like ligature is slipped over an esophageal varix via an endoscope Necrosis results The varix eventually sloughs off Esophageal Varices: Treatment BALLOON TAMPONADE: Sengstaken-Blakemore tube Intubated patient Three separate openings One lumen inBates the gastric balloon Another inBates esophageal balloon Third aspirates blood Esophageal Varices: Interventions Patients with cirrhosis should undergo screening endoscopy q 2 years Monitor for associated complications such as hepatic encephalopathy resulting from blood breakdown in the GI tract and delirium related to alcohol withdrawal Esophageal Varices: Interventions Active bleeding: Monitor patient’s condition frequently, including emotional responses and cognitive status With balloon tamponade Monitor treatments, including tube care and GI suction Monitor respiratory status (sudden deBation can cause obstruction) Auscultate for aspiration Oral care Quiet, calm environment and reassuring manner / reduce anxiety Monitor for Hypovolemic shock (Buid loss from bleeding varices) Oxygen IV Buids, electrolytes, volume expanders Blood and blood products Teaching and support of patient and family Hepatic Encephalopathy: Assessment A life-threatening complication of liver disease May result from accumulation of ammonia and other toxic metabolites in blood Assessment: EEG Neuro status Changes in LOC Asterixis (involuntary Bapping movements of hands) Potential seizures Fetor hepaticus (sweet, slightly fecal odor to breath) Hepatic Encephalopathy: Stage 1 Stage One Normal LOC Lethargy Euphoria Reversal of day-night sleep patterns Asterixis Impaired writing and ability to draw line gures Normal EEG Hepatic Encephalopathy: Stage 2 Stage Two Increased drowsiness Disorientation Inappropriate behavior Labile mood Agitation Asterixis Fetor hepaticus Abnormal EEG with generalized slowing Hepatic Encephalopathy: Stage 3 Stage Three Stuporous DiKcult to arouse Sleeps most of the time Marked confusion Incoherent speech Asterixis Increased deep tendon reflexes Rigidity of extremities EEG markedly abnormal Hepatic Encephalopathy: Stage 4 Stage Four COMATOSE May not respond to painful stimuli ABSENCE of Asterixis ABSENCE of Deep Tendon ReBexes Flaccidity of extremities EEG markedly abnormal Hepatic Encephalopathy: Medication Medication Lactulose to reduce serum ammonia level Detoxies the ammonium Acts as osmotic agent to draw water into the bowel Causes diarrhea in some patients Dose should be adjusted so patient has 2-3 soft stools per day IV glucose to minimize protein catabolism Cholestyramine Resin (Questran) Urodoxycholic Acid(Actigall) - Promotes bile Bow from liver Antacids - Decrease gastric disturbances and potential for GI bleeding Potassium-sparring diuretics (aldactone) - For ascites Emollient creams (for pruritis) Hepatic Encephalopathy: Management Transfusion of Platelets and PRBCs Diet Protein restriction Sodium Intake Restricted Reduction of ammonia from GI tract Alternative Herbal Treatments Kava Kava Can cause or worsen liver disease Patients should check with provider if taking possibly hepatoxic medications Milk Thistle May improve liver enzyme levels May benet patients with chronic liver disease Review of Objectives Review anatomy and physiology of the hepatic system Discuss common laboratory tests and diagnostic tools for hepatic dysfunction Consider the etiology and incidence of liver dysfunction Describe common assessment ndings with liver dysfunction and liver failure Describe select conditions of the hepatic system Explain appropriate nursing care and rationales for the care of patients experiencing liver dysfunction Consider alternative and complimentary medications as they relate to the hepatic system NUR 144 Adult Health/Mental Health Rose Frowd, RN, MSPH, CASAC Christina Haggarty, RN, MSN, CASAC Cynthia Lasman, RNC-OB, MSN, CNE, C-EFM FAQ: Fall 2024 Clinical groups will have some meetings on campus, in the hospital, independent rotation, and/or online learning. Things can change and we will adjust. PLEASE reach out to your clinical instructor or to me with your questions and concerns!! Exams will use ExamSoft on campus. Alternate clinicals will use Vsims (you must purchase this) Test Dates Unit 1 (Gastrointestinal) – 10/10/24 @ 3:00 pm Unit 2 (Psychiatric) – 12/5/24 @ 3:00 pm Comprehensive – 12/19/24 @ 3:00 pm Refer to Nursing Program Policies on Brightspace Orientati on You may record (audio only – no video) Please do not share my lectures outside of your class Office Hours Schedule through the link in Brightspace Choose online or in my office Tuesday-online Thursday- office 8:30am-9:30am and 12pm-2pm Orientati on D2L Brightspace Syllabus Medications Detailed Course Outline (not guarenteed to be all-inclusive) Pre- and Co-requisite classes Accessibility Volunteer Note-taker Academic Conflicts Religious Pronouns Orientati on topics for some Difficult Be respectful! Reach out to your family, friends, classmates, and me! Inez Rivera [email protected] Unit one Gastrointesti nal System Lecture 1 GI assessment Gastric Duodenal Lecture 2 Hepatic Lecture 3 Biliary Alternative nutrition Lecture 4 Colon Lecture 5 Alternative elimination Gastrointestinal Assessment Professor Rose Frowd MS, RN BC-PMH, CASAC [email protected] Adapted from Wolters Kluwer Objectives Review anatomy and physiology of the GI system Discuss terms related to the GI system Describe common assessments of the GI system Organs of the Digestive System Functions of the Digestive Tract Breakdown of food for digestion Absorption into the bloodstream of small nutrient molecules produced by digestion Elimination of undigested unabsorbed foodstu6s and other waste products Terms Digestion: begins with the act of chewing, in which food is broken down into small particles that can be swallowed and mixed with digestive enzymes Absorption: Absorption is the major function of the small intestine. Vitamins and minerals absorbed are essentially unchanged. Absorption begins in the jejunum and is accomplished by active transport and di6usion across the intestinal wall into the circulation Elimination: phase of the digestive process that occurs after digestion and absorption when waste products are eliminated from the body Major Enzymes and Secretions Chewing and swallowing COLOR KEY Saliva (mechanical breakdown) Salivary amylase Starch / Sugar Protein Gastric function Hydrochloric acid Fat Pepsin Intrinsic factor (absorption of vitamin B12) Small intestine (via the common bile duct) Amylase Lipase Trypsin Bile Knowledge Check Is the following statement true or false? Lipase is an enzyme that aids in the digestion of protein. ANSWER False Rationale: Lipase is an enzyme that aids in the digestion of fats. Trypsin is an enzyme that aids in the digestion of protein. Knowledge Check What is ingestion? A. Occurs when food is taken into the GI tract via the mouth and esophagus B. Occurs when enzymes mix with ingested food and when proteins, fats, and sugars are broken down into their component molecules C. Occurs when small molecules, vitamins, and minerals pass through the walls of the small and large intestine and into the bloodstream D. Occurs after digestion and absorption when waste products are eliminated from the body ANSWER A. Occurs when food is taken into the GI tract via the mouth and esophagus Rationale: Ingestion occurs when food is taken into the GI tract via the mouth and esophagus. Digestion occurs when enzymes mix with ingested food and when proteins, fats, and sugars are broken down into their component molecules. Absorption occurs when small molecules, vitamins, and minerals pass through the walls of the small and large intestine and into the bloodstream. Elimination occurs after digestion and absorption when waste products are eliminated from the body. Assessment of the GI System Health history: Information about abdominal pain, dyspepsia, gas, nausea and Common Sites of vomiting, diarrhea, constipation, Referred Abdominal fecal incontinence, jaundice, and Pain previous GI disease is obtained Pain: Character, duration, pattern, frequency, location, distribution of referred abdominal pain, and time of the pain vary greatly depending on the underlying cause Assessment of the GI System Dyspepsia (Indigestion) Upper abdominal discomfort associated with eating Pain, fullness, bloating, early satiety, belching, heartburn, regurgitation Most common symptom of patients with GI dysfunction Increased symptoms with fatty foods, coarse vegetables, highly seasoned foods Intestinal gas Bloating, distention, or feeling “full of gas” Belching and/or excessive @atulence Often a symptom of food intolerance or gallbladder disease Assessment of the GI System Nausea Vague, uncomfortable sensation of sickness or “queasiness” that may or may not be followed by vomiting Often with distention of the duodenum or upper GI tract Vomiting (emesis) Forceful emptying of stomach and intestinal contents through the mouth Causes Visceral pain, motion, anxiety, medication, torsion, trauma, metabolic abnormalities, toxins, chemotherapy, radiation, inner ear disorders, anticipatory Assessment of the GI System Change in bowel habits and stool characteristics May signal colonic dysfunction or disease Constipation, diarrhea Other common abnormal stool characteristics Bulk, greasy foamy stools – foul smelling (may or may not @oat) Light gray or clay colored stool (absence of conjugated bilirubin) Stool with mucus threads or pus (visible on gross inspection) Loose, watery stool (may or may not be streaked with blood) Assessment of the GI System Past health, family and social history Oral care and dental visits Lesions in mouth Discomfort with certain foods Use of alcohol and tobacco Dentures Previous diagnostic studies, treatments, or surgery Weight gain or loss Medications Dietary intake Physical Assessment of the GI System Oral cavity Lips Color, hydration, texture, symmetry, ulcerations, Cssures Gums In@ammation, bleeding, retraction, discoloration, odor Tongue Texture, color, lesions, symmetry A thin white coat and large “V” on the distal tongue are normal Cndings Physical Assessment of the GI System Abdominal assessment Position Dorsal Recumbent Inspection Auscultation Percussion Palpation Rectal inspection Position lithotomy or side-lying Note abnormalities and hygiene Knowledge Check Which is the correct order to complete an abdominal assessment? A. Inspection, auscultation, percussion, and palpation B. Auscultation, inspection, palpation, and percussion C. Percussion, palpation, inspection, and auscultation D. Palpation, percussion, auscultation, and inspection ANSWER A. Inspection, auscultation, percussion, and palpation Rationale: The correct order for an abdominal assessment is inspection, auscultation, percussion, and palpation. Auscultation must be completed before manipulation of the abdomen because it has an impact on motility and can lead to an inaccurate interpretation of bowel sounds. Gastric and Duodenal Disorders Cynthia Lasman, RNC-OB, MSN, CNE, C-EFM [email protected] Adapted from Wolters Kluwer Objectives Review anatomy and physiology of the upper GI tract Discuss common laboratory tests and diagnostic tools for upper GI dysfunction Consider the etiology and incidence of upper GI dysfunction Describe common assessment Cndings with upper GI dysfunction Describe select conditions of the upper GI dysfunction Explain appropriate nursing care and rationales for the care of patients experiencing upper GI dysfunction A&P: UPPER GI Esophagus In the mediastinum Anterior to the spine Posterior to the trachea and heart Hollow 10” muscular tube Passes through the diaphragm at an opening called the diaphragmatic hiatus Stomach In the peritoneum Left upper quadrant Capacity of approximately 1500 mL Stores food during eating, secretes digestive @uids, and propels the partially digested food, or chyme, into the small intestine Gastroesophageal junction is the inlet Pyloric sphincter is the outlet Laboratory and Diagnostic Studies Serum laboratory studies Stool tests Breath tests Abdominal ultrasonography Genetic testing Upper GI tract study GI motility studies Laboratory and Diagnostic Studies Endoscopic Procedures Esophagogastroduodenoscopy (EGD) Gastroscopy Manometry and electrophysiologic studies Ultrasound Computed Telemetry (CT) Magnetic Resonance Imagery (MRI) Disorders of the Oral Cavity Periodontal disease Includes gingivitis – in@ammation of the gums Common cause of tooth loss Dental plaque and Caries Tooth decay – erosive process Prevention includes cleaning teeth several times a day (brushing and @ossing), use of @uoride toothpaste and @uoridated community water sources Nursing Implications Poor oral intake reduces saliva production – increased oral care is required Soft bristle brush is best, wipe with gauze pad if unable to tolerate brushing Oral in@ammatory disease is linked to cardiovascular disease, diabetes, rheumatoid disease, premature birth, low birth weight, stroke Encourage adequate food intake Minimize mouth pain Support positive self-image Disorders of the Esophagus Achalasia – absent or ine6ective peristalsis Dysphasia with solid food, regurgitation, Diagnosed with x-ray Teach patient to eat slowly and drink @uids with meals Dilation can be done, or surgery if severe Esophageal Spasm – muscular spasm interrupting normal peristalsis Dysphasia, pyrosis, regurgitation, chest pain Diagnosed with esophageal manometry Treated with muscle relaxants and proton pump inhibitors Disorders of the Esophagus (cont.) Diverticulum Outpouching of mucosa through the musculature Most common is Zenker diverticulum (ZD) Dysphasia, fullness in the neck, belching, regurgitation, gurgling noises, halitosis Diagnosed with barium swallow or manometric studies Avoid NG tube insertion! Perforation Excruciating retrosternal pain and dysphasia Life-threatening disorder, requires immediate surgical intervention, antibiotics Diagnosed with xray, barium swallow, chest CT NPO Post-op Hiatal Hernia The opening for the esophagus becomes enlarged and the upper stomach moves into the lower chest Assessment Dysphagia, pyrosis, regurgitation, intermittent epigastric pain, fullness after eating, nausea/vomiting, may be asymptomatic Diagnosis is made with x-ray studies, barium swallow, EGD, esophageal manometry, CT Medical Management Used to treat if the patient is symptomatic (for example, GERD) Surgery (usually laparoscopic) Patient Teaching Frequent small meals Do not recline for 1 hour after eating Elevate HOB (4-8 in) If post-op, advance diet slowly Gastroesophageal Re=ux Disease (GERD) Common disorder Back@ow of gastric or duodenal contents into the esophagus Troublesome symptoms and/or mucosal injury to the esophagus Excessive re@ux may occur because of an incompetent lower esophageal sphincter, pyloric stenosis, hiatal hernia, or a motility disorder Incidence: increases with age; irritable bowel syndrome and obstructive airway disorders (asthma, COPD, cystic Cbrosis); Barrett esophagus, peptic ulcer disease, and angina Other risk factors: tobacco use, co6ee drinking, alcohol consumption, gastric infection with Helicobacter pylori Gastroesophageal Re=ux Disease (GERD) Back@ow of gastric/duodenal contents into the esophagus and can lead to mucosal injury Assessment Pyrosis and regurgitation (hallmark of GERD) Dyspepsia, dysphagia, hypersalivation, esophagitis pH monitoring (gold standard diagnosis) Endoscopy, barium swallow to evaluate for complications Complications Dental erosion, ulcerations in the pharynx/esophagus, laryngeal damage, esophageal strictures, adenocarcinoma, pulmonary complications Gastroesophageal Re=ux Disease (GERD) Medical Management Medications Surgery Teaching Low-fat diet Avoid ca6eine, tobacco, beer, milk, foods containing peppermint or spearmint, and carbonated beverages Avoid eating or drinking 2 hours before bedtime Elevate the head of the bed by at least 30 degrees Tobacco cessation Limit alcohol Maintain healthy weight Gastritis Disruption of the mucosal barrier that normally protects the stomach tissue from digestive juices Acute rapid onset of symptoms usually caused by dietary indiscretion self-limiting other causes; medications, alcohol, bile re@ux, and radiation therapy, ingestion of strong acid or alkali (may cause serious complications) Chronic prolonged in@ammation atrophy of gastric tissue benign or malignant ulcers of the stomach Helicobacter pylori Other causes; autoimmune diseases (Hashimotos, Addison, Graves), dietary factors, medications, alcohol, smoking, or chronic re@ux of pancreatic secretions or bile Acute Gastritis Can be classiCed as erosive or nonerosive Image reproduced with permission from Strayer, D. S., SaItz, J. E., & Rubin, E. (2015). Rubin’s pathology: Mechanisms of human disease (8th ed., Fig. 19-15). Erosive Philadelphia, PA: Lippincott Williams & Wilkins. Local irritants (aspirin, NSAIDS, corticosteroids, alcohol, radiation) Severe – caused by ingestion of strong acid or alkali Nonerosive Helicobacter pylori (H. pylori) Can cause peptic ulcers Stress-related severe burns, infection, lack of perfusion, surgery Complications – perforation, scarring, pyloric stenosis, tissue atrophy, hemorrhage Manifestation of Gastritis Acute: epigastric pain, dyspepsia, anorexia, hiccups, nausea, vomiting. Erosive gastritis can lead to melena, hematemesis or hematochezia Chronic: fatigue, pyrosis, belching, sour taste in the mouth, halitosis, early satiety, anorexia, nausea and vomiting, pernicious anemia due to malabsorption of B12. Some are asymptomatic Mild epigastric discomfort with intolerance of spicy or fatty food, relieved by eating DeCnitive diagnosis by endoscopy and histologic examination of biopsy specimen Medical Management of Gastritis Acute Recovery in 1-3 days Refrain from alcohol and food until symptoms subside Supportive therapy: IV @uids, nasogastric intubation, antacids, histamine-2 receptor antagonists, proton pump inhibitors Chronic Modify diet, promote rest, reduce stress, avoid alcohol and NSAIDs Pharmacologic therapy including a variety of medications Tx may include placement of NG tube, endoscopy, surgery (perforation or hemorrhage) Nursing Management of Gastritis Reduce anxiety; use calm approach and explain all procedures and treatments Promote optimal nutrition; for acute gastritis, the patient should take no food or @uids by mouth. Introduce clear liquids and solid foods as prescribed. Evaluate and report symptoms. Discourage ca6einated beverages, alcohol, cigarette smoking. Refer for alcohol counseling and smoking cessation Promote @uid balance; monitor I&O, for signs of dehydration, electrolyte imbalance, and hemorrhage Measures to relieve pain: diet and Peptic Ulcer Disease Erosion of a mucous membrane forms an excavation in the stomach, pylorus, duodenum (more common), or esophagus Most often cause by infection of H. pylori Less often stress ulcer from burn, shock, sepsis, MODS, TBI, mechanical ventilation (probably from tissue ischemia) Risk factors include excessive secretion of stomach acid, dietary factors, chronic use of NSAIDs, alcohol, smoking, and familial tendency, blood type O, COPD, liver cirrhosis, chronic kidney disease, autoimmune disorders Peptic Ulcer Disease Assessment May be asymptomatic (silent peptic ulcer) Symptoms may come Manifestations include a dull gnawing pain or burning in the midepigastrium; sour eructation (burping), heartburn and vomiting (undigested food in emesis, relieves pain) Duodenal ulcers – symptoms occur 2-3 hours after eating (often pain will occur at night, waking patient), eating may relieve symptoms Sudden onset of severe pain (especially sharp upper abdominal pain referred to the shoulder), hypotension and tachycardia may indicate perforation Diagnosis with physical exam, upper endoscopy (with histologic exam), urea breath test Peptic Ulcer Disease Treatment includes medications (includes antibiotics if H. pylori is present), lifestyle changes, and occasionally surgery if wounds don’t heal in 12-16 Reprinted with permission from Strayer, D. S., SaItz, J. E., & Rubin, E. (2015). Rubin’s pathology: Mechanisms weeks of human disease (8th ed., Fig. 19-23). Philadelphia, PA: Lippincott Williams & Wilkins. Teaching Tobacco cessation Dietary modiCcation Avoid extremes in temperature, alcohol, co6ee, ca6eine Regular meals Knowledge Check Is the following statement true or false? The most common site for peptic ulcer formation is the pylorus. ANSWER False Rationale: The most common site for peptic ulcer formation is not the pylorus. The most common site for peptic ulcer formation is the duodenum. Assessment for Gastritis or Peptic Ulcer Disease History including presenting signs and symptoms Dietary history and dietary associations with symptoms such as predictable time for pain 72-hour diet; diary may be helpful Abdominal assessment, vital signs Medications; include use of NSAIDs Sign and symptoms of anemia or bleeding Abdominal assessment Goals for Patient with Gastritis or Peptic Ulcer Major goals may include: Relief of pain Reduced anxiety Maintenance of nutritional requirements Absence of complications Nursing Interventions Relieving pain Reducing anxiety Maintaining optimal nutritional status Monitoring and managing potential complications Hemorrhage Perforation and penetration Gastric outlet obstruction Patient education Knowledge Check What is the duration of treatment for proton pump inhibitors in a patient diagnosed with peptic ulcer disease? A. 1–2 weeks B. 7 days C. At least 2 years based on risk factors D. 4–8 weeks ANSWER D. 4–8 weeks Rationale: Proton pump inhibitors should be used for 4–8 weeks to allow complete peptic ulcer heading. Patients at high risk require a maintenance dose for 1 year. Review of Objectives Review anatomy and physiology of the upper GI tract Discuss common laboratory tests and diagnostic tools for upper GI dysfunction Consider the etiology and incidence of upper GI dysfunction Describe common assessment Cndings with upper GI dysfunction Describe select conditions of the upper GI dysfunction Explain appropriate nursing care and rationales for the care of patients experiencing upper GI dysfunction Review anatomy and physiology of the GI system Discuss terms related to the GI system Describe common assessments of the GI system