Summary

This document provides an overview of gastrointestinal drugs, including various mechanisms, uses, and side effects for a range of conditions. The presentation details different types of gastrointestinal drugs and their role in treating various disorders.

Full Transcript

Gastrointestinal Drugs Most common Gastroesophageal Reflux Disease (GERD) acid of relax sphinites GERD is when acid and pepsin from the stomach flows backward up into the esophagus often called heartburn; What Causes GERD? 1) Overproduction of acid/pepsin 2) Over relaxation...

Gastrointestinal Drugs Most common Gastroesophageal Reflux Disease (GERD) acid of relax sphinites GERD is when acid and pepsin from the stomach flows backward up into the esophagus often called heartburn; What Causes GERD? 1) Overproduction of acid/pepsin 2) Over relaxation of the Lower Esophageal Sphincter (LES); most comp What is Peptic Ulcer Disease A benign lesion of gastric or duodenal mucosa 1) Excess acid production 2) Intrinsic defect in the mucosal defense barrier What Causes Peptic Ulcer Disease Helicobacter Pylori (H. pylori)  Most ulcers are the result of infection with H. pylori  Not all of those infected with H. pylori develop ulcers  H. pylori MAY result in a weakening of the mucosal defense systems, allowing for development of ulcer subsequent to acid/pepsin aggression; b What Causes Peptic Ulcer Disease 1Mt NSAIDs www.sffjf.no Long term use of nonsteroidal anti- inflammatory drugs. NSAIDs block COX enzymes and decrease prostaglandins (PGs). swim pm Gastrinoma (Zollinger-Ellison Syndrome) Tumors of the duodenum or pancreas and secrete abnormally high amounts of gastrin which stimulates gastric acid. Stress ulcers Result of physical trauma (i.e., burn patients). Strategies for Protecting the Gastric Mucosa from Acid Exposure Mechanisms Example 2 1 Cimetidine proton Inhibit Omeprazole H+ secretion Prostaglandins WHAT Muscarinic antagonists 3 Prevent a H+ am Sucralfate contact 614 5 d II Neutralize To.si Antacids H+ acid aeidafwdfds ffg 1691459 Multiple Mechanisms Regulate Gastric Acid Ht CCK2 Hormonal Gastrin H2 Paracrine cAMP dep. pathway PP H+ 2 Histamine Gastric M3 Nutoffount Lumen Neural Acetylcholine Strategies for Inhibiting Parietal Cell Acid Secretion Antagonist fit Gastrin Antagonists H2 Histamine ↓cAMP PP H+ Antagonists at M3 Gastric Muscarinic Lumen Antagonists Strategies for Inhibiting Parietal Cell Acid Secretion Basolateral Apical cAMP H2 (+) Histamine (+) Protein proton Kinase PP Rump H+ K+ macos ATP (-) EP3 ostualinding (-) l cAMP PGI2 Parietal Cell PGE2 EP3 Mucus sk M? 2 H HCO3- Superficial Epithelial Cell pH 6.7 pH 2 Strategies for Inhibiting Parietal Cell Acid Secretion CCK2 Ca2+ É Proton pump Inhibitors (-) EP3 cAMP Protein H+ H2 PP (+) Kinase ATP M3 Ca2+ H+, f K+-ATPase (the proton pump) 4 is the final transport pathway for parietal cell hydrogen ion secretion Hcl  H+, K+-ATPase is located in the apical membrane of the Parietal cell along the secretory canaliculi; The pump requires large amounts of energy that is supplied by intracellular ATP; ATPase 5656581_k_Him Inhibition of H+, K+-ATPase blocks both basal and stimulated acid secretion. N'III GET D 81 5081762 INEH DX if 953Omeprazole (Prilosec) 31 tobe ast inactive Needs sonthis  Prototype H+, K+-ATPase inhibitor; A prodrug that needs a low pH to be active; 4Nd feb id low pH wff.gg is 4H t.at If WE_ Irreversible (forms a covalent bond with the proton pump) - long lasting inhibition of acid production; Profound reduction of gastric acid - elevates gastric pH significantly (20mg/day for 7days will decrease acid by 95%); Ian Highly protein bound; Metabolized by CYP2C & CYP3A; plasma half life of 1 to2 hours but long duration of action; Should be taken just prior to a meal and should NOT be taken with other acid-suppressing agents. 24h1 iii t.nl sswa ah a long it Esomeprazole Simply the S-isomer of omeprazole; H+, K+-ATPase inhibitor; Given orally. Rabeprazole Lansoprazole No Pantoprazole H+, K+-ATPase inhibitor; An acid-stable form and can be given by i.v. Proton Pump Inhibitors (PPI) Well Tolerated sideered Hypergastrinemia (can lead to tumor growth in the GI) Nausea Headaches, skin rashes PootHistamine H2 Antagonists Cimetidine Ranitidine Famotidine  Nizatidine Drugs for Acid-Peptic Disorders - Cimetidine piwibjw.it i.is i wmwap.B  Competitive H2 receptor Antagonist; IF Markedly inhibits basal acid secretion including nocturnal secretion; I Readily absorbed after oral administration; Relatively brief duration of action (4-8 hr) – Given on a multiple dosing schedule; – (300-400 mg, 2-4 times daily); – Typical therapy is for 4-8 weeks. Drugs for Acid-Peptic Disorders – Ranitidine ,Famotidine,Nizatidine  Same mechanism of action as Cimetidine but a longer duration of action (8 to 12 hrs);  Can be given less frequently; 150 or 300 mg, 1-2 times daily  Less interactions at P450 than Cimetidine. Drugs for Acid-Peptic Disorders - Anticholinergics Ach Blockade of acetylcholine at muscarinic (M3) receptors Pirenzepine iÉ s Telenzepine t.dk III Effectively blocks acid secretion (30 to 40%) Limited by side-effects ix in I mydrisis and E Pset Drugs for Acid-Peptic Disorders – Prostaglandins (PGE2 & PGI2 ) of.im Act at prostaglandin EP3 receptors on parietal cells & on epithelial cells Étiffective Inhibits: Stimulates: so  Acid secretion km  Mucus secretion a  Gastrin release  Bicarbonate secretion  Pepsin secretion  Mucosal blood flow IN 618 81_w These compounds act by both inhibition of acid production and by increasing defense mechanisms These compounds are also effective against direct damage produced by alcohol, aspirin and NSAIDs, and are therefore termed “cytoprotective” Drugs for Acid-Peptic Disorders - Prostaglandins insem Misoprostol (Cytotec): HIM  sists Synthetic Analog of Prostaglandin E1  Anti-acid secretory  0.1 to 0.2 mg results in 85% to 95% acid reduction  Prevention of NSAID gastric ulcers dJs.JoutetspNzg5Ij gj.sn Side Effects Diarrhea Abortion Drugs for Acid-Peptic Disorders - Antacids I 2H 250 woman amassam  Antacids are weak bases that neutralize HCl in the stomach;  They raised Gastric PH;  Magnesium hydroxide diatoms  Magnesium trisilicate  Magnesium-aluminum mixtures  Tensifation Calcium carbonate  Sodium bicarbonate Characteristics of Common Antacids Feature Sodium Calcium Magnesium Aluminum Bicarbonate Hydroxide Onset of rapid intermediate rapid slow action Duration of short moderate moderate moderate action Systemic yes ? no no alkalosis Effect on --- constipating diarrhea constipating stool constipation diatthe a bid width If Jw if Drugs for Acid-Peptic Disorders – Sucralfate 6k  Sucralfate is a basic aluminum salt of sucrose octasulfate;  In the presence of acid (pH < 3-4) some of the aluminum ions dissociate and the resulting negatively charged molecule polymerizes to form a viscous paste-like substance;  This substance adheres strongly to gastric and duodenum mucosa and adheres even more strongly to partially denatured proteins such as those found at the base of the ulcer. what sites at as that I guy Role of H. pylori in Peptic Ulcer Disease Treatment If H. pylori detected, eradication of the bacteria, along with inhibition of acid. Combination therapy with Omeprazole and Amoxycillin inhibits died too se sdI p Functional Disorders of the GI loss of normal” pattern of bowel movement  Primary fumigation infection, inflammation, congenital defects (disorders of the neuronal/muscular activity);  Secondary metabolic disorders (hypo- or hyper- parathyroidism, hypercalcemia), neurologic (diabetes mellitus - damage to vagal and sympathetic extrinsic nerves, intrinsic nerves; MS, heavy metal toxicity, carcinoma); 8T Prokinetic Drugs 5 isdif.IT Substances which enhance transit of materials through the GI tract(enhance GI motility); Increase neuromuscular transmission Prokinetic Drugs are Often Used for: demos  Gastroesophageal reflux disease (GERD) MAIK  Gastroparesis Ñ  Nighttime heartburn  Severerefractory constipation (sometimes caused by irritable bowel syndrome (IBS)) Prokinetic Drugs Act on Enteric Nerves to Increase Cholinergic Stimulation f ÉS Muscarinic M2 (stimulated by Bethanechol)) agonia Dopamine D2 (Blocked by Metoclopramide and Domperidone) Dopaminergic Neuron A d 5HT4 Stimulated by inf Metoclopramide (-) 1 (+) me Smooth Ach (+) (+) Ach Muscle Cholinergic Cell (+) Neuron Motilin w̅ (+) 3 Stimulated by Erythromycin of um Motilin aims axis Indirect effects are mediated by M2 muscarinic receptors murmurers Metoclopramide crosses the blood-brain barrier Prokinetic Drugs – Metoclopramide (Reglan) Metoclopramide is an antiemetic and improves is IN gastric emptying – indirectly releases acetylcholine  Actions d1  Dopamine D2 receptor sina.fi m.Gs.I antagonist  Pharmacokinetics  Oral bioavailability 441 Iii ist  Crosses blood-brain barrier  Adverse Side-effects 50  Sedation 9  Dystonic reactions jan sexhomrk.ES  Anxiety reactions  Gynecomastia Ach w̅  Galactorrhea if Notacross we i e.fm Prokinetic Drugs – Domperidone (Motilium) 2 Domperidone is an antiemetic and improves gastric emptying – Not very effective for GERD  Actions Dopamine receptor antagonist Ganglionic stimulant  Pharmacokinetics Low oral bioavailability Does not cross blood- brain barrier  Adverse Side-effects Headaches Gynecomastia Neonates etc Anti-emetic ganoid all 3 517 Classification of antiemetic drugs: YEof.it  DoxmEf Prokinetics: Metoclopramide, domperidone 2 5-HT3 antagonist: ondansetron, granisetron motion 3 Antimuscarinics: Hyoscine, sichnqygop.  y H antihistaminic like cyclazine,promethazine. 1 Neuroleptics: chlorpromazine, haloperidol  NNXXXXX Preferred drugs for vomiting due to various conditions: Conditions Drugs Motion sickness Hyoscine, cyclazine, promethazine. Vomiting due to Ondansetron, anticancer drugs metoclopramide. Post operative Ondansetron, vomiting metoclopramide. Drugs used in constipation Constipation: A condition in which there is difficulty in emptying the bowels, usually associated with hardened feces. Purgatives: Purgatives are drugs are drugs that promote defecation or passage of stools. They are also called passage 1 of laxatives and cathartics. Laxatives are milder action while cathartics and purgatives are more powerful drugs. Purgatives drugs: Bisacodyl, castor oil, lactulose, Magnesium sulfate. Some drugs causes’ constipation: Anti- cholinergic drugs like atropine, opioids, iron, calcium channel blocker. a É Laxatives relieve constipation and promote evacuation of th e bowel via the following:  enhancing retention of intraluminal fluid by hydrophilic or osmotic mechanisms; I  decreasing net absorption of fluid by effects on small- and large bowel fluid and electrolyte transport;  altering motility by inhibiting segmenting (nonpropulsive) contractions or stimulating propulsive contractions. Diarrhea Diarrhea: It is the condition of having at least three loose stools or liquid bowel movements each day. Do not Live antibiotic Éiralinfection Most common cause is an infection of the intestines due to a virus, bacteria, or parasite; a condition known as gastroenteritis. These infections are often acquired from food or water that has been contaminated by stool, or directly from another person who is infected. Bacteria that causes diarrhea: Campylobactor, Salmonella OR E.coli Treatment of diarrhea: so o  Replacement of fluid and electrolytes i me ORS (oral rehydration salts): Composition of ORS is NaCl, KCl, Sodium citrate and glucose mix in water. dyhydotation  Treatment of the cause: like antibiotic if needed.  Antidiarrheal agents: adsorbent like kaolin, pectin and charcoal. kaolin is natural compound containing magnesium and aluminium silicate while pectin is the sugar obtained from apple.  Antimotility drugs: codeine, diphenoxylate and loperamide. Antidiarrheal Drugs Act By a Variety of Mechanisms Drugs Inhibit Stimulate Decrease Enhance Bind propulsive nonpropulsive fluid fluid luminal contractions contractions secretion* absorption secretagogues Opioids +++ +++ +++ ++ 2 agonists +++ + Anticholinergics +++ ++ Somatostatin + +++ (Octreotide) Bismuth +++ subsalicylate +++ Cholestyramine * Stimulated by secretagogues

Use Quizgecko on...
Browser
Browser