Regulation of Gastric Acid Secretion

law of expectic Acid secern custodytThe stand is a J-shaped enlargement of the gastro enteral tract just lies downstairs the diaphragm the digestive tube dilates into an elongated pouchlike structure, the size of which varies agree to several factors, notably the amount of distention. For just approximatelytime later on a meal, the stomach is enlarged beca single-valued function of distention of its walls, save, as food leaves, the walls partially collapse, leaving the harmonium about the size of a large sausage. In adults the stomach unremarkably holds a volume upto 1.0 to 1.5L.ANATOMY OF STOMACH1.1.1 Divisions of the stomachThe fundus, body and the pylorus be the three divisions of the stomach. The fundus is the enlargement function of the left-hand(a) and above opening of the esophagus into the stomach. The body is the central part of the stomach, and the pylorus is its small-scaleer portion.1.1.2 Curves of the stomachThe curve create by the upper right surface of the stomach is k nowadaysn as the lesser curvature the curve formed by the lower left surface is known as the greater curvature.1.1.3 Sphincter musclesSphincter muscles ripe-conduct both stomach openings. A anatomical sphincter muscle consists of circular fibres so arranged that there is an opening in the centre of them (like the hole in a doughnut) when they be relaxed and no opening when they ar contracted.The cardiac sphincter controls the opening of the oesophagus into the stomach, and the pyloric sphincter controls the opening from the pyloric portion of the stomach into the first part of the small intestine.1.1.4 Stomach wall stomachic mucous membraneThe epithelial lining of the stomach is thrown into folds, called rugae, and marked by depressions called stomachal pits. Numerous coiled tubular- type glands, stomachal glands, are prepare below the level of the pits, particularly in the fundus and body of the stomach. The glands secrete nearly of the stomachic juice, a mucous fluid containing digestive enzymes and hydrochloric erosive.1.1.5 Functions of the stomachThe stomach carries on the following the functionsIt serves as a reservoir, storing food until it green goddess be partially digested and moved further along the gastrointestinal tract.It secretes gastric juice, containing panellingic and enzymes, to aid in the digestion of food.It carries on the limited amount of absorption of some water, alcohol, and certain drugs.It produces the horm unmatchable gastrin, which helps regulation of digestive functions.It helps to protect the body by destroying pathogenic bacterium swallowed with food or with mucous from the respiratory tract.1.2 Regulation of gastric acid secretionThe mechanisms operating at the gastric parietal prison cells as summarized in the above figure. The terminal enzyme H+K+ATPase (proton eye) which secretes H+ ions in the apical canaliculi of parietal cells can be motivated by histamine, Ach and gastrin acting v ia their own receptors located on the basolateral membrane of these cells.Out of the three physiologic secretagogues, histamine, acting through H2 receptors, executes the supreme role, because the other(a) two, gastrin and Ach act partly outright by releasing histamine from paracrine enterochromaffin like cells called histaminocytes located in the oxyntic glands. While H2 receptors activate H+K+ATPase by generating ingroup, muscarinic and gastrin receptors appear to function through the phospholipaseC -IP3-DAG course that mobilizes intracellular Ca+. The cAMP mediated proton pump activation withal involves Ca+. The secretomotor repartee to gastrin and cholinergic agonists is expressed fully only in the presence of cAMP generated by H2 activation. As much(prenominal), histamine participates in the acid response to gastrin and Ach at more(prenominal) than one levels, and H2 antagonists suppress not only histamine but excessively Ach, pentagastrin and in fact any gastric aci d secretory stimulus.Gastrin is secreted from the antrum in response to rise in antral pH, food constituents and vagally mediated reflexes. The dominant muscarinic receptor mediating vagal responses is of M1 subtype. Its location on the ganglion cells of the intramural plexuses has been confirmed. The parietal cell muscarinic receptor is of the M2 subtype but the subtype of muscarinic receptor on histaminocytes has not been defined. Vagus releases Ach in dose proximity to histaminocytes and gastrin secreting cells, but apparently at a standoffishness from the parietal cells.Prostaglandins bring forth been ascribed a cytoprotective role in the gastric mucosa by augmenting mucus and bicarbonate secretion, as intimately as other actions. PGE2, produced by gastric mucosa, inhibits acid secretion by opposing cAMP generation and gastrin release.CONTROL OF GASTRIC ACID IN STOMACH1.3 peptic Ulcerpeptic ulcerations illness refers to a group of disorders characterized by draw lesions of the mucosa of the upper gastrointestinal tract (especially of the stomach and duodenum). The lesions occur in regions exposed to gastric juices. When the stomachs natural protections from acid stop working ulcers will occur. Duodenal ulcers almost always develop in the duodenal myelin (the first few centimetres of the duodenum). A few, however, arise between the bulb and the ampulla. stomachic ulcers form most commonly in the antrum or at the antral-fundal junction. approximately 80 % of peptic ulcers are duodenal the others are gastric ulcers. approximately duodenal ulcers appear in people between ages 20 and 50 years, while gastric ulcer usually occurs between ages 45 and 55 years. Duodenal ulcer is twice as common in men as in women and gastric ulcers affect men and women equally. Approximately 10 to 20 % of gastric ulcer patients as well as engender a cooccurring duodenal ulcer.Gastric ulcer is a lot a chronic disease and may persist for 10 to 20 years characterized by ingeminate episodes of healing and re-exacerbation. Peptic ulcers occur when there is an imbalance between stinking factors and protective mucosal factors (Goel and Bhattacharya, 1991). Ulceration in the mucosa can be because of either breakdown of mucosa with the development of surface defects or affliction of restitution of mucosal integrity resulting in retardation or disaster of healing of the ulcers. No apparent causal factor is sufficiently uniquely associated with peptic ulcers to warrant unequivocal implication in pathogenesis of the ulceration. The mechanism of defensive attitude action consists of humoral, functional and neuronal factors. All these factors are amenable for the mucosal protection.The precise biochemical changes during ulcer generation are not f etcetera yet, although various hypotheses have been proposed from time to time. Increased gastric motility, vagal all over activity, mast cell degranulation diminish gastric mucosal blood flow and decreased prostaglandin level during stress condition is thought to be involved in ulcer generation. Similarly role of oxygen derived justify radicals have been shown to play a role in experimental gastric suffering bring forth by ischemia and reperfusion, hemorrhagic shock and ethanol administration. Helicobacter pylori a pathogen is now known to be the most common and important causes of gastric ulcer in humans (Davies et al., 1994), exhibits active inflammation with epithelial footing attach to by neutrophil migration.Although the currently utilise drugs for ulceration are by and large classified into two, those that decrease or counter increase in acid-pepsin secretion and those that afford cytoprotection by virtue of their way outs on mucosal defensive factors. Ulcer treatment can be carried out by simplification the action of aggravating factors. Since gastric acid is one of the major self-assertive factor contributing to peptic ulcer disease, the reduction of gastric acid eit her by surgical or pharmacologic intervention has been employ to promote ulcer healing. However, not all patients, with gastric or duodenal ulcer have high acid secretion. In fact, only 30%-40% of cases with duodenal ulcer have hypersecretion of gastric acid and, in patients with gastric ulcer, acid secretion is either normal or low (Gupta et al., 1980). In these cases, decreased mucosal resistance might be the dominant factor.The neutralization of gastric acid can be done by antiacid administration, but their effectiveness is only for a brief period. Muscarinic antagonists such as pirenzepine or telenzepine are effective inhibitors of acid production. The histamine H2-receptor antagonists (H2RA) like cimetidine, ranitidine, famotidine etc. act as potent inhibitors of acid secretion. Complete suppression of parietal cells acid secretion by receptor antagonist is difficult because of complexity of known receptors on parietal cells and a variety of second messenger signaling sys tem coupled to these receptors, which involve adenylate cyclase coupled with histamine receptor and intracellular Ca+2 with acetylcholine receptors. Thus, the most successful and desirable therapy is to inhibit the enzyme responsible for acid secretion. Moreover, H2RA have been reported to have some adverse reactions ranging from gastric carcinoid to tolerance and rebound acid secretion. Inhibition of gastric H+/K+ -ATPase of the parietal cell by drugs such as by proton pump inhibitors (PPIs) like omeprazole, lansoprazole, timoprazole, etc. has been shown to be effective in the treatment of peptic ulcer disease. However, such agents irreversibly inactivate the ATPase and the return of acid secretion following such inhibition requires de novo synthesis of modernistic pump.Although these drugs have brought about remarkable changes in ulcer therapy, the efficiency of these drugs is still debatable. Reports on clinical evaluation of these drugs shows that there are incidences of relaps es and adverse effects and danger of drug interactions during ulcer therapy. Further, in the developing countries, like India, most of the population is bread and butter in rural areas and depending on their indigenous system of drugs because of expensive new treatment. Hence, the search for an ideal anti-ulcer drug continues and has also been extended to herbal drugs in search for new and novel molecules, which afford better protection, decrease the incidence of relapse and decrease the cost of the treatment.Of late the search for new safe alternative drugs have rekindled the interest in cytoprotective drugs, which protects the mucosal layer from incentive agents. Cytoprotection has been defined as the ability of pharmacological agents-originally prostaglandins to prevent or foreshorten gastric, duodenal, or intestinal mucosal injury by mechanisms other than inhibition of gastric acid secretion. Although few drugs like sucralfate and prostaglandin analogs are recognized as cyt oprotective agents (Vergin and Kori-Lindner, 1990), many natural drugs have been reported to posses this activity that is to say jellain banana (Musa sapientum var Paradisiaca), Tectona grandis, Azadirachta indica and rasayana drugs like Centella asiatica, asparagus racemosus, Convolvulus pluricaulis, Emblica officinalis, Bacopa monniera and Withania somnifera, etc. (Goel and Sairam , 2002).India is one of the country comfortable in medicinal plants which were employ by our ancestors. Traditionally, plants were used as medicine in a conventional way such as Ayurveda, Naturopathy, Siddha and Unani. After knowing the used of plants in medicine, synthetic drugs were now started replacing by herbal products.Humans have used plant materials since prehistoric times and in some countries such as China documentary evidence shows that herbal medicines have been used for at least 7000 years. In Europe there is a rich history in the use of herbal medicines and these have been well recor d in medieval herbals such as Culpepers and Gerards materia medica. Nowadays many countries are having interest in using Indian medicinal plants as it can cure many diseases and other purposes.Herbal medicines differ from synthetic drugs in several attributes. Though, herbal medicines are mixed chemical colonials, all have not been isolated, characterized and quantified. When an extract of a plant or a compound isolated from the plant has to be clinically evaluated for a therapeutic effect not originally described in the texts of traditional systems or, the method of homework is different, it has to be treated as a new substances or new chemical entity. The same type of acute, subacute and chronic toxicity entropy has to be generated.Majority of medicinal herbs contain dozens of different compounds, often of great complexity, flavonoids, saponins, glycosides, alkaloids, mucilage, tannins, polysaccharides, etc., that buffer, modulates and modify the effect of any active tenets. St udy after study has shown that administering of isolated purified constituents of the whole or part of the plant cannot pantomime effects produced by extracts of same part of the plant.1.3.1 Pathophysiology of Peptic UlcerPeptic ulcer generally occurs when aggravating factors are higher than defensive mucosal factors(Goel Bhattacharya, 1991). The peptic ulcer can be treated by cut back the activity of aggravating factors thereby increasing the activity of defensive factors.H. PyloriH.Pyloric is a Gram -ve spiral-shaped bacterium. H.Pyloric is the most common cause of non-NASID associated peptic ulcer disease. H.Pyloric has been set in the gastric antrum of a significant number of patients with duodenal ulcers and gastric ulcers.H.Pyloric lives in the acidic environment of the stomach. The initial infection is transmitted by the oral route. H.Pyloric attaches to adhesion molecules on the surface of gastric epithelial cells. In the duodenum, H.Pyloric attaches only to areas contai ning gastric epithelial cell that have arisen as a result of excess and damage to the duodenal mucosa. H.Pyloric is able to live in such a hostile environment partly because of its production of the enzyme increase, which converts urea to ammonia. The ammonia buffers the H+ and forms ammonia OH creating an alkaline cloud around the bacteria and protecting it from the acidic environment of the stomach. It causes inflammation and epithelial cell damage (Golan, and Arman).NsaidsMore than 100, 000 patients are hospitalised each year for NSAID-associated gastro-intestinal complications and gastrointestinal bleeding has a 5% to 10% mortality rate in these patients.NSAID-associated gastrointestinal damage is attributable to both topical injury and systemise effects of the NSAID. closely NSAIDS are weak organic acids. In the acidic environment of the stomach, these drugs are neutral components that can cross the plasma membrane and enter gastric epithelial cells. In the neutral intracellu lar environment, the drugs are recognized and trapped. The resulting intracellular damage is responsible for the local gastrointestinal injury associated with NSAID use.Gastric acid secretionInhibition of cycloxygenase prostaglandins Bicarbonate/ MucousProduction melodic line flowNSAIDSNeutrophil adherence Mucosal dama-Expression of intercellular vascular endothelial ge due to neutro-Adhesion molecules in gastric cells phil free radicalsVascular endothelium and proteases.Acid hypersecretionAcid hypersection is an important causative factor in some patients with peptic ulcer disease. Zollinger-Ellison Syndrome(Z-E-S)are two clinical examples in which hyperacidity leads to peptic ulcer disease. In Z-E-S, a gastrin-recreting tumor of the non-beta cells of the endrocrine pancrease lead to increased acid secretion. In lusting ulcer, seen in patients with reverse head injuries, heightened vagaltone causes gastric hyperacidity.Figure is viewing the interactions among an enterochromaffin-l ike (ECL) cell that secretes histamine, a parietal cell that secretes acid, and a superficial epithelial cell that secretes cytoprotective mucus and bicarbonate. physiological pathways, shown in solid black, may be stimulatory (+) or inhibitory (-). 1 and 3 indicate possible inputs from postganglionic cholinergic fibres, while 2 shows neural input from the vagus nerve. Physiological agonists and their respective membrane receptors include acetylcholine (ACh), muscarinic (M), and nicotinic (N) receptors gastrin, cholecystokinin receptor 2 (CCK2) histamine (HIST), H2 receptor and prostaglandin E2 (PGE2), EP3 receptor. medicate actions are indicated by dashed lines. A blue X indicates targets of pharmacological antagonism. A light blue dashed arrow indicates a drug action that mimics or enhances a physiological pathway. Shown in blue are drugs used to treat acid-peptic disorders. NSAIDs are nonsteroidal anti-inflammatory drugs and are ulcerogenic.1.4 GI MotilityLaxatives are drugs t hat either facilitate faecal passage or decrease faecal consistency. They work by promoting one or more of the mechanisms that cause diarrhoea. Because of the wide availability and marketing of OTC cathartics, there is a potential that an appropriate diagnosis will not be seek (Jahangir moini).Rarely in medicine is there an absolute indication for the use of laxatives. A high fibre, well-balanced diet rich in fruits and vegetables supplemented by bran should be enough to normalize bowel function. The fear of autointoxication and the constant bring up of many patients regarding the frequency and quality of bowel movement make laxatives one of the most popular over the counter drugs in the market with adept potential for user abuse. Accepted indications for laxatives and stool softeners include preparation for symptomatic colonic examination (Barium enema, colonoscopy treatment of anorectal disorders) and prevention of hepatic brain disease (Smith and Reynard).Fibre is define d as the undigested residue of fruits, vegetables, and other foods of plant origin after digestion by the human GI enzymes. Fibres water retention capacity is the ability of the fibre to hold water and make bulking of faecal materials possible. Fibres stool bulking capacity is the ability of the fibre to increase the volume of intestinal content because it can absorb and holds water. Bacterial growth in the colon provides additional bulking. Insoluble fibres speeds GI transit time.Cholinergic mechanisms are also responsible for modulating motor phenomena in the gut thus it is not surprise that cholinomimetic agents are effective in promoting gastrointestinal motility. It also has cholinomimetic properties, apparently sensitize intestinal smooth muscle cells to the action of Acetylcholine rather than acting on acetylcholine receptors. The drugs acts to hasten esophageal clearance, raise lower esophageal sphincter pressure, accelerate gastric emptying, and shorten small bowel transi t time1.4.1 mechanism of Laxative Action (KD Tripathi, 1999)a. By their hydrophilic or osmotic nature, laxative can cause retention of fluids, in the colonic content, as well as increase the mass.b. Inhibiting Na+K+ATPase of villous cells impairing electrolyte and water absorption.c. Stimulating adenyl cyclase in crypt cells increasing water and electrolyte secretion.d. Enhancing PG synthesis in mucosa which increases secretion.e. Structural injury to the absorbing intestinal mucosal cells.1.4.2 Classification of Laxatives-Many drugs in low doses act as laxative and in larger doses as purgatives1. mass forming 4. Stimulant purgativesDietary fibre Bran (a) DiphenylmethanesPsyllium PhenolphthaleinMethylcellulose (b) Castor oil5. Anthraquinones2. flock softner Senna, Cascara sagradaDocusates (DOSS) 6. Osmotic purgatives3. Lubricant Magnesium, sodium saltsLiquid paraffin Lactulose1.4.3 Anthraquinone Derivatives-Senna is obtained from the leaves and pods of cassia-bark tree augusti folia and contains the anthraquinone glycosides called emodins. In oral dose the sennosides is poorly absorbed, but after remotion of the sugar and reduction to anthrol by colonic bacteria, they are absorbed into circulation excreted in bile to act on small intestine. It takes 6-7 hrs to produce action. The active principle is believed to act on the myentric plexus to increase peristalsis and decrease segmentation. They also inhibit salt and water absorption in the colon. In India, sennosides are usually marketed in combination with stool softeners such as docusates. fount effects observed are nausea, vomiting, diarrhoea, colic, urine discoloration (yellowish brown to red) and melanosis (colonic atony and mucosal pigmentation after a regular use of the drug). It should be used cautiously in women and children bebelow years of age, and after abdominal surgery.PreparationsGLAXENNA tab. Sennosides ( atomic number 20 salt)11.5 mg.SOFSENA tab 12 mg.PURSENNID tab -18 mgLAXSENA tab 1 2mg, 18mg(forte)