Gastrointestinal tract stimulation

Ephedrine stimulates both a- and p-receptors, causing increased heart rate, unchanged or augmented stroke volume, enhanced cardiac output, and increased blood pressure. It causes relaxation of smooth muscle of bronchi and gastrointestinal tract, stimulation of cerebral cortex, and pupil dilation. 

Motilin Peptide Gastrointestinal tract Stimulation of gastrointestinal... 

Granisetron is a serotonin antagonist. Serotonin (SHTs) receptors are also found in the chemotrigger zone of the medulla and in the gastrointestinal tract. Stimulation of them plays a role in emesis. 

The absorption of sulfonylureas from the upper gastrointestinal tract is faidy rapid and complete. The agents are transported in the blood as protein-bound complexes. As they are released from protein-binding sites, the free (unbound) form becomes available for diffusion into tissues and to sites of action. Specific receptors are present on pancreatic islet P-ceU surfaces which bind sulfonylureas with high affinity. Binding of sulfonylureas to these receptors appears to be coupled to an ATP-sensitive channel to stimulate insulin secretion. These agents may also potentiate insulin-stimulated glucose transport in adipose tissue and skeletal muscle. 

Normally, dietary tyramine is broken down in the gastrointestinal tract by MAO and is not absorbed. In the presence of MAOI, however, all of its potent sympathomimetic actions are seen. Other side effects of MAOI include excessive CNS stimulation, orthostatic hypotension, weight gain, and in rare cases hepatotoxicity. Because the monoamine oxidase inhibitors exhibit greater toxicity, yet no greater therapeutic response than other, newer agents, clinical use has been markedly curtailed. The primary use for MAOIs is in the treatment of atypical depressions, eg, those associated with increased appetite, phobic anxiety, hypersomnolence, and fatigues, but not melancholia (2). 

Soluble Compounds. The mechanism of barium toxicity is related to its ability to substitute for calcium in muscle contraction. Toxicity results from stimulation of smooth muscles of the gastrointestinal tract, the cardiac muscle, and the voluntary muscles, resulting in paralysis (47). Skeletal, arterial, intestinal, and bronchial muscle all seem to be affected by barium. 

Ipecac is prepared from the dried roots and rhizomes of Cephaelis ipecacuanha (Brot.) A. Rich, and contains the alkaloids emetine [483-18-1] (17) and cephaeJine [483-17-0] (18) in a ratio between 2 1 and 4 1. It has been used extensively in cough preparations and is beheved to act by gastric reflex stimulation. Toxic effects include vomiting, irritation of the gastrointestinal tract, and cardiac arrhythmias (19). Ipecac symp is available over-the-counter in the United States only in 30-mL containers for use as an emetic in treating poisonings. 

In the gastrointestinal tract, drugs or toxins, as well as mechanical stimulation, induce emesis by activation of sensory receptors on afferent neurons in the vagus and sympathetic nerves. Information is relayed to the vomiting centre via the nucleus tractus solitarius... 

The human histamine Hi-receptor is a 487 amino acid protein that is widely distributed within the body. Histamine potently stimulates smooth muscle contraction via Hi-receptors in blood vessels, airways and in the gastrointestinal tract. In vascular endothelial cells, Hi-receptor activation increases vascular permeability and the synthesis and release of prostacyclin, plateletactivating factor, Von Willebrand factor and nitric oxide thus causing inflammation and the characteristic wheal response observed in the skin. Circulating histamine in the bloodstream (from, e.g. exposure to antigens or allergens) can, via the Hi-receptor, release sufficient nitric oxide from endothelial cells to cause a profound vasodilatation and drop in blood pressure (septic and anaphylactic shock). Activation of... 

Pituitary Adenylyl Cyclase-activating Polypeptide (PACAP) is a 38-amino acid peptide (PACAP-38), which is widely expressed in the central nervous system. PACAP is most abundant in the hypothalamus. It is also found in the gastrointestinal tract, the adrenal gland and in testis. Its central nervous system functions are ill-defined. In the periphery, PACAP has been shown to stimulate catecholamine secretion from the adrenal medulla and to regulate secretion from the pancreas. Three G-protein coupled receptors have been shown to respond to PACAP, PAQ (PACAP type I) specifically binds PACAP, VPACi and VPAC2 also bind vasoactive intestinal peptide (VDP). Activation of PACAP receptors results in a Gs-mediated activation of adenylyl cyclase. 

Caffeine stimulates gastric secretion. Other factors in coffee besides caffeine also cause increase gastric secretion. This is probably the most striking effect of coffee on the gastrointestinal tract. 

Prostaglandins play critical roles in a number of physiological processes. These molecules regulate blood flow to organs, stimulate secretion of protective mucosal linings in the gastrointestinal tract, participate in the initiation of platelet aggrega-... 

The final mechanism of action of PTH involves the activation of vitamin D3 through the stimulation of la-hydroxylase in the kidney. In the gastrointestinal tract, vitamin D3 is essential for the absorption of calcium. Enhanced absorption of calcium from dietary sources serves to further increase the concentration of calcium in the blood. Many foods, in particular, dairy products, which are rich in calcium, are fortified with vitamin D. The release of PTH from the parathyroid glands is regulated by plasma calcium levels through negative feedback. A decrease in the level of calcium in the blood stimulates the secretion of PTH and an increase in the calcium level in the blood inhibits it. 

Niclosamide inhibits oxidative phosphorylation and stimulates adenosine tripho-sphatese activity in the mitochondria of cestodes, killing the scolex and proximal segments of the tapeworm both in vitro and in vivo. The scolex of the tapeworm, then loosened from the gut wall, may be digested in the intestine and thus may not be identified in the stool even after extensive purging [90,91], Niclosamide is not appreciably absorbed from the gastrointestinal tract [92,93] and the side effects have primarily been limited to gastrointestinal symptoms. 

Caffeine is a powerful stimulant of central nervous system and also stimulates the cardiac muscle. However, high amounts of the alkaloid have noticeable irritation of gastrointestinal tract as well causes matw unwanted effects [1]. 

Enterotoxigenic E. coli (ETEC) is the main cause of TD in Latin America, whereas in Asia it is reported in only 15% of cases. Enteroinvasive E. coli (EIEC) strains are recorded with even less frequency. ETEC is isolated in 0 to 5% of cases. Symptoms of poisoning develop after 16 hours from consumption of contaminated water, salads, cheeses, or meats. The outgrowth of ETEC rods takes place in a patient s gastrointestinal tract, where they produce thermostable and thermolabile toxins that imitate Vibrio cholerae infections. Stimulation of intestinal guanylcyclase and interruption of ion transport leads to watery stools, which do not require medical treatment or only need simple replacement of fluids and salts by means of multielectrolyte solutions. If a co-infection with EIEC strains occurs, the symptoms of enteritis will develop, with the presence of leukocytes, erythrocytes, and mucous in stools due to a cytotoxic influence of bacteria (Butterton and Claderwood, 2001). 

Over 95% of the body s serotonin (5-HT) is found in the gastrointestinal tract in enterochromaffin cells and neurons. There are 18 known serotonin receptor sub-types, of which 5-HT, 5-HT3, and 5-HT are located in the gut and modulate gut secretion, motility, and sensation (57). The 5-HT in the synaptic spaces stimulates these receptors until it is actively cleared by a 5-HT transporter protein located on the presynaptic neuronal endings. 

Gastrointestinal tract. Serotonin released from myenteric neurons or enterochromaffin cells acts on 5-HT3 and 5-HT4 receptors to enhance bowel motility and enteral fluid secretion Cisapride is a proldnetic agent that promotes propulsive motor activity in the stomach and in small and large intestines. It is used in motility disorders. Its mechanism of action is unclear, but stimulation of 5HT4 receptors may be important... 

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