Pharmacology and antidiarrheal effect of loperamide

Plasma levels of a methadone constant rate infusion and their corresponding effects on thermal and mechanical nociceptive thresholds in dogs

Background

The present study aimed to collect pharmacokinetic data of a methadone continuous rate infusion (CRI) and to investigate its effect on mechanical and thermal nociceptive thresholds. Seven, 47 to 54 months old beagle dogs, weighing 9.8 to 21.2 kg, were used in this experimental, randomized, blinded, placebo-controlled crossover study. Each dog was treated twice with either a methadone bolus of 0.2 mg kg^− 1 followed by a 0.1 mg kg^− 1 h^− 1 methadone CRI (group M) or an equivalent volume of isotonic saline solution (group P) for 72 h. Mechanical and thermal thresholds, as well as vital parameters and sedation were measured during CRI and for further 24 h. Blood samples for methadone plasma concentrations were collected during this 96 h period.

Results

Percentage thermal excursion (%TE) increased significantly from baseline (BL) until 3 h after discontinuation of CRI in M. Within P and between treatment groups differences were not significant. Mechanical threshold (MT) increased in M until 2 h after CRI discontinuation. Bradycardia and hypothermia occurred in M during drug administration and dogs were mildly sedated for the first 47 h. Decreased food intake and regurgitation were observed in M in five and four dogs, respectively. For methadone a volume of distribution of 10.26 l kg^− 1 and a terminal half-life of 2.4 h were detected and a clearance of 51.44 ml kg^− 1 min^− 1 was calculated. Effective methadone plasma concentrations for thermal and mechanical antinociception were above 17 ng ml^− 1.

Conclusion

A methadone CRI of 0.1 mg kg^− 1 h^− 1 for 3 days after a loading dose results in steady anti-nociceptive effects in an acute pain model in healthy dogs. Main side effects were related to gastrointestinal tract, hypothermia, bradycardia and sedation.

Protective effect of SKB_Gutbiotic against castor oil and E.coli induced diarrhea in laboratory animals

The aim of this study is to evaluate antidiarrheal activity of SKB_Gutbiotic against Castor oil and E.coli induced diarrhea in Swiss albino mice and Sprague Dawley rats. In present study three doses of SKB_Gutbiotic were tested against castor oil induced diarrhea in mice. Its effect on co-administration with l-arginine was studied. SKB_Gutbiotic delayed onset of diarrhea, reduced fecal output and fecal weight. In Gastrointestinal transit time and Castor oil induced enteropooling, SKB_Gutbiotic significantly reduced peristaltic index and volume of intestinal content respectively. In E.coli induced diarrhea model, E.coli suspension was administered for 3 days for inducing diarrhea. SKB_Gutbiotic significantly and dose dependently reduced fecal output, improved fecal consistency, reduced fecal water content and improved WBC count. Histopathological images showed improvement in damage caused to the mucosal epithelium due to E.coli and also improved complete crypt cell architecture and integrity of goblet cells. These results indicated that SKB_Gutbiotic can be used as an antidiarrheal agent against castor oil and E.coli induced diarrhea. It inhibits colonization of E.coli bacteria on colonic epithelium which results into decreased intestinal hypersecretion and motility which is very useful in the management of infectious diarrhea. Thus SKB_Gutbiotic could be an effective alternative to standard antidiarrheal drugs.

Anti-Inflammatory Response and Muscarinic Cholinergic Regulation during the Laxative Effect of Asparagus cochinchinensis in Loperamide-Induced Constipation of SD Rats

Several types of saponins and herbal plants containing saponins have been reported to have anti-inflammatory or laxative activities. To verify the therapeutic effects of saponin-enriched extracts of Asparagus cochinchinensis (SPA) on the anti-inflammatory response and on the cholinergic regulation in the gastrointestinal system, an alteration on the constipation phenotypes, on the inflammatory responses, and on the muscarinic cholinergic regulation were investigated in the transverse colons of Sprague Dawley (SD) rats with loperamide (Lop)-induced constipation after the treatment of SPA. Significant increases were observed on the total number of stools, the gastrointestinal transit, the thickness of the mucosal layer, the flat luminal surface, the number of paneth cells, and the lipid droplets in the Lop + SPA-treated group as compared to the Lop + Vehicle-treated group. SPA treatment induced the recovery of inflammatory cytokines (TNF-α, IL-1β) and IL-6), inflammatory mediators (NF-κB and iNOS), the total number of infiltered mast cells, and mucin secretion. Also, some similar improvements were observed on the levels of acetylcholine esterase (AChE) activity and on the phosphorylation of myosin light chains (MLC) as well as the expression of muscarinic acetylcholine receptors M2/M3 (mAChR M2/M3) and their mediators. The results presented herein provide the first strong evidence that SPA stimulates anti-inflammatory responses and the muscarinic cholinergic regulation when exerting its laxative effects in the chronic constipation of Lop-induced models.

Systematic review of loperamide: No proof of antibiotics being superior to loperamide in treatment of mild/moderate travellers' diarrhoea

Looking at the worldwide emergency of antimicrobial resistance, international travellers appear to have a central role in spreading the bacteria across the globe. Travellers' diarrhoea (TD) is the most common disease encountered by visitors to the (sub)tropics. Both TD and its treatment with antibiotics have proved significant independent risk factors of colonization by resistant intestinal bacteria while travelling. Travellers should therefore be given preventive advice regarding TD and cautioned about taking antibiotics: mild or moderate TD does not require antibiotics. Logical alternatives are medications with effects on gastrointestinal function, such as loperamide. The present review explores literature on loperamide in treating TD. Adhering to manufacturer's dosage recommendations, loperamide offers a safe and effective alternative for relieving mild and moderate symptoms. Moreover, loperamide taken singly does no predispose to contracting MDR bacteria. Most importantly, we found no proof that would show antibiotics to be significantly more effective than loperamide in treating mild/moderate TD.

The in vivo pharmacodynamics of the novel opioid receptor antagonist, TD-1211, in models of opioid-induced gastrointestinal and CNS activity

The in vivo preclinical pharmacodynamic profile of TD-1211, a selective opioid receptor antagonist currently under development for the treatment of opioid-induced constipation, was compared to that of the clinically studied opioid antagonists, naltrexone, alvimopan, and ADL 08-0011 (the primary active metabolite of alvimopan). The oral activity of TD-1211 was evaluated in models of gastrointestinal (GI) and central nervous system (CNS) function in the rat and dog. Oral administration of TD-1211, naltrexone, and ADL 08-0011 reversed loperamide-induced inhibition of gastric emptying and castor oil-induced diarrhea in rats and nonproductive GI circular smooth muscle contractility in dogs. Alvimopan was only efficacious in the castor oil model. Oral administration of naltrexone and ADL 08-0011, but not TD-1211 or alvimopan, was associated with a CNS withdrawal response in morphine-dependent mice, inhibition of morphine-induced anti-nociception in rat and dog hot plate tests, and hypothermia and sedation in dogs. It is concluded that TD-1211 has potent in vivo GI activity, consistent with opioid receptor antagonism, but has no significant CNS activity. The data from these studies support the clinical development of TD-1211 as a novel treatment for opioid-induced GI dysfunction.

Liquid chromatography-tandem mass spectrometry for analysis of intestinal permeability of loperamide in physiological buffer

Analysis of in vitro samples with high salt concentrations represents a major challenge for fast and specific quantification with liquid chromatography-tandem mass spectrometry (LC-MS/MS). To investigate the intestinal permeability of opioids in vitro employing the Ussing chamber technique, we developed and validated a fast, sensitive and selective method based on LC–MS/MS for the determination of loperamide in HEPES-buffered Ringer's solution. Chromatographic separation was achieved with an Atlantis dC18 column, 2.1 mm×20 mm, 3 µm particle size and a gradient consisting of methanol/0.1% formic acid and ammonium acetate. The flow rate was 0.7 ml/min, and the total run time was 3 min. For quantification, two mass transitions for loperamide and a deuterated internal standard (methadone-d₃) were used. The lower limit of loperamide quantification was 0.2 ng/ml. This new LC-MS/MS method can be used for the detection of loperamide in any experimental setup using HEPES-buffered Ringer's solution as a matrix compound.

Alpha2-adrenergic receptors attenuate secretagogue-induced endocytosis and promote exocytosis of intestinal NHE2 and NHE3

Adrenergic agonists, through activation of intestinal epithelial alpha2-adrenergic receptors (alpha2AR), inhibit electrolyte secretion and promote absorption. The mechanisms of action to promote basal Na(+) absorption and inhibit stimulated secretion are not understood completely. The effects of alpha2-agonists on Na(+) transport were studied in a cell line, Caco2-3B, derived from the Caco2 cell line engineered to permanently express human alpha2A-adrenergic receptors. Serosal, but not mucosal, addition of the alpha2AR agonist N-(2,6-dichlorophenyl)-4,5-dihydro-1H-imidazol-2-amine (clonidine) increased Caco2-3B apical (22)Na(+) uptake, an effect not seen in the Caco2 parent line that lacks alpha2AR expression. This effect was blocked by the alpha2AR antagonist 17alpha-yohmban-16alpha-carboxylic acid methyl ester (yohimbine). Increased Na(+) uptake was paralleled by increased apical surface abundance of the sodium/hydrogen exchangers NHE2 and NHE3. No changes in total cell NHE2 and NHE3 expression were observed. Clonidine also inhibited both cAMP and Ca(2+)-induced decreases in apical Na(+) uptake and apical membrane NHE2 and NHE3 endocytosis stimulated by these agents. alpha2AR actions were mediated via stimulation of phospholipase C, and metabolism of arachidonic acid by an epoxygenase activity followed epidermal growth factor release and activation of the epidermal growth factor receptor, resulting in phosphatidylinositol-3-kinase and Akt stimulation. In summary, activation of intestinal epithelial alpha2AR significantly blocks the inhibition of apical Na(+) transporters by cAMP- and Ca(2+)-mediated pathways and also directly increases apical sodium/hydrogen exchange activities. By both blocking electrolyte secretion and promoting absorption, alpha2-agonists could be potent antidiarrheal agents that could directly counteract the actions of toxigenic pathogens and other secretagogues causing secretory diarrhea.

Anti-diarrhoeal effects of seirogan in the rat small intestine and colon examined in vitro

BACKGROUND

Seirogan is a beechwood extract composed of guaiacol, creosol and other related phenolic compounds which is widely used as an anti-diarrhoeal agent in Asia. Abnormalities in water and electrolyte transport are often the cause of diarrhoea, but the mechanism of action of seirogan on small intestinal and colonic mucosal ion transport is unknown.

AIM

To examine the effect of seirogan on electrogenic ion transport in vitro.

METHODS

Sheets of rat jejunum and colon were mounted in Ussing chambers, and transmural potential difference (PD) was used as an electrical marker of changes in mucosal ion transport. Hypersecretory conditions were induced by acetylcholine (ACh).

RESULTS

Serosal or mucosal application of seirogan (0.1-100 microg/mL) decreased basal jejunal transmural PD. Pre-treatment of the tissue with the neurotoxin, tetrodotoxin, did not inhibit the seirogan-induced changes in basal electrical activity. Seirogan had no effect on basal transmural PD in the ileum and colon. Under ACh-induced hypersecretory conditions in the small intestine and colon, addition of serosal or mucosal seirogan produced antisecretory effects determined indirectly by measurement of transmural PD.

CONCLUSION

The ability of seirogan to decrease basal transmural PD in the jejunum, and inhibit the ACh-induced electrical responses, may contribute to its anti-diarrhoeal action.

Insights into opioid action in the intestinal tract

Opioids have been used for centuries as antidiarrhoeal drugs. In recent years, their mechanism and sites of action in exerting their antidiarrhoeal effect have been studied intensely. Attempts have been made to propose their general mode of action. Whilst there are numerous similarities in their general effects on motility, fluid secretion, and neuroeffector transmission, the differences between species, in some cases, can be remarkable. We highlight and contrast the similarities and differences in the commonly examined species and compare them to humans. Insights into mechanisms of opioid antidiarrhoeal action now also provide some new perspectives of opioid action in the intestine.

Loperamide effects on hepatobiliary function, intestinal transit and analgesia in mice

Loperamide effects on hepatobiliary function, analgesia and gut transit were studied in mice. Varying doses of the antidiarrheal drug, loperamide, were administered to mice by intracerebroventricular, intravenous, subcutaneous and intragastric routes. Gut motility was determined by intestinal transit of India ink, analgesia by warm water tail flick latency, and hepatobiliary function by retention of the anionic dye, sulfobromophthalein in plasma and liver. When given by all routes at modest doses, loperamide slowed intestinal transit. Analgesia, a centrally mediated opiate effect, was only detected after intracerebroventricular or subcutaneous loperamide at high, near-toxic doses. Elevations of plasma and liver sulfobromophthalein were noted at routes and doses which slowed gut transit, well below those needed for analgesia. Intragastric loperamide at one fortieth its LD50 caused marked elevation of sulfobromophthalein levels and gut slowing, but no analgesia. Sulfobromophthalein elevation and gut slowing by intragastric loperamide were not affected by spinal cord transection but were reversed by naltrexone, an opiate antagonist. Non-toxic doses of loperamide slow gut transit and modify hepatobiliary function in mice by opiate actions at peripheral sites.

Antisecretory activities of orally administered loperamide and loperamide oxide on intestinal secretion in rats

In-vivo experiments in the rat jejunum have been performed to compare the antisecretory effect of orally administered loperamide with the effect of its pro-drug, loperamide oxide. Both loperamide and loperamide oxide, administered orally, reduced the secretory effect of prostaglandin E2 (32 ng min-1, intra-arterially) in the jejunum and the colon. Differences between the two drugs as to time course and dose response can be seen. Loperamide oxide shows its antisecretory effect in the jejunum, and at a dose of 2 mg kg-1 also shows its effect in the colon 1 h after administration. The effect was maximal after 2 h and decreased after 4 h. A dose-response relationship was demonstrated at 2 h in the jejunum and the colon. In comparison, the effect of loperamide started later, and a good dose-response relationship was not observed in the jejunum or in the colon, higher doses always appearing less effective than lower doses.

Loperamide. Survey of studies on mechanism of its antidiarrheal activity

In castor oil challenged rats, low doses of loperamide inhibit diarrhea and normalize intestinal propulsion. Unlike other opioids, loperamide is devoid of central opiate-like effects, including blockade of intestinal propulsion, up to the highest subtoxic oral dose. Nevertheless, the antidiarrheal action of loperamide can be considered to be mu-opiate receptor mediated, only a few in vitro effects at rather high concentrations being not naloxone-reversible. There is little evidence that interactions with intestinal opiate receptors directly change epithelial cell function. When secretory stimuli increase mucosal tension, however, loperamide may reverse the elevated hydrostatic tissue pressure that opposes normal absorption. This antisecretory effect at the mucosal level is accompanied by motor effects when loperamide reaches the myenteric mu-opiate receptors. At therapeutic doses for the treatment of acute diarrhea, it is likely that the mucosal effect prevails.

In vivo motor effects of loperamide on the rat urinary bladder

Bladder motility recordings were performed in anaesthetized rats and the effect of the peripherally active opiate agonist loperamide on urinary bladder function was studied. Regional intra-arterial administration of loperamide (0.01-2 mg kg-1) induced weak bladder contraction per se. Loperamide caused an effective dose-dependent inhibition of bladder motility induced by regional injection of the receptor agonists acetylcholine (ACh) and substance P (SP), as well as by peripheral motor nerve stimulation (PNS). Pretreatment with naloxone (0.5 mg kg-1) partially antagonized the inhibitory action of loperamide on the nerve-mediated detrusor contraction. However, the depression of the motor responses induced by the receptor agonists ACh and SP was not influenced. It is suggested that the demonstrated inhibitory effect of loperamide on bladder motility is partially mediated by peripheral opioid receptors. The main non-opioid part of the inhibition might be a direct smooth muscle action.

Effects of the prodrug loperamide oxide, loperamide, and placebo on jejunal motor activity

This crossover, double-blind study investigated the effects of single oral doses of the prodrug loperamide oxide, which is reduced gradually to loperamide in the intestine, and loperamide on jejunal motor activity in 12 fasting healthy men. Five minutes after a phase III of the migrating motor complex (MMC), 2 mg loperamide oxide, 4 mg loperamide oxide, 4 mg loperamide, or placebo were administered. Thereafter, motor activity 10-30 cm abroad the ligament of Treitz was recorded with five catheter orifices at 3-cm intervals over 4 hr. Number of contractions and area under curve increased significantly with 4 mg loperamide and 4 mg loperamide oxide, the increases with loperamide oxide occurring more gradually. Placebo and 2 mg loperamide oxide had no discernible effects. With both 4 mg loperamide and 4 mg loperamide oxide, phase I of the MMC was slightly prolonged and phase II and the time from drug administration to the onset of the first phase III slightly shortened. The percentage of aborally propagated contractions in phase II increased with all active treatments, whereas the occurrence of phases III was not altered.

Normalization of small intestinal propulsion with loperamide-like antidiarrheals in rats

Gastrointestinal propulsion and the presence of diarrhea were assessed in rats pretreated with various opioids and challenged orally with either castor or paraffin oil, which both contained phenol red as a marker of gastrointestinal propulsion. In solvent-pretreated rats, diarrhea was always observed within 90 min after castor oil, reflecting a state of hyperpropulsive activity of the gut, but never (up to 8 h) after paraffin oil, reflecting normal intestinal propulsion (which amounted to an average distance of 91% of the total length of the small intestine in 90 min). Paraffin oil propulsion was blocked (to values less than 60%) by all opioids tested with the exception of the gut-selective compounds loperamide, loperamide oxide and fluperamide oxide (ED50s: greater than or equal to 160 mg/kg). Castor oil diarrhea was antagonized by all opioids tested and, at comparable but slightly (1.3-2.6 times) higher doses, propulsion was normalized to values (less than 100%) comparable to those measured in paraffin oil-challenged control rats. Castor oil propulsion was further reduced to subnormal values (less than 60%) by still higher doses of the opioids, comparable to those that blocked propulsion after paraffin oil. However, the required dose increment varied consistently among the opioids tested and ranged, depending on gut selectivity, from a factor 2.3 times the antidiarrheal dose for narcotic analgesics such as pethidine and dextromoramide to greater than 300 for antidiarrheals such as loperamide, loperamide oxide and fluperamide oxide. Protection from diarrhea and normalization of propulsion showed a close correlation; both failed to correlate with central analgesic activity and are thought to be mediated via peripheral opioid receptors.(ABSTRACT TRUNCATED AT 250 WORDS)

Naloxone-reversible antidiarrheal effects of enkephalinase inhibitors

Thiorphan and acetorphan, two potent inhibitors of enkephalinase (EC 3.4.24.11 membrane-metalloendopeptidase) significantly reduced the castor oil-induced diarrhea in rats when administered intravenously (or orally, for acetorphan) but not when administered intracerebroventricularly. These effects were more marked during the 90 min period following the castor oil challenge but were still significant up to 4-8 h after the latter. Acetorphan was about 6 times more potent than thiorphan. The antidiarrheal activity of both compounds was completely prevented in rats receiving naloxone subcutaneously but not intracerebroventricularly (in the case of thiorphan). In contrast to loperamide, a peripherally acting opiate receptor agonist, the enkephalinase inhibitors did not significantly reduce gastrointestinal transit as measured in the charcoal meal test. The antidiarrheal activity of enkephalinase inhibitors therefore seems attributable to protection of endogenous opioids, presumably outside the brain, and to reduction of intestinal secretion rather than transit.