Intestinal Motor Activity Research Articles

Sarcopenia in children: Lecture

Primary sarcopenia characterizes frailty of old age. Secondary sarcopenia can occur in both adults and children with severe somatic or surgical pathology. A model for studying sarcopenia in children can be patients with cerebral palsy, whose muscle development differs from typically developing children. The lecture presents the mechanism of the development of sarcopenia, diagnostic criteria for adult patients presented in consent documents, as well as analogues of diagnostic scales used in pediatric practice. The diagnosis of sarcopenia in children has something in common with the diagnosis of the patient’s nutritional status. Diagnosis of sarcopenia in children using bioimpedansometry method was proposed by the authors, and a Eurasian patent was received. Based on the volumes of adipose and active cellular tissue in the component composition of the body: with a combination of a percentage of fat mass of 40.5% and above and a percentage of active cell mass of 37% and below, sarcopenia is diagnosed, and with a combination of a percentage of fat mass of 30.5% and above and percentage of active cell mass from 37% to 43.5% is diagnosed as presarcopenia. Options for preventing sarcopenia are presented, including patented ones. A multidisciplinary approach to working with a patient with sarcopenia includes, while treating the underlying disease, nutritious nutrition, restoration of the intestinal microflora and motor activity of the patient.

Патогенетическая терапия хронической диареи у пациентов с резекцией тонкой кишки

A clinical case of the observation of a patient with chronic diarrhea, occurred after a resection of the small intestine with an ileoileal anastomosis, is described further. The resection of the small intestine, including the ileum, where the conversion and reabsorption of bile acids (BA) usually occur, leads to their excessive influx into the large intestine, causing chologenic diarrhea. The increased amount of BA has a detrimental effect on the activity of the intestinal microbiota in the anatomically altered intestine and can cause the biliary insufficiency. The exclusion of the ileocecal zone, especially the Bauhinia valve, from the passage of chyme, disrupts the motor activity of the large intestine, reduces water and ion absorption, and promotes regurgitation of intestinal contents from the cecum into the small intestine. Difficulties in identifying the chologenic factor in the development of diarrhea are exacerbated by the lack of available diagnostic methods. Identification of individual pathogenetically significant factors contributing to the development of diarrhea syndrome and their adequate therapeutic correction is the key to successful rehabilitation of patients with post-resection short bowel syndrome.

Антибиотик-ассоциированная диарея в практике клинициста: подходы к профилактике и терапии

Antibiotic-associated diarrhea (AAD) is one of the most common adverse effects of antimicrobial therapy. This paper discusses AAD pathogenesis related to the direct effect of an antibiotic on the intestinal wall and modulation of gut microbiocenosis composition (including idiopathic and Clostridioides difficile-associated AAD). Searching the keywords "antibiotic-associated diarrhea", "microbiota", "intestinal motor activity", "prebiotics", "probiotics", "diarrheal syndrome" for publications indexed in the PubMed and Google Scholar databases was per- formed. Mechanisms of the effect of microbiota composition on intestinal motility and mechanisms of action of probiotics are systematized. Pathogenic mechanisms of AAD are heterogeneous, thereby requiring a differentiated approach to its prevention and management strategy. Among the etiological agents of AAD, Clostridioides difficile, a grampositive aerobic spore-forming bacillus that is resistant to most antibiotics, is of particular importance. To prevent idiopathic and Clostridioides difficile-associated AAD and recover healthy gut microflora, high-risk patients are recommended with probiotics. Among probiotics, Saccharomyces boulardii that is used as monotherapy or in combination therapy is one of the most effective ones. KEYWORDS: antibiotic-associated diarrhea, microbiota, probiotics, diarrheal syndrome, Saccharomyces. FOR CITATION: Livzan M.A., Fedorin M.M. Antibiotic-associated diarrhea in clinical practice: preventive and therapeutic approaches. Russian Medical Inquiry. 2022;6(5):259–265 (in Russ.). DOI: 10.32364/2587-6821-2022-6-5-259-265

Magnetic resonance imaging of the gastrointestinal tract shows reduced small bowel motility and altered chyme in cystic fibrosis compared to controls

People with cystic fibrosis (CF) experience digestive symptoms but the mechanisms are incompletely understood. Here we explore causes and consequences of slower gastrointestinal transit using magnetic resonance imaging (MRI). Twelve people with CF and 12 healthy controls, matched for age and gender, underwent MRI scans, both fasted and after standardised meals, over 6.5 h. Fasted small bowel motility scores were lower in CF than in controls. No difference in ascending colon chyme T1 was detected. The difference in texture between small bowel and colon contents, seen in health, was diminished in CF. The ascending colon in CF participants had an abnormal appearance compared to controls. MRI offers unique potential to evaluate gut luminal content, colonic mucosa and intestinal motor activity. These new data support the theoretical cycle of desiccation, dysmotility and delayed transit as a cause of gastrointestinal symptoms in CF.

COVID-19-associated diarrhea

In addition to the typical clinical picture of respiratory symptoms and intoxication, the SARS-CoV-2 virus is also characterized by a gastroenterotropic effect. Diarrhea is one of the most common gastroenterological symptoms of COVID-19 and is detected, according to the various authors, in 2-49.5% of cases, including children. The presence of diarrhea aggravates the patient's clinical condition, limits the possibility of carrying out the necessary diagnostic manipulations, and complicates the selection of therapy. The article provides an overview of the scientific literature on the formation of diarrheal syndrome in patients with COVID-19. Objective. Analysis of scientific publications studying the pathogenesis, incidence, clinical features, aspects of diagnosis and therapy of diarrhea in patients with COVID-19. Material and methods. A search was made for scientific publications on the electronic resources PubMed, Google Scholar and eLIBRARY.ru. Results. The pathogenesis of diarrhea in a new coronavirus infection is complex and includes, among other things, the effect of the virus on the angiotensin-converting enzyme 2 receptors, inducing an inflammatory process in the gastrointestinal tract mucosa, neurotropic effect on the autonomic regulation of intestinal motor activity, disturbance of the colon microbiota, liver and pancreas damage. Another important pathogenetic aspect of diarrhea in COVID-19 is iatrogenic one, i.e. a side effect of drugs used in the treatment of a new coronavirus infection and its complications, and the activation of opportunistic clostridial intestinal flora against the background of antibiotic therapy. The variety of pathogenetic mechanisms of diarrheal syndrome formation allows us to speak of "COVID-associated diarrhea" as an independent clinical phenomenon characteristic for the new coronavirus infection. Mandatory diagnostic algorithm of a patient with COVID-19 and diarrhea is the fecal analysis test for toxins Cl. difficile, while the possibility of endoscopic examinations during the pandemic is limited. Compliance with the hygiene measures, diet correction and nutritional support, rational antibiotic therapy of COVID-19 complications, careful use of antiperistaltic antidiarrheal drugs, nonspecific therapy (antiviral, rehydration, adsorbents) are considered as the main therapeutic approaches for diarrheal syndrome against the background of COVID-19. The administration of probiotics and antibacterials should be considered in case of confirmed clostridial co-infection. Conclusion. Diarrhea is a frequent clinical manifestation of COVID-19 and can affect the course of the disease. The complex genesis of diarrheal syndrome requires further study of therapeutic strategies and nutritional support for patients after COVID-19.

Bowel decompression in the treatment of patients with acute colonic obstruction

According to literature data acute intestinal obstruction is characterized by a great number of neglected forms comprising 5–70% cases with the given pathology. A number of radiological signs in the way of Kloiber’s bowls and intestinal arches simply confirm this and testify of colon motor activity decompensation. To date there are no objective diagnostic criteria providing indications to intestinal decompression before the operation. Intestinal intubation, its types and indications to its fulfilment are based only on the experience and intuition of the operating surgeon. Aim — to define clinical efficiency of the intestinal wall impaired contractility diagnostics method in the treatment of patients with acute colonic obstruction. Medical histories analysis of 166 patients with obstructive intestinal obstruction was carried out. Assessment of intestinal motor activity compensation was carried out with the help of echographic criteria — the number of enlarged small bowel loops, intestinal lumen width, wall thickness, distance between Kerckring folds, number of peristaltic movements per minute. According to the suggested method 3 groups of patients were distinguished — with compensated motor activity (32 (19%) patients), with sub-compensated motor activity (61 (36.5%) patients) and with intestinal decompensated motor activity (73 (44.4%) patients). Wherein the greater number of patients with obstructive ileus (135 (81%) patients) got into the hospital with sub- and decompensated intestinal motor function. In the group of patients with compensated muscular tone intestinal decompression was not carried out, in the second group with sub-compensated intestinal tone decompression was carried out simultaneously in 13 (7.8%) patients, and in 9 (5.4%) a nasojunal probe was installed for 2–3 days, in the third group intestinal intubation was done in 63 (38%) patients. Post-operative mortality was 3.2%. Thus, echographic criteria allow establishing the degree of intestinal impaired motor function before the operation in patients with acute intestinal obstruction which decompression depends upon its state.

The study of the pharmacological action of the dry extract from Prunus domestica fruits on the model of comorbid functional constipation in the combined alcoholic liver damage in rats

The search for the most effective hepatoprotective agents is an urgent problem of modern medicine. As a rule, crude plant is promising object for the study of medicinal properties. Based on the literature data, we are interested in the horticultural crops Prunus domestica , the family Rosaceae , which is quite cultivated and attracts attention to its pharmacoeconomic component. The purpose of the study. In previous experimental studies, the Prunus domestica extract, containing fibers, was found to have laxative, hepatoprojector and probiotic effects. The foregoing provided an opportunity to study the Prunus domestica extract, containing fibers for activity in the comorbidization of several relevant pathologies and to experimentally substantiate the prospect of its application as a means of choice for constipation in patients with pathologies of the digestive system. Materials and methods. The object of research was a dry extract from Prunus domestica fruits, containing fibers. The experiment was carried out in stages. At the first stage, the animals caused experimental subacute alcoholic liver damage. In the second stage of the experiment, the animals were modeled with functional constipation. During the course of subacute hepatosis and during the second phase of the experiment, the test extract was injected into the animal at a dose of 200 mg/kg and the reference drug was hepatoprotector Silybor at a dose of 25 mg/kg. In the second phase of the study, the laxative agent Senadexin at a dose of 14 mg/kg was added to the therapy. All substances were injected into the body of the experimental animals orally. To evaluate the motor activity of the intestine, Sagar et al, modified by Choi et al., was used. Motor activity of the small intestine was determined according to the corresponding calculation formula. The functional state of the liver was evaluated according to the biochemical parameters in the blood serum: the total protein, urea and ALT activity. Results. An analysis of experimental data showed that the test extract exhibits a moderate laxative effect. In animals of the intact group, the relevant signs (pronounced laxative effect) indicate the development of diarrhea, which is not an adequate solution to the development of constipation. With the use of the extract from Prunus domestica fruits during the whole period of the experiment, normalization of all indicators that characterize the intestinal motility was observed. Analysis of experimental data showed that the investigated phytoobject has a soft laxative effect, mainly through the improvement of intestinal motility. In the study of the functional state of the liver on the introduction of the investigated extract, positive changes in the content of markers of liver damage (decrease in urea concentration and decrease in the activity of ALT in animal serum) were detected in comparison with the control group of animals. Conclusions. The obtained experimental data on the study of the correlation mechanisms of hepatoprotective and laxative activity of the extract from Prunus domestica fruits containing fibers indicate that there is a soft laxative effect that is realized with the help of intensifying intestinal motility, as well as the presence of pronounced hepatoprotective action. The indicated effects of the investigated extract were revealed when used in the treatment of constipation on experimental subacute liver damage, while not losing out to the studied effects in the complex application of hepatoprotective and laxative comparisons. The key conclusion is that the test extract, as opposed to the reference drug, does not cause signs of diarrhea in its laxative effect, which can be a distinctive, positive feature in further clinical studies. This herbal object can be promising and rational in application with single-stage complex therapy, such as hepatoprotective and laxative agent in the treatment of comorbid conditions in gastroenterology associated with diseases of the liver and congestive intestinal phenomena.

Irritable Bowel Syndrome in Terms of Changes in the Microbiota

Aim:to review available data confirming the pathogenetic role of the intestinal microbiota in the formation of irritable bowel syndrome (IBS).Key findings.Changes in the intestinal biotope cause the development of visceral hypersensitivity and impaired intestinal motor activity, as well as neuroimmune transmission. This article discusses the main aspects of the biological properties of probiotic bacteria in terms of their action within the “brain — intestine — microbiota” chain. The results of experimental and clinical studies elucidating the mechanisms of action of probiotic cultures have been generalized. The understanding of these mechanisms allows practitioners to make informed decisions in prescribing probiotics to IBS patients. Key concepts concerning fecal microbiota transplantation, as well as the prospects and difficulties of implementing this approach are considered.Conclusions.The term “microbiota — intestine — brain” clearly demonstrates the correlation between the main functional components of IBS. Meta-analyses and systematic reviews confirm the efficacy of probiotics in IBS. However, further research into probiotic therapy options is needed to identify specific bacterial strains with proven clinical efficacy. The fecal microbiota transplantation method also requires further research, since many issues associated with this approach remain unclear.

Effects of Single-Dose Prucalopride on Intestinal Hypomotility in Horses: Preliminary Observations

Abnormalities of gastrointestinal motility are often a challenge in horses; however, the use of prokinetic drugs in such conditions must be firmly established yet. For this reason we carried out a preliminary study on the effects of prucalopride on intestinal motor activity of horses with gut hypomotility. The effect of prucalopride per os by oral dose syringe (2 mg/100 kg body weight) was assessed by abdominal ultrasound (evaluating duodenal, cecal, and colonic motor activity) in six horses with gut hypomotility. After administration of prucalopride, a significant increase of contractile activity was found in the duodenum at 30 minutes (p = 0.0005), 60 minutes (p = 0.01) and 90 minutes (p = 0.01), whereas in the cecum and in the left colon the increase was only present at 60 minutes (p = 0.03, and p = 0.02, respectively). No changes from baseline heart and respiratory rate or behavior side effects were observed after administration of the drug and throughout the observation period. Prucalopride may be a useful adjunct to the therapeutic armamentary for treating hypomotile upper gut conditions of horses. Dosing information is however needed to establish its actual clinical efficacy and its proper effects on the large bowel in these animals.

Irritable Bowel Syndrome: A Clinical Review.

Symptoms of irritable bowel syndrome (IBS) are common in population studies including chronic abdominal pain associated with altered bowel habits. Patients often have associated gastrointestinal and somatic symptoms suggesting a possible common contributing mechanism, but the heterogeneous symptom patterns of individual patients make generalizations difficult. The pathophysiology of IBS is incompletely understood but includes disturbances of the brain-gut axis. Central mechanisms are: the psychosocial history and environment, dysfunctional brain processing of peripheral signals attributed to the intestine including the enteric nervous system, the microbiome and the innate and adaptive immune system. As a result there is visceral hypersensitivity and disturbed intestinal secretory and motor activity. Some mechanisms of visceral pain hypersensitivity may overlap with other pain syndromes including fibromyalgia (FMS). Central Sensitization (CS) would offer a way to conceptualize an integration of life experience and psychologic response into a biopsychosocial framework of pathophysiology, diagnosis and treatment of IBS. Corticotropin-releasing factor, a principle regulator in the stress and pain response may contribute to a neuroendocrine mechanism for the brain-gut interaction. The positive diagnostic approach to IBS symptoms to avoid excess testing and enhance the patient-provider therapeutic relationship requires the recognition of the "cluster" of IBS symptoms while identifying "alarm" symptoms requiring specific attention. The severity of the symptoms and other individual psychosocial factors characterize patients who seek medical care. The presence of significant psychosocial comorbidities adds to the complexity of management which often requires a multidisciplinary approach. Several treatment options exist but no single method is effective for all the symptoms of IBS. The therapeutic benefit of the well-executed physician-patient relationship is considered essential to success in managing IBS symptoms over the long term.

Immunohistochemical evidence of the co-localisation of cocaine and amphetamine regulatory peptide with neuronal isoform of nitric oxide synthase, vasoactive intestinal peptide and galanin within the circular muscle layer of the human caecum.

The enteric nervous system consists of about one hundred million of neurons. In big mammals (including humans) intestinal enteric neuronal cells are grouped into three types of intramural ganglia located within myenteric, as well as outer and inner submucosal plexuses, which are connected by numerous nerve fibres. Both nerve fibres and cell bodies located in the gastrointestinal tract utilise a broad spectrum of active substances. One of them is cocaine- and amphetamine-regulated transcript peptide (CART). The goal of the current study was to determinate the distribution and degree of co-localisation of CART with substances taking part in intestinal motor activity by double labelling immunofluorescence technique. During the study CART-, neuronal isoform of nitric oxide synthase (nNOS)-, vasoactive intestinal peptide (VIP)- and/or galanin (GAL) - like immunoreactive (LI) nerve fibres in the circular muscle layer of the human caecum were observed in all patients studied. The degree of co-localisation of particular substances with CART depended on their type. The majority of CART-LI fibres contained simultaneously nNOS, slightly lower degree of co-localisation was observed in the case of the VIP, while simultaneously CART- and GAL-positive nerve fibres were observed less often.

Induction of rhythmic transient depolarizations associated with waxing and waning of slow wave activity in intestinal smooth muscle.

Cannon described in 1902 the segmentation motor activity of the small intestine (Canon WB. J Med Res 7: 72-75, 1902). This motor pattern can arise when low-frequency transient depolarizations are evoked in the interstitial cells of Cajal associated with the deep muscular plexus (ICC-DMP) network, which then affect the omnipresent slow wave activity: changing its regular amplitude into a waxing and waning pattern. The objective of the present study was to investigate physiological stimuli that could induce the low-frequency component. Intracellular recordings were obtained from circular muscle with or without attached mucosa. Decanoic acid (1 mM) and butyric acid (10 mM) both evoked low-frequency transient depolarizations but through different mechanisms. Decanoic acid-induced waxing and waning was initiated by purely myogenic means when perfused onto exposed circular muscle. Butyric acid required the intact mucosa and uninhibited neural activity to elicit the low-frequency response. Evidence is provided that the transient rhythmic depolarizations occur in the absence of interstitial cells of Cajal associated with the myenteric plexus (ICC-MP). Onset of the slow transient depolarizations was stimulated by addition of N(ω)-nitro-l-arginine (l-NNA; 100 μM); thus the low-frequency component seems to be under chronic inhibition by nitric oxide. Excitatory tachykinergic stimulation induced the low-frequency component since substance P (0.5 μM) evoked it in the presence of neural blockade. In summary, interplay between two networks of myogenic pacemakers, neural activity, and nutrient factors such as fatty acids plays a role in the generation of the rhythmic low-frequency component that is essential for the development of the checkered segmentation motor pattern.

Abnormal accumulation of intestinal fluid following ingestion of an unabsorbable carbohydrate in patients with irritable bowel syndrome: an MRI study.

Postprandial discomfort following intake of poorly absorbable, but fermentable carbohydrates is a common complaint in patients with irritable bowel syndrome (IBS). We used lactulose as a model substance for this group of symptom triggering carbohydrates, aiming to visualize the intestinal response in IBS patients compared to healthy controls. Patients with IBS according to Rome III criteria (n = 52) and healthy controls (n = 16) underwent a lactulose challenge test. By using magnetic resonance imaging, we measured small bowel water content (SBWC), and distension (diameter) of the distal ileum and the colon, both in fasting state and 1 h after ingestion of 10 g lactulose. We recorded symptoms after lactulose ingestion. Lactulose provoked significantly more symptoms in IBS patients than in healthy controls (p < 0.0001). SBWC increased more in the patient group compared to the control group (p = 0.0005). The postprandial diameter of the terminal ileum was larger in patients with IBS and the postprandial diameter of the ascending colon was smaller in patients with diarrhea-predominant phenotype (IBS-D). Symptoms were not correlated with change in SBWC (r = 0.05; p = 0.11), nor to the diameters of the terminal ileum or the colon. Compared to healthy controls, IBS patients developed more symptoms and had an abnormal accumulation of fluid in the small bowel in response to ingestion of the unabsorbable carbohydrate lactulose. This may be due to impaired motor activity of the small intestine or impaired function of the ileocecal segment.

The myogenic and neurogenic components of the rhythmic segmentation motor patterns of the intestine.

Almost all motor patterns in gut organs have as primary function the mixing of content. Although classical peristalsis is equated with propulsion, and this is certainly the case in the esophagus, the predominant effect in all other organs is mixing and exposing the content optimally to the mucosal surface, because the propulsion ends somewhere and the content is moving back; only very rarely does propulsion end with evacuation of content from the body. The segmentation motor pattern is different from peristalsis in that it contains only stationary or very short distance propagating contractions and hence is considered a specialized motor pattern for mixing and absorption. The segmentation motor pattern was described and illustrated by Cannon in 1902 based on X-ray observations and shown to be extremely rhythmic (Cannon, 1902). Alvarez was the first to find that the frequency of rhythmic segmenting contractions occurred at the frequency of a myogenic pacemaker and that in various regions of the intestine the frequency decreased in the same way as the pacemaker frequency decreased (Alvarez, 1914), suggesting a firm relationship between slow waves and segmentation. In 1968, Code and co-workers also recognized the role of slow waves in segmentation (Code et al., 1968); the slow waves were thought to go in and out of excitable regions of smooth muscle fibers. Ehrlein noted in 1987 that there were no electrical or mechanical features known that could distinguish peristaltic and segmental motor patterns (Ehrlein et al., 1987). In 2006, two major reviews on control of motility only very briefly mentioned segmentation: “The most basic small intestinal contractile pattern, segmentation, results from reciprocal inhibition and dis-inhibition of adjacent circular muscle” (Hasler, 2006) and “Oscillation of membrane potential through the slow wave cycle results in periods of high and low open probability for Ca2+ channels, and this naturally organizes the contractile pattern into a series of phasic contractions contributing to motility patterns such as peristalsis and segmentation” (Sanders et al., 2006). Recently, it was shown that spontaneous segmentation or decanoic acid-induced segmentation is associated with a waxing and waning of the slow wave activity that can occur prominently in the presence of nerve conduction block (Huizinga et al., 2014). Evidence was provided that waxing and waning developed when low frequency rhythmic transient depolarizations originating from interstitial cells of Cajal (ICC) associated with the deep muscular plexus (ICC-DMP) interacted with the omnipresent slow wave activity originating from ICC associated with the myenteric plexus (ICC-MP) through phase–amplitude coupling. That is, the phase of the low frequency activity modulated the amplitude of the higher frequency slow wave activity. Hence interacting myogenic electrical activities were seen to underlie the segmentation motor pattern. The segmentation motor pattern appeared to be associated with the induction of a low frequency component, causing minute rhythm clusters of contractions and a waxing and waning of the amplitudes of the individual contractions within a cluster (Huizinga et al., 2014). These clusters occurred prominently after decanoic acid in rats (Huizinga et al., 2014) or oleic acid in dogs (Ehrlein et al., 1987). In human small intestine studies, the post-prandial motility pattern can be quite variable but regular “cluster contractions” are often reported and seen to be mainly stationary (Hellstrom, 1995). In a study by Husebye (1999), the clusters were shown to have a minute rhythm, the contraction amplitudes within the clusters had a waxing and waning appearance with a frequency of ~10/min, hence occurring at the slow wave frequency (Husebye, 1999; Gallego et al., 2014). When a nutrient solution was given to healthy volunteers with or without 40 g/l ethanol, it was ethanol in particular that induced a low frequency component, the clustered contractions; the clusters occurred at 1 per 2–3 min and the individual contractions within the clusters at ~12/min with waxing and waning amplitudes (Schmidt et al., 1997). Hence also in the human small intestine, the slow wave frequency, as well as an additional lower frequency component, are reported in the post-prandial intestinal motor activity.

Inference of mechanical states of intestinal motor activity using hidden Markov models

BackgroundContractions and relaxations of the muscle layers within the digestive tract alter the external diameter and the internal pressures. These changes in diameter and pressure move digesting food and waste products. Defining these complex relationships is a fundamental step for neurogastroenterologists to be able define normal and abnormal gut motility.ResultsUtilising an in vitro technique that allows for the simultaneous recording of intraluminal pressure (manometry) and gut diameter (video) in an isolated section of rabbit colon, we developed a technique to help define the mechanical states of the muscle at any point in space and time during actual peristaltic movements. This was achieved by directly relating the changes in pressure to the changes in diameter along the length of the gut studied. For each individual measure of pressure or diameter, 3 dynamic state components were identified; increasing or decreasing changes or a stable period. Two additional static state components, fully contracted and fully distended, were defined for the diameter. Then qualitative mechanical states of the muscle activity were defined as combinations of these state components. A hidden Markov model was used to correlate adjacent-in-time samples, and the Viterbi algorithm was used to infer the most likely sequence of mechanical states based on the observed data. From this a spatiotemporal map of the mechanical states was produced, showing the regions of active contractions, active relaxations, or passive states along the length of the gut throughout the entire recording period.ConclusionsThe identification of mechanical muscles states based on gut diameter and intraluminal pressure was possible by modelling muscle activation with a hidden Markov model.

Roles of M2 and M3 muscarinic receptors in the generation of rhythmic motor activity in mouse small intestine

The roles of M2 and M3 muscarinic receptor subtypes in the regulation of gut motor activity were investigated. We simultaneously recorded changes in the intraluminal pressure (IP) and longitudinal tension (LT) in small intestinal segments from M2 or M3 receptor knockout (KO) and wild-type (WT) mice. In the WT preparations, luminal distension induced a continuous rhythmic contractile activity that was characterized by synchronous rises in IP and LT, occurring periodically at a constant interval. Tetrodotoxin completely abolished the response, whereas atropine either abolished or attenuated it. In the majority of the M2 KO preparations, however, no rhythmic activity was observed in response to the luminal distention, even though networks of enteric neurons and interstitial cells of Cajal (ICC) seemed to be intact. Where rhythmic activity did occur in M2 KO preparations, it was atropine resistant. In the M3 KO preparations, the IP and LT were synchronously changed by the luminal distention, but the changes occurred at irregular intervals. The W/W(v) mutant preparations, which lack ICC in the myenteric plexus (ICC-MY), showed results similar to those of the M3 KO preparations. In some of the M2 /M3 double-KO preparations, rhythmic activity was not observed, but in the others, an atropine-resistant rhythmicity appeared. These results suggest that M2 and M3 muscarinic receptors differentially regulate the intestinal motor activity: M2 receptors play an essential role in the generation of rhythmic motor activity, and M3 receptors have a modulatory role in controlling the periodicity of the rhythmic activity together with the ICC-MY.

Impact of intestinal electrical stimulation on nutrient‐induced GLP‐1 secretion in vivo

Increases in L-cell release of GLP-1 are proposed to serve as a negative feedback signal for postprandial changes in gastric emptying and/or motility. Previous ex vivo data suggests that direct electrical stimulation (E-stim) of ileal segments stimulates secretion of GLP-1. This suggests potential feed-forward increases in GLP-1 driven by intestinal neuronal and/or motor activity. To determine if E-stim could increase GLP-1 levels in an in vivo setting, we administered E-stim and nutrients to male Long- Evans rats (300-350 g) under general anesthesia. Nutrient infusion into the duodenum or ileum significantly increased plasma GLP-1 levels, but E-stim applied to these locations did not (P < 0.05). However, the combination of E-stim and nutrient infusion, in either the ileum or duodenum, significantly increased plasma GLP-1 when compared to nutrient infusion alone (P < 0.05), and this effect was not blocked by either norepinephrine or atropine. To test the impact of intestinal motor activity, the effect of extra-luminal mechanical stimulation (M-stim) on GLP-1 levels was assessed. In the duodenum, but not the ileum, M-stim plus nutrient infusion significantly increased GLP-1 over nutrient infusion or M-stim alone (P < 0.05). Thus, both E- and M-stim of the duodenum, but only E-stim of the ileum augmented nutrient-stimulated GLP-1 release. These data demonstrate that factors beyond enteral nutrients could contribute to the regulation of GLP-1 secretion.

Mo1226 Magnetic Resonance Imaging (MRI) Has the Sensitivity to Detect Changes in Colonic Gas Content After Fiber Supplementation in Health

Introduction: Increased abdominal gas content induces distension and can lead to abdominal discomfort and functional symptoms such as an altered intestinal motor activity. Still, the effects of abdominal bloating remain only partially described and understood. In order to study abdominal bloating and its effects on human physiology, methods are required that allow the non-invasive quantification of abdominal gas content. The aim of this study was to noninvasively determine changes in colonic gas content in health by means of Magnetic Resonance Imaging (MRI) after a one-week fiber supplementation. Methods: 15 healthy volunteers (7 female, 8 male, mean BMI 23.0) appeared each on two study days (day 1, day 8) for a 4 hours MRI session. During the 7 day treatment period, all subjects were asked to ingest 7 g of Normacol® (Norgine, Middlesex, UK) fiber supplement together with their breakfast. An additional dose of 7 g Normacol® was ingested on the evening prior to day 8. On both study days, subjects were asked to have a defined light breakfast 5 hours prior to study start. On day 8, subjects were asked to add 7 g Normacol® to their breakfast. At the beginning and at the end of the MRI session, high-resolution anatomic scans of the abdomen were acquired using a dedicated abdominal coil array (T2 weighted single-shot turbo spin-echo sequence; 1526/80; flip angle, 90°). Colonic structures were segmented in all volunteers. A pixel-by-pixel comparison of the image signal intensity with a predefined signal intensity threshold allowed labeling individual pixels as gas or solid. The predefined threshold was set to the background noise level (mean + 2 × stdev). Gas content inside the segmented areas was computed as gas/(gas+solid). Relative gas content was calculated as the average gas content on day 8 divided by the average gas content on day 1. A paired Wilcoxon signed rank test was performed to test the null hypothesis that gas content remained unchanged between study day 1 and study day 8. Results: Gas content was reduced in 12 out of 15 healthy volunteers after fiber supplementation. Gas content change was significant (p , 0.04). One prominent outlier (volunteer number 13) was detected, perhaps due to an improper intake of the prescribed fiber supplement. Overall, gas content on study day 8 was 73% ± 50% (mean ± stdev) relative to study day 1. Conclusion & Discussion: MRI has the sensitivity to noninvasively detect changes in colonic gas content after fiber supplementation in health. By providing the means for a noninvasive detection of colonic gas content in health, MRI shows potential for further studies on abdominal gas content in patient groups such as IBS.

Mast cells drive mesenteric afferent signalling during acute intestinal ischaemia

Acute intestinal ischaemia stimulates visceral afferent nerves but the mechanisms responsible for this excitation are not fully understood. Mast cells may participate in this process as they are known to signal to mesenteric afferents during intestinal anaphylaxis and contribute to early inflammation and neuronal damage in response to cerebral ischaemia. We therefore hypothesised that mast cells are early responders to acute intestinal ischaemia and their activation initiates rapid signalling to the CNS via the excitation of mesenteric afferents. Primary afferent firing was recorded from a mesenteric nerve bundle supplying a segment of jejunum in anaesthetized adult rats. Acute focal ischaemia was produced by clamping theme senteric vessels for 8 min, and reperfusion followed removal of the vessel clip. Two episodes of ischaemia–reperfusion (I–R) separated by a 30 min interval were performed. Drugs or their vehicles were administered 10 min before the 2nd I–R episode. Ischaemia caused a reproducible, intense and biphasic afferent firing that was temporally dissociated from the concomitantly triggered complex pattern of intestinal motor activity. The L-type calcium channel blocker, nifedipine, significantly attenuated this afferent firing by a mechanism independent of its action on intestinal tone. Ischaemia-induced afferent firing was also abrogated by the mast cell stabilizer, doxantrazole, and the H1 histamine receptor antagonist, pyrilamine. In contrast, the nicotinic receptor antagonist, hexamethonium, and the N-type calcium channel toxin, ω-conotoxin GVIA, each reduced the ischaemia-evoked motor inhibition but not the concurrent afferent discharge. Similarly, the cyclooxygenase inhibitor, naproxen, had no effect on the ischaemic afferent response but reduced the intestinal tone shortly from the onset of ischaemia to the early period of reperfusion. These data support a critical role for mast cell-derived histamine in the direct chemoexcitation of mesenteric afferents during acute intestinal ischaemia, whereas enteric reflex mechanisms and cyclooxygenase products contribute primarily to ischaemia-induced changes in intestinal motility. Therefore, targeting mast cells may provide benefits in patients with abdominal pain resulting from an ischaemic insult to the gastrointestinal tract.

Effects of metoclopramide on duodenal motility and flow events, glucose absorption, and incretin hormone release in response to intraduodenal glucose infusion

The contribution of small intestinal motor activity to nutrient absorption is poorly defined. A reduction in duodenal flow events after hyoscine butylbromide, despite no change in pressure waves, was associated with reduced secretion of the incretin hormones glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP) and a delay in glucose absorption. The aim of this study was to investigate the effect of metoclopramide on duodenal motility and flow events, incretin hormone secretion, and glucose absorption. Eight healthy volunteers (7 males and 1 female; age 29.8 ± 4.6 yr; body mass index 24.5 ± 0.9 kg/m²) were studied two times in randomized order. A combined manometry and impedance catheter was used to measure pressure waves and flow events in the same region of the duodenum simultaneously. Metoclopramide (10 mg) or control was administered intravenously as a bolus, followed by an intraduodenal glucose infusion for 60 min (3 kcal/min) incorporating the ¹⁴C-labeled glucose analog 3-O-methylglucose (3-OMG). We found that metoclopramide was associated with more duodenal pressure waves and propagated pressure sequences than control (P < 0.05 for both) during intraduodenal glucose infusion. However, the number of duodenal flow events, blood glucose concentration, and plasma 3-[¹⁴C]OMG activity did not differ between the two study days. Metoclopramide was associated with increased plasma concentrations of GLP-1 (P < 0.05) and GIP (P = 0.07) but lower plasma insulin concentrations (P < 0.05). We concluded that metoclopramide was associated with increased frequency of duodenal pressure waves but no change in duodenal flow events and glucose absorption. Furthermore, GLP-1 and GIP release increased with metoclopramide, but insulin release paradoxically decreased.