Day‐to‐day reproducibility of prolonged ambulatory colonic manometry in healthy subjects

Background Although colonic manometry provides useful information regarding colonic physiology, considerable variability has been reported both for regional motility and manometric patterns. Whether colonic manometry is reproducible is not known. Methods Seven healthy volunteers (three men, four women, mean age = 34 years) underwent two studies of 24‐h ambulatory colonic manometry, each 2 weeks apart. Manometry was performed by placing a six‐sensor solid‐state probe, up to the hepatic flexure and anchored to colonic mucosa. Colonic motility was assessed by the number and area‐under‐curve (AUC) of pressure waves and motility patterns such as high‐amplitude propagating contractions (HAPC). Waking and meal‐induced gastrocolonic responses were also assessed. Paired t‐test was used to examine the reproducibility and intra and interindividual variability. Key Results The number of pressure waves and propagating pressure waves and HAPC, and AUC were similar between the two studies. Diurnal variation, waking and meal‐induced gastrocolonic responses were also reproducible. There was some variability in the incidence of individual colonic motor patterns. Conclusions & Inferences Colonic manometry findings were generally reproducible, particularly for the assessment of key physiologic changes, such as meal‐induced gastrocolonic, HAPC, and waking responses.     

Pancolonic spatiotemporal mapping reveals regional deficiencies in,and disorganization of colonic propagating pressure waves in severe constipation

Background The morphology, motor responses and spatiotemporal organization among colonic propagating sequences (PS) have never been defined throughout the entire colon of patients with slow transit constipation (STC). Utilizing the technique of spatiotemporal mapping, we aimed to demonstrate ‘manometric signatures’ that may serve as biomarkers of the disorder. Methods In 14 female patients with scintigraphically confirmed STC, and eight healthy female controls, a silicone catheter with 16 recording sites spanning the colon at 7.5 cm intervals was positioned colonoscopically with the tip clipped to the cecum. Intraluminal pressures were recorded for 24 h. Key Results Pan‐colonic, 24 h, spatiotemporal mapping identified for the first time in STC patients: a marked paucity of propagating pressure waves in the mid‐colon (P = 0.01), as a consequence of a significant (P < 0.0001) decrease in extent of propagation of PS originating in the proximal colon; an increase in frequency of retrograde PS in the proximal colon; a significant reduction in the spatiotemporal organization among PS (P < 0.001); absence of the normal nocturnal suppression of PS. Conclusions & Inferences Pan‐colonic, 24 h, spatiotemporal pressure mapping readily identifies characteristic disorganization among consecutive PS, regions of diminished activity and absent or deficient fundamental motor patterns and responses to physiological stimuli. These features are all likely to be important in the pathophysiology of slow transit constipation.     

High‐resolution colonic manometry accurately predicts colonic neuromuscular pathological phenotype in pediatric slow transit constipation

Background Severe pediatric slow transit constipation (STC) is commonly due to intrinsic colonic neuromuscular disease. We sought to correlate neuromuscular histological phenotypes in pediatric STC with colonic manometric phenotypes using high‐resolution manometry (HRM). We tested the hypothesis that failure of motor quiescence (FQ) between bisacodyl‐induced high amplitude propagating sequences (HAPSs) might predict neuromuscular pathology. Methods Eighteen children (10 males, median age: 7.5 years) with refractory STC underwent stationary colonic HRM before segmental colonic resection. Six age‐matched constipated children with normal colonic transit served as controls. Colonic resection specimens underwent histopathological analysis. Conventional manometric parameters and area under the curve (AUC) during a 1‐min period following bisacodyl‐induced HAPSs [PBAUC₁], as measure of FQ, were calculated. Key Results Numbers of postbisacodyl HAPSs in descending and sigmoid segments were lower in patients than controls (P < 0.01, respectively). Low amplitude propagating sequences (LAPSs) were common prebisacodyl in controls and rare in STC (P < 0.001), whereas postbisacodyl LAPS were more common in STC (P < 0.001). Postbisacodyl, both retrograde propagating contractions and bursts of contractions were present in STC patients only (P < 0.001 and P < 0.01). Postbisacodyl simultaneous pressurization was seen only in STC (P < 0.05 and P < 0.001, in descending and rectosigmoid segments). Histological abnormalities were present in 17/18. Fourteen were neurogenic, one neuro‐myogenic, and two myogenic. In segments with HAPS, PBAUC₁ was predictive of colonic neuropathy using a cutoff of 205 mmHg.s^‐1 (Sensitivity 100%, specificity 86%, PPV92%, NPV100%). Conclusions & Inferences PBAUC₁ is increased in multiple colonic segments in neuropathic pediatric STC and constitutes a sensitive and specific biomarker of neuropathy.     

Substance P and vasoactive intestinal peptide are reduced in right transverse colon in pediatric slow‐transit constipation

Background Slow‐transit constipation (STC) is recognized in children but the etiology is unknown. Abnormalities in substance P (SP), vasoactive intestinal peptide (VIP) and nitric oxide (NO) have been implicated. The density of nerve fibers in circular muscle containing these transmitters was examined in colon from children with STC and compared to other pediatric and adult samples. Methods Fluorescence immunohistochemistry using antibodies to NO synthase (NOS), VIP and SP was performed on colonic biopsies (transverse and sigmoid colon) from 33 adults with colorectal cancer, 11 children with normal colonic transit and anorectal retention (NAR) and 51 with chronic constipation and slow motility in the proximal colon (STC). The percentage area of nerve fibers in circular muscle containing each transmitter was quantified in confocal images. Key Results In colon circular muscle, the percentage area of nerve fibers containing NOS > VIP > SP (6 : 2 : 1). Pediatric groups had a higher density of nerve fibers than adults. In pediatric samples, there were no regional differences in NOS and VIP, while SP nerve fiber density was higher in sigmoid than proximal colon. STC children had lower SP and VIP nerve fiber density in the proximal colon than NAR children. Twenty‐three percent of STC children had low SP nerve fiber density. Conclusions & Inferences There are age‐related reductions in nerve fiber density in human colon circular muscle. NOS and VIP do not show regional variations, while SP nerve fiber density is higher in distal colon. 1/3 of pediatric STC patients have low SP or VIP nerve fiber density in proximal colon.     

Twenty-four hour spatiotemporal mapping of colonic propagating sequences provides pathophysiological insight into constipation

Abstract  Colonic propagating sequences (PS)s are a major determinant of luminal propulsion. A global appreciation of spatiotemporal patterning of PSs requires evaluation of 24 h pan-colonic recordings, a difficult task given that PSs are relatively infrequent events that are not uniformly distributed throughout the colon. Here we developed a means of space-time-pressure 'mapping' in a condensed format, 24 h of colonic recording in such a manner that readily permits an overall view of colonic antegrade and retrograde colonic PSs within a single figure. Such graphical representation readily permits appreciation and identification of aberrant patterns in severe constipation and may be an important clinical and research tool in the assessment of colonic motor disorders.     

Impaired propulsive motility in the distal but not proximal colon of BK channel β1‐subunit knockout mice

Background Large‐conductance Ca²⁺‐activated K⁺ (BK) channels regulate smooth muscle tone. The BK channel β1‐subunit increases Ca²⁺ sensitivity of the α‐subunit in smooth muscle. We studied β1‐subunit knockout (KO) mice to determine if gastrointestinal (GI) motility was altered. Methods Colonic and intestinal longitudinal muscle reactivity to bethanechol and colonic migrating motor complexes (CMMCs) were measured in vitro. Gastric emptying and small intestinal transit were measured in vivo. Colonic motility was assessed in vivo by measuring fecal output and glass bead expulsion time. Myoelectric activity of distal colon smooth muscle was measured in vitro using intracellular microelectrodes. Key Results Bethanechol‐induced contractions were larger in the distal colon of β1‐subunit KO compared to wild type (WT) mice; there were no differences in bethanechol reactivity in the duodenum, ileum, or proximal colon of WT vsβ1‐subunit KO mice. There were more retrogradely propagated CMMCs in the distal colon of β1‐subunit KO compared to WT mice. Gastrointestinal transit was unaffected by β1‐subunit KO. Fecal output was decreased and glass bead expulsion times were increased in β1‐subunit KO mice. Membrane potential of distal colon smooth muscle cells from β1‐subunit KO mice was depolarized with higher action potential frequency compared to WT mice. Paxilline (BK channel blocker) depolarized smooth muscle cells and increased action potential frequency in WT distal colon. Conclusions & Inferences BK channels play a prominent role in smooth muscle function only in the distal colon of mice. Defects in smooth muscle BK channel function disrupt colonic motility causing constipation.     

Classification of normal and abnormal colonic motility based on cross‐correlations of pancolonic manometry data

Background Manual analysis of data acquired from manometric studies of colonic motility is laborious, subject to laboratory bias and not specific enough to differentiate all patients from control subjects. Utilizing a cross‐correlation technique, we have developed an automated analysis technique that can reliably differentiate the motor patterns of patients with slow transit constipation (STC) from those recorded in healthy controls. Methods Pancolonic manometric data were recorded from 17 patients with STC and 14 healthy controls. The automated analysis involved calculation of an indicator value derived from cross‐correlations calculated between adjacent recording sites in a manometric trace. The automated technique was conducted on blinded real data sets (observed) and then to determine the likelihood of positive indicator values occurring by chance, the channel number within each individual data set were randomized (expected) and reanalyzed. Key Results In controls, the observed indicator value (3.2 ± 1.4) was significantly greater than that predicted by chance (0.8 ± 1.5; P < 0.0001). In patients, the observed indicator value (?2.7 ± 1.8) did not differ from that predicted by chance (?3.5 ± 1.6; P = 0.1). The indicator value for controls differed significantly from that of patients (P < 0.0001), with all individual patients falling outside of the range of indicator values for controls. Conclusions & Inferences Automated analysis of colonic manometry data using cross‐correlation separated all patients from controls. This automated technique indicates that the contractile motor patterns in STC patients differ from those recorded in healthy controls. The analytical technique may represent a means for defining subtypes of constipation.     

Performance characteristics of scintigraphic colon transit measurement in health and irritable bowel syndrome and relationship to bowel functions

Background The inter‐ and intra‐subject variations of scintigraphy, which are used to identify colonic transit disturbances in irritable bowel syndrome (IBS), are unclear. The relationship between colonic transit and bowel functions is incompletely understood. To assess inter‐ and intra‐subject variations of scintigraphic colonic transit measurements in 86 IBS patients and 17 healthy subjects and to quantify the relationship between colonic transit and bowel symptoms in 147 IBS patients and 46 healthy subjects. Methods Data from participants with multiple colonic transit measurements were analysed. Primary end points were colonic filling at 6 h (CF6h) and geometric center (GC) at 24 and 48 h for colonic transit. Bowel functions were assessed by daily stool diaries. Key Results Inter‐ and intra‐subject variations were greater for small intestinal than colonic transit. Overall, inter‐ and intra‐subject variations were relatively narrow for colonic transit (both GC24h and GC48h, with lower COV at 48 h); there was little intra‐subject variation in health and IBS‐constipation over a period of ≤3 weeks and over 2.0 years (median, range 0.1, 11.0 years). Significant intra‐individual differences in GC24h were observed only in IBS‐D patients. Colonic transit was significantly associated with stool form (accounting for 19–27% of the variance), frequency (19%), and ease of stool passage (12%). Conclusions & Inferences Despite inter‐subject variation in scintigraphic colonic transit results, the intra‐subject measurements are reproducible over time in healthy volunteers and patients with IBS; significant changes in colonic transit at 24 h were observed only in IBS‐D. Colonic transit is associated with stool form, frequency and ease of passage.     

Bowel preparation affects the amplitude and spatiotemporal organization of colonic propagating sequences

Background Colonic manometry is performed using either colonoscopically assisted catheter placement, after bowel preparation, or nasocolonic intubation of the unprepared bowel. There has been little systematic evaluation of the effects of bowel cleansing upon colonic propagating pressure wave sequences. Methods Eight healthy volunteers underwent nasocolonic placement of a water‐perfused silicone catheter which recorded pressures at 16 recording sites each spaced 7.5 cm apart in the unprepared colon for 24 h. These measures were compared with those obtained in another eight healthy volunteers in whom the catheter was placed to the caecum at colonoscopy in the prepared colon. Key Results The colonic motor responses to meals and morning waking, and the normal nocturnal suppression did not differ between the two groups, nor were the overall frequency, regional dependence nor extent of propagating sequences (PS) influenced by bowel preparation. Bowel preparation did result in a significant increase in the frequency of high amplitude PS (22 ± 7 vs 8 ± 4 HAPS/24 h; P = 0.003). Additionally, a number of the measures of spatiotemporal organization among consecutive PS (linkage among sequences and predefecatory stereotypical patterning) were significantly altered by bowel preparation. Conclusions & Inferences The overall frequency of PSs, the colonic responses to physiological stimuli such a meal and morning waking and nocturnal suppression, are not influenced by prior bowel preparation. However, investigators wishing to study HAPS frequency, or the more complex spatiotemporal relationships among consecutive PSs, should control for bowel preparation when making comparisons among study groups.     

Proximal colonic propagating pressure waves sequences and their relationship with movements of content in the proximal human colon

Abstract  Abnormal colonic motor patterns have been implicated in the pathogenesis of severe constipation. Yet in health, the mechanical link between movement of colonic content and regional pressures have only been partially defined. This is largely due to current methodological limitations. Utilizing a combination of simultaneous colonic manometry, high-resolution scintigraphy and a quantitative technique for detecting discrete episodic flow, our aim was to examine the propulsive properties of colonic propagating sequences (PS) in the healthy colon. In six healthy volunteers a nasocolonic manometry catheter was positioned to record colonic pressures at 7.5 cm intervals from terminal ileum to the splenic flexure. With subjects positioned under a gamma camera, 30 MBq of ^99mTc sulfur colloid was instilled into the terminal ileum, 22.5 cm proximal to the ileocolonic junction. Isotopic images were recorded (10 s/frame) and synchronized with the manometric trace. In the proximal colon we identified 137 antegrade PSs, of which 93% were deemed to be associated temporally with movements of luminal content. Low amplitude PSs, with component pressure waves between 2 mmHg and 5 mmHg, were as likely to be associated with colonic movements as higher amplitude PSs. As such there was no correlation between the amplitude of the PS and the temporal relationship with colonic movements. Within the proximal colon, 24 retrograde PSs were identified, 23 of which were associated with retrograde movements of colonic content. We conclude that proximal colonic PSs are highly propulsive and are a major determinant of proximal colonic flow.     

High amplitude propagated contractions

While most colonic motor activity is segmental and non‐propulsive, colonic high amplitude propagated contractions (HAPC) can transfer colonic contents over long distances and often precede defecation. High amplitude propagated contractions occur spontaneously, in response to pharmacological agents or colonic distention. A subset of patients with slow transit constipation have fewer HAPC. In this issue of Neurogastroenterology and Motility, Rodriguez et al. report that anal relaxation during spontaneous and bisacodyl‐induced HAPC exceeds anal relaxation during rectal distention in constipated children undergoing colonic manometry. Moreover, and consistent with a neural mechanism, anal relaxation often precedes arrival of HAPC in the left colon. High amplitude propagated contractions are also used to evaluate the motor response to a meal and pharmacological stimuli (e.g., bisacodyl, neostigmine) and to identify colonic inertia during colonic motility testing in chronic constipation. This editorial comprehensively reviews the characteristics, physiology and pharmacology of HAPC, their assessment by manometry, and relevance to constipation and diarrhea.     

Lower functional gastrointestinal disorders: evidence of abnormal colonic transit in a 287 patient cohort

Background Abnormalities of colonic motility were reported in relatively small studies of patients with lower functional gastrointestinal disorders (FGID) including irritable bowel syndrome (IBS). The influence of gender and body mass on the observed motor pathophysiology is unclear. We sought to compare colonic transit in patients within different lower FGID subgroups and healthy controls, controlling for gender and BMI, and to determine whether BMI independently influences colonic motility. Methods We evaluated a scintigraphic gastrointestinal and colonic transit database of 287 lower FGID patients associated with constipation (IBS‐C, or functional constipation, n = 118), diarrhoea (IBS‐D or functional diarrhoea, n = 139) or mixed bowel function (IBS‐M, n = 30) and 170 healthy controls. We measured colon filling at 6 h (CF 6 h), and overall colonic transit at 8, 24 and 48 h. Key Results Colon filling at 6 h did not differentiate health from FGID. Colonic transit was abnormal at 24 h (GC24 of <1.50 or >3.86) in 29.7% of all lower FGID patients. There was a significant overall association between colonic transit and subject group (healthy controls and FGID subgroups) at 8 (P = 0.01), 24 (P < 0.001) and 48 h (P < 0.001) in particular for those with diarrhoea or constipation at 24 and 48 h (P < 0.05), even after adjusting for age, gender and BMI. In addition, BMI was associated with colonic transit after adjusting for age, gender and subject group. Conclusions & Inferences Abnormal transit is documented non‐invasively with scintigraphy in 30% of lower FGID patients; transit measurement may help document pathophysiology and inform selection of therapy in lower FGID.     

Spatio-temporal analysis reveals aberrant linkage among sequential propagating pressure wave sequences in patients with symptomatically defined obstructed defecation

Abstract  Available evidence implicates abnormal colonic contractility in patients suffering from constipation. Traditional analysis of colonic manometry focuses on the frequency, extent and amplitude of propagating sequences (PS). We tested the hypotheses that the spatio-temporal linkage among sequential PSs exists throughout the healthy human colon and is disrupted during constipation. In eight patients with severe constipation and eight healthy volunteers, we recorded colonic pressures from 16 regions (caecum–rectum) for 24 h. Sequential PSs were regionally linked if the two PSs originated from different colonic regions but the segments of colon traversed by each PS overlapped. In order to determine whether this linkage occurred by chance, a computer program was used to randomly rearrange all PSs in time. Data were re-analysed to compare regional linkage between randomly re-ordered PSs (expected) and the natural distribution of PSs (observed). In controls the observed regional linkage (82.5 ± 9.0%) was significantly greater than the expected value (60.5 ± 4.3%; P  = 0.0001). In patients the observed and expected regional linkage did not differ. The (observed − expected) delta value of regional linkage in controls was significantly greater than in patients (21.7 ± 8.5% vs −2.3 ± 7.0%; P  = 0.01). Regional linkage among sequential PSs in the healthy colon appears to be a real phenomenon and this linkage is lost in patients with constipation. Regional linkage may be important for normal colonic transit and loss of linkage might have pathophysiological relevance to and provide a useful biomarker of severe constipation.     

Manometric techniques for the evaluation of colonic motor activity: current status

Colonic motility disorders are common conditions. However, our understanding of normal, and, consequently, pathological motor function of the colon remains limited, mainly due to the relative inaccessibility of this organ for study. Investigation of colonic motility may encompass one or more of the four separate components (myoelectric activity, phasic and tonic contractile activity and movement of intraluminal content) using electrophysiological, manometric or transit studies. Although transit studies provide the best 'functional' appreciation of colonic motor activity, and are the only techniques used in contemporary clinical practice, manometric methods are becoming increasingly popular, as they allow a direct study of colonic contractile activity over prolonged periods. To date, the majority of studies have been limited to the pelvic colon by a retrograde (per rectal) approach; however, recent technological advances have facilitated 'pan-colonic' investigation. This review concentrates on manometry of the human colon proximal to the sigmoid, and includes evaluation of both phasic and tonic motor activity, by utilization of perfused-tube and solid-state manometric catheters, and also the electronic barostat. Methodological techniques, experimental protocols and the analysis and interpretation of recorded data are critically explored, and a contemporary classification of colonic contractile activities is presented.     

Internal anal sphincter relaxation associated with bisacodyl‐induced colonic high amplitude propagating contractions in children with constipation: a colo‐anal reflex?

Background Describe the association of internal anal sphincter (IAS) relaxation with colonic high‐ amplitude peristaltic contractions (HAPCs). Methods Retrospective review of colon manometry tracings of children with constipation to determine the IAS relaxation characteristics associated with HAPC’s (HAPC‐IASR) events and compare them to the those seen during the performance of the anorectal manometry (ARMRAIR) events. Key Results A total of 70 HAPC‐ IASRs were observed in 15 patients, 65 after bisacodyl, two during fasting and three after a meal. In 64% of events, the IAS relaxation started when the HAPC reached left colon and in 36% as proximal as the hepatic flexure. High‐ amplitude peristaltic contraction propagation seems to be important in HAPC‐IASR characteristics; those propagating distal to sigmoid colon demonstrated larger and longer IAS relaxation as well as lower residual pressure, but equivalent resting pressure compared with HAPC’s ending proximal to sigmoid colon. Although IAS resting pressure was comparable for ARM‐RAIRs and HAPC‐IASRs, the duration and magnitude of anal relaxation was higher, and the anal residual pressure was lower in HAPC‐IASRs. Conclusions & Inferences We demonstrated that IAS relaxation in constipated children is associated with HAPCs migrating in the proximal and distal colon; in most cases, starting when peristalsis is migrating through left colon and in an important proportion while migrating proximally. We also demonstrated that HAPC‐IASRs are different from ARM‐RAIRs suggesting a neurally mediated reflex. Finally, the IAS relaxation characteristics are highly dependent on the degree of propagation of HAPCs, which could have important implications in the understanding of defecation disorders.     

Results of 24-h manometric recording of colonic motor activity with endoluminal instillation of bisacodyl in patients with severe chronic slow transit constipation

The aims of this study were to assess the prevalence of manometric colonic abnormalities and to evaluate the motor effect of intraluminal bisacodyl in a cohort of refractory constipated patients. Twenty-four hour colonic motility recordings were performed in 40 patients referred for a severe intractable chronic constipation. At the end of each recording session the motor effects of the endoluminal instillation of 10 mg bisacodyl were assessed. These patients were compared with 20 healthy subjects. The number of high-amplitude propagating contractions (HAPC) was significantly decreased in patients with slow transit constipation (12 +/- 11.6 vs 1 +/- 8.6, P < 0.001). Based on manometric patterns four groups of patients were isolated. Ten patients had no spontaneous HAPC, no food-induced colonic motor response and significantly lower colonic activity in transverse colon (374 +/- 1220 vs 3249 +/- 3458, P < 0.05). Five patients had significantly increased sigmoid segmental motility (20298 +/- 6364 vs 88780 +/- 3643, P < 0.001) and eight patients had significantly lower number of HAPC without other manometric abnormalities while 17 patients had normal colonic motility recordings. Endoluminal bisacodyl was able to induce HAPCs in all groups of patients. Patients with severe slow transit refractory constipation represented a heterogeneous group and endoluminal bisacodyl was able to promote a propagated motor activity in a majority of patients even in those suspected of having an inert colon.     

High‐resolution manometry changes our views of gastrointestinal motility

High‐resolution manometry using catheters with 36 solid‐state sensors spaced 1 cm apart has already become an established technique for esophageal manometry where it has replaced water‐perfused and station pull‐through manometry. Spatiotemporal plots with color coding of pressure have greatly facilitated the analysis of esophageal peristalsis. Although suitable for the length of the esophagus, the solid‐state catheter is insufficient for the study of longer segments of the gastrointestinal tract. A new technique with fiber‐optic sensors has made it possible to construct catheters with 72–144 sensors. Studies of colonic motility have revealed that the most common motor pattern of the colon is a peristaltic contraction that travels 7–10 cm in the retrograde direction. Earlier studies using low‐resolution manometry with 7–45 cm between sensors led us to erroneous conclusions regarding direction and frequency of contractions and they largely missed both antegrade and retrograde contractions traveling short distances. Fiber‐optic high‐resolution manometry holds promise for greatly improving our understanding of gut motor physiology and hopefully also our understanding of patients with symptoms of disordered gut motility.     

Colonic transit time and anorectal manometric anomalies in 19 patients with complete transection of the spinal cord

In order to determine the relative importance of sympathetic and parasympathetic centers in the control of colorectal motility, colonic transit and anorectal motility were studied in 19 patients with complete spinal cord transection: group 1 (n = 5) where transection was above T9; group 2 (n = 6) where transection was between T9 and L2; group 3 (n = 8) where transection involved S2-S4. Colonic transit time was calculated by the radiopaque markers. Methods and results were compared with those of eight controls, all bedridden for non-digestive surgery. Anorectal motility was investigated by anorectal manometry, and results were compared with those of 17 healthy controls. Both mean right and left colonic transit times were not different in the three groups of patients and the bedridden control group. Mean rectosigmoid and total transit time increased in groups 2 and 3. In five patients of group 3 the mean anal canal (lower part) pressure was higher than in controls. Recto-anal inhibitory reflex was present in all patients, but their was no correlation in group 3 between the volume of rectal distension and both amplitude and duration of the recto-anal inhibitory reflex, and in group 1 between rectal distension and the duration of the recto-anal inhibitory reflex. Rectosigmoid transit time increased when sympathetic and parasympathetic spinal centers are injured, suggesting the importance of this extrinsic nervous control; right and left colonic transit are not affected by spinal cord lesion suggesting that the distal colon but not the proximal colon, is under spinal cord nervous control.(ABSTRACT TRUNCATED AT 250 WORDS)     

N‐Methyl‐d‐aspartate receptor antagonism decreases motility and inflammatory activation in the early phase of acute experimental colitis in the rat

Background Inflammatory bowel diseases are accompanied by severe motility disorders. The aim of our study was to investigate whether the blockade of peripheral N‐methyl‐D‐aspartate (NMDA)‐sensitive glutamate receptors (NMDA‐Rs) alters motility changes in chemically induced acute colitis and how this modulation is accomplished. Methods The inflammatory and motility changes in 2,4,6‐trinitrobenzenesulfonic acid (TNBS)‐induced colitis were studied in anaesthetized Wistar rats following treatment with the natural NMDA‐R antagonist kynurenic acid (KynA) or SZR‐72, a blood‐brain barrier‐permeable synthetic KynA analogue. The macrohaemodynamics, serosal microcirculation (visualized by intravital videomicroscopy), plasma levels of tumour necrosis factor alpha (TNF‐α), inflammatory enzyme activities (xanthine oxidoreductase (XOR), myeloperoxidase (MPO) and nitric oxide synthase (NOS)), and colonic motility (with a strain‐gauge technique) were evaluated 17 h after colitis induction and compared with the control conditions. Key Results The TNBS enema induced a systemic hyperdynamic circulatory reaction, increased the serosal capillary blood flow, significantly elevated the mucosal XOR, MPO and NOS activities and augmented the colonic motility relative to the controls. The NMDA‐R antagonist treatment with KynA or SZR‐72 significantly reduced the XOR, NOS and MPO activities, decreased the motility and increased the tone of the colon. Conclusions & Inferences These data demonstrate a potential modulatory mechanism of NMDA‐R in altered colonic motility in TNBS colitis. Inhibition of the enteric NMDA‐Rs may provide a therapeutic option via which to influence intestinal hypermotility, microcirculatory changes and inflammatory activation simultaneously.     

Altered periodic rectal motor activity: a mechanism for slow transit constipation

The pathophysiology of slow transit constipation is poorly understood. Both decreased and increased distal colonic motility have been reported. In healthy humans, a 3 cycles per minute (cpm), periodic rectal motor activity (PRMA) has been described. Our aim was to investigate the characteristics of PRMA and to assess its role in the pathogenesis of constipation. A six-sensor solid-state probe was placed with the tip sensor in the mid-transverse colon, without sedation, and prolonged colonic motility was recorded in nine patients with slow transit constipation (1M, 8F) and in 11 healthy subjects (3M, 8F). Subjects were free to ambulate. We examined the frequency, nocturnal vs. diurnal variation, and characteristics of PRMA, and its relationship to proximal colonic motility. All subjects showed PRMA. The rhythm was similar (2.5-4 cpm) in both groups. However, constipated patients exhibited a greater (P < 0.001) number of PRMA cycles than controls. The duration of each cycle and amplitude of pressure waves during PRMA were also greater (P < 0.05) at night in patients compared with controls. In patients, 40% of PRMA cycles were associated with a proximal colonic motor event compared with 81% in controls (P < 0.02). The area under the curve of all colonic pressure waves and incidence of specialized propagating pressure waves was lower (P < 0.05) in patients during daytime. When compared with controls, constipated patients exhibited reduced daytime colonic pressure waves and a higher frequency of PRMA. Most of the PRMA was unrelated to proximal colonic activity in constipated patients in contrast with findings in control patients. In addition to decreased colonic motility, this excessive and unco-ordinated phasic rectal activity may further impede stool transport and contribute to the pathogenesis of slow transit constipation.