Your search keyword '"Dinning PG"' showing total 160 results

51. Characterization of putative interneurons in the myenteric plexus of human colon.

Author

Humenick A, Chen BN, Wattchow DA, Zagorodnyuk VP, Dinning PG, Spencer NJ, Costa M, and Brookes SJH

Subjects

Aged, Calbindin 2 metabolism, Calbindins metabolism, Choline O-Acetyltransferase metabolism, Enkephalins metabolism, Female, Humans, Male, Middle Aged, Myenteric Plexus cytology, Nitric Oxide Synthase metabolism, Serotonin metabolism, Substance P metabolism, Colon innervation, Interneurons metabolism, Motor Neurons metabolism, Myenteric Plexus metabolism, Neurons, Afferent metabolism, Neurons, Efferent metabolism

Abstract

Background: The enteric nervous system contains multiple classes of neurons, distinguishable by morphology, immunohistochemical markers, and projections; however, specific combinations differ between species. Here, types of enteric neurons in human colon were characterized immunohistochemically, using retrograde tracing combined with multiple labeling immunohistochemistry, focussing on non-motor neurons., Methods: The fluorescent carbocyanine tracer, DiI, was applied to the myenteric plexus in ex vivo preparations, filling neurons projecting within the plexus. Limits of projection lengths of motor neurons were established, allowing them to be excluded from the analysis. Long ascending and descending interneurons were then distinguished by labeling for discriminating immunohistochemical markers: calbindin, calretinin, enkephalin, 5-hydroxytryptamine, nitric oxide synthase, and substance P. These results were combined with a previous published study in which nitric oxide synthase and choline acetyltransferase immunoreactivities were established., Key Results: Long ascending neurons (with projections longer than 8 mm, which excludes more than 95% motor neurons) formed four types, in descending order of abundance, defined by immunoreactivity for: (a) ChAT+/ENK+, (b) ChAT+/ENK+/SP+, (c) ChAT+/Calb+, and (d) ChAT+/ENK+/Calb+. Long descending neurons, up to 70 mm long also formed at least four types, distinguished by immunoreactivity for (a) NOS + cells (without ChAT), (b) ChAT+/NOS+, (c) ChAT+/Calret+, and (d) ChAT+/5HT + cells (with or without NOS)., Conclusions and Inferences: Long interneurons, which do not innervate muscularis externa, are likely to coordinate neural activity over distances of many centimeters along the colon. Characterizing their neurochemical coding provides a basis for understanding their roles, investigating their connectivity, and building a comprehensive account of human colonic enteric neurons., (© 2020 John Wiley & Sons Ltd.)

Published

2021

52. The relationships between the results of contemporary tests of anorectal structure and sensorimotor function and the severity of fecal incontinence.

Author

Heitmann PT, Rabbitt P, Schloithe AC, Wattchow DA, Scott SM, and Dinning PG

Subjects

Action Potentials, Adult, Aged, Aged, 80 and over, Anal Canal diagnostic imaging, Endosonography, Fecal Incontinence diagnosis, Female, Humans, Imaging, Three-Dimensional, Male, Middle Aged, Pressure, Rectum diagnostic imaging, Sensory Thresholds, Severity of Illness Index, Young Adult, Anal Canal physiopathology, Fecal Incontinence physiopathology, Manometry, Pudendal Nerve physiopathology, Rectum physiopathology

Abstract

Background: Diagnostic investigations for fecal incontinence (FI) assess the structure and sensorimotor function of the anorectum. Investigations include anorectal manometry, anorectal sensory testing, pudendal nerve terminal motor latencies (PNTML), and endoanal sonography. The severity of FI and results of investigations are often discordant and the rate of symptom resolution following treatment remains <40%. High-resolution anorectal manometry (HRAM) and three-dimensional endoanal ultrasound (3D-US) have been introduced during the last decade. This study aims to assess the strength of relationships between contemporary investigation results and FI severity., Methods: Adults presenting for investigation of FI were assessed using the St Mark's FI severity score (SMIS), HRAM, anorectal sensory testing, PNTML, and 3D-US., Key Results: 246 patients were included. There were significant relationships between the SMIS and HRAM (resting pressure r s = -0.23, 95% CI = (-0.34, -0.11), P < .001; squeeze pressure (r s  = -0.26, 95% CI = (-0.37, -0.14), P < .001) and 3D-US (anterior EAS length r s = -0.22, 95% CI = (-0.34, -0.09), P = .001). The relationships between SMIS and HRAM had a greater effect size in those with urge-predominant symptoms (resting pressure: r s = -0.40, 95% CI = (-0.57, -0.20), P < .001, squeeze pressure: r s = -0.34, 95% CI = (-0.52, -0.12), P = .003). Overall, the variance in SMIS accounted for by anorectal investigations was 8.6% (R 2 = 0.098, adjusted R 2 = 0.086, P < .001)., Conclusions and Inferences: Anorectal investigations are not strong predictors of FI severity. These findings may reflect the multifactorial, heterogeneous pathophysiology of FI, the limitations of the SMIS and anorectal investigations, and contributing factors extrinsic to the anorectum., (© 2020 John Wiley & Sons Ltd.)

Published

2020

53. Coexistent faecal incontinence and constipation: A cross-sectional study of 4027 adults undergoing specialist assessment.

Author

Vollebregt PF, Wiklendt L, Dinning PG, Knowles CH, and Scott SM

Abstract

Background: In contrast to paediatric and geriatric populations, faecal incontinence and constipation in adults are generally considered separate entities. This may be incorrect., Methods: Cross-sectional study of consecutive patients (18-80 years) referred to a tertiary unit (2004-2016) for investigation of refractory faecal incontinence and/or constipation and meeting Rome IV core criteria (applied post-hoc) for self-reported symptoms. We sought to determine how frequently both diagnoses coexisted, how frequently coexistent diagnoses were recognised by the referring clinician and to evaluate differences in clinical characteristics between patients with single or both diagnoses., Findings: Study sample consisted of 4,027 patients (3,370 females [83·7%]). According to Rome IV criteria, 807 (20·0%) patients self-reported faecal incontinence in isolation, 1,569 (39·0%) patients had functional constipation in isolation, and 1,651 (41·0%) met criteria for both diagnoses (coexistent symptoms). In contrast, only 331 (8·2%) patients were referred for coexistent symptoms. Of the 1,651 patients with self-reported coexistent symptoms, only 225 (13·6%) were recognised by the referrer i.e. 86·4% were missed. Coexistent symptoms were most often missed in patients referred for faecal incontinence in isolation. In this group of 1,640 patients, 765 (46·7%) had concomitant symptoms of functional constipation. Opioid usage, comorbidities, childhood bowel problems, mixed incontinence symptoms, prolapse symptoms and structural abnormalities on defaecography were associated with reclassification., Interpretation: Over 40% of adults referred for anorectal physiological investigation had coexistent diagnoses of faecal incontinence and functional constipation, based on validated criteria. This overlap is overlooked by referrers, poorly documented in current literature, and may impact management., Competing Interests: Paul F Vollebregt, Lukasz Wiklendt and Phil G Dinning have no conflict of interest. Charles H Knowles has received financial remuneration from Medtronic Inc. as speaker fees and for expert advisory committees, and research support from Saluda Medical. S Mark Scott has received honoraria for teaching from MMS/Laborie., (© 2020 The Authors.)

Published

2020

54. Distinct patterns of myogenic motor activity identified in isolated human distal colon with high-resolution manometry.

Author

Rosli RM, Heitmann PT, Kumar R, Hibberd TJ, Costa M, Wiklendt L, Wattchow DA, Arkwright J, de Fontgalland D, Brookes SJH, Spencer NJ, and Dinning PG

Subjects

Aged, Electric Stimulation methods, Female, Humans, Male, Middle Aged, Organ Culture Techniques methods, Colon physiology, Gastrointestinal Motility physiology, Manometry methods, Muscle Contraction physiology

Abstract

Background: Colonic high-resolution manometry (HRM) has been used to reveal discrete, propagating colonic motor patterns. To help determine mechanisms underlying these patterns, we used HRM to record contractile activity in human distal colon ex vivo., Methods: Surgically excised segments of descending (n = 30) or sigmoid colon (n = 4) were immersed in oxygenated Krebs solution at 36°C (n = 34; 16 female; 67.6 ± 12.4 years; length: 24.7 ± 3.5 cm). Contractility was recorded by HRM catheters. After 30 minutes of baseline recording, 0.3 mM lidocaine and/or 1 mM hexamethonium were applied. Ascending neural pathways were activated by electrical field stimulation (EFS; 10 Hz, 0.5 ms, 50 V, 5-s duration) applied to the anal end before and after drug application., Results: Spontaneous propagating contractions were recorded in all specimens (0.1-1.5 cycles/minute). Most contractions occurred synchronously across all recording sites. In five specimens, rhythmic antegrade contractions propagated across the full length of the preparation. EFS evoked local contractions at the site of stimulation (latency: 5.5 ± 2.4 seconds) with greater amplitude than spontaneous contractions (EFS; 29.3 ± 26.9 vs 12.1 ± 14.8 mm Hg; P = .02). Synchronous or retrograde propagating motor patterns followed EFS; 71% spanned the entire preparation length. Hexamethonium and lidocaine modestly and only temporarily inhibited spontaneous contractions, whereas TTX increased the frequency of contractile activity while inhibiting EFS-evoked contractions., Conclusions and Inferences: Our study suggests that the propagated contractions recorded in the organ bath have a myogenic origin which can be regulated by neural input. Once activated at a local site, the contractions do not require the propulsion of fecal content to sustain long-distance propagation., (© 2020 John Wiley & Sons Ltd.)

Published

2020

55. Novel insight into pressurization of the male and female urethra through application of a multi-channel fibre-optic pressure transducer: Proof of concept and validation.

Author

Stafford RE, Arkwright J, Dinning PG, van den Hoorn W, and Hodges PW

Subjects

Adult, Feasibility Studies, Female, Fiber Optic Technology, Humans, Male, Middle Aged, Muscle Contraction physiology, Pressure, Proof of Concept Study, Transducers, Pressure, Ultrasonography, Urethra diagnostic imaging, Pelvic Floor physiology, Urethra physiology

Abstract

Purpose: To confirm feasibility of recording pressure along the length of the urethra using a multi-sensor fibre-optic pressure catheter; to identify the spatial and temporal features of changes in pressure along the urethra at sites related to specific striated pelvic floor muscles; and to investigate the relationship between urethral pressures and activation of individual pelvic floor muscles estimated from ultrasound imaging., Materials and Methods: Proof-of-concept study including one male (47 years old) and one female (33 years old). A multi-sensor fibre optic pressure catheter (10 mm sensor separation) was inserted into the urethra. Pressure data were recorded simultaneously with trans-perineal ultrasound imaging measures of pelvic floor muscle activity during sub-maximal and maximal voluntary contractions and evoked coughs., Results: Pressure changes along the urethra were recorded in all tasks in both participants. Face validity of interpretation of pressure measures with respect to individual muscles was supported by correlation with ultrasound-measured displacements induced by the relevant muscles. Onset of pressure increase occurred in a distal to proximal sequence in the urethra of the male but not the female during voluntary contraction. Peak urethral pressures varied in location, timing and amplitude between tasks. Evoked cough induced in the greatest urethral pressure increase across all tasks for both participants., Conclusions: The high spatial resolution pressure catheter provide viable and valid recordings of urethral pressure in a male and female. Data provide preliminary evidence of sex differences in spatial and temporal distribution of urethral pressure changes., Competing Interests: John Arkwright designed and manufactured the fibreoptic pressure catheter, and is a director and major shareholder in Arkwright Technologies Ltd, a company making fibre-optic sensors. No commercial funding or support was granted for this work. The authors declare no other conflict of interest., (© The Korean Urological Association, 2020.)

Published

2020

56. Characterization of the colonic response to bisacodyl in children with treatment-refractory constipation.

Author

Heitmann PT, Wiklendt L, Thapar N, Borrelli O, Di Lorenzo C, Yacob DT, Baaleman DF, Vriesman MH, Nurko S, El-Chammas K, Kaul A, Benninga MA, Koppen IJN, Wattchow DA, Brookes SJH, and Dinning PG

Subjects

Adolescent, Bisacodyl therapeutic use, Child, Child, Preschool, Colon physiopathology, Constipation physiopathology, Female, Gastrointestinal Motility physiology, Humans, Infant, Laxatives therapeutic use, Male, Manometry, Retrospective Studies, Treatment Outcome, Bisacodyl pharmacology, Colon drug effects, Constipation drug therapy, Gastrointestinal Motility drug effects, Laxatives pharmacology

Abstract

Background: Colonic manometry with intraluminal bisacodyl infusion can be used to assess colonic neuromuscular function in children with treatment-refractory constipation. If bisacodyl does not induce high-amplitude propagating contractions (HAPCs), this can be an indication for surgical intervention. A detailed characterization of the colonic response to intraluminal bisacodyl in children with constipation may help to inform clinical interpretation of colonic manometry studies., Methods: Studies were performed in five pediatric hospitals. Analysis included identification of HAPCs, reporting HAPCs characteristics, and an area under the curve (AUC) analysis. Comparisons were performed between hospitals, catheter type, placement techniques, and site of bisacodyl infusion., Results: One hundred and sixty-five children were included (median age 10, range 1-17 years; n = 96 girls). One thousand eight hundred and ninety-three HAPCs were identified in 154 children (12.3 ± 8.8 HAPCs per child, 0.32 ± 0.21 HAPCs per min; amplitude 113.6 ± 31.5 mm Hg; velocity 8.6 ± 3.8 mm/s, propagation length 368 ± 175 mm). The mean time to first HAPC following bisacodyl was 553 ± 669 s. Prior to the first HAPC, there was no change in AUC when comparing pre- vs post-bisacodyl (Z = -0.53, P = .60). The majority of HAPCs terminated in a synchronous pressurization in the rectosigmoid. Defecation was associated with HAPCs (χ 2 (1)=7.04, P < .01). Site of bisacodyl administration, catheter type, and hospital location did not alter the response., Conclusions and Inferences: Intraluminal bisacodyl induced HAPCs in 93% of children with treatment-refractory constipation. The bisacodyl response is characterized by ≥1 HAPC within 12 minutes of infusion. The majority of HAPCs terminate in a synchronous pressurization in the rectosigmoid. Optimal clinical management based upon colonic manometry findings is yet to be determined., (© 2020 John Wiley & Sons Ltd.)

Published

2020

57. A Novel Method for Electrophysiological Analysis of EMG Signals Using MesaClip.

Author

Wiklendt L, Brookes SJH, Costa M, Travis L, Spencer NJ, and Dinning PG

Abstract

In electrophysiology, many methods have been proposed for the analysis of action potential firing frequencies. The aim of this study was to present an algorithm developed for a continuous wavelet transform that enables the filtering out of frequencies contributing to the shapes of action potentials (spikes), whilst retaining the frequencies that encode the periodicity of spike trains. The continuous wavelet transform allows us to decompose a signal into its constituent frequencies. A signal with a single event, such as a spike, is composed of frequencies that characterize the shape of the spike. A signal with two spikes will also be composed of frequencies characterizing the shape of the action potential, but in addition will include a substantial portion of its power at the frequency corresponding to the time-difference between the two spikes. This is achieved by clipping peaks from the wavelet amplitudes that are narrower than a given minimum number of phase cycles. We present some application examples in both synthetic signals and electrophysiological recordings. This new approach can provide a major new analytical tool for analysis of electrophysiological signals., (Copyright © 2020 Wiklendt, Brookes, Costa, Travis, Spencer and Dinning.)

Published

2020

58. Changes in specific esophageal neuromechanical wall states are associated with conscious awareness of a solid swallowed bolus in healthy subjects.

Author

Cock C, Leibbrandt RE, Dinning PG, Costa MC, Wiklendt L, and Omari TI

Subjects

Adult, Female, Healthy Volunteers, Humans, Male, Manometry, Pressure, Time Factors, Awareness, Consciousness, Deglutition, Eating, Esophagus innervation, Mechanoreceptors physiology, Muscle, Smooth innervation, Peristalsis

Abstract

Esophageal neuromechanical wall states are the physical manifestations of circular muscle inhibition and contraction resulting from neural inputs and leading to bolus propulsion. A novel method infers esophageal neuromechanical wall states through simultaneous determination of pressure and diameter in vivo using impedance manometry. We hypothesized that changes in esophageal neuromechanical wall states relate to conscious awareness of esophageal bolus passage ("bolus perception"). Seven healthy participants were selected for perception of solid bolus passage and were compared with seven healthy participants with no conscious awareness of solid bolus passage. Participants were studied using impedance manometry (MMS Solar, Unisensor, 20 Hz). Subjects swallowed ten 5-ml liquid and ten 2-cm square saline-soaked bread boluses and rated bolus perception using a visual analog scale. Esophageal neuromechanical wall states were calculated and analyzed. Proportions of time spent in states with and without luminal distension were compared using a two-proportions Z -test. Bolus perception was associated with neuromechanical wall states corresponding to luminal distension more frequently than matching states without distension in the proximal esophagus ( P < 0.001) and transition zone ( P < 0.001), whereas there were no differences for the distal esophagus. In healthy volunteers, perceived swallows relate to changes in esophageal neuromechanical wall states in the proximal esophagus. We postulate that these changes relate to bolus retention and summation of active and passive wall tension activating intramural tension receptors. NEW & NOTEWORTHY This study explores esophageal neuromechanical wall states derived from changes in pressure and impedance-derived distension in relation to conscious awareness of esophageal solid bolus transit in healthy volunteers. There are increases in neuromechanical wall states indicative of esophageal distension in healthy volunteers with conscious awareness of bolus transit as compared with unaware individuals. Bolus-based esophageal distension is postulated as a mechanism for esophageal symptoms such as dysphagia.

Published

2020

59. Manometry of the Human Ileum and Ileocaecal Junction in Health, Disease and Surgery: A Systematic Review.

Author

Liu C, Saw KS, Dinning PG, O'Grady G, and Bissett I

Abstract

Background: The terminal ileum and ileocaecal junction form a transition zone in a relatively inaccessible portion of the gastrointestinal tract. Little is known about the motility of this region with few detailed studies, indicating the need for a robust synthesis of current knowledge. This review aimed to evaluate the quantitative and qualitative data on the manometry findings of the terminal ileum and ileocaecal junction during the fasting and post-prandial periods in healthy individuals and patients with motility disorders or patients after bowel surgery. Methods: A systematic search of five databases (Medline, Pubmed, Embase, Scopus, and Cochrane Library) was performed. Studies that presented manometry data from the human ileum or ileocaecal junction were included. Results: Forty-two studies met the inclusion criteria. The main motility patterns reported in the terminal ileum during fasting were the migrating motor complex, discrete clustered contractions, prolonged propagated contractions and phasic contractions. Post-prandial motility featured irregular, intense contractions. Some studies found a region of sustained increased pressure at the ileocaecal junction while others did not. Patients with motility disorders showed differences in manometry including retrograde propagation of phase III. Patients post-bowel surgery showed differences including higher incidence of phase III. Conclusion: Motility patterns of the terminal ileum differ between fasting and fed states. Large variability existed in manometry recordings of the terminal ileum. Technical challenges and lack of standardized definitions may reduce accuracy of manometry assessment. Further research is needed to understand how this key portion of the gut physiologically functions., (Copyright © 2020 Liu, Saw, Dinning, O'Grady and Bissett.)

Published

2020

60. Neural motor complexes propagate continuously along the full length of mouse small intestine and colon.

Author

Costa M, Hibberd TJ, Keightley LJ, Wiklendt L, Arkwright JW, Dinning PG, Brookes SJH, and Spencer NJ

Subjects

Animals, Cholinergic Antagonists pharmacology, Cholinesterase Inhibitors pharmacology, Enteric Nervous System drug effects, Female, Ganglionic Blockers pharmacology, In Vitro Techniques, Male, Mice, Inbred C57BL, Pressure, Time Factors, Colon innervation, Enteric Nervous System physiology, Intestine, Small innervation, Myoelectric Complex, Migrating drug effects, Peristalsis drug effects

Abstract

Cyclical propagating waves of muscle contraction have been recorded in isolated small intestine or colon, referred to here as motor complexes (MCs). Small intestinal and colonic MCs are neurogenic, occur at similar frequencies, and propagate orally or aborally. Whether they can be coordinated between the different gut regions is unclear. Motor behavior of whole length mouse intestines, from duodenum to terminal rectum, was recorded by intraluminal multisensor catheter. Small intestinal MCs were recorded in 27/30 preparations, and colonic MCs were recorded in all preparations ( n = 30) with similar frequencies (0.54 ± 0.03 and 0.58 ± 0.02 counts/min, respectively). MCs propagated across the ileo-colonic junction in 10/30 preparations, forming "full intestine" MCs. The cholinesterase inhibitor physostigmine increased the probability of a full intestine MC but had no significant effect on frequency, speed, or direction. Nitric oxide synthesis blockade by N ω -nitro-l-arginine, after physostigmine, increased MC frequency in small intestine only. Hyoscine-resistant MCs were recorded in the colon but not small intestine ( n = 5). All MCs were abolished by hexamethonium ( n = 18) or tetrodotoxin ( n = 2). The enteric neural mechanism required for motor complexes is present along the full length of both the small and large intestine. In some cases, colonic MCs can be initiated in the distal colon and propagate through the ileo-colonic junction, all the way to duodenum. In conclusion, the ileo-colonic junction provides functional neural continuity for propagating motor activity that originates in the small or large intestine. NEW & NOTEWORTHY Intraluminal manometric recordings revealed motor complexes can propagate antegradely or retrogradely across the ileo-colonic junction, spanning the entire small and large intestines. The fundamental enteric neural mechanism(s) underlying cyclic motor complexes exists throughout the length of the small and large intestine.

Published

2020

61. Roles of three distinct neurogenic motor patterns during pellet propulsion in guinea-pig distal colon.

Author

Costa M, Keightley LJ, Wiklendt L, Hibberd TJ, Arkwright JW, Omari T, Wattchow DA, Zagorodnyuk V, Brookes SJH, Dinning PG, and Spencer NJ

Subjects

Action Potentials, Animals, Electromyography, Female, Guinea Pigs, Male, Motor Activity, Myoelectric Complex, Migrating, Colon physiology, Gastrointestinal Motility physiology, Muscle Contraction physiology, Muscle, Smooth physiology

Abstract

Key Points: Enteric neural circuits enable isolated preparations of guinea-pig distal colon to propel solid and fluid contents by a self-sustaining neuromechanical loop process. In addition there are at least three neural mechanisms which are not directly involved in propulsion: cyclic motor complexes, transient neural events and distal colon migrating motor complexes. In excised guinea-pig colon we simultaneously recorded high resolution manometry, video-imaging of colonic wall movements and electrophysiological recordings from smooth muscle, which enabled us to identify mechanisms that underlie the propulsion of colonic content. The results show that the intermittent propulsion during emptying of the multiple natural faecal pellets is due to the intermittent activation of cyclic motor complexes and this is facilitated by transient neural events. Loss or dysfunction of these activities is likely to underlie disordered gastrointestinal transit., Abstract: It is well known that there are different patterns of electrical activity in smooth muscle cells along different regions of the gastrointestinal tract. These different patterns can be generated by myogenic and/or neurogenic mechanisms. However, what patterns of electrical activity underlie the propulsion of natural faecal content remains unknown, particularly along the large intestine, where large quantities of water are reabsorbed and semi-solid faeces form. In this study, we developed a novel approach which enables for the first time the simultaneous recording of high resolution intraluminal manometry, electrophysiology from the smooth muscle, and spatio-temporal video imaging of colonic wall movements. Using this approach we were able to reveal the nature of enteric neuromuscular transmission and patterns of motor activity responsible for the movement of content. Three distinct neurogenic patterns of electrical activity were recorded even in the absence of propulsive movement. These were the cyclic motor complexes (CMCs), the transient neural events (TNEs) and the slowly propagating distal colonic migrating motor complexes (DCMMCs). We present evidence that the initiation of pellet propulsion is due to a cyclic motor complex (CMC) occurring oral to the pellet. Furthermore, we discovered that the intermittent propulsion of natural faecal pellets is generated by intermittent activation of CMCs; and this propulsion is facilitated by hexamethonium-sensitive TNEs. However, TNEs were not required for propulsion. The findings reveal the patterns of electrical activity that underlie propulsion of natural colonic content and demonstrate that propulsion is generated by a complex interplay between distinct enteric neural circuits., (© 2019 The Authors. The Journal of Physiology © 2019 The Physiological Society.)

Published

2019

62. Characterization of projections of longitudinal muscle motor neurons in human colon.

Author

Humenick A, Chen BN, Lauder CIW, Wattchow DA, Zagorodnyuk VP, Dinning PG, Spencer NJ, Costa M, and Brookes SJH

Subjects

Aged, Cell Size, Choline O-Acetyltransferase metabolism, Colon metabolism, Colon pathology, Enteric Nervous System cytology, Enteric Nervous System metabolism, Female, Fluorescent Dyes, Gastrointestinal Motility, Humans, Immunohistochemistry, Male, Middle Aged, Motor Neurons metabolism, Muscle, Smooth metabolism, Muscle, Smooth pathology, Neuroanatomical Tract-Tracing Techniques, Nitric Oxide Synthase metabolism, Colon innervation, Motor Neurons cytology, Muscle, Smooth innervation

Abstract

Background: The enteric nervous system contains inhibitory and excitatory motor neurons which modulate smooth muscle contractility. Cell bodies of longitudinal muscle motor neurons have not been identified in human intestine., Methods: We used retrograde tracing ex vivo with DiI, with multiple labeling immunohistochemistry, to characterize motor neurons innervating tenial and inter-tenial longitudinal muscle of human colon., Key Results: The most abundant immunohistochemical markers in the tertiary plexus were vesicular acetylcholine transporter, nitric oxide synthase (NOS), and vasoactive intestinal polypeptide (VIP). Of retrogradely traced motor neurons innervating inter-tenial longitudinal muscle, 95% were located within 6mm oral or anal to the DiI application site. Excitatory motor neuron cell bodies, immunoreactive for choline acetyltransferase (ChAT), were clustered aborally, whereas NOS-immunoreactive cell bodies were distributed either side of the DiI application site. Motor neurons had small cell bodies, averaging 438 + 18µm 2 in cross-sectional area, similar for ChAT- and NOS-immunoreactive subtypes. Motor neurons innervating the tenia had slightly longer axial projections, with 95% located within 9mm. ChAT-immunoreactive excitatory motor neurons to tenia were clustered aborally, whereas NOS-immunoreactive inhibitory motor neurons had both ascending and descending projections. VIP immunoreactivity was rarely present without NOS immunoreactivity in motor neurons., Conclusions and Inferences: Tenial and inter-tenial motor neurons innervating the longitudinal muscle have short projections. Inhibitory motor neurons have less polarized projections than cholinergic excitatory motor neurons. Longitudinal and circular muscle layers are innervated by distinct local populations of excitatory and inhibitory motor neurons. A population of human enteric neurons that contribute significantly to colonic motility has been characterized., (© 2019 John Wiley & Sons Ltd.)

Published

2019

63. Treatment of irritable bowel syndrome with diarrhoea using titrated ondansetron (TRITON): study protocol for a randomised controlled trial.

Author

Gunn D, Fried R, Lalani R, Farrin A, Holloway I, Morris T, Olivier C, Kearns R, Corsetti M, Scott M, Farmer A, Emmanuel A, Whorwell P, Yiannakou Y, Sanders D, Mclaughlin J, Kapur K, Eugenicos M, Akbar A, Trudgill N, Houghton L, Dinning PG, Ford AC, Aziz Q, and Spiller R

Subjects

Antidiarrheals adverse effects, Clinical Trials, Phase III as Topic, Diarrhea diagnosis, Diarrhea etiology, Diarrhea physiopathology, Double-Blind Method, Humans, Irritable Bowel Syndrome complications, Irritable Bowel Syndrome diagnosis, Irritable Bowel Syndrome physiopathology, Multicenter Studies as Topic, Ondansetron adverse effects, Randomized Controlled Trials as Topic, Serotonin 5-HT3 Receptor Antagonists adverse effects, Time Factors, Treatment Outcome, United Kingdom, Antidiarrheals therapeutic use, Diarrhea drug therapy, Irritable Bowel Syndrome drug therapy, Ondansetron therapeutic use, Serotonin 5-HT3 Receptor Antagonists therapeutic use

Abstract

Background: Irritable bowel syndrome with diarrhoea (IBS-D) affects up to 4% of the general population. Symptoms include frequent, loose, or watery stools with associated urgency, resulting in marked reduction of quality of life and loss of work productivity. Ondansetron, a 5HT 3 receptor antagonist, has had an excellent safety record for over 20 years as an antiemetic, yet is not widely used in the treatment of IBS-D. It has, however, been shown to slow colonic transit and in a small randomised, placebo-controlled, cross-over pilot study, benefited patients with IBS-D., Methods: This trial is a phase III, parallel group, randomised, double-blind, multi-centre, placebo-controlled trial, with embedded mechanistic studies. Participants (n = 400) meeting Rome IV criteria for IBS-D will be recruited from outpatient and primary care clinics and by social media to receive either ondansetron (dose titrated up to 24 mg daily) or placebo for 12 weeks. Throughout the trial, participants will record their worst abdominal pain, worst urgency, stool frequency, and stool consistency on a daily basis. The primary endpoint is the proportion of "responders" in each group, using Food and Drug Administration (FDA) recommendations. Secondary endpoints include pain intensity, stool consistency, frequency, and urgency. Mood and quality of life will also be assessed. Mechanistic assessments will include whole gut transit, faecal tryptase and faecal bile acid concentrations at baseline and between weeks 8 and 11. A subgroup of participants will also undergo assessment of sensitivity (n = 80) using the barostat, and/or high-resolution colonic manometry (n = 40) to assess motor patterns in the left colon and the impact of ondansetron., Discussion: The TRITON trial aims to assess the effect of ondansetron across multiple centres. By defining ondansetron's mechanisms of action we hope to better identify patients with IBS-D who are likely to respond., Trial Registration: ISRCTN, ISRCTN17508514 , Registered on 2 October 2017.

Published

2019

64. Relationships between the results of anorectal investigations and symptom severity in patients with faecal incontinence.

Author

Heitmann PT, Rabbitt P, Schloithe A, Patton V, Skuza PP, Wattchow DA, and Dinning PG

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Regression Analysis, Severity of Illness Index, Young Adult, Anal Canal pathology, Fecal Incontinence pathology, Rectum pathology

Abstract

Purpose: Anorectal dysfunction is the focus of diagnostic investigations for faecal incontinence. However, severity of incontinence and anorectal investigation results can be discordant. The aim of this study was to define the relationships between anorectal investigation results and incontinence severity to determine which measures, if any, were predictive of incontinence severity., Methods: Patients presenting for investigation of faecal incontinence completed a symptom questionnaire, anorectal manometry, rectal sensation, pudendal nerve terminal motor latency, and endoanal ultrasound. Bivariate analyses were conducted between the Jorge-Wexner score and investigation results. Subgroup analyses were performed for gender and symptom subtypes (urge, passive, mixed). A multiple regression analysis was performed., Results: Five hundred and thirty-eight patients were included. There were weak correlations between the Jorge-Wexner score and maximal squeeze pressure [r = - 0.24, 95%CI(- 0.31, - 0.16), p < 0.001], and resting pressure [r = - 0.18, (95%CI(- 0.26, - 0.10), p < 0.001]. In men only, there were significant associations between the Jorge-Wexner score and endoanal sonography [IAS defects: t(113) = - 2.26, p = 0.03, d = 0.58, 95%CI(- 4.38, - 0.29)] and rectal sensation (MTV: r s  = - 0.24, 95%CI(- 0.41, - 0.06), p = 0.01). No substantial differences were observed in the urge/passive/mixed subgroup analyses. Multiple regression analysis included three variables: age (β = 0.02, p = 0.17), maximal resting pressure (β = - 0.01, p = 0.28), and maximal squeeze pressure (β = - 0.01, p < 0.01). The variance in the Jorge-Wexner score accounted for by this model was < 10%, (R 2  = 0.07, p = < 0.01, adjusted R 2  = 0.06)., Conclusion: Anorectal investigations cannot predict the severity of faecal incontinence. This may be due to limitations of diagnostic modalities, the heterogeneity of anorectal dysfunction in these patients, or contributing factors which are extrinsic to the anorectum.

Published

2019

65. Identification of multiple distinct neurogenic motor patterns that can occur simultaneously in the guinea pig distal colon.

Author

Costa M, Keightley LJ, Wiklendt L, Hibberd TJ, Arkwright JW, Omari T, Wattchow DA, Brookes SJH, Dinning PG, and Spencer NJ

Subjects

Action Potentials physiology, Animals, Guinea Pigs, Motor Neurons physiology, Myenteric Plexus physiology, Neurogenesis physiology, Colon physiology, Gastrointestinal Motility physiology, Muscle, Smooth physiology, Myoelectric Complex, Migrating physiology

Abstract

In the guinea pig distal colon, nonpropulsive neurally mediated motor patterns have been observed in different experimental conditions. Isolated segments of guinea pig distal colon were used to investigate these neural mechanisms by simultaneously recording wall motion, intraluminal pressure, and smooth muscle electrical activity in different conditions of constant distension and in response to pharmacological agents. Three distinct neurally dependent motor patterns were identified: transient neural events (TNEs), cyclic motor complexes (CMC), and distal colon migrating motor complexes (DCMMC). These could occur simultaneously and were distinguished by their electrophysiological, mechanical, and pharmacological features. TNEs occurred at irregular intervals of ~3s, with bursts of action potentials at 9 Hz. They propagated orally at 12 cm/s via assemblies of ascending cholinergic interneurons that activated final excitatory and inhibitory motor neurons, apparently without involvement of stretch-sensitive intrinsic primary afferent neurons. CMCs occurred during maintained distension and consisted of clusters of closely spaced TNEs, which fused to cause high-frequency action potential firing at 7 Hz lasting ~10 s. They generated periodic pressure peaks mediated by stretch-sensitive intrinsic primary afferent neurons and by cholinergic interneurons. DCMMCs were generated by ongoing activity in excitatory motor neurons without apparent involvement of stretch-sensitive neurons, cholinergic interneurons, or inhibitory motor neurons. In conclusion, we have identified three distinct motor patterns that can occur concurrently in the isolated guinea pig distal colon. The mechanisms underlying the generation of these neural patterns likely involve recruitment of different populations of enteric neurons with distinct temporal activation properties.

Published

2019

66. A new understanding of the physiology and pathophysiology of colonic motility?

Author

Dinning PG

Subjects

Humans, Manometry methods, Colon physiology, Colonic Diseases physiopathology, Gastrointestinal Motility physiology

Abstract

Background: In recent years, high-resolution manometry has been used in an attempt to gain a greater insight into the physiology/pathophysiology of colonic contractile activity in healthy adults and patients with colonic motility disorders. New colonic motor patterns have been identified and characterized, however, the clinical significance of these findings remains undetermined., Purpose: This review will assess the current literature on colonic high-resolution manometry and determine if this procedure has advanced our understanding of colonic motility. The limitations, future directions, and the potential of this technique to assess the effects of treatment upon colonic motor patterns will also be discussed., (© 2018 John Wiley & Sons Ltd.)

Published

2018

67. Motility of the left colon in children and adolescents with functional constpation; a retrospective comparison between solid-state and water-perfused colonic manometry.

Author

Koppen IJN, Wiklendt L, Yacob D, Di Lorenzo C, Benninga MA, and Dinning PG

Subjects

Adolescent, Catheters, Child, Child, Preschool, Female, Humans, Male, Manometry methods, Retrospective Studies, Young Adult, Colon physiopathology, Colonic Diseases, Functional diagnosis, Constipation diagnosis, Gastrointestinal Motility physiology, Manometry instrumentation

Abstract

Background: Using water-perfused (WP) high-resolution manometry, we recently demonstrated that children with functional constipation (FC) lacked the postprandial increase in distal colonic cyclic motor patterns that was observed in healthy adults. Our aim was to determine if similar results could be detected using a solid-state (SS) manometry catheter., Methods: We performed a retrospective analysis of 19 children with FC (median age 11.1 years, 58% male) who underwent colonic manometry with a SS catheter (36 sensors, 3 cm apart). Data were compared with previously published data using a WP catheter (36 sensors, 1.5 cm apart) recorded from 18 children with FC (median age 15 years; 28% male)., Key Results: The cyclic motor patterns recorded by the SS catheter did not differ from those previously recorded by the WP catheter. There was no detected increase in this activity in response to the meal in either group. Long-single motor patterns were recorded in most patients (n = 16, 84%) with the SS catheter. The number of these events did not differ from the WP recordings. In the SS data, HAPCs were observed in 4 children prior to the meal, in 5 after the meal. This did not differ significantly from the WP data., Conclusions & Inferences: These data recorded by SS manometry did not differ from WP manometry data. Regardless of the catheter used, both studies revealed an abnormal colonic response to a meal, indicating a pathology which is not related to the catheter used to record these data., (© 2018 The Authors. Neurogastroenterology & Motility Published by John Wiley & Sons, Ltd.)

Published

2018

68. Identification of a Rhythmic Firing Pattern in the Enteric Nervous System That Generates Rhythmic Electrical Activity in Smooth Muscle.

Author

Spencer NJ, Hibberd TJ, Travis L, Wiklendt L, Costa M, Hu H, Brookes SJ, Wattchow DA, Dinning PG, Keating DJ, and Sorensen J

Subjects

Animals, Female, Intestines innervation, Intestines physiology, Male, Mice, Mice, Inbred C57BL, Neuroimaging methods, Enteric Nervous System physiology, Muscle, Smooth physiology, Myoelectric Complex, Migrating physiology

Abstract

The enteric nervous system (ENS) contains millions of neurons essential for organization of motor behavior of the intestine. It is well established that the large intestine requires ENS activity to drive propulsive motor behaviors. However, the firing pattern of the ENS underlying propagating neurogenic contractions of the large intestine remains unknown. To identify this, we used high-resolution neuronal imaging with electrophysiology from neighboring smooth muscle. Myoelectric activity underlying propagating neurogenic contractions along murine large intestine [also referred to as colonic migrating motor complexes, (CMMCs)] consisted of prolonged bursts of rhythmic depolarizations at a frequency of ∼2 Hz. Temporal coordination of this activity in the smooth muscle over large spatial fields (∼7 mm, longitudinally) was dependent on the ENS. During quiescent periods between neurogenic contractions, recordings from large populations of enteric neurons, in mice of either sex, revealed ongoing activity. The onset of neurogenic contractions was characterized by the emergence of temporally synchronized activity across large populations of excitatory and inhibitory neurons. This neuronal firing pattern was rhythmic and temporally synchronized across large numbers of ganglia at ∼2 Hz. ENS activation preceded smooth muscle depolarization, indicating rhythmic depolarizations in smooth muscle were controlled by firing of enteric neurons. The cyclical emergence of temporally coordinated firing of large populations of enteric neurons represents a unique neural motor pattern outside the CNS. This is the first direct observation of rhythmic firing in the ENS underlying rhythmic electrical depolarizations in smooth muscle. The pattern of neuronal activity we identified underlies the generation of CMMCs. SIGNIFICANCE STATEMENT How the enteric nervous system (ENS) generates neurogenic contractions of smooth muscle in the gastrointestinal (GI) tract has been a long-standing mystery in vertebrates. It is well known that myogenic pacemaker cells exist in the GI tract [called interstitial cells of Cajal (ICCs)] that generate rhythmic myogenic contractions. However, the mechanisms underlying the generation of rhythmic neurogenic contractions of smooth muscle in the GI tract remains unknown. We developed a high-resolution neuronal imaging method with electrophysiology to address this issue. This technique revealed a novel pattern of rhythmic coordinated neuronal firing in the ENS that has never been identified. Rhythmic neuronal firing in the ENS was found to generate rhythmic neurogenic depolarizations in smooth muscle that underlie contraction of the GI tract., (Copyright © 2018 the authors 0270-6474/18/385508-16$15.00/0.)

Published

2018

69. Hyperactive cyclic motor activity in the distal colon after colonic surgery as defined by high-resolution colonic manometry.

Author

Vather R, O'Grady G, Lin AY, Du P, Wells CI, Rowbotham D, Arkwright J, Cheng LK, Dinning PG, and Bissett IP

Subjects

Adolescent, Adult, Aged, Colon surgery, Elective Surgical Procedures adverse effects, Female, Fiber Optic Technology, Humans, Ileus etiology, Male, Middle Aged, Periodicity, Postoperative Complications physiopathology, Stress, Physiological, Young Adult, Colectomy adverse effects, Colon physiopathology, Gastrointestinal Motility, Manometry methods

Abstract

Background: Recovery after colonic surgery is invariably delayed by disturbed gut motility. It is commonly assumed that colonic motility becomes quiescent after surgery, but this hypothesis has not been evaluated rigorously. This study quantified colonic motility through the early postoperative period using high-resolution colonic manometry., Methods: Fibre-optic colonic manometry was performed continuously before, during and after surgery in the left colon and rectum of patients undergoing right hemicolectomy, and in healthy controls. Motor events were characterized by pattern, frequency, direction, velocity, amplitude and distance propagated., Results: Eight patients undergoing hemicolectomy and nine healthy controls were included in the study. Colonic motility became markedly hyperactive in all operated patients, consistently dominated by cyclic motor patterns. Onset of cyclic motor patterns began to a minor extent before operation, occurring with increasing intensity nearer the time of surgery; the mean(s.d.) active duration was 12(7) per cent over 3 h before operation and 43(17) per cent within 1 h before surgery (P = 0.024); in fasted controls it was 2(4) per cent (P < 0·001). After surgery, cyclic motor patterns increased markedly in extent and intensity, becoming nearly continuous (active duration 94(13) per cent; P < 0·001), with peak frequency 2-4 cycles per min in the sigmoid colon. This postoperative cyclic pattern was substantially more prominent than in non-operative controls, including in the fed state (active duration 27(20) per cent; P < 0·001), and also showed higher antegrade velocity (P < 0·001)., Conclusion: Distal gut motility becomes markedly hyperactive with colonic surgery, dominated by cyclic motor patterns. This hyperactivity likely represents a novel pathophysiological aspect of the surgical stress response. Hyperactive motility may contribute to gut dysfunction after surgery, potentially offering a new therapeutic target to enhance recovery., (© 2018 BJS Society Ltd Published by John Wiley & Sons Ltd.)

Published

2018

70. Discriminating movements of liquid and gas in the rabbit colon with impedance manometry.

Author

Mohd Rosli R, Leibbrandt RE, Wiklendt L, Costa M, Wattchow DA, Spencer NJ, Brookes SJ, Omari TI, and Dinning PG

Subjects

Animals, Electric Impedance, Female, Male, Pressure, Rabbits, Colon physiology, Gastrointestinal Motility physiology, Gastrointestinal Transit physiology, Manometry methods, Peristalsis physiology

Abstract

Background: High-resolution impedance manometry is a technique that is well established in esophageal motility studies for relating motor patterns to bolus flow. The use of this technique in the colon has not been established., Methods: In isolated segments of rabbit proximal colon, we recorded motor patterns and the movement of liquid or gas boluses with a high-resolution impedance manometry catheter. These detected movements were compared to video recorded changes in gut diameter. Using the characteristic shapes of the admittance (inverse of impedance) and pressure signals associated with gas or liquid flow we developed a computational algorithm for the automated detection of these events., Key Results: Propagating contractions detected by video were also recorded by manometry and impedance. Neither pressure nor admittance signals alone could distinguish between liquid and gas transit, however the precise relationship between admittance and pressure signals during bolus flow could. Training our computational algorithm upon these characteristic shapes yielded a detection accuracy of 87.7% when compared to gas or liquid bolus events detected by manual analysis., Conclusions & Inferences: Characterizing the relationship between both admittance and pressure recorded with high-resolution impedance manometry can not only help in detecting luminal transit in real time, but also distinguishes between liquid and gaseous content. This technique holds promise for determining the propulsive nature of human colonic motor patterns., (© 2017 John Wiley & Sons Ltd.)

Published

2018

71. Pudendal nerve injury impairs anorectal function and health related quality of life measures ≥2 years after 3D conformal radiotherapy for prostate cancer.

Author

Yeoh EE, Botten R, Di Matteo A, Tippett M, Hutton J, Fraser R, Dinning PG, and Wattchow D

Subjects

Aged, Aged, 80 and over, Anal Canal radiation effects, Brachytherapy, Humans, Male, Middle Aged, Quality of Life, Rectum radiation effects, Adenocarcinoma radiotherapy, Prostatic Neoplasms radiotherapy, Pudendal Nerve radiation effects, Radiation Injuries complications, Radiotherapy, Conformal adverse effects

Abstract

Purpose: To compare GI symptoms, measures of generic and disease specific health related quality of life (HRQoL), anorectal and pudendal nerve function and anal sphincter morphology between (i) patients ≥2 years after 3D conformal radiotherapy (3D-CRT)±high dose rate (HDR) brachytherapy for carcinoma of the prostate and aged matched patients before radiotherapy and (ii) symptomatic and asymptomatic patients ≥2 years after 3D-CRT ± HDR brachytherapy., Material and Methods: Methodology included: (i) modified LENT-SOMA scales for GI symptoms, (ii) EORTC QLQ-C30 and EORTC QLQ-PR25 questionnaires for generic and disease specific HRQoL, (iii) anorectal manometry and terminal motor latency for anorectal and pudendal nerve function and (iv) endorectal ultrasound for anal sphincter morphology. GI symptoms, parameters of HRQoL, anorectal and pudendal nerve function and anal sphincter morphology were compared using Mann-Whitney's U, unpaired t and χ 2 tests., Results: Impairment of HRQoL bowel symptoms in the patients ≥2 years after 3D-CRT ± HDR brachytherapy was associated with worse anorectal motor and sensory function, internal and external anal sphincter morphology and 5× greater prevalence of pudendal nerve dysfunction compared with age matched patients before radiotherapy. Symptomatic patients had worse (i) HRQoL measures including global quality of life and bowel and urinary symptom scores, (ii) rectal bleeding, fecal urgency and incontinence scores and (iii) a 2× higher prevalence of pudendal nerve dysfunction compared with asymptomatic patients. Rectal and anal (i) V 40 Gy >65%, (ii) Dmax >60 Gy, (iii) pudendal nerve Dmax >60 Gy and (iv) Anal V 60 Gy >40% were associated with a greater prevalence of pudendal nerve dysfunction., Conclusions: 3D-CRT ± HDR brachytherapy for prostate carcinoma, impairs late functional measures including HRQoL, anorectal and pudendal nerve function. Rectal, anal and pudendal nerve radiation dose constraints are proposed for reducing the prevalence of pudendal nerve dysfunction.

Published

2018

72. Chronic constipation.

Author

Camilleri M, Ford AC, Mawe GM, Dinning PG, Rao SS, Chey WD, Simrén M, Lembo A, Young-Fadok TM, and Chang L

Subjects

Age Factors, Constipation physiopathology, Defecation, Defecography methods, Digital Rectal Examination methods, Humans, Laxatives therapeutic use, Rectal Diseases complications, Rectal Diseases diagnosis, Rectum abnormalities, Sex Factors, Constipation complications, Constipation etiology, Prevalence

Abstract

Chronic constipation is a prevalent condition that severely impacts the quality of life of those affected. Several types of primary chronic constipation, which show substantial overlap, have been described, including normal-transit constipation, rectal evacuation disorders and slow-transit constipation. Diagnosis of primary chronic constipation involves a multistep process initiated by the exclusion of 'alarm' features (for example, unintentional weight loss or rectal bleeding) that might indicate organic diseases (such as polyps or tumours) and a therapeutic trial with first-line treatments such as dietary changes, lifestyle modifications and over-the-counter laxatives. If symptoms do not improve, investigations to diagnose rectal evacuation disorders and slow-transit constipation are performed, such as digital rectal examination, anorectal structure and function testing (including the balloon expulsion test, anorectal manometry or defecography) or colonic transit tests (such as the radiopaque marker test, wireless motility capsule test, scintigraphy or colonic manometry). The mainstays of treatment are diet and lifestyle interventions, pharmacological therapy and, rarely, surgery. This Primer provides an introduction to the epidemiology, pathophysiological mechanisms, diagnosis, management and quality of life associated with the commonly encountered clinical problem of chronic constipation in adults unrelated to opioid abuse.

Published

2017

73. New insights into neurogenic cyclic motor activity in the isolated guinea-pig colon.

Author

Costa M, Wiklendt L, Keightley L, Brookes SJH, Dinning PG, and Spencer NJ

Subjects

Animals, Guinea Pigs, Manometry, Muscle Contraction physiology, Muscle, Smooth physiology, Colon physiology, Myoelectric Complex, Migrating physiology

Abstract

Background: The contents of the guinea pig distal colon consist of multiple pellets that move anally in a coordinated manner. This row of pellets results in continued distention of the colon. In this study, we have investigated quantitatively the features of the neurally dependent colonic motor patterns that are evoked by constant distension of the full length of guinea-pig colon., Methods: Constant distension was applied to the excised guinea-pig by high-resolution manometry catheters or by a series of hooks., Key Results: Constant distension elicited regular Cyclic Motor Complexes (CMCs) that originated at multiple different sites along the colon and propagated in an oral or anal direction extending distances of 18.3±10.3 cm. CMCs were blocked by tetrodotoxin (TTX; 0.6 μ mol L -1 ), hexamethonium (100 μ mol L -1 ) or hyoscine (1 μ mol L -1 ). Application of TTX in a localized compartment or cutting the gut circumferentially disrupted the spatial continuity of CMCs. Localized smooth muscle contraction was not required for CMC propagation. Shortening the length of the preparations or disruption of circumferential pathways reduced the integrity and continuity of CMCs., Conclusions & Inferences: CMCs are a distinctive neurally dependent cyclic motor pattern, that emerge with distension over long lengths of the distal colon. They do not require changes in muscle tension or contractility to entrain the neural activity underlying CMC propagation. CMCs are likely to play an important role interacting with the neuromechanical processes that time the propulsion of multiple natural pellets and may be particularly relevant in conditions of impaction or obstruction, where long segments of colon are simultaneously distended., (© 2017 John Wiley & Sons Ltd.)

Published

2017

74. The "rectosigmoid brake": Review of an emerging neuromodulation target for colorectal functional disorders.

Author

Lin AY, Dinning PG, Milne T, Bissett IP, and O'Grady G

Subjects

Animals, Humans, Intestinal Diseases therapy, Colon physiopathology, Gastrointestinal Motility, Intestinal Diseases physiopathology, Nervous System physiopathology, Rectum physiopathology

Abstract

The regulation of gastrointestinal motility encompasses several overlapping mechanisms including highly regulated and coordinated neurohormonal circuits. Various feedback mechanisms or "brakes" have been proposed. While duodenal, jejunal, and ileal brakes are well described, a putative distal colonic brake is less well defined. Despite the high prevalence of colonic motility disorders, there is little knowledge of colonic motility owing to difficulties with organ access and technical difficulties in recording detailed motor patterns along its entire length. The motility of the colon is not under voluntary control. A wide range of motor patterns is seen, with long intervals of intestinal quiescence between them. In addition, the use of traditional manometric catheters to record contractile activity of the colon has been limited by the low number of widely spaced sensors, which has resulted in the misinterpretation of colonic motor patterns. The recent advent of high-resolution (HR) manometry is revolutionising the understanding of gastrointestinal motor patterns. It has now been observed that the most common motor patterns in the colon are repetitive two to six cycles per minute (cpm) propagating events in the distal colon. These motor patterns are prominent soon after a meal, originate most frequently in the rectosigmoid region, and travel in the retrograde direction. The distal prominence and the origin of these motor patterns raise the possibility of them serving as a braking mechanism, or the "rectosigmoid brake," to limit rectal filling. This review aims to describe what is known about the "rectosigmoid brake," including its physiological and clinical significance and potential therapeutic applications., (© 2017 John Wiley & Sons Australia, Ltd.)

Published

2017

75. High-resolution anatomic correlation of cyclic motor patterns in the human colon: Evidence of a rectosigmoid brake.

Author

Lin AY, Du P, Dinning PG, Arkwright JW, Kamp JP, Cheng LK, Bissett IP, and O'Grady G

Subjects

Adult, Aged, Female, Humans, Image Enhancement methods, Imaging, Three-Dimensional methods, Male, Manometry methods, Middle Aged, Biological Clocks physiology, Colon anatomy & histology, Colon physiology, Gastrointestinal Motility physiology, Rectum anatomy & histology, Rectum physiology

Abstract

Colonic cyclic motor patterns (CMPs) have been hypothesized to act as a brake to limit rectal filling. However, the spatiotemporal profile of CMPs, including anatomic origins and distributions, remains unclear. This study characterized colonic CMPs using high-resolution (HR) manometry (72 sensors, 1-cm resolution) and their relationship with proximal antegrade propagating events. Nine healthy volunteers were recruited. Recordings were performed over 4 h, with a 700-kcal meal given after 2 h. Propagating events were visually identified and analyzed by pattern, origin, amplitude, extent of propagation, velocity, and duration. Manometric data were normalized using anatomic landmarks identified on abdominal radiographs. These were mapped over a three-dimensional anatomic model. CMPs comprised a majority of detected propagating events. Most occurred postprandially and were retrograde propagating events (84.9 ± 26.0 retrograde vs. 14.3 ± 11.8 antegrade events/2 h, P = 0.004). The dominant sites of initiation for retrograde CMPs were in the rectosigmoid region, with patterns proximally propagating by a mean distance of 12.4 ± 0.3 cm. There were significant differences in the characteristics of CMPs depending on the direction of travel and site of initiation. Association analysis showed that proximal antegrade propagating events occurred independently of CMPs. This study accurately characterized CMPs with anatomic correlation. CMPs were unlikely to be triggered by proximal antegrade propagating events in our study context. However, the distal origin and prominence of retrograde CMPs could still act as a mechanism to limit rectal filling and support the theory of a "rectosigmoid brake." NEW & NOTEWORTHY Retrograde cyclic motor patterns (CMPs) are the dominant motor patterns in a healthy prepared human colon. The major sites of initiation are in the rectosigmoid region, with retrograde propagation, supporting the idea of a "rectosigmoid brake." A significant increase in the number of CMPs is seen after a meal. In our study context, the majority of CMPs occurred independent of proximal propagating events, suggesting that CMPs are primarily controlled by external innervation., (Copyright © 2017 the American Physiological Society.)

Published

2017

76. Urinary p75 ECD : A prognostic, disease progression, and pharmacodynamic biomarker in ALS.

Author

Shepheard SR, Wuu J, Cardoso M, Wiklendt L, Dinning PG, Chataway T, Schultz D, Benatar M, and Rogers ML

Subjects

Adult, Aged, Aged, 80 and over, Cohort Studies, Creatinine metabolism, Enzyme-Linked Immunosorbent Assay, Female, Humans, Male, Middle Aged, Proportional Hazards Models, Receptors, Nerve Growth Factor, Reproducibility of Results, Amyotrophic Lateral Sclerosis diagnosis, Amyotrophic Lateral Sclerosis physiopathology, Amyotrophic Lateral Sclerosis urine, Biomarkers urine, Disease Progression, Nerve Tissue Proteins urine

Abstract

Objective: To evaluate urinary neurotrophin receptor p75 extracellular domain (p75 ECD ) levels as disease progression and prognostic biomarkers in amyotrophic lateral sclerosis (ALS)., Methods: The population in this study comprised 45 healthy controls and 54 people with ALS, 31 of whom were sampled longitudinally. Urinary p75 ECD was measured using an enzyme-linked immunoassay and validation included intra-assay and inter-assay coefficients of variation, effect of circadian rhythm, and stability over time at room temperature, 4°C, and repeated freeze-thaw cycles. Longitudinal changes in urinary p75 ECD were examined by mixed model analysis, and the prognostic value of baseline p75 ECD was explored by survival analysis., Results: Confirming our previous findings, p75 ECD was higher in patients with ALS (5.6 ± 2.2 ng/mg creatinine) compared to controls (3.6 ± 1.4 ng/mg creatinine, p < 0.0001). Assay reproducibility was high, with p75 ECD showing stability across repeated freeze-thaw cycles, at room temperature and 4°C for 2 days, and no diurnal variation. Urinary p75 ECD correlated with the revised ALS Functional Rating Scale at first evaluation ( r = -0.44, p = 0.008) and across all study visits ( r = -0.36, p < 0.0001). p75 ECD also increased as disease progressed at an average rate of 0.19 ng/mg creatinine per month ( p < 0.0001). In multivariate prognostic analysis, bulbar onset (hazard ratio [HR] 3.0, p = 0.0035), rate of disease progression from onset to baseline (HR 4.4, p < 0.0001), and baseline p75 ECD (HR 1.3, p = 0.0004) were predictors of survival., Conclusions: The assay for urinary p75 ECD is analytically robust and shows promise as an ALS biomarker with prognostic, disease progression, and potential pharmacodynamic application. Baseline urinary p75 ECD provides prognostic information and is currently the only biological fluid-based biomarker of disease progression., (Copyright © 2017 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2017

77. High-resolution colonic motility recordings in vivo compared with ex vivo recordings after colectomy, in patients with slow transit constipation.

Author

Dinning PG, Sia TC, Kumar R, Mohd Rosli R, Kyloh M, Wattchow DA, Wiklendt L, Brookes SJ, Costa M, and Spencer NJ

Subjects

Adult, Aged, Aged, 80 and over, Constipation diagnosis, Female, Gastrointestinal Transit physiology, Humans, Male, Manometry trends, Middle Aged, Muscle, Smooth physiopathology, Organ Culture Techniques, Colectomy trends, Constipation physiopathology, Constipation surgery, Gastrointestinal Motility physiology, Manometry methods

Abstract

Background: The pathogenesis of slow transit constipation (STC) remains poorly understood, with intrinsic and extrinsic abnormalities implicated. Here, we present high-resolution colonic manometry recordings from four STC patients recorded before total colectomy, and subsequently, ex vivo, after excision., Methods: In four female, treatment-resistant STC patients (median age 35.5 years), a fiber-optic manometry catheter (72 sensors spaced at 1 cm intervals) was placed with the aid of a colonoscope, to the mid-transverse colon. Colonic manometry was recorded 2 h before and after a meal. After the colectomy, ex vivo colonic manometry was recorded in an organ bath. Ex vivo recordings were also made from colons from 4 patients (2 male; median age 67.5 years) undergoing anterior resection for nonobstructive carcinoma ('control' tissue)., Key Results: A large increase in 'short single propagating contractions' was recorded in STC colon ex vivo compared to in vivo (ex vivo 61.3 ± 32.7 vs in vivo 2.5 ± 5/h). In STC patients, in vivo, the dominant frequency of contractile activity was 2-3 cycle per minute (cpm), whereas 1-cpm short-single propagating contractions dominated ex vivo. This same 1-cpm frequency was also dominant in control colons ex vivo., Conclusions & Inferences: In comparison to control adults, the colon of STC patients demonstrates significantly less propagating motor activity. However, once the STC colon is excised from the body it demonstrates a regular and similar frequency of propagating activity to control tissue. This paper provides interesting insights into the control of colonic motor patterns., (© 2016 John Wiley & Sons Ltd.)

Published

2016

78. Sacral Nerve Stimulation Fails to Offer Long-term Benefit in Patients With Slow-Transit Constipation.

Author

Patton V, Stewart P, Lubowski DZ, Cook IJ, and Dinning PG

Subjects

Adolescent, Adult, Aged, Constipation physiopathology, Cross-Over Studies, Double-Blind Method, Female, Follow-Up Studies, Humans, Male, Middle Aged, Treatment Outcome, Young Adult, Constipation therapy, Electric Stimulation Therapy methods, Gastrointestinal Transit, Lumbosacral Plexus

Abstract

Background: Sacral nerve stimulation is proposed as a treatment for slow-transit constipation. However, in our randomized controlled trial we found no therapeutic benefit over sham stimulation. These patients have now been followed-up over a long-term period., Objective: The purpose of this study was to assess the long-term efficacy of sacral nerve stimulation in patients with scintigraphically confirmed slow-transit constipation., Design: This study was designed for long-term follow-up of patients after completion of a randomized controlled trial., Settings: It was conducted at an academic tertiary public hospital in Sydney., Patients: Adults with slow-transit constipation were included., Main Outcome Measures: At the 1- and 2-year postrandomized controlled trial, the primary treatment outcome measure was the proportion of patients who reported a feeling of complete evacuation on >2 days per week for ≥2 of 3 weeks during stool diary assessment. Secondary outcome was demonstration of improved colonic transit at 1 year., Results: Fifty-three patients entered long-term follow-up, and 1 patient died. Patient dissatisfaction or serious adverse events resulted in 44 patients withdrawing from the study because of treatment failure by the end of the second year. At 1 and 2 years, 10 (OR = 18.8% (95% CI, 8.3% to 29.3%)) and 3 patients (OR = 5.7% (95% CI, -0.5% to 11.9%)) met the primary outcome measure. Colonic isotope retention at 72 hours did not differ between baseline (OR = 75.6% (95% CI, 65.7%-85.6%)) and 1-year follow-up (OR = 61.7% (95% CI, 47.8%-75.6%))., Limitations: This study only assessed patients with slow-transit constipation., Conclusions: In these patients with slow-transit constipation, sacral nerve stimulation was not an effective treatment.

Published

2016

79. Insights into the mechanisms underlying colonic motor patterns.

Author

Spencer NJ, Dinning PG, Brookes SJ, and Costa M

Subjects

Animals, Humans, Motor Activity physiology, Motor Neurons physiology, Colon physiology, Gastrointestinal Motility physiology

Abstract

In recent years there have been significant technical and methodological advances in our ability to record the movements of the gastrointestinal tract. This has led to significant changes in our understanding of the different types of motor patterns that exist in the gastrointestinal tract (particularly the large intestine) and in our understanding of the mechanisms underlying their generation. Compared with other tubular smooth muscle organs, a rich variety of motor patterns occurs in the large intestine. This reflects a relatively autonomous nervous system in the gut wall, which has its own unique population of sensory neurons. Although the enteric nervous system can function independently of central neural inputs, under physiological conditions bowel motility is influenced by the CNS: if spinal pathways are disrupted, deficits in motility occur. The combination of high resolution manometry and video imaging has improved our knowledge of the range of motor patterns and provided some insight into the neural and mechanical factors underlying propulsion of contents. The neural circuits responsible for the generation of peristalsis and colonic migrating motor complexes have now been identified to lie within the myenteric plexus and do not require inputs from the mucosa or submucosal ganglia for their generation, but can be modified by their activity. This review will discuss the recent advances in our understanding of the different patterns of propagating motor activity in the large intestine of mammals and how latest technologies have led to major changes in our understanding of the mechanisms underlying their generation., (© 2016 The Authors. The Journal of Physiology © 2016 The Physiological Society.)

Published

2016

80. Characterizing colonic motility in children with chronic intractable constipation: a look beyond high-amplitude propagating sequences.

Author

Wessel S, Koppen IJ, Wiklendt L, Costa M, Benninga MA, and Dinning PG

Subjects

Adolescent, Catheters, Child, Child, Preschool, Chronic Disease, Female, Humans, Male, Manometry instrumentation, Colon diagnostic imaging, Colon physiopathology, Constipation diagnostic imaging, Constipation physiopathology, Gastrointestinal Motility physiology, Manometry methods

Abstract

Background: Children with chronic intractable constipation experience severe and long-lasting symptoms, which respond poorly to conventional therapeutic strategies. Detailed characterization of colonic motor patterns in such children has not yet been obtained., Methods: In 18 children with chronic intractable constipation, a high-resolution water-perfused manometry catheter (36 sensors at 1.5-cm intervals) was colonoscopically placed with the tip at the distal transverse colon. Colonic motor patterns were recorded for 2 h prior to and after a meal and then after colonic infusion of bisacodyl. These data were compared with previously published colonic manometry data from 12 healthy adult controls and 14 adults with slow-transit constipation., Key Results: The postprandial number of the retrograde cyclic propagating motor pattern was significantly reduced in these children compared with healthy adults (children, 3.1 ± 4.7/h vs healthy adults, 34.7 ± 45.8/h; p < 0.0001) but not constipated adults (4.5 ± 5.6/h; p = 0.9). The number of preprandial long-single motor patterns was significantly higher (p = 0.003) in children (8.0 ± 13.2/h) than in healthy adults (0.4 ± 0.9/h) and in constipated adults (0.4 ± 0.7/h). Postprandial high-amplitude propagating sequences (HAPSs) were rarely observed in children (2/18), but HAPS could be induced by bisacodyl in 16 of 18 children., Conclusions & Inferences: Children with chronic intractable constipation show a similar impaired postprandial colonic response to that seen in adults with slow-transit constipation. Children may have attenuated extrinsic parasympathetic inputs to the colon associated with an increased incidence of spontaneous long-single motor patterns., (© 2016 John Wiley & Sons Ltd.)

Published

2016

81. A composite fibre optic catheter for monitoring peristaltic transit of an intra-luminal bead.

Author

Arkwright JW, Underhill ID, Dodds KN, Brookes SJ, Costa M, Spencer NJ, and Dinning PG

Subjects

Animals, Iron chemistry, Iron metabolism, Rabbits, Catheters, Colon physiology, Gastrointestinal Motility, Microspheres, Optical Fibers

Abstract

A fibre optic motion sensor has been developed for monitoring the proximity and direction of motion of a ferrous bead travelling axial to the sensor. By integrating an array of these sensors into our previously developed fibre optic manometry catheters we demonstrate simultaneous detection of peristaltic muscular activity and the associated motion of ferrous beads through a colonic lumen. This allows the motion of solid content to be temporally and spatially related to pressure variations generated by peristaltic contractions without resorting to videoflouroscopy to track the motion of a radio opaque bolus. The composite catheter has been tested in an in-vitro animal preparation consisting of excised sections of rabbit colon. Cut-away image of the fibre optic motion sensor showing the location of the fibre Bragg gratings and the rare earth magnet., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

82. Restoration of normal colonic motor patterns and meal responses after distal colorectal resection.

Author

Vather R, O'Grady G, Arkwright JW, Rowbotham DS, Cheng LK, Dinning PG, and Bissett IP

Subjects

Adolescent, Adult, Aged, Colonoscopy, Colorectal Neoplasms physiopathology, Female, Humans, Male, Manometry, Middle Aged, Pressure, Prognosis, Young Adult, Colectomy, Colon physiology, Colorectal Neoplasms surgery, Gastrointestinal Motility physiology, Recovery of Function physiology

Abstract

Background: Colorectal resections alter colonic motility, including disruption of control by neural or bioelectrical cell networks. The long-term impact of surgical resections and anastomoses on colonic motor patterns has, however, never been assessed accurately. Fibreoptic high-resolution colonic manometry was employed to define motility in patients who had undergone distal colorectal resection., Methods: Recruited patients had undergone distal colorectal resections more than 12 months previously, and had normal bowel function. Manometry was performed in the distal colon (36 sensors; 1-cm intervals), with 2-h recordings taken before and after a meal, with comparison to controls. Analysis quantified all propagating events and frequencies (cyclical, short single, and long single motor patterns), including across anastomoses., Results: Fifteen patients and 12 controls were recruited into the study. Coordinated propagating events directly traversed the healed anastomoses in nine of 12 patients with available data, including antegrade and retrograde cyclical, short single and long single patterns. Dominant frequencies in the distal colon were similar in patients and controls (2-3 cycles/min) (antegrade P = 0·482; retrograde P = 0·178). Compared with values before the meal, the mean(s.d.) number of dominant cyclical retrograde motor patterns increased in patients after the meal (2·1(2·7) versus 32·6(31·8) in 2 h respectively; P < 0·001), similar to controls (P = 0·178), although the extent of propagation was 41 per cent shorter in patients, by a mean of 3·4 cm (P = 0·003). Short and long single propagating motor patterns were comparable between groups in terms of frequency, velocity, extent and amplitude., Conclusion: Motility patterns and meal responses are restored after distal colorectal resection in patients with normal bowel function. Coordinated propagation across healed anastomoses may indicate regeneration of underlying cellular networks., (© 2016 BJS Society Ltd Published by John Wiley & Sons Ltd.)

Published

2016

83. Characterization of Esophageal Physiology Using Mechanical State Analysis.

Author

Leibbrandt RE, Dinning PG, Costa M, Cock C, Wiklendt L, Wang G, Tack J, van Beckevoort D, Rommel N, and Omari TI

Abstract

The esophagus functions to transport swallowed fluids and food from the pharynx to the stomach. The esophageal muscles governing bolus transport comprise circular striated muscle of the proximal esophagus and circular smooth muscle of the distal esophagus. Longitudinal smooth muscle contraction provides a mechanical advantage to bolus transit during circular smooth muscle contraction. Esophageal striated muscle is directly controlled by neural circuits originating in the central nervous system, resulting in coordinated contractions. In contrast, the esophageal smooth muscle is controlled by enteric circuits modulated by extrinsic central neural connections resulting in neural relaxation and contraction. The esophageal muscles are modulated by sensory information arising from within the lumen. Contraction or relaxation, which changes the diameter of the lumen, alters the intraluminal pressure and ultimately inhibits or promotes flow of content. This relationship that exists between the changes in diameter and concurrent changes in intraluminal pressure has been used previously to identify the "mechanical states" of the circular muscle; that is when the muscles are passively or actively, relaxing or contracting. Detecting these changes in the mechanical state of the muscle has been difficult and as the current interpretation of esophageal motility is based largely upon pressure measurement (manometry), subtle changes in the muscle function during peristalsis can be missed. We hypothesized that quantification of mechanical states of the esophageal circular muscles and the pressure-diameter properties that define them, would allow objective characterization of the mechanisms that govern esophageal peristalsis. To achieve this we analyzed barium swallows captured by simultaneous videofluoroscopy and pressure with impedance recording. From these data we demonstrated that intraluminal impedance measurements could be used to determine changes in the internal diameter of the lumen comparable with measurements from videofluoroscopy. Our data indicated that identification of mechanical state of esophageal muscle was simple to apply and revealed patterns consistent with the known neural inputs activating the different muscles during swallowing.

Published

2016

84. Recording In Vivo Human Colonic Motility: What Have We Learnt Over the Past 100 Years?

Author

Dinning PG

Subjects

Humans, Muscle Contraction physiology, Colon physiology, Gastrointestinal Motility physiology, Manometry

Abstract

To understand the abnormalities that underpin functional gut disorders we must first gain insight into the normal patterns of gut motility. While detailed information continually builds on the motor patterns (and mechanisms that control them) of the human esophagus and anorectum, our knowledge of normal and abnormal motility in the more inaccessible regions of the gut remains poor. This particularly true of the human colon. Investigation of in vivo colonic motor patterns is achieved through measures of transit (radiology, scintigraphy and, more recently, "smart pills") or by direct real-time recording of colonic contractility (intraluminal manometry). This short review will provide an overview of findings from the past and present and attempt to piece together the complex nature of colonic motor patterns. In doing so it will build a profile of human colonic motility and determine the likely mechanisms that control this motility.

Published

2016

85. Colonic and anorectal motility testing in the high-resolution era.

Author

Dinning PG, Carrington EV, and Scott SM

Subjects

Colonic Diseases, Functional diagnosis, Gastrointestinal Motility, Humans, Manometry methods, Reproducibility of Results, Anal Canal pathology, Colon pathology, Colonic Diseases, Functional physiopathology, Manometry instrumentation, Rectal Diseases physiopathology, Rectum pathology

Abstract

Purpose of Review: The past few years have seen an increase in the number of research and clinical groups around the world using high-resolution manometry (HRM) to record contractile activity in the anorectum and colon. Yet despite the uptake and growing number of publications, the clinical utility and potential advantages over traditional manometry remain undetermined., Recent Findings: Nearly all of the publications in the field of anorectal and colonic HRM have been published within the last 3 years. These studies have included some data on normal ranges in healthy adults, and abnormalities in patient groups with constipation or fecal incontinence, anal fissure, perineal descent, rectal cancer, and Hirschsprung's disease. Most of the studies have been conducted on adults, with only three published studies in pediatric populations. Very few studies have attempted to show advantages of HRM over traditional manometry, Summary: High-resolution anorectal and colonic manometry provide a more comprehensive characterization of motility patterns and coordinated activity; this may help to improve our understanding of the normal physiology and pathophysiology in these regions. To date, however, no published study has conclusively demonstrated a clinical, diagnostic, or interventional advantage over conventional manometry.

Published

2016

86. Childhood constipation: finally something is moving!

Author

Koppen IJ, Di Lorenzo C, Saps M, Dinning PG, Yacob D, Levitt MA, and Benninga MA

Subjects

Anal Canal physiopathology, Cathartics therapeutic use, Chenodeoxycholic Acid therapeutic use, Child, Chloride Channel Agonists therapeutic use, Colon physiopathology, Constipation surgery, Dietary Fiber administration & dosage, Dipeptides therapeutic use, Electrodes, Implanted, Gastrointestinal Transit, Humans, Lubiprostone therapeutic use, Manometry, Medical History Taking, Peptides therapeutic use, Physical Examination, Receptors, Ghrelin agonists, Rectum physiopathology, Serotonin Agents therapeutic use, Therapeutic Irrigation, Thiazepines therapeutic use, Transcutaneous Electric Nerve Stimulation, Constipation physiopathology, Constipation therapy, Dietary Supplements

Abstract

Recent developments in the evaluation and treatment of childhood constipation are likely to influence the way we deal with pediatric defecation disorders in the near future. Innovations in both colonic and anorectal manometry are leading to novel insights into functional defecation disorders in children. Promising results have been achieved with innovative therapies such as electrical stimulation and new drugs with targets that differ from conventional pharmacological treatments. Also, new surgical approaches, guided by manometric findings, have led to improvement in patient outcome. Finally, utilization of non-pharmacological interventions such as fiber and probiotics has been a field of particular interest in recent years. The aim of this article is to provide an update on these and other novel diagnostic and therapeutic tools related to childhood constipation.

Published

2016

87. The use of colonic and anorectal high-resolution manometry and its place in clinical work and in research.

Author

Dinning PG, Carrington EV, and Scott SM

Subjects

Gastroenterology methods, Humans, Gastrointestinal Diseases diagnosis, Manometry methods

Abstract

Background: In the esophagus, high-resolution manometry (HRM) has become a standard diagnostic tool in the investigation of suspected motility disorders. However, at the opposite end of the digestive tract (i.e., the colon and anorectum), the use of HRM still remains in its infancy, with relatively few published studies in the scientific literature. Further, the clinical utility of those studies that have been performed is largely undetermined., Purpose: This review assesses all of the HRM studies published to date from both the colon and anorectum, explores the catheter types used, and attempts to determine the worth of HRM over traditional 'low-resolution' recordings from the same regions. Ultimately, this review addresses whether HRM currently provides information that will benefit patient diagnosis and treatment., (© 2015 John Wiley & Sons Ltd.)

Published

2015

88. Neuromechanical factors involved in the formation and propulsion of fecal pellets in the guinea-pig colon.

Author

Costa M, Wiklendt L, Simpson P, Spencer NJ, Brookes SJ, and Dinning PG

Subjects

Animals, Female, Guinea Pigs, Male, Colon physiology, Feces, Gastrointestinal Transit physiology, Myoelectric Complex, Migrating physiology, Peristalsis physiology

Abstract

Background: The neuromechanical processes involved in the formation and propulsion of fecal pellets remain incompletely understood., Methods: We analyzed motor patterns in isolated segments of the guinea-pig proximal and distal colon, using video imaging, during oral infusion of liquid, viscous material, or solid pellets., Key Results: Colonic migrating motor complexes (CMMCs) in the proximal colon divided liquid or natural semisolid contents into elongated shallow boluses. At the colonic flexure these boluses were formed into shorter, pellet-shaped boluses. In the non-distended distal colon, spontaneous CMMCs produced small dilations. Both high- and low-viscosity infusions evoked a distinct motor pattern that produced pellet-shaped boluses. These were propelled at speeds proportional to their surface area. Solid pellets were propelled at a speed that increased with diameter, to a maximum that matched the diameter of natural pellets. Pellet speed was reduced by increasing resistive load. Tetrodotoxin blocked all propulsion. Hexamethonium blocked normal motor patterns, leaving irregular propagating contractions, indicating the existence of neural pathways that did not require nicotinic transmission., Conclusions & Inferences: Colonic migrating motor complexes are responsible for the slow propulsion of the soft fecal content in the proximal colon, while the formation of pellets at the colonic flexure involves a content-dependent mechanism in combination with content-independent spontaneous CMMCs. Bolus size and consistency affects propulsion speed suggesting that propulsion is not a simple reflex but rather a more complex process involving an adaptable neuromechanical loop., (© 2015 John Wiley & Sons Ltd.)

Published

2015

89. Activation of intestinal spinal afferent endings by changes in intra-mesenteric arterial pressure.

Author

Humenick A, Chen BN, Wiklendt L, Spencer NJ, Zagorodnyuk VP, Dinning PG, Costa M, and Brookes SJ

Subjects

Animals, Arterial Pressure drug effects, Axons physiology, Capsaicin pharmacology, Female, Gastrointestinal Motility drug effects, Gastrointestinal Motility physiology, Guinea Pigs, Hot Temperature, Male, Phenylephrine pharmacology, Sensory System Agents pharmacology, Sodium Channel Blockers pharmacology, Spinal Cord physiology, Tetrodotoxin pharmacology, Vasoconstrictor Agents pharmacology, Mesenteric Arteries physiology, Neurons, Afferent physiology

Abstract

Key Points: A major class of mechano-nociceptors to the intestine have mechanotransduction sites on extramural and intramural arteries and arterioles ('vascular afferents'). These sensory neurons can be activated by compression or axial stretch of vessels. Using isolated preparations we showed that increasing intra-arterial pressure, within the physiological range, activated mechano-nociceptors on vessels in intact mesenteric arcades, but not in isolated arteries. This suggests that distortion of the branching vascular tree is the mechanical adequate stimulus for these sensory neurons, rather than simple distension. The same rises in pressure also activated intestinal peristalsis in a partially capsaicin-sensitive manner indicating that pressure-sensitive vascular afferents influence enteric circuits. The results identify the mechanical adequate stimulus for a major class of mechano-nociceptors with endings on blood vessels supplying the gut wall; these afferents have similar endings to ones supplying other viscera, striated muscle and dural vessels., Abstract: Spinal sensory neurons innervate many large blood vessels throughout the body. Their activation causes the hallmarks of neurogenic inflammation: vasodilatation through the release of the neuropeptide calcitonin gene-related peptide and plasma extravasation via tachykinins. The same vasodilator afferent neurons show mechanical sensitivity, responding to crushing, compression or axial stretch of blood vessels - responses which activate pain pathways and which can be modified by cell damage and inflammation. In the present study, we tested whether spinal afferent axons ending on branching mesenteric arteries ('vascular afferents') are sensitive to increased intravascular pressure. From a holding pressure of 5 mmHg, distension to 20, 40, 60 or 80 mmHg caused graded, slowly adapting increases in firing of vascular afferents. Many of the same afferent units showed responses to axial stretch, which summed with responses evoked by raised pressure. Many vascular afferents were also sensitive to raised temperature, capsaicin and/or local compression with von Frey hairs. However, responses to raised pressure in single, isolated vessels were negligible, suggesting that the adequate stimulus is distortion of the arterial arcade rather than distension per se. Increasing arterial pressure often triggered peristaltic contractions in the neighbouring segment of intestine, an effect that was mimicked by acute exposure to capsaicin (1 μm) and which was reduced after desensitisation to capsaicin. These results indicate that sensory fibres with perivascular endings are sensitive to pressure-induced distortion of branched arteries, in addition to compression and axial stretch, and that they contribute functional inputs to enteric motor circuits., (© 2015 The Authors. The Journal of Physiology © 2015 The Physiological Society.)

Published

2015

90. Pudendal nerve injury in men with fecal incontinence after radiotherapy for prostate cancer.

Author

Loganathan A, Schloithe AC, Hutton J, Yeoh EK, Fraser R, Dinning PG, and Wattchow D

Subjects

Aged, Aged, 80 and over, Anal Canal physiopathology, Fecal Incontinence physiopathology, Humans, Male, Manometry, Middle Aged, Pudendal Nerve injuries, Pudendal Nerve physiopathology, Radiation Injuries physiopathology, Radiotherapy adverse effects, Radiotherapy Dosage, Reaction Time, Rectum physiopathology, Sensation, Carcinoma radiotherapy, Fecal Incontinence etiology, Prostatic Neoplasms radiotherapy, Pudendal Nerve radiation effects, Radiation Injuries etiology

Abstract

Background: The precise etiology of fecal incontinence (FI), which occurs frequently following external beam radiotherapy (EBRT) for prostate carcinoma is unknown. It is possibly related to pelvic nerve injury. The aim of this study was to assess the incidence of pudendal nerve dysfunction in men with FI after EBRT for prostate cancer compared to men with FI but no history of EBRT., Material and Methods: Data were evaluated from 74 men with intact anal sphincters on endo-anal ultrasound (17 post-EBRT) who had been investigated for FI at a tertiary center. Wexner incontinence scores, pudendal nerve function, anorectal manometry, and rectal sensitivity were compared between the two patient groups., Results: Post-radiotherapy patients were older (77±6 vs. 62±17 years, p<0.005) and had worse incontinence than those with no history of radiotherapy (Wexner score; 13±3 vs. 8±4; p<0.005). Bilateral pudendal nerve terminal motor latency (PNTML) was abnormal in 87% of radiotherapy versus 22% of non-radiotherapy patients (p<0.001) and the significant difference persisted even after correction for age differences. Anal sphincter pressures and rectal sensitivity for both groups were similar., Conclusion: There is a markedly higher incidence of pudendal nerve dysfunction in men with FI after EBRT for prostate cancer compared with men with FI from other etiologies. The increased severity of incontinence in radiotherapy patients is not matched by alterations in either anal sphincter pressures or rectal sensitivity compared to FI in non-ERBT patients.

Published

2015

91. Treatment efficacy of sacral nerve stimulation in slow transit constipation: a two-phase, double-blind randomized controlled crossover study.

Author

Dinning PG, Hunt L, Patton V, Zhang T, Szczesniak M, Gebski V, Jones M, Stewart P, Lubowski DZ, and Cook IJ

Subjects

Adult, Aged, Cross-Over Studies, Defecation, Double-Blind Method, Electric Stimulation Therapy adverse effects, Female, Gastrointestinal Transit, Humans, Implantable Neurostimulators, Lumbosacral Plexus, Male, Middle Aged, Prospective Studies, Quality of Life, Sensory Thresholds, Young Adult, Constipation physiopathology, Constipation therapy, Electric Stimulation Therapy methods

Abstract

Objectives: Sacral nerve stimulation (SNS) is a potential treatment for constipation refractory to standard therapies. However, there have been no randomized controlled studies examining its efficacy. In patients with slow transit constipation, we evaluated the efficacy of suprasensory and subsensory SNS compared with sham, in a prospective, 18-week randomized, double-blind, placebo-controlled, two-phase crossover study. The primary outcome measure was the proportion of patients who, on more than 2 days/week for at least 2 of 3 weeks, reported a bowel movement associated with a feeling of complete evacuation., Methods: After 3 weeks of temporary peripheral nerve evaluation (PNE), all patients had permanent implantation and were randomized to subsensory/sham (3 weeks each) and then re-randomized to suprasensory/sham (3 weeks each) with a 2-week washout period between each arm. Daily stool dairies were kept, and quality of life (QoL; SF36) was measured at the end of each arm., Results: Between November 2006 and March 2012, 234 constipated patients were assessed, of whom 59 were willing and deemed eligible to participate (4 male; median age 42 years). Of the 59 patients, 16 (28%) responded to PNE. Fifty-five patients went on to permanent SNS implantation. The proportion of patients satisfying the primary outcome measure did not differ between suprasensory (30%) and sham (21%) stimulations, nor between subsensory (25%) and sham (25%) stimulations. There were no significant changes in QoL scores., Conclusions: In patients with refractory slow transit constipation, SNS did not improve the frequency of complete bowel movements over the 3-week active period.

Published

2015

92. Colonic motor abnormalities in slow transit constipation defined by high resolution, fibre-optic manometry.

Author

Dinning PG, Wiklendt L, Maslen L, Patton V, Lewis H, Arkwright JW, Wattchow DA, Lubowski DZ, Costa M, and Bampton PA

Subjects

Adult, Aged, Female, Fiber Optic Technology, Humans, Male, Middle Aged, Young Adult, Colon physiopathology, Constipation diagnosis, Gastrointestinal Transit, Manometry methods

Abstract

Background: Slow transit constipation (STC) is associated with colonic motor abnormalities. The underlying cause(s) of the abnormalities remain poorly defined. In health, utilizing high resolution fiber-optic manometry, we have described a distal colonic propagating motor pattern with a slow wave frequency of 2-6 cycles per minute (cpm). A high calorie meal caused a rapid and significant increase in this activity, suggesting the intrinsic slow wave activity could be mediated by extrinsic neural input. Utilizing the same protocol our aim was to characterize colonic meal response STC patients., Methods: A fiber-optic manometry catheter (72 sensors at 1 cm intervals) was colonoscopically placed with the tip clipped at the ascending or transverse colon, in 14 patients with scintigraphically confirmed STC. Manometric recordings were taken, for 2 h pre and post a 700 kCal meal. Data were compared to 12 healthy adults., Key Results: Prior to and/or after the meal the cyclic propagating motor pattern was identified in 13 of 14 patients. However, the meal, did not increase the cyclic motor pattern (preprandial 7.4 ± 7.6 vs postprandial 8.3 ± 4.5 per/2 h), this is in contrast to the dramatic increase observed in health (8.3 ± 13.3 vs 59.1 ± 89.0 per/2 h; p < 0.001)., Conclusions & Inferences: In patients with STC a meal fails to induce the normal increase in the distal colonic cyclic propagating motor patterns. We propose that these data may indicate that the normal extrinsic parasympathetic inputs to the colon are attenuated in these patients., (© 2015 John Wiley & Sons Ltd.)

Published

2015

93. Neurally mediated propagating discrete clustered contractions superimposed on myogenic ripples in ex vivo segments of human ileum.

Author

Kuizenga MH, Sia TC, Dodds KN, Wiklendt L, Arkwright JW, Thomas A, Brookes SJ, Spencer NJ, Wattchow DA, Dinning PG, and Costa M

Subjects

Aged, Aged, 80 and over, Anesthetics, Local pharmacology, Catheters, Enteric Nervous System drug effects, Female, Fiber Optic Technology, Humans, In Vitro Techniques, Lidocaine pharmacology, Male, Manometry instrumentation, Middle Aged, Muscle, Smooth drug effects, Pressure, Time Factors, Transducers, Pressure, Video Recording, Enteric Nervous System physiology, Gastrointestinal Motility drug effects, Ileum innervation, Muscle Contraction drug effects, Muscle, Smooth innervation

Abstract

Narrow muscle strips have been extensively used to study intestinal contractility. Larger specimens from laboratory animals have provided detailed understanding of mechanisms that underlie patterned intestinal motility. Despite progress in animal tissue, investigations of motor patterns in large, intact specimens of human gut ex vivo have been sparse. In this study, we tested whether neurally dependent motor patterns could be detected in isolated specimens of intact human ileum. Specimens (n = 14; 7-30 cm long) of terminal ileum were obtained with prior informed consent from patients undergoing colonic surgery for removal of carcinomas. Preparations were set up in an organ bath with an array of force transducers, a fiberoptic manometry catheter, and a video camera. Spontaneous and distension-evoked motor activity was recorded, and the effects of lidocaine, which inhibits neural activity, were studied. Myogenic contractions (ripples) occurred in all preparations (6.17 ± 0.36/min). They were of low amplitude and formed complex patterns by colliding and propagating in both directions along the specimen at anterograde velocities of 4.1 ± 0.3 mm/s and retrogradely at 4.9 ± 0.6 mm/s. In five specimens, larger amplitude clusters of contractions were seen (discrete clustered contractions), which propagated aborally at 1.05 ± 0.13 mm/s and orally at 1.07 ± 0.09 mm/s. These consisted of two to eight phasic contractions that aligned with ripples. These motor patterns were abolished by addition of lidocaine (0.3 mM). The ripples continued unchanged in the presence of this neural blocking agent. These results demonstrate that both myogenic and neurogenic motor patterns can be studied in isolated specimens of human small intestine., (Copyright © 2015 the American Physiological Society.)

Published

2015

94. Quantification of in vivo colonic motor patterns in healthy humans before and after a meal revealed by high-resolution fiber-optic manometry.

Author

Dinning PG, Wiklendt L, Maslen L, Gibbins I, Patton V, Arkwright JW, Lubowski DZ, O'Grady G, Bampton PA, Brookes SJ, and Costa M

Subjects

Adult, Aged, Female, Fiber Optic Technology, Humans, Male, Middle Aged, Postprandial Period, Young Adult, Colon physiology, Gastrointestinal Motility, Manometry methods

Abstract

Background: Until recently, investigations of the normal patterns of motility of the healthy human colon have been limited by the resolution of in vivo recording techniques., Methods: We have used a new, high-resolution fiber-optic manometry system (72 sensors at 1-cm intervals) to record motor activity from colon in 10 healthy human subjects., Key Results: In the fasted colon, on the basis of rate and extent of propagation, four types of propagating motor pattern could be identified: (i) cyclic motor patterns (at 2-6/min); (ii) short single motor patterns; (iii) long single motor patterns; and (iv) occasional retrograde, slow motor patterns. For the most part, the cyclic and short single motor patterns propagated in a retrograde direction. Following a 700 kCal meal, a fifth motor pattern appeared; high-amplitude propagating sequences (HAPS) and there was large increase in retrograde cyclic motor patterns (5.6 ± 5.4/2 h vs 34.7 + 19.8/2 h; p < 0.001). The duration and amplitude of individual pressure events were significantly correlated. Discriminant and multivariate analysis of duration, gradient, and amplitude of the pressure events that made up propagating motor patterns distinguished clearly two types of pressure events: those belonging to HAPS and those belonging to all other propagating motor patterns., Conclusions & Inferences: This work provides the first comprehensive description of colonic motor patterns recorded by high-resolution manometry and demonstrates an abundance of retrograde propagating motor patterns. The propagating motor patterns appear to be generated by two independent sources, potentially indicating their neurogenic or myogenic origin., (© 2014 John Wiley & Sons Ltd.)

Published

2014

95. A systematic review of sacral nerve stimulation mechanisms in the treatment of fecal incontinence and constipation.

Author

Carrington EV, Evers J, Grossi U, Dinning PG, Scott SM, O'Connell PR, Jones JF, and Knowles CH

Subjects

Anal Canal physiopathology, Animals, Cerebral Cortex physiopathology, Colon physiopathology, Female, Gastrointestinal Motility, Humans, Male, Rectum physiopathology, Constipation therapy, Electric Stimulation Therapy, Fecal Incontinence therapy, Lumbosacral Plexus physiopathology

Abstract

Background: Sacral nerve stimulation (SNS) is now well established as a treatment for fecal incontinence (FI) resistant to conservative measures and may also have utility in the management of chronic constipation; however, mechanism of action is not fully understood. End organ effects of SNS have been studied in both clinical and experimental settings, but interpretation is difficult due to the multitude of techniques used and heterogeneity of reported findings. The aim of this study was to systematically review available evidence on the mechanisms of SNS in the treatment of FI and constipation., Methods: Two systematic reviews of the literature (performed in accordance with the Preferred Reporting Items for Systematic reviews and Meta-Analyses framework) were performed to identify manuscripts pertaining to (a) clinical and (b) physiological effects of SNS during the management of hindgut dysfunction., Key Results: The clinical literature search revealed 161 articles, of which 53 were deemed suitable for analysis. The experimental literature search revealed 43 articles, of which nine were deemed suitable for analysis. These studies reported results of investigative techniques examining changes in cortical, gastrointestinal, colonic, rectal, and anal function., Conclusions & Inferences: The initial hypothesis that the mechanism of SNS was primarily peripheral motor neurostimulation is not supported by the majority of recent studies. Due to the large body of evidence demonstrating effects outside of the anorectum, it appears likely that the influence of SNS on anorectal function occurs at a pelvic afferent or central level., (© 2014 John Wiley & Sons Ltd.)

Published

2014

96. Postoperative ileus: mechanisms and future directions for research.

Author

Vather R, O'Grady G, Bissett IP, and Dinning PG

Subjects

Abdomen innervation, Humans, Risk Factors, Terminology as Topic, Abdomen surgery, Biomedical Research trends, Ileus classification, Ileus etiology, Ileus prevention & control, Postoperative Complications classification, Postoperative Complications etiology, Postoperative Complications prevention & control

Abstract

Postoperative ileus (POI) is an abnormal pattern of gastrointestinal motility characterized by nausea, vomiting, abdominal distension and/or delayed passage of flatus or stool, which may occur following surgery. Postoperative ileus slows recovery, increases the risk of developing postoperative complications and confers a significant financial load on healthcare institutions. The aim of the present review is to provide a succinct overview of the clinical features and pathophysiological mechanisms of POI, with final comment on selected directions for future research.Terminology used when describing POI is inconsistent, with little differentiation made between the obligatory period of gut dysfunction seen after surgery ('normal POI') and the more clinically and pathologically significant entity of a 'prolonged POI'. Both normal and prolonged POI represent a fundamentally similar pathophysiological phenomenon. The aetiology of POI is postulated to be multifactorial, with principal mediators being inflammatory cell activation, autonomic dysfunction (both primarily and as part of the surgical stress response), agonism at gut opioid receptors, modulation of gastrointestinal hormone activity and electrolyte derangements. A final common pathway for these effectors is impaired contractility and motility and gut wall oedema. There are many potential directions for future research. In particular, there remains scope to accurately characterize the gastrointestinal dysfunction that underscores an ileus, development of an accurate risk stratification tool will facilitate early implementation of preventive measures and clinical appraisal of novel therapeutic strategies that target individual pathways in the pathogenesis of ileus warrant further investigation., (© 2014 Wiley Publishing Asia Pty Ltd.)

Published

2014

97. Neural mechanisms of peristalsis in the isolated rabbit distal colon: a neuromechanical loop hypothesis.

Author

Dinning PG, Wiklendt L, Omari T, Arkwright JW, Spencer NJ, Brookes SJ, and Costa M

Abstract

Propulsive contractions of circular muscle are largely responsible for the movements of content along the digestive tract. Mechanical and electrophysiological recordings of isolated colonic circular muscle have demonstrated that localized distension activates ascending and descending interneuronal pathways, evoking contraction orally and relaxation anally. These polarized enteric reflex pathways can theoretically be sequentially activated by the mechanical stimulation of the advancing contents. Here, we test the hypothesis that initiation and propagation of peristaltic contractions involves a neuromechanical loop; that is an initial gut distension activates local and oral reflex contraction and anal reflex relaxation, the subsequent movement of content then acts as new mechanical stimulus triggering sequentially reflex contractions/relaxations at each point of the gut resulting in a propulsive peristaltic contraction. In fluid filled isolated rabbit distal colon, we combined spatiotemporal mapping of gut diameter and intraluminal pressure with a new analytical method, allowing us to identify when and where active (neurally-driven) contraction or relaxation occurs. Our data indicate that gut dilation is associated with propagating peristaltic contractions, and that the associated level of dilation is greater than that preceding non-propagating contractions (2.7 ± 1.4 mm vs. 1.6 ± 1.2 mm; P < 0.0001). These propagating contractions lead to the formation of boluses that are propelled by oral active neurally driven contractions. The propelled boluses also activate neurally driven anal relaxations, in a diameter dependent manner. These data support the hypothesis that neural peristalsis is the consequence of the activation of a functional loop involving mechanical dilation which activates polarized enteric circuits. These produce propulsion of the bolus which activates further anally, polarized enteric circuits by distension, thus closing the neuromechanical loop.

Published

2014

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

Author

Wiklendt L, Costa M, and Dinning PG

Subjects

Animals, Muscle, Smooth physiology, Rabbits, Colon physiology, Gastrointestinal Motility physiology, Markov Chains

Abstract

Background: Contractions 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., Results: Utilising 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., Conclusions: The identification of mechanical muscles states based on gut diameter and intraluminal pressure was possible by modelling muscle activation with a hidden Markov model.

Published

2013

99. Peristalsis and propulsion of colonic content can occur after blockade of major neuroneuronal and neuromuscular transmitters in isolated guinea pig colon.

Author

Sia TC, Brookes SJ, Dinning PG, Wattchow DA, and Spencer NJ

Subjects

Animals, Drug Resistance physiology, Guinea Pigs, Neuromuscular Blocking Agents classification, Neuromuscular Blocking Agents pharmacology, Neuromuscular Junction physiology, Receptors, Muscarinic physiology, Receptors, Neurokinin-2 physiology, Receptors, Nicotinic physiology, Recovery of Function physiology, Spatio-Temporal Analysis, Synaptic Transmission physiology, Colon innervation, Colon physiopathology, Gastrointestinal Transit drug effects, Gastrointestinal Transit physiology, Hexamethonium pharmacology, Neuromuscular Junction drug effects, Peristalsis drug effects, Peristalsis physiology, Synaptic Transmission drug effects

Abstract

We recently identified hexamethonium-resistant peristalsis in the guinea pig colon. We showed that, following acute blockade of nicotinic receptors, peristalsis recovers, leading to normal propagation velocities of fecal pellets along the colon. This raises the fundamental question: what mechanisms underlie hexamethonium-resistant peristalsis? We investigated whether blockade of the major receptors that underlie excitatory neuromuscular transmission is required for hexamethonium-resistant peristalsis. Video imaging of colonic wall movements was used to make spatiotemporal maps and determine the velocity of peristalsis. Propagation of artificial fecal pellets in the guinea pig distal colon was studied in hexamethonium, atropine, ω-conotoxin (GVIA), ibodutant (MEN-15596), and TTX. Hexamethonium and ibodutant alone did not retard peristalsis. In contrast, ω-conotoxin abolished peristalsis in some preparations and reduced the velocity of propagation in all remaining specimens. Peristalsis could still occur in some animals in the presence of hexamethonium + atropine + ibodutant + ω-conotoxin. Peristalsis never occurred in the presence of TTX. The major finding of the current study is the unexpected observation that peristalsis can occur after blockade of the major excitatory neuroneuronal and neuromuscular transmitters. Also, the colon retained an intrinsic polarity in the presence of these antagonists and was only able to expel pellets in an aboral direction. The nature of the mechanism(s)/neurotransmitter(s) that generate(s) peristalsis and facilitate(s) natural fecal pellet propulsion, after blockade of major excitatory neurotransmitters, at the neuroneuronal and neuromuscular junction remains to be identified.

Published

2013

100. Neurogenic and myogenic motor activity in the colon of the guinea pig, mouse, rabbit, and rat.

Author

Costa M, Dodds KN, Wiklendt L, Spencer NJ, Brookes SJ, and Dinning PG

Subjects

Animals, Electrophysiological Phenomena, Female, Guinea Pigs, Male, Mice, Mice, Inbred C57BL, Rabbits, Rats, Rats, Sprague-Dawley, Species Specificity, Colon innervation, Colon physiology, Gastrointestinal Motility physiology, Motor Activity physiology

Abstract

Gastrointestinal motility involves interactions between myogenic and neurogenic processes intrinsic to the gut wall. We have compared the presence of propagating myogenic contractions of the isolated colon in four experimental animals (guinea pig, mouse, rabbit, and rat), following blockade of enteric neural activity. Isolated colonic preparations were distended with fluid, with the anal end either closed or open. Spatiotemporal maps of changes in diameter were constructed from video recordings. Distension-induced peristaltic contractions were abolished by tetrodotoxin (TTX; 0.6 μM) in all animal species. Subsequent addition of carbachol (0.1-1 μM) did not evoke myogenic motor patterns in the mouse or guinea pig, although some activity was observed in rabbit and rat colon. These myogenic contractions propagated both orally and anally and differed from neurogenic propagating contractions in their frequency, extent of propagation, and polarity. Niflumic acid (300 μM), used to block myogenic activity, also blocked neural peristalsis and thus cannot be used to discriminate between these mechanisms. In all species, except the mouse colon, small myogenic "ripple" contractions were revealed in TTX, but in both rat and rabbit an additional, higher-frequency ripple-type contraction was superimposed. Following blockade of enteric nerve function, a muscarinic agonist can evoke propulsive myogenic peristaltic contractions in isolated rabbit and rat colon, but not in guinea pig or mouse colon. Marked differences between species exist in the ability of myogenic mechanisms to propel luminal content, but in all species there is normally a complex interplay between neurogenic and myogenic processes.

Published

2013