Manometric responses of human duodenum during infusion of HCl,hyperosmolar saline,bile and oleic acid

Abstract Duodenal motor activity is incompletely understood. The purpose of this study was to define the contractile patterns of the duodenum that occur in response to rate controlled injection of various solutions. In nine healthy volunteers we placed a six channel perfused catheter, and recorded pressure activity in the antrum, pylorus and duodenum. Volumes of 10 and 20 mL of 0.9% NaCl, 100 mM HCl (pH 1), 5% NaCl (1711 mOsm/kg), human bile and iso-osmolar sodium oleate were randomly injected into the duodenum at 20 ml/min, starting IS min after phase III migratory motor complex (MMC). A 20 mL bolus of each solution caused more activity (P < 0.05) than a 10 mL bolus, but the motor pattern was similar. The control, 0.9% NaCl, produced occasional pressure waves, whereas bile and sodium oleate induced more (P < 0.05) activity which consisted of low amplitude, isolated or clusters (2–4 cycle/min) of non-propagating pressure waves that occurred at random sites. In three subjects, oleate produced isolated pyloric phasic contractions. In contrast, HCl and 5% NaCl induced high amplitude pressure waves that were seen either at a single channel or at multiple channels, occurring simultaneously. The motility index was also greater (P < 0.05) than that induced by other solutions. Additionally, within 2 min of infusion, a phase III MMC like pattern was observed in five of the nine subjects who received HCl and three of the nine who received 5% NaCl. A non-nutrient iso-osmolar solution induced occasional motor activity. HCl and hyperosmolar solutions induced more frequent and large amplitude, segmental contractions whereas lipid and bile induced fewer and smaller amplitude contractions. The volume, the pH, the osmolar and the nutrient make up of the infusate may each influence the duodenal motor responses.     

Phase III of the migrating motor complex: associated with endogenous xenin plasma peaks and induced by exogenous xenin

Xenin, a recently discovered peptide produced by specific endocrine cells of the duodenal mucosa, has shown exocrine, endocrine and motility effects in the gastroenteropancreatic system in animal experiments. The aim of the present investigation was to study the role of xenin in the regulation of duodenojejunal motility of humans. Twenty-nine healthy volunteers from the hospital staff gave informed consent to participate in this investigation. In 20 volunteers, we determined plasma concentrations of immunoreactive xenin at 15 min intervals over a mean time period of 8 h fasting and recorded the interdigestive motor activity of the duodenojejunum. In a double-blind randomized crossover study on other nine subjects, synthetic xenin in a dose of 4 pmol kg-1 min-1 or placebo was infused for 10 min intravenously in the interdigestive period and postprandially after a liquid meal. Duodenojejunal motility was recorded simultaneously. Predefined interdigestive xenin plasma peaks were found to be significantly associated with the phases III of the migrating motor complex. In the interdigestive period, xenin induced a premature phase III activity in each volunteer; this was followed by a second phase III in five out of nine subjects. In the postprandial state, xenin significantly increased contraction frequency and the percentage of aborally propagated contractions. These findings suggest a role of the peptide hormone xenin in modulating interdigestive and postprandial duodenojejunal motility in humans.     

Comparative analysis of phase III migrating motor complexes in stomach and small bowel using wireless motility capsule and antroduodenal manometry

Background Assessment of phase III MMC is often not performed due to the invasive nature of antroduodenal manometry used to detect it. The aim of the study was to evaluate the ability of wireless motility capsule (WMC) to detect phase III MMC and correlate it with the simultaneous measurements by antroduodenal manometry (ADM). Methods Eighteen patients underwent simultaneous ADM and WMC. MMCs were identified first on ADM and then correlated with WMC events occurring simultaneously. Frequency of contractions per min, AUC, MI, and criteria for amplitude thresholds of contractions representing MCCs on WMC tracings were defined. Key Results In 18 patients, a total of 29 MMCs were recorded by ADM. WMC detected 86% of MMC events measured by ADM. Hundred percent (10/10) of MMCs in stomach were detected by WMC, whereas 79% (15/19) of MMCs were detected in SB. The sensitivity and specificity of WMC high amplitude contractions to represent phase III MMC were 90% and 71.8% in the stomach; 73.7% and 84.7% in SB, respectively, and negative predictive value was 99.9% in both regions. Conclusions & Inferences Wireless motility capsule was able to detect the phase III MMCs as the high amplitude contractions with good fidelity. WMC does not detect the propagation of MMC. Using the pressure thresholds, WMC can detect high amplitude contraction representing phase III MMC with favorable sensitivity/specificity profile and 99.9% negative predictive value. This observation may have clinical significance, as the absence of high amplitude contractions recorded by WMC during fasting state suggests absence of MMCs.     

Gastrointestinal motor activity associated with postoperative ileus and emesis

The gastrointestinal motor activity associated with post-operative ileus and emesis has not been fully elucidated. This study has evaluated gastric and small-bowel motility in six patients before and after cholecystectomy and in six healthy volunteers, by solid-state manometry. Nausea and vomiting were recorded post-operatively. After surgery, fasting motor abnormalities including (a) total gastric quiescence and (b) small-bowel ‘phasic-bursts’ of contractions were observed in all patients. Phasic bursts (PB) resembled phase III of the migrating motor complex (MMC) on initial visual inspection, but further analysis revealed that they were of shorter duration (3.4 ±.2 min [PB] vs 6.4 ± 0.8 min [MMC], [mean ± SEM] P < 0.01), lower contraction frequency (6.4 ± 0.1 contractions min ^?1 [PBj vs 10 ± 0.3 contractions min^?1 [MMC] [mean ± SEM] P < 0.01) and shorter periodicity (36.4 ± 3 min [PB] vs 70.0 ± 6 min [MMC] [mean ± SEM] P < 0.01). Four patients experienced nausea during phasic burst activity. Vomiting was only observed in association with retrograde phasic-bursts, which migrated through the duodenum to the stomach. This study has shown consistent gastrointestinal motor abnormalities in the immediate post-operative state.     

Gastric emptying of a non-digestible solid: assessment with simultaneous SmartPill pH and pressure capsule, antroduodenal manometry, gastric emptying scintigraphy

Abstract  Gastric emptying of digestible solids occurs after trituration of food particles. Non-digestible solids are thought to empty with phase III of the migrating motor complex (MMC). The aim of this study was to determine if a non-digestible capsule given with a meal empties from the stomach with return of the fasting phase III MMC or during the fed pattern with the solid meal. Fifteen normal subjects underwent antroduodenal manometry and ingestion of a radiolabelled meal and SmartPill wireless pH and pressure capsule. In five subjects, emptying of the SmartPill was studied in the fasting period by ingesting the SmartPill with radiolabelled water. The SmartPill emptied from the stomach within 6 h in 14 of 15 subjects. SmartPill pressure recordings showed high amplitude phasic contractions prior to emptying. SmartPill gastric residence time (261 ± 22 min) correlated strongly with time to the first phase III MMC (239 ± 23 min; r  = 0.813; P  < 0.01) and correlated moderately with solid-phase gastric emptying ( r  = 0.606 with T-50% and r  = 0.565 with T-90%). Nine of 14 subjects emptied the capsule with a phase III MMC. In five subjects, the SmartPill emptied with isolated distal antral contractions. In five subjects ingesting only water, SmartPill gastric residence time (92 ± 44 min) correlated with the time to the first phase III MMC (87 ± 30 min; r  = 0.979; P  < 0.01). The non-digestible SmartPill given with a meal primarily empties from the stomach with the return of phase III MMCs occurring after emptying the solid-phase meal. However, in some subjects, the SmartPill emptied with isolated antral contractions, an unappreciated mechanism for emptying of a non-digestible solid.     

Independent cycles of exocrine pancreatic secretion, hormones and gastroduodenal motility in healthy fasting humans: reassessment of a complex partnership

Background: interdigestive pancreatic secretion cycles in close association with the phases of the migrating motor complex (MMC) and release of regulatory hormones. The extrinsically denervated pancreas exhibits an intrinsic cyclic rhythm. We hypothesized that this intrinsic rhythm is normally present in the intact human pancreas. Methods: 19 healthy males (age range 26–35 years) were studied after 12 h fasting. A manometry catheter was positioned with four pressure ports in the antrum and three in the duodenum, and motility was recorded for a complete MMC cycle or 5 h. Duodenal aspirates were sampled at 15-min intervals, and immediately analysed for amylase, lipase and chymotrypsin activities; enzyme outputs were calculated by standard marker perfusion techniques. Plasma levels of pancreatic polypeptide (PP) and motilin were also determined (RIA) at 15-min intervals. Results: output of amylase, lipase and chymotrypsin occurred in parallel. All phase III motility fronts were accompanied by a pancreatic secretory peak. However, in 12 subjects at least one secretory peak was observed without the concomitant occurrence of phase III. A total of 16 out of 51 secretory peaks identified across all subjects were independent (31%). These phase III-independent peaks of pancreatic secretion occurred in subjects with a longer MMC cycle (160 ± 19 min vs 102 ± 13 min, P < 0.05). Phase III-associated and -independent peaks had a similar magnitude (amylase output: 21.6 ± 3.9 kU h⁻¹ vs 21.1 ± 2.8 kU h⁻¹, respectively). Irrespective of MMC phases, antral but not duodenal motor activity was closely correlated with fluctuations of pancreatic secretion (P < 0.05). Cycling of PP and motilin were also closely coordinated with pancreatic enzymes, with a particularly tight link between endocrine and exocrine secretion from the pancreas. Conclusions: peaks of pancreatic secretion invariably occur when a phase III motor activity occurs, but additional secretory peaks occur without a concomitant phase III. Interdigestive phasic pancreatic secretion is tightly coordinated with PP and motilin release as well as with antral motor activity. An intrinsic rhythm of the pancreas distinct from other cyclic activity may be present in healthy humans, expressed as peaks of pancreatic secretion independent of a motor phase III.     

Characteristic motor patterns of phase II and behaviour of phase III in the fed state

The motor pattern of the phase II of the migration motor complex (MMC) is poorly characterized and it remains to be determined whether it differs from the fed motor-pattern. Furthermore, discrepancy exists on the disruption of ongoing MMCs by feeding, and finally, the understanding of the behaviour of phase Ills during enteral nutrition is incomplete. Therefore, canine intestinal motility was studied after meal and during enteral infusion of nutrients (elemental diet, glucose, maltose, amino acids) or of hypertonic saline (300–1520 mosmol kg^?1). Motility of the proximal, mid- and distal jejunum was recorded with strain-gauge transducers. The motor patterns of the interdigestive phase II, after feeding and during enteral nutrition were analysed by a computer. Additionally, the disruption of the MMC by food and by enteral infusion of nutrients or hypertonic saline was investigated. The inter digestive phase II consisted of three different contractile patterns, clustered contractions, a mixed contractile pattern and non-migrating bursts of propagated contractions (NBPCs). NBPCs differed significantly from the phase III activity in several motility parameters and by the lack of aboral migration. Only small differences existed between the motor patterns of phase II and of the fed state, whereas the motor pattern induced by enteral infusion of an elemental diet differed significantly from that of phase II. Ongoing MMCs of the proximal jejunum often continued to migrate to the mid- and distal jejunum. During enteral infusion of nutrients or of hypertonic saline, phase Ills recurred. The migration of ongoing phase Ills and the recurrence of subsequent phase Ills decreased with increasing caloric or osmotic loads. The following conclusions were reached, (a) The phase II of the MMC is a complex motor-pattern. NBPCs represent a new contractile pattern, (b) The MMC is a characteristic feature of the empty gut. After meal and during enteral nutrition, phase Ills are usually suppressed but they can recur during the digestive period.     

Ghrelin regulates gastric phase III-like contractions in freely moving conscious mice

Abstract  In humans and dogs, motilin regulates phase III contractions of migrating motor complex (MMC) in the interdigestive state, while ghrelin regulates MMC in rats. It still remains unclear whether ghrelin regulates phase III contractions of the mouse stomach. A miniature strain gauge transducer was sutured on the antrum to detect circular muscle contractions and gastric contractions of the interdigestive state were evaluated. Effects of ghrelin, a ghrelin receptor antagonist, and atropine on spontaneous gastric contractions were studied in freely moving conscious mice. Similar to the rat stomach, phase III-like contractions were observed in the interdigestive state, which disappeared immediately after the feeding. Ghrelin augmented spontaneous phase III-like contractions, while growth-hormone secretagogue receptor antagonists and atropine abolished the occurrence of spontaneous phase III-like contractions. The spontaneous phase III-like contractions were no more observed in vagotomized mice. These results suggest that ghrelin regulates phase III-like contractions in mice stomach via its own receptors. Ghrelin-induced gastric phase III-like contractions are mediated via vagal cholinergic pathways in mice. Our recording system of mice gastric motility may be useful to study the functional changes in gene knockout mice, in the future.     

Small Intestinal Manometric Studies in Patients with Familial Visceral Myopathies

We studied jejunal manometry on 10 patients with type 1 familial visceral myopathy (FVM), and one patient each with types II and III. Two patients of type I and both patients of types II and III had intestinal pseudo-obstruction syndrome. The record was obtained in each patient for 4 to 5 hours during fasting, and 1 hour after feeding. In type I FVM, migrating motor complexes were present in six and absent in four patients. In these four patients (two with intestinal pseudo-obstruction syndrome) with absent migrating motor complexes, there was infrequent low-amplitude contractions during fasting, and after feeding. In six patients with migrating motor complexes, the motility indices of phases 2, 3, and fed period were 59%, 49%, and 24% of those of control subjects, respectively, and the frequency of contractions of phases 2, 3 and the fed period were 70%, 79%, and 32% of those of control subjects, respectively. In both patients with types II and III FVM, only infrequent low-amplitude contractions were recorded during fasting and after feeding. We concluded that intestinal contractions in patients with familial visceral myopathies were weak, and the weakness was more severe in patients with intestinal pseudo-obstruction syndrome.     

Sonographic demonstration of human small intestinal migrating motor complex phase III

Background Migrating motor complex phase III (MMC phase III) of intestine is an important physiological mechanism traditionally recognized by myoelectric recordings or pressure tracings. Direct imaging is difficult and sonographic visualization in human has not been reported. Methods We have demonstrated this unique phenomenon in three patients who underwent abdominal sonographic examinations. Characteristic images were recorded by videotape and both spatial and temporal features were analyzed. Key Results Occurrences of multiple equally spaced, rhythmic intestinal contractions were observed. Parameters including wave frequency, propagation velocity, and duration of the events agreed with those of the well‐known phase III. The presence of distinct cyclic patterns observed in two and abolition by meal in the other patient further support our conclusion. Conclusions & Inferences We conclude that the migrating waves observed in our study represent the human MMC phase III. This unique finding in human subjects merits further investigation.     

MMC-related duodenojejunal antegrade and retrograde peristalsis in humans

Abstract According to recent manometric studies the last part of phase III of the migrating motor complex (MMC) shows the features of a retroperistaltic pump in the proximal duodenum in most healthy humans. In the present study, individual contractions in phase II and phase III of the MMC were investigated in ten healthy subjects (four males, six females), focusing on the distal duodenum and the jejunum. Motility was recorded on two different days with eight-channel catheters. On one day a standard antroduodenojejunal fasting recording was performed for 5 h, allowing detailed analysis of pressure waves in the proximal duodenum. On another day a two-station measurement was performed in the proximal jejunum and the distal duodenum. The propagated pressure waves were analysed for late phase II (last 30 min) and for the first and the last part (I min) of phase III in the three intestinal segments. Antegrade peristalsis predominated at all levels in phase II and in the first part of phase III. In contrast, 84 ± 11% of all propagated contractions were retrograde in the last part of phase III in the proximal duodenum and 75 ± 16% in the distal duodenum. The proportions of retrograde contractions in early phase III and in late phase III differed significantly, from 11 ± 11% to 84 ± 11% and from 32 ± 16% to 75 ± 16% in the proximal and distal duodenum, respectively (P < 0.01 and P < 0.05). In the proximal jejunum such retroperistalsis was not observed, neither in the beginning nor at the end of phase III. In phase II the proportions of retrograde pressure waves were small (3–10%) in the three segments studied. The migration velocity of the pressure waves showed a gradient in this phase, with the lowest values in the jejunum. It is concluded that the last part of phase III shows the pressure pattern of a retroperistaltic pump through out the duodenum. In contrast, no distinct MMC-related retroperistalsis was observed in the jejunum.     

Effects of motilin on human interdigestive gastrointestinal and gallbladder motility, and involvement of 5HT3 receptors.

A plasma motilin peak and a partial gallbladder emptying precede the antral phase III of the migrating motor complex (MMC). To clarify the causal relationship between these factors, we aimed to study the role of motilin in interdigestive gastrointestinal and gallbladder motility simultaneously. In addition, involvement of 5HT3 receptors in the action of motilin was studied. Eight fasting, healthy male volunteers received 13Leu-motilin or 0.9% NaCl i.v. for 30 min, in randomized order on two separate occasions, from 30 min after phase III. Seven of the eight subjects also received the 5HT3 receptor antagonist ondansetron in addition to motilin, on a third occasion. Antroduodenal motility, gallbladder volumes and plasma motilin were measured. The interval between the start of infusion and phase III was 95.0 (57.6-155.7) min for saline, 28.7 (21.0-33.2) min for motilin, and 39.3 (30.7-100.5) min for motilin + ondansetron (P < 0.05). Gallbladder volume decreased by one-third from 10 min after both motilin and motilin + ondansetron infusion (P < 0.05), and returned to baseline with duodenal passage of phase III. In two of the seven subjects phase III was absent after motilin + ondansetron, although gallbladder volume decreased and only refilled during a later spontaneous phase III. We conclude that motilin induces both partial gallbladder emptying and antral phase III. Indeed, although gallbladder emptying clearly precedes antral phase III, ondansetron only prevented phase III in some cases and had no effect on gallbladder emptying. Passage of phase III in the duodenum makes an important contribution to gallbladder refilling.     

Evaluation of the refractory period of the human migrating motor complex through induction of premature Phase III

We examined the refractory period of the migrating motor complex and the ability of somatostatin to increase the oscillation frequency of the complex through the initiation of premature phase HI activity. Fifteen normal human subjects were studied by means of a naso-intestinal motility probe and divided in three groups of five subjects each. After recording three spontaneous migrating motor complexes, somatostatin was infused at a time interval from the last spontaneous Phase III that corresponded to 10% (Group A), 20% (Group B) and 30% (Group C) of the previous mean cycle length. Eleven successive somatostatin infusions were given with the interval between each infusion being altered in a fashion designed to identify the refractory period of the MMC. The results show a spontaneous cycle length of 121.3 ± 15.8 min (mean ± SD). When given at 10% (12 min) of the previous cycle somatostatin did not elicit any response, when given at 20% (24 min) of the cycle somatostatin induced a premature Phase III activity in three of five subjects; when given at 30% (36 min) of the cycle somatostatin induced a premature Phase III in all five subjects examined. Each somatostatin infusion was associated with the onset of a premature Phase III activity in 50% of the trials when the time interval was 20% of the ideal cycle (24 ± 4 min). When the time interval was increased to 30% of the ideal cycle a premature Phase III could be recorded after each somatostatin infusion in all trials. Motilin and pancreatic polypeptide plasma levels were significantly lowered by somatostatin. It is concluded that the migrating motor complex of the human gastrointestinal tract shows an absolute and a relative refractory state. Repetitive infusions of somatostatin for short periods may increase the occurrence of Phase III activity up to four-fold.     

Postprandial peristalsis in the human duodenum

MMC-related retroperistalsis is a cyclical phenomenon in the duodenum linked to phase III. The aim of this study was to elucidate the direction of propagation of juxtapyloric duodenal pressure waves in the postprandial state in healthy humans and to compare with the contractions in the interdigestive phase II. Antroduodenal manometry was performed in 11 healthy subjects. Individual pressure waves propagating along a 6-cm duodenal segment were analysed with respect to the proportions of antegrade and retrograde propagation in the four duodenal subsegments (D1–D2) to (D4–D5), each subsegment being 15 mm. A test meal was given 30 min after a phase III had passed and motility recording continued for 60 min after the meal. During both the first and the second 30-min period of postprandial recording the proportion of retrograde pressure waves was larger just distal to the pylorus, (D1–D2), 40% (23–68) and 50% (23–68), respectively, compared to the distal part, (D4–D5), of the duodenal segment, 29% (12–30) and 10%(10–24), respectively (P < 0.05 and 0.01). In contrast, during late phase II of the interdigestive state antegrade pressure waves predominated in all four duodenal subsegments. We conclude that in the postprandial state a high proportion of the duodenal pressure waves (40–50%) is retrograde in the immediate juxtapyloric area while antegrade contractions predominate at a distance 5–6 cm distal to the pylorus. These manometric data together with recent observations of postprandial transpyloric liquid flow, indicate that retrograde duodenogastric propelling of contents may be an important determinant for the gastric emptying rate.     

Dysmotility of the small intestine in achalasia

During recent years there has been increasing evidence for extraoesophageal dysfunction in achalasia. The aim was to investigate whether motility of the small intestine is abnormal in achalasia. Thirteen patients (eight men, five women) aged 52 (33-85) years were studied. They had all previously undergone treatment with pneumatic balloon dilatation and were free of dysphagia when examined. Ambulatory 24-h motility was recorded in the upper jejunum under standardized caloric intake with a digital datalogger and catheter-mounted pressure transducers located beyond the ligament of Treitz. Visual analysis was performed by two observers and data underwent quantitative analysis of phasic contractile events using a computer program. Normal values were obtained from 50 healthy controls. In the fasting state, a complete loss of cyclic MMC activity (n = 2), an abnormally prolonged phase II (n = 2) and disturbances in the aboral migration of phase III (n = 5) were observed. Postprandial motor response was absent (n = 2) or frequently showed a contraction frequency below the normal range (n = 5). Further abnormalities consisted in hypomotility during phase II (n = 3) and in a reduced frequency of migrating clustered contractions in the fasting (n = 2) or postprandial state (n = 2). In addition, motor events not present in any healthy subject, giant migrating contractions (n = 5), retrograde clustered contractions (n = 6) and repetitive retrograde contractions (n = 3) were identified. Each patient exhibited findings out of the range of normal. Dysmotility of the proximal small intestine is present in achalasia.     

Adrenergic Control of Interdigestive and Digestive Motility via the Pyloric Region

This study examines the influence of an α-adrenergic blocking drug, phentolamine, on inter digestive and digestive motility when given intraarterially, close to the pylorus. In seven mongrel dogs four extraluminal bipolar platinum electrodes and four strain-gauge force transducers were placed at the antrum and proximal duodenum and three mini strain gauges and one electrode at the pyloric ring. After two migrating motor complexes (MMCs) were registered the drug was applied through a catheter inserted via the arteria gastroomentalis dextra to the pylorus, during phase I, the middle and end of phase II of the MMC, and 15 to 25 minutes after a meat meal. Local α-adrenergic blockade of the pylorus caused immediate conversion of phase I to phase II of the MMC, with significant prolongation of phase II, broadening of antral and pyloric contractions, and in some animals giant contractions with vomiting and retching. The pyloric motility index in phase III increased up to 22%. It prolonged phase II by 237%. Phentolamine after the meat meal caused an increase in motility index, mainly in the pylorus, while the increase in contraction frequency was less pronounced. The results indicate inhibitory adrenergic control of the interdigestive motor pattern and digestive motility in the pyloric region.     

Effect of casein and casein hydrolysate on small bowel motility and D-Xylose absorption in dogs

Abstract Food administration is followed by the appearance of a small intestinal pattern of irregular contractions. Studies on the relationship between intestinal motor activity, transit and absorption have yielded contradictory results. Since previous studies have shown that casein and casein hydrolysate led to a decrease of small intestinal motor activity and transit, the aim was to evaluate the effect of these nutrients on small intestinal motility and D-Xylose absorption. Studies were performed in five dogs with a duodenal fistula; motility was recorded by means of six infused catheters and external transducers. Three test solutions with the same osmolality, lactulose, casein and casein hydrolysate, were continuously infused through the duodenal cannula. D-Xylose was injected in the duodenum and plasma levels determined at regular intervals. Absorption of D-Xylose was greatest during the administration of casein hydrolysate, the lowest levels were seen with lactulose and intermediate levels were obtained with casein. The effect of casein hydrolysate on small intestinal motility was characterized by a decrease in the frequency of contractions. Propulsive contractions were decreased after the infusion of both casein and casein hydrolysate. Lactulose infusion was followed by the greatest motor activity of both frequency and propulsive contractions. These results suggest that the motor patterns observed with casein and casein hydrolysate lead to increased intestinal absorption of D-Xylose.     

Ambulatory long-term jejunal manometry in diabetic patients with cardiac autonomic neuropathy

Concerning alteration of small bowel motility in diabetic patients with autonomic neuropathy controversial data were obtained with stationary manometry and over a limited period of time. The aim of our study was to examine ambulatory 24 h jejunal motility in 15 diabetic patients with cardiac autonomic neuropathy compared with data obtained in 50 healthy controls. Twenty-four hour motility was recorded in the proximal jejunum with a portable datalogger and tube-mounted miniature pressure sensors. Diurnal and nocturnal fasting motility and the motor response to a standardized evening meal of 600 kcal were evaluated by visual and computer-aided analysis. The following abnormalities were found during fasting motility (n = number of patients): absence of phase III over 24 h (n = 2), retrograde migration or simultaneous occurrence of phase III (n = 5). During postprandial motility irregular bursts with tonic baseline elevation (n = 3) and contraction frequencies below the range of controls (n = 8) occurred. Furthermore patients exhibited an inversion of the normal relationship between phase I and phase II during nocturnal MMC – cycles, and discrete clustered contractions were diminished (P < 0.01) in the fasting and digestive state. All patients showed at least one abnormal manometric finding. We conclude that small bowel motility in diabetic autonomic neuropathy is characterized by disturbances in the generation and aboral migration of phase III, an altered circadian variability of the MMC cycle and by postprandial hypomotility.     

Comparison of small‐bowel motility of the human jejunum and ileum

Background Knowledge about human cyclic fasting motility (MMC) and the postprandial response is mostly based on manometric findings in the upper small intestine. Hardly any data exist on human ileal motility, as the acquisition of data has been limited by methodological concerns. The aim was to study human jejunal and ileal motility in an optimized manometric setting. Methods Solid‐state 24‐h‐manometry was performed in the jejunum and ileum of healthy individuals, applying a strict protocol for fasting, resting, and the consumption of a standardized meal. Both visual qualitative and validated computerized quantitative contraction and propagation analysis were performed. Key Results MMC occurs in similar frequency in the jejunum and ileum, but it was significantly shorter in the jejunum at night. By many characteristics, ileal motility was less intense and propagative than jejunal: less migrating clustered contractions, and slower propagation velocity and shorter distance in phases II and III, and postprandially – possibly slowing and enhancing nutrient absorption. Prolonged propagated contractions in some individuals were identified as a unique ileal propulsive pattern. Postprandially, an abrupt conversion to a digestive motility pattern occurs simultaneously independent of the region. Conclusions & Inferences We found similar basic phenomena of fasting and postprandial motility in the jejunum and ileum of healthy humans. However, different calibration of propagative and contractile activity and special motor events in the ileum may account for a different physiological role in digestion. Future studies of small‐bowel motility in healthy and diseased subjects focusing on segmental differences of proximal and distal intestine may be rewarded.     

Effects of duodenal flow on interdigestive patterns of small bowel myoelectric activity

Factors regulating the conversion of the interdigestive migrating motor complex (MMC) to postprandial patterns of motility are not completely understood. This study assessed the effects of varying rates of nonnutrient duodenal flow on patterns of interdigestive motility before and after abdominal vagotomy. Six neurally intact dogs were prepared with serosal intestinal electrodes and a duodenal infusion catheter. After recovery, the dogs were studied by infusing an isosmolar, noncaloric, balanced electrolyte solution at rates of 0, 3, 6, 9, or 12 ml/min for 5 hours into the proximal duodenum. With increasing rates of duodenal infusion, the duration of phase I decreased progressively (P < 0.05), while the period of the MMC remained unchanged. The MMC was eventually inhibited at rates of 9 or 12 ml/min with establishment of a pattern of intermittent spike activity. These findings were similar in 3 of these dogs after transthoracic total abdominal vagotomy. Our findings suggest that increases in duodenal infusion rate, independent of caloric or nutrient content, modulate patterns of intestinal motility during the postprandial period; this effect does not appear to be vagally mediated.