Decreased interstitial cell of cajal volume in patients with slow-transit constipation

BACKGROUND & AIMS: The cause of slow-transit constipation is incompletely understood. Recent observations suggest a central role for interstitial cells of Cajal in the control of intestinal motility. The aim of this study was to determine the volume of interstitial cells of Cajal in the normal sigmoid colon and in the sigmoid colon from patients with slow transit constipation. METHODS: Sigmoid colonic samples were stained with antibodies to protein gene product 9.5, c-Kit, and alpha-smooth muscle actin. Three-dimensional reconstruction of regions of interest was performed using consecutive images collected on a laser scanning confocal microscope and ANALYZE software. RESULTS: Volume of interstitial cells of Cajal was significantly decreased in all layers of sigmoid colonic specimens from patients with slow-transit constipation compared with normal controls. Neuronal structures within the colonic circular smooth muscle layer were also decreased. CONCLUSIONS: A decrease in the volume of interstitial cells of Cajal may play an important role in the pathophysiology of slow-transit constipation.     

Pan-colonic decrease in interstitial cells of Cajal in patients with slow transit constipation

BACKGROUND: Interstitial cells of Cajal (ICC) are required for normal intestinal motility. ICC are found throughout the human colon and are decreased in the sigmoid colon of patients with slow transit constipation. AIMS: The aims of this study were to determine the normal distribution of ICC within the human colon and to determine if ICC are decreased throughout the colon in slow transit constipation. PATIENTS: The caecum, ascending, transverse, and sigmoid colons from six patients with slow transit constipation and colonic tissue from patients with resected colon cancer were used for this study. METHODS: ICC cells were identified with a polyclonal antibody to c-Kit, serial 0.5 microm sections were obtained by confocal microscopy, and three dimensional software was employed to reconstruct the entire thickness of the colonic muscularis propria and submucosa. RESULTS: ICC were located within both the longitudinal and circular muscle layers. Two networks of ICC were identified, one in the myenteric plexus region and another, less defined network, in the submucosal border. Caecum, ascending colon, transverse colon, and sigmoid colon displayed similar ICC volumes. ICC volume was significantly lower in the slow transit constipation patients across all colonic regions. CONCLUSIONS: The data suggest that ICC distribution is relatively uniform throughout the human colon and that decreased ICC volume is pan-colonic in idiopathic slow transit constipation.     

Enteric nerves and interstitial cells of Cajal are altered in patients with slow-transit constipation and megacolon

BACKGROUND & AIMS: A variety of gastrointestinal motility disorders have been attributed to alterations of interstitial cells of Cajal and malformations of the enteric nervous system. This study evaluates both the distribution of interstitial cells of Cajal and the pathohistology of the enteric nervous system in 2 severe human colorectal motility disorders. METHODS: Colonic specimens obtained from patients with slow-transit constipation (n = 11), patients with megacolon (n = 6), and a control group (n = 13, nonobstructing neoplasia) were stained with antibodies against c-kit (marker for interstitial cells of Cajal) and protein gene product 9.5 (neuronal marker). The morphometric analysis of interstitial cells of Cajal included the separate registration of the number and process length within the different regions of the muscularis propria. The structural architecture of the enteric nervous system was assessed on microdissected whole-mount preparations. RESULTS: In patients with slow-transit constipation, the number of interstitial cells of Cajal was significantly decreased in all layers except the outer longitudinal muscle layer. The myenteric plexus showed a reduced ganglionic density and size (moderate hypoganglionosis) compared with the control group. Patients with megacolon were characterized by a substantial decrease in both the number and the process length of interstitial cells of Cajal. The myenteric plexus exhibited either complete aganglionosis or severe hypoganglionosis. CONCLUSIONS: The enteric nervous system and interstitial cells of Cajal are altered concomitantly in slow-transit constipation and megacolon and may play a crucial role in the pathophysiology of colorectal motility disorders.     

Differential changes in intrinsic innervation and interstitial cells of Cajal in small bowel atresia in newborns

AIM: To investigate morphological changes of the enteric nervous system (ENS) and the interstitial cells of Cajal (ICCs) in small bowel atresia.METHODS: Resected small bowel specimens from affected patients (n = 7) were divided into three parts (proximal, atretic, distal). Standard histology and enzyme immunohistochemistry anti-S100, anti-protein gene product (PGP) 9.5, anti-neurofilament (NF), antic-kit-receptor (CD117) was carried out on conventional paraffin sections of the proximal and distal part. RESULTS: The neuronal and glial markers (PGP 9.5, NF, S-100) were expressed in hypertrophied ganglia and nerve fibres within the myenteric and submucosal plexuses. Furthermore, the submucous plexus contained typical giant ganglia. The innervation pattern of the proximal bowel resembled intestinal neuronal dysplasia. The density of myenteric ICCs was clearly reduced in the proximal bowel, whereas a moderate number of muscular ICCs were found. The anti-CD117 immunore- action revealed additional numerous mast cells. The distal bowel demonstrated normal morphology and density of the ENS, the ICCs and the mast cells.CONCLUSION: The proximal and distal bowel in small bowel atresia revealed clear changes in morphology and density of the ENS and ICCs.     

Abnormal colonic endocrine cells in patients with chronic idiopathic slow-transit constipation

BACKGROUND: The aim of the present study was to investigate the colonic endocrine cells in patients with slow-transit constipation, to ascertain the presence of a possible abnormality. METHODS: Ten patients with chronic slow-transit constipation were investigated. As controls, macroscopically and histologically normal tissues from the colon of 12 patients were examined. These patients had polyps, prolapsis, chronic diverticulitis, volvulus, and haemorrhoids. The endocrine cells were stained by immunocytochemistry and quantified by computerized image analysis. RESULTS: There were significantly fewer enteroglucagon- and serotonin-immunoreactive cells in patients with chronic slow-transit constipation. There was no statistically significant difference between patients and controls with regard to the number of peptide YY (PYY)-, pancreatic polypeptide (PP)-, and somatostatin-immunoreactive cells. The cell secretory indexes (CSI) of enteroglucagon- and somatostatin-immunoreactive cells were significantly decreased. There was no statistically significant difference in the CSI between the patients and controls with regard to PYY-, PP-, and serotonin-immunoreactive cells. CONCLUSION: The changes in colonic endocrine cells in patients with slow-transit constipation may be one cause of the decreased motility in the colon and consequent development of constipation.     

Oligoneuronal Hypoganglionosis in Patients with Idiopathic Slow-Transit Constipation

PURPOSE: Several alterations of the enteric nervous system have been described as an underlying neuropathologic correlate in patients with idiopathic slow-transit constipation. To obtain comprehensive data on the structural components of the intramural nerve plexus, the colonic enteric nervous system was investigated in patients with slow-transit constipation and compared with controls by means of a quantitative morphometric analysis. METHODS: Resected specimens were obtained from ten patients with slow-transit constipation and ten controls (nonobstructive neoplasias) and processed for immunohistochemistry with the neuronal marker Protein Gene Product 9.5. The morphometric analysis was performed separately for the myenteric plexus and submucous plexus compartments and included the quantification of ganglia, neurons, glial cells, and nerve fibers. RESULTS: In patients with slow-transit constipation, the total ganglionic area and neuronal number per intestinal length as well as the mean neuron count per ganglion were significantly decreased within the myenteric plexus and external submucous plexus. The ratio of glial cells to neurons was significantly increased in myenteric ganglia but not in submucous ganglia. On statistical analysis, the histopathologic criteria (submucous giant ganglia and hypertrophic nerve fibers) of intestinal neuronal dysplasia previously described in patients with slow-transit constipation were not completely fulfilled. CONCLUSION: The colonic motor dysfunction in slow-transit constipation is associated with quantitative alterations of the enteric nervous system. The underlying defect is characterized morphologically by oligoneuronal hypoganglionosis. Because the neuropathologic alterations primarily affect the myenteric plexus and external submucous plexus, superficial submucous biopsies are not suitable to detect these innervational disorders.     

Decreased interstitial cells of Cajal in the sigmoid colon of patients with slow transit constipation

Background and aims Slow transit constipation (STC) is a colonic motor disorder that is characterized by measurably delayed movement of materials through the colon. Although abnormalities in the neuronal networks of the colon have been demonstrated in patients with STC, the etiology of STC remains unclear. Interstitial cells of Cajal (ICC) have been shown to be the pacemaker cells of the intestine and have been implied in the pathogenesis of a number of gastrointestinal motility dysfunctions, including idiopathic STC. This study aimed to determine the normal distribution of ICC within the colon of the Chinese and also to determine if ICC are decreased in Chinese STC patients.Patients and methods Twelve patients with STC and eight age-matched normal controls were studied. Specimens of sigmoid colon were obtained immediately after resection. ICC were identified with a monoclonal antibody to c-kit by an indirect immunofluorescence method. Immunostained tissues were examined with a laser scanning confocal microscope and the area occupied by ICC was calculated with an image analysis system.Results ICC were located in the external muscle layers including myenteric plexus (MP) and submucosal border (SMB). Two types of Kit-positive ICC were observed: bipolar cells characterized by one or two long processes and multipolar cells characterized by long stellate processes extending in various directions. A higher percentage of ICC was present in the MP regions and circular muscle (CM) layers compared with the SMB and longitudinal muscle (LM) layers. Tissues from STC patients showed a considerable decrease in the number of ICC located in the four regions (ICC-LM, ICC-MP, ICC-CM, ICC-SMB), especially the ICC-SMB, in which ICC almost completely disappeared.Conclusions Similar distribution of ICC was observed in the normal sigmoid colon of the Chinese. Decreased area of c-kit+ ICC may play an important role in the pathophysiology of STC. It remains to be determined whether the loss of ICC is primary or secondary to another lesion.     

Evaluation of myenteric ganglion cells and interstitial cells of Cajal in patients with chronic idiopathic constipation

BACKGROUND AND AIMS: The aim of this study was to identify myenteric ganglion cells (MGC) and interstitial cells of Cajal (ICC) from the total colectomy specimen in patients with chronic idiopathic constipation. PATIENTS AND METHODS: Fourteen patients who had severe, intractable, long-standing (mean: 14 years) constipation underwent subtotal colectomy and ileorectal anastomosis. All resected specimens were investigated with hematoxylin and eosin (H&E) and immunohistochemical staining with anti-neurofilament monoclonal antibody NF(2)F(11) for MGC, and c-kit antibody for ICC. The numbers of MGC and ICC were counted for ascending (AC), descending (DC), and sigmoid colon (SC). We compared these data with those from ten control specimens. RESULTS: The number of MGC was significantly smaller in AC and DC of the constipated group than in the control group. Interestingly, SC contained a similar number of MGC. The two staining methods were equally effective for identifying MGC. The total ICC number in the constipated group was markedly lower in every segment. Most anatomical layers of the colon, including the submucosal border, circular muscle, and longitudinal muscle, revealed a similar tendency. However, in the myenteric plexus area there was no significant difference between the two groups. CONCLUSION: A quantitative decrease in MGC and ICC appears to be implicated in chronic idiopathic constipation.     

Abnormal Colonic Endocrine Cells in Patients with Chronic Idiopathic Slow-Transit Constipation

Background: The aim of the present study was to investigate the colonic endocrine cells in patients with slow-transit constipation, to ascertain the presence of a possible abnormality. Methods: Ten patients with chronic slow-transit constipation were investigated. As controls, macroscopically and histologically normal tissues from the colon of 12 patients were examined. These patients had polyps, prolapsis, chronic diverticulitis, volvulus, and haemorrhoids. The endocrine cells were stained by immunocytochemistry and quantified by computerized image analysis. Results: There were significantly fewer enteroglucagon- and serotonin-immunoreactive cells in patients with chronic slow-transit constipation. There was no statistically significant difference between patients and controls with regard to the number of peptide YY (PYY)-, pancreatic polypeptide (PP)-, and somatostatin-immunoreactive cells. The cell secretory indexes (CSI) of enteroglucagon- and somatostatin-immunoreactive cells were significantly decreased. There was no statistically significant difference in the CSI between the patients and controls with regard to PYY-, PP-, and serotonin-immunoreactive cells. Conclusion: The changes in colonic endocrine cells in patients with slow-transit constipation may be one cause of the decreased motility in the colon and consequent development of constipation.     

沉香化气胶囊对糖尿病大鼠小肠ICC和肌间神经丛的影响

目的:探讨沉香化气胶囊对糖尿病(diabetes mellitus,DM)大鼠小肠Cajal间质细胞(interstitial cells of Cajal,ICC)、肌间神经丛的影响.方法:将健康♂SD大鼠分为正常对照组、DM模型组、DM模型+中药组.大鼠一次性腹腔注射(ip)链脲佐菌素(STZ,60mg/kg)造模,选取成功模型,DM模型+中药组每天给予中药灌胃,模型组和正常对照组每天给予同等容量的蒸馏水,持续灌胃4wk.所有大鼠干预4wk结束后,给予印度墨汁灌胃测定小肠传输速率,利用免疫组织化学和图像分析观察十二指肠c-Kit、突触素(synaptophysin,Syn)、蛋白基因产物9.5(protein gene product 9.5,PGP9.5)的表达.结果:灌胃4wk后,DM模型+中药组小肠传输速率均比DM模型组明显增加(71.26±5.22 vs 45.52±6.42,P<0.01),仍低于对照组(71.26±5.22 vs 80.40±7.33,P<0.05);DM模型+中药组c-Kit、突触素、PGP9.5的阳性产物面积和吸光度值均比DM模型组明显增加(443.28±24.40 vs 358.83±35.03,832.33±58.78 vs 488.83±58.56,889.17±82.75 vs 445.17±64.06,0.16±0.02 vs 0.13±0.02,0.25±0.02 vs 0.16±0.01,0.24±0.02 vs 0.15±0.01,均P<0.01),仍低于正常对照组(443.28±24.40 vs 557.28±42.35,P<0.01;832.33±58.78 vs 937.67±101.23,P<0.05;889.17±82.75 vs 1050.50±90.22,P<0.01;0.16±0.02 vs 0.18±0.02,P<0.05;0.25±0.02 vs 0.29±0.03,P<0.01;0.24±0.02 vs 0.27±0.02,P<0.01).结论:沉香化气胶囊可以促进糖尿病大鼠小肠肌间神经丛c-Kit、突触素和PGP9.5的表达,提示对受损的DM大鼠小肠ICC、肌间神经丛有部分恢复作用,从而对糖尿病大鼠的胃肠动力障碍有一定的改善效应.     

Loss of interstitial cells and a fibromuscular layer on the luminal side of the colonic circular muscle presenting as megacolon in an adult patient

BACKGROUND: Animal studies have shown that the neuromuscular structures on the luminal side of the colonic circular muscle coordinate circular muscle activity. These structures have been identified by electron microscopy in the normal human colon, but have never been thoroughly studied in patients with acquired intestinal hypoganglionosis. AIMS: To perform histological, immunocytochemical, and electron microscopic examinations of the colon of a patient with acquired intestinal hypoganglionosis presenting as megacolon. PATIENT: A 32 year old man with a one year history of constipation and abdominal distention, a massively dilated ascending and transverse colon, and a normal calibre rectum and descending and sigmoid colon. He had a high titre of circulating serum anti-neuronal nuclear antibodies. METHODS: Histology, immunocytochemistry (for neurofilaments, neurone specific enolase, synaptophysin, glial fibrillar acidic protein, S100 protein, and smooth muscle alpha-actin), and electron microscopic examinations on the resected colon. RESULTS: The number of ganglion cells and nerve trunks was decreased throughout the colon. Disruption of the neural network and a loss of interstitial cells of Cajal were observed on the luminal side of the circular muscle; in their place, the non-dilated colon contained a hypertrophic fibromuscular layer. CONCLUSIONS: Striking architectural alterations occurred at the site regarded as the source of the coordination of colonic circular muscle activity in an adult patient with acquired intestinal hypoganglionosis presenting as megacolon.     

Relation between mast cells concentration and serotonin expression in chagasic megacolon development

Chagas’ disease is still reaching about 10 million people in the world. In South America, one of the most severe forms of this disease is the megacolon, characterized by severe constipation, dilated sigmoid colon and rectum and severe malnutrition. Previous data suggested that mast cells and serotonin (5‐hydroxytryptamine [5‐HT]) expression could be involved in intestinal homeostasis control, avoiding the chagasic megacolon development. The aim at this study was to characterize the presence of mast cells and expression of serotonin in chagasic patients with and without megacolon and evaluate the relation between mast cells, serotonin and megacolon development. Our results demonstrated that patients without megacolon feature a large amount of serotonin and few mast cells, while patients with megacolon feature low serotonin expression and a lot of mast cells. We believe that serotonin may be involved in the inflammatory process control, triggered by mast cells, and the presence of this substance in large quantities of the intestine could represent a mechanism of megacolon prevention.     

针刺对功能性便秘ENS-ICC调节机制的研究进展

功能性便秘(functional constipation,FC)是临床常见病和多发病,其病因和发病机制尚不十分清楚,存在多种学说.实验研究表明,"泻药性结肠"动物模型结肠表现为肠神经系统神经丛超微结构、多种受体与ICC表达的异常.我们通过检索和分析近年来针刺治疗FC的实验研究文献,发现目前针刺对FC的调节机制的研究偏于单一化,多种机制之间的调控关系没有进行深入研究.今后的研究应侧重针刺对各机制之间相互关系的阐释以及对其关键机制的探讨,使针刺作用机制的研究进一步深入,从而更好地服务于临床.     

Abnormalities of upper gut motility in patients with slow-transit constipation.

OBJECTIVE: To further delineate motor activity of the upper gastrointestinal tract in patients with slow-transit constipation. DESIGN: A prospective study comparing healthy volunteers with patients with a clinical diagnosis of slow-transit constipation. METHODS: Eighteen patients with clinical diagnosis of slow-transit constipation and 10 healthy controls were included in the study. Fasting antroduodenal motility was measured by perfusion manometry for at least one complete cycle of the migrating motor complex or a maximum of 300 min. Oesophageal manometry, gastric emptying and orocaecal transit time measurements were also performed. RESULTS: At least one complete cycle of the migrating motor complex was observed in all controls, but in only nine patients (P < 0.01 versus control). The migrating motor complex cycle was incomplete (n = 5) or phase 3 activity was absent (n = 4) in the other patients. The incidence of clustered contractions was significantly increased in slow-transit constipation (P = 0.05 versus controls). The area under the contraction curve during late phase 2 (1509+/-296 mmHg x s) in patients with a complete cycle was significantly smaller than that in controls (2997+/-614 mmHg x s; P = 0.05). Orocaecal transit time was not significantly different among patients and controls, but oesophageal motility was abnormal in five of 18 patients and gastric emptying was abnormal in eight of 15 patients. CONCLUSION: Abnormalities of upper gut motility occur frequently in patients with slow-transit constipation. Interdigestive antroduodenal motility is characterized by (i) absence or prolonged duration of the migrating motor complex, (ii) an increased number of clustered contractions, or (iii) a decreased motility during late phase 2 of the migrating motor complex.     

Role of Nitric Oxide in the Colon of Patients With Slow-Transit Constipation

PURPOSE: The cause of dysmotility in patients with slow-transit constipation is unknown. Nitric oxide has recently been shown to be a neurotransmitter in the nonadrenergic, noncholinergic inhibitory nerves of the human gut. To clarify the physiologic significance of nitric oxide in the colon of patients with slow-transit constipation, we investigated the enteric nerve responses in lesional and normal bowel segments derived from patients with slow-transit constipation and patients who underwent colon resection for colonic cancers. METHODS: Twenty-six preparations were taken from colonic lesions in eight patients with slow-transit constipation (2 men; age, 23 to 69 (mean, 44.8) years). Forty-two preparations were taken from the normal colons of 14 patients with colonic cancer (8 men; age, 40 to 66 (mean, 52.4) years). A mechanographic technique was used to evaluate in vitro muscle responses to electric field stimulation before and after treatment with various autonomic nerve blockers, NG-nitro-L-arginine, and L-arginine. RESULTS: The colons of patients with slow-transit constipation were more strongly innervated by nonadrenergic, noncholinergic inhibitory nerves than were normal colons (P <0.05). Nitric oxide was found to act on both normal and slow-transit constipation colons. The colons of patients with slow-transit constipation were more strongly innervated by nitric oxide nerves than were normal colons (P < 0.01). Responses to electric field stimulation were the same in each case among the normal colons and were also the same in each case among the slow-transit constipation colons. CONCLUSION: These findings suggest that an increase of nitric oxide mediates nonadrenergic, noncholinergic inhibitory nerves and plays an important role in the dysmotility observed in the colons of patients with slow-transit constipation.     

Effect of CCK-OP and intraduodenal administration of essential amino acids on intraluminal pressures of sigmoid and rectum in patients with Chagasic megacolon

The motility of the sigmoid colon and rectum was studied by manometry in patients with Chagasic megacolon and in control individuals using two different experimental procedures: (1) intravenous infusion of saline, followed by intravenous infusion of cholecystokinin octapeptide (OP-CCK) at the dose of 20 ng/kg/hr; and (2) intraduodenal instillation of saline followed by a solution of essential amino acids at a flow of 10 ml/min. CCK-OP induced an increase in motility index in the sigmoid colon (P less than 0.05) and rectum (P less than 0.05) in the controls, whereas intraduodenal infusion of amino acids produced a significant increase in motility index exclusively in the sigmoid colon (P less than 0.005). A significant increase (P less than 0.05) in sigmoid colon motility also occurred in the control group after duodenal saline infusion was interrupted. The release of other substances in addition to CCK must have been responsible for the different behavior of sigmoid colon and rectum in response to the stimuli used. Neither procedure caused significant changes in the motility of the sigmoid colon or the rectum of the Chagasic patients. The extensive intramural denervation occurring in Chagasic megacolon probably destroys the neural pathway through which OP-CCK and the substances released by the duodenum by the infusion of essential amino acids activate the motor cells of the human terminal intestine.     

慢传输型便秘发病机制的研究

慢传输型便秘(STC)的发病机制主要与肠神经系统(ENS)、Cajal间质细胞(ICC)、平滑肌、神经递质等有关。研究发现STC结肠组织中ENS出现退行性变化,肌间神经丛空泡变性,ICC数量减少,形态改变,平滑肌退行性变,多种神经递质发生改变。本文就STC发病机制的研究作一综述。     

Expression of protein gene product 9.5 (PGP9.5)/ubiquitin-C-terminal hydrolase 1 (UCHL-1) in human myeloma cells

The neuron cytoplasmic protein gene product 9.5 (PGP9.5)/ubiquitin-C-terminal hydrolase 1 (UCHL-1) protein is a thiol protease that recognizes and hydrolyzes a peptide bond at the C-terminal of ubiquitin, and is involved in the processing of ubiquitin precursors and ubiquinated proteins. Although this molecule is known as a specific tissue marker for the neuroendocrine system, many reports have indicated that PGP9.5 is a marker for certain tumour types, such as cancer of the lung, colon, and pancreas. The expression of PGP9.5 in myeloma cells was examined. PGP9.5 seemed to be expressed specifically in myeloma cells as compared with other haematological malignant cells. In addition, in myeloma cells subjected to growth-factor starvation, the upregulation of PGP9.5 was observed in association with that of p27(Kip1), a cyclin-dependent-kinase inhibitor, although the upregulation caused by irradiation was milder. In contrast, the hypoxic culture of myeloma cells induced down-regulation of PGP9.5. These results suggested that PGP9.5 may be a good marker for myeloma among haematological malignancies. In addition, it may indicate certain cellular features of myeloma cells, such as sensitivity to proteasome inhibitors.     

A rare case of achalasia coexistent with sigmoid megacolon and associated with epilepsy

A case of achalasia coexistent with sigmoid megacolon in a 38-year-old man with known epilepsy is described. The patient was referred to the Ryukyu University Hospital with a 4-year history of dysphagia and heartburn and a 1-year history of abnormal bowel movement. On admission, upper gastrointestinal (GI) series demonstrated a dilated, tortuous thoracic esophagus with a flask-type configuration. Barium enema studies showed a dilated sigmoid colon from the rectosigmoid junction to the descending colon. Myotomy (modified Jekler-Lhotka's procedure) for achalasia and simple sigmoidectomy for sigmoid megacolon were carried out. The biopsied wall of the narrowed esophageal segment at operation showed decreased numbers of ganglion cells in Auerbach's plexus and atrophy of the muscle fibers. The resected dilated sigmoid colon revealed degeneration and markedly decreased numbers of ganglion cells in Auerbach's and Meissner's plexuses. The patient's postoperative course was uneventful and he has been doing well since surgery. The present case is very interesting and to our knowledge, such a case is rare in the literature. We believe that the abnormalities of the ganglion cells may be due to the same etiologic factor as the sigmoid megacolon. The association of the two pathologic processes is discussed, together with a brief review of the literature.     

Treatment of severe and intractable constipation

Opinion statement A careful clinical evaluation, exclusion of secondary causes (eg, colonic obstruction, metabolic conditions [hypothyroidism, hypercalcemia], and drug-induced constipation), and assessments of colonic transit and rectal evacuation are necessary to ascertain whether constipation is attributable to normal colonic transit, delayed colonic transit (ie, slow-transit constipation), or a rectal evacuation disorder (with or without delayed colonic transit). Idiopathic slow-transit constipation is a clinical syndrome predominantly affecting women and is characterized by intractable constipation and delayed colonic transit. This syndrome is attributed to disordered colonic motor function and spans a spectrum of variable severity ranging from patients who have relatively mild delays in transit, but are otherwise indistinguishable from irritable bowel syndrome, at one extreme to patients with colonic inertia or chronic megacolon at the other extreme. Most patients are treated with one or more pharmacological agent. A subtotal colectomy is effective and occasionally indicated for patients with medically refractory severe slow-transit constipation, provided that pelvic floor dysfunction has been excluded or treated. Pelvic floor dysfunction can be diagnosed by the clinical features and anorectal testing. Most patients with pelvic floor dysfunction will respond to pelvic floor retraining by biofeedback therapy.