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Sohn, Yu, Kim, Kwak, Jang, Kim, Yang, Yoon, Lim, and Kim: Surgical Outcomes after Total Colectomy with Ileorectal Anastomosis in Patients with Medically Intractable Slow Transit Constipation

Abstract

Purpose

The aim of this study was to evaluate outcomes of a total colectomy with ileorectal anastomosis in patients with slow transit constipation.

Methods

A retrospective review of 37 consecutive patients with slow transit constipation who underwent a total colectomy between 1994 and 2008 was undertaken. Preoperative and postoperative Wexner's constipation scores were collected and used to evaluate the outcomes after surgical treatment. Also patients' postoperative satisfaction scores were collected using a 4-point scale.

Results

The 37 patients consisted of 31 women and 6 men, with a median age of 41 years (range, 17 to 71 years). Pre- and post-operative Wexner's scores were collected from 33 patients (89.1%), and the mean preoperative Wexner's score was 19.3 (range, 11 to 24), which decreased to an average post-operative score of 2.3 (range, 0 to 8). Neither intraoperative complications nor postoperative mortalities were noted. Five patients (13.5%) had early postoperative complications, and the most common complication was postoperative ileus (10.8%). Seven patients (18.9%) had late postoperative complications, and postoperative ileus (10.8%) was also the most common. Twenty seven of 33 patients were satisfied with their surgical outcome (81.8%).

Conclusion

A total colectomy with ileorectal anastomosis might be an effective surgical procedure with acceptable morbidity to treat medically intractable slow transit constipation.

INTRODUCTION

The prevalence of constipation has been reported to be 2-27% in Western countries, and the prevalence rate varies depending on the definition used [1]. The mean prevalence in Korea was reported to be 16.5% [2]. Constipation is observed along with other symptoms in many cases, and the subjective meaning of constipation is different by individuals, but it means mainly a low frequency of defecation, a small amount of stool, strain during defecation, hard stool and a sensation of incomplete evacuation [3-5].
Chronic constipation affects the health of patients and is related with serious psychological stress. Medical treatments generally improve its symptoms in most cases, but a few patients do not respond to conservative treatments and need additional ones.
Constipation can be classified into three groups through anorectal physiological studies: 1) the normal transit constipation group without abnormality in the anorectal physiological studies; 2) the slow transit constipation group with a decrease in overall bowel movement; and 3) the obstructive defecation or outlet obstruction group with pelvic floor dyssynergia (or dyssynergic defecation), showing functional obstruction without any anatomical abnormality in the anorectal area or with inadequate defecatory propulsion [6].
When the overall colonic transit time is delayed in a colonic transit time study, slow transit constipation can be diagnosed, and it can be an indication of a need for surgical treatment. Surgical treatments include an antegrade colonic enema [7], a total colectomy and ileorectal anastomosis or caecorectal anastomosis, a partial colectomy, a total proctocolectomy and ileal pouch-anal anastomosis, and total colectomy and ileorectal anastomosis, and among these procedures, a total colectomy and ileorectal anastomosis have been most widely used. Thus, this study aimed to investigate the surgical outcomes of total colectomies in patients with medically intractable slow transit constipation.

METHODS

This study analyzed 37 patients with slow transit constipation who underwent a colectomy in the Colorectal Department of Asan Medical Center from January 1994 to December 2008. Three of the 37 patients did not visit the outpatient clinic after surgery, and when the follow-up of one patient at the outpatient clinic was finished, the patient's phone number and address were changed. Thus, the postoperative course could be observed only in the other 33 patients. The mean follow-up period of the patients was 41.2 months (range, 0 to 150.3 months). This study defined constipation based on 'Rome III criteria' (Table 1) [8].
The symptoms of the patients were objectively assessed with the Wexner score through history taking [9]. Patients' subjective satisfaction after the surgery was evaluated using a four-point scale (1 point, poor; 2 points, fair; 3 points, good; 4 points, excellent); neurologic disease and endocrine disease causing constipation secondarily were also investigated. After anatomical obstruction had been checked through digital rectal examination, colonoscopy or barium enema, and abdominal and pelvic computed tomography, patients without any abnormalities in these examinations underwent a colonic transit time study, anorectal manometry, defecography and a balloon expulsion test. The colonic transit time was measured in 30 patients; it was not measured in five patients who had emergency surgery due to stercoral colitis and in two patients who could not defecate at all. The patients undergoing emergency surgery because of stercoral colitis had been unable to defecate for a long time before their admissions to the emergency room and none of the patients who could not take the colonic transit time study because they did not defecate were able to defecate even after medical treatment in the hospital. In 33 cases, excluding 4 of the 5 receiving emergency surgery, anorectal manometry was conducted.
Among patients suffering from constipation for over one year without any response to medical treatment, surgery was conducted only when the colonic transit time was delayed in the colonic transit time study or when patients with slow transit constipation combined with pelvic outlet obstruction had no response to biofeedback therapy; patients without rectoanal inhibitory reflex were excluded.
The preoperative and the postoperative data were collected from the medical records of the subjects, and insufficient data, the current defecatory function and the satisfaction with the surgery were collected through additional telephone interviews. Statistical analysis was conducted with the paired t-test, and a P-value of less than 0.05 was considered to be significant. The statistical program used in this study was SPSS ver.12.0 (SPSS Inc., Chicago, IL, USA).

RESULTS

Clinical characteristics of patients

Thirty-one (83.7%) out of 37 patients were females. The patients had symptoms such as abdominal distension, sensation of incomplete evacuation and severe weight loss due to decreased oral intake following constipation before the surgery. In addition, their social lives and daily lives were restricted because these symptoms or long-term medication affected their lives at work and at school. Three patients were taking medication for depression and one for insomnia.
The mean age at surgery was 41 years (range, 17 to 71 years). The Wexner score calculated based on preoperative symptoms could be obtained in 33 patients (89.2%), and it was 19.3 points on average (range, 11 to 24 points) (Table 2). The duration of symptoms was on average 124 months (range, 12 to 360 months).
All of the 37 patients underwent total a colectomy and ileorectal anastomosis. The colon was resected at the level of the sacral promontory considered as the rectosigmoid junction; then, a side-to-end stapled anastomosis was performed. In one case, an ileostomy was added due to contamination caused by fecaloma during surgery, and an ileostomy take down was performed at nine months after initial operation. The mean operation time was 203 ± 86.7 minutes, and the median length of hospital stay was 12 dyas (range, 8 to 29 days) (Table 3).
A preoperative colonic transit time study showed that the transit time was delayed in all subjects (Table 4, Fig. 1) and that patients with obstructive defecation did not respond to biofeedback therapy. In addition, anorectal manometry found no abnormalities in the resting and the squeezing pressures or rectal sense, and the rectoanal inhibitory reflex was observed in all 33 cases (Table 5).

Postoperative complications

There were no mortalities after surgery. Early complications within one month after surgery were observed in five patients (13.5%). The most common complication was intestinal obstruction which was found in four patients (10.5%), and one of them (2.6%) had a wound infection associated with an intestinal obstruction. The fifth patient had an intraabdominal abscess. All five patients were hospitalized for conservative treatment and were discharged after successful treatment.
Seven patients (18.9%) had late complications during follow-up. The most frequent late complication was also intestinal obstruction. Four patients (10.8%) had intestinal obstruction, and two of them were improved after conservative treatment while the other two needed surgical treatment. One of the two patients needing surgical treatment underwent adhesiolysis, and the other one received a small bowel resection and anastomosis, as well as adhesiolysis, because the intestinal obstruction had progressed to small bowel strangulation. Among the other three patients with late complications, one patient had a small bowel resection and anastomosis due to an enterocutaneous fistula caused by small bowel stump leakage, another patient had an ileorectal bypass due to anastomosis stricture and microperforation, and the third had anastomotic leakage, but was improved after conservative treatment (Table 6). Although patients with intestinal obstruction as an early complication did not have obstruction again during long-term follow-up, one patient with intraperitoneal fluid collection as an early complication had an enterocutaneous fistula during long-term follow-up and had a small bowel resection and anastomosis.

Postoperative histopathologic examination

Postoperative pathology showed decreased ganglion cell number in 31 patients (83.8%) (Fig. 2). Segmental ganglion cell numbers per cm2 of 19 patients were reported separately for the ascending, descending and sigmoid colon, and their average numbers were 14/cm2, 13/cm2 and 14/cm2 respectively. Because the ganglion cell numbers of the control group with normal colonic transit time were 25/cm2, 27/cm2 and 23/cm2, respectively [10], the ganglion cell numbers from slow transit constipation patients were somehow decreased. In addition, melanosis coli was shown in three patients.

Postoperative Wexner score

The postoperative defecatory function was assessed in 33 of the 37 patients. The mean number of postoperative bowel movements was 3.6 times per day, and the average postoperative Wexner score was 2.1 points (range, 0 to 8 points). The average preoperative Wexner score was 19.3, and this difference between postoperative and preoperative Wexner scores was statistically significant (P < 0.001) (Fig. 3).
The postoperative Wexner score was investigated by symptoms. As 11 (33%) patients experienced pain during defecation, it was the most common symptom that persisted even after the surgery. Out of those 11 patients, eight patients felt the pain 2-3 times per week, two patients felt the pain 2-3 times per month, and one patient felt the pain once per day. However, no patient needed a reoperation or medication due to pain. After the surgery, defecation took approximately five minutes, 5-10 minutes and 20-30 minutes in four patients (12.1%), three patients and one patient, respectively. Three patients (9.0%) felt the sensation of incomplete evacuation even after the surgery, and they experienced it approximately once per day, two to three times per week, and two to three times per month, respectively.
Out of the 33 patients, three (9.1%) had diarrhea more than ten times per day. While one patient was not improved after taking antidiarrheal medication, the other two had no serious difficulty without antidiarrheal medication.

Patients' satisfaction with surgery

Thirty-three out of the 37 patients were satisfied were with the postoperative outcome. Out them, 16 (48.5%), 11 (33.3%), and 6 (18.2%) answered 4 (excellent), 3 (good), and 2 (fair) points, respectively, and no patient reported one point (poor). Therefore, 27 patients (81.9%) were quite satisfied with the postoperative outcome, and all 33 patients said that their symptoms, such abdominal distension, were improved postoperatively (Table 7). Three of the six patients who reported 2 (fair) points pointed to postoperative diarrhea as the reason for their low satisfaction; their average frequency of diarrhea was five times per day.

DISCUSSION

Although the causes of slow transit constipation have not been determined, the possibility that the disease may be due to enteric neuropathy caused by abnormality of the enteric nervous system has been suggested continuously [11]. Pathologic examinations of surgically-treated severe slow transit constipation patients have consistently revealed a decrease in neurons or neurofilaments [12, 13], and this abnormality is considered to be related to a decrease in the interstitial cell of Cajal (ICC), which is recognized as an intestinal pacemaker [10]. One report insisted that an increase and a decrease in neuropeptides, such as nitric oxide synthase, vasoactive intestinal peptide (VIP) and substance P, had a correlation with bowel movement, and another said that enterochromaffin cells and serotonin secreting cells were abnormally reduced in constipation patients [14, 15]. These results are similar to the findinga of this study in that the ganglion cell number was lower in 31 of the 37 patients. Yu et al. [10] compared the number of ganglion cells and ICC of 10 patients who underwent a total colectomy due to hereditary nonpolyposis colonic cancer or familial adenomatous polyposis with that of patients who had a total colectomy due to chronic idiopathic constipation and reported that the number of ganglion cell and ICC in patients with chronic idiopathic constipation was decreased.
In this study, all subjects had a history of taking laxatives before the surgery, which could lead to changes in tissues [16]. Among laxatives, anthraquinones like senna, cascara, sagrada, aloe and rhubarb are frequently observed in foods or health supplements for constipation on the market and in easily-purchased medications for constipation. Long-term administration of anthraquinones can lead to melanosis coli and can decrease type-1 neurosecretory granules. Smooth muscle atrophy, local Schwann cell proliferation and abnormalities of axons and dendrites were also found.
In patients with slow transit constipation, no response to medical treatments is an indication for surgery. When the colonic transit time is delayed, slow transit constipation is the diagnosis, and when combined with pelvic outlet obstruction, surgery is considered only in patients showing no response to biofeedback therapy. Thus, if radio-opaque markers remain in the rectum and the sigmoid colon after the colonic transit time study, surgical treatment should be avoided, or a surgical correction of a pelvic outlet obstruction can be added to surgery for slow transit constipation. In this study, one patient had a rectal prolapse on the colonic transit time study, and defecography and a total colectomy were performed along with a posterior rectopexy using Marlex mesh.
Antroduodenal and esophageal manometry, a gastric emptying study, a small bowel transit study and a hydrogen breath test are conducted preoperatively to check the upper gastrointestinal motility. Although an ileostomy is known to be relatively effective surgery in patients with diffuse abnormality of gastrointestinal motility, its performance, surgical techniques and effects are still controversial. For slow transit constipation combined with abnormal upper gastrointestinal motility, Redmond et al. [17] found that the success rate of a total colectomy was 90% in slow transit constipation patients with only colon transit abnormality, but it dropped to 13% in patients with a diffuse abnormality of gastrointestinal motility. On the contrary, Pemberton et al. [18] reported that four out of 36 constipation patients receiving a total colectomy had a pseudo-obstruction on gastrointestinal manometry, and all of them showed satisfactory surgical outcomes. In addition, Glia et al. [19] revealed that a subtotal colectomy for slow transit constipation associated with abnormality of bowel movement improved symptoms in 86% of 17 cases and that the result of antroduodenal manometry was an important prognostic factor. In this study, the upper gastrointestinal motility test was not a routine test for all patients, but an additional test only in patients suspected of having abnormal upper gastrointestinal motility because radio-opaque markers did not descend to the colon through the upper gastrointestinal tract in the colonic transit time study. As no one was considered to have abnormal upper gastrointestinal motility in the preoperative colonic transit time test in this study, the additional test was not conducted. Moreover, symptoms were relieved in all patients after the surgery, so no patient was thought to have an upper gastrointestinal abnormality.
Surgical treatments for slow transit constipation are a total colectomy and ileorectal anastomosis and a subtotal colectomy and ileosigmoid colon anastomosis or caecorectal anastomosis. Currently, a total colectomy and ileorectal anastomosis are known to be more successful than a subtotal colectomy and ileo-sigmoid colon anastomosis [20]. Some remaining sigmoid colon can cause a recurrence of constipation, but anastomosis below 7-10 cm from the anal verge can produce diarrhea and fecal incontinence. A partial colectomy preserving the appendix and the ileocecal valve was also found to produce a low success rate [21]. Outcomes of a total colectomy for slow transit constipation were reported differently in many studies. The success rate for a total colectomy and ileorectal anastomosis for slow transit constipation has been shown to be around 90% overall, and they have been preferred because the postoperative complication rate and the postoperative morbidity rate are low [22]. However, the satisfaction of patients after a colectomy has varied from 39% to 100%, and the postoperative defecation frequency has been reported to be 1.4-5 times (Table 8). When the megarectum is associated, a restorative proctocolectomy using an ileal pouch should be conducted after removing all of the dilated rectum. Nicholls and Kamm [23] reported that in two patients with persistent constipation. even after total colectomy, the remaining rectum was removed, and an ileal pouch-anal anastomosis was performed, reducing the defecation frequency to 2-3 times per day.
Arbuthnot Lane suggested total colectomy and ileorectal anastomosis for constipation in 1908, but they were not widely performed due to a high morbidity rate and a high mortality rate. In addition, some studies reported a high postoperative complication rate [24, 25]. Knowles et al. [26] analyzed 31 research papers published from 1981 to 1998 and found that the rates of small bowel obstruction and reoperation were 18% and 14%, respectively. Pikarsky et al. [27] said that the reoperation rate was 10% in their study conducted with 30 patients, and FitzHarris et al. [28] reported that adhesiolysis, permanent ileostomy and anastomosis revision were needed in 17%, 4%, and 7% of the patients, respectively, in their study performed with 75 patients. In this study, four (10.8%) patients underwent reoperation, and four (10.8%) patients had intestinal obstruction. The rates were similar to those in other studies.
Knowles et al. [26] reported that the success rate of a colectomy for constipation was 86% (range, 39 to 100%), and Pinedo et al. [29] revealed that the mean Wexner score declined from 22.3 to 1.8 after a laparoscopic total colectomy in 20 patients with slow transit constipation. He also reported that constipation of all 33 patients undergoing surgery was improved and that the success rate was 90.9% as three patients experienced diarrhea over 10 times per day. The mean Wexner score also became lower, decreased from 19.3 to 2.06, after the surgery. However, the postoperative Wexner score used in this study was obtained from the data in the medical records of outpatients at our hospital or from telephone interview, so the data were not collected during the same follow-up period for all patients. Because a patient's symptoms can change during the follow-up period, the Wexner score can also change during the period. Thus, long-term follow-up and evaluation are considered to be necessary in the future. Like most studies with similar purposes, this study determined the success rate of the surgery based on postoperative defecation frequency, and it assessed satisfaction with the surgery through telephone interviews. Out of the 33 patients, 27 (81.8%) were satisfied with their surgical outcomes. All of the six patients answering "fair" to a question about surgical outcome said that their symptoms were improved compared to their preoperative status.
In this study, three (9.1%) of the 33 patients had diarrhea over 10 times per day. Knowles et al. [26] analyzed 31 research papers reporting on patients receiving a colectomy for constipation and revealed that postoperative fecal incontinence and diarrhea were observed in 16 papers; the mean rate of occurrences of these symptoms was 14% (range, 0 to 52%). This level is similar to that of our study. Pemperton et al. [18] investigated 277 patients undergoing a subtotal colectomy and insisted that the reason for no case of diarrhea and fecal incontinence, unlike other studies was because the subjects did not include irritable bowel syndrome patients.
In this study, one patient (2.8%) experienced continuous anal fissure and increased sphincter pressure on anorectal manometry even after the surgery although their constipation symptoms were relieved, so a sphincterotomy was conducted, and the symptoms were improved. This rate is considered to be relatively low compared to the values reported in other studies (9%).
The results of this study show that a total colectomy and ileorectal anastomosis is considered to be comparatively effective to relieve symptoms of slow transit constipation patients not responding to medical treatments, and patient selection using an anorectal physiology test is important.

Notes

No potential conflict of interest relevant to this article was reported.

References

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Fig. 1
(A) Delayed colonic transit time 1 day after radio-opaque markers ingestion. (B) Delayed colonic transit time 5 days after radio-opaque marker ingestion. Diffusely scattered radio-opaque markers are seen throughout entire colon.
jksc-27-180-g001.jpg
Fig. 2
(A) Hypoganglinosis and aggregated abnormal ganglions in the myenteric plexus (H&E, × 400). (B) Thickened proper muscle and hypoganglinosis in the myenteric plexus (H&E, × 400).
jksc-27-180-g002.jpg
Fig. 3
Change of Wexner's constipation scores for the preoperative and the postoperative periods (total).
jksc-27-180-g003.jpg
Table 1
Diagnostic criteriaa of functional constipation (Rome III)
jksc-27-180-i001.jpg

aCriteria fulfilled for the last 3 months with symptom onset at least 6 months prior to the diagnosis.

Table 2
Wexner constipation score
jksc-27-180-i002.jpg
Table 3
Clinical characteristics
jksc-27-180-i003.jpg

aValues in parenthesis are range. bValues are presented as mean ± standard deviation.

Table 4
Segmental colonic transit time
jksc-27-180-i004.jpg
Table 5
Findings of preoperative manometry
jksc-27-180-i005.jpg
Table 6
Postoperative complications & management
jksc-27-180-i006.jpg

SB R&A, small bowel resection and anastomosis.

Table 7
Postoperative patients' satisfaction score
jksc-27-180-i007.jpg
Table 8
Postoperative functional outcomes and patients' satisfaction
jksc-27-180-i008.jpg


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