ORIGINAL ARTICLE: GASTROENTEROLOGY DefecationDisordersinChildrenAfterSurgeryfor Hirschsprung Disease Bruno P Chumpitazi and Samuel Nurko ABSTRACT Downloaded from https://journals.lww.com/jpgn by BhDMf5ePHKav1zEoum1tQfN4a+kJLhEZgbsIHo4XMi0hCywCX1AWnYQp/IlQrHD3gMUBbG+M1ZXz8Zk1HfEAfNglvlnYcSdbX+3yPtytMwG2zM/eYBTn3A== on 03/09/2019 Background and Objective: The majority of children with Hirschsprung disease (HD) after corrective surgery (CS) develop protracted defecationdisorders (DDs) such as constipation, fecal incontinence, and/or enterocolitis The aim of this investigation was to determine the diagnoses, therapies, and long-term clinical outcomes using a systematic algorithm to address protracted DD inchildren with HDafter CS Methods: Retrospective review of children with HDafter CS cared for using a systematic algorithm at a tertiary care center Potential anatomic etiologies were evaluated for first Clinical outcome was categorized into groups based on symptom severity, time interval from last enterocolitis episode, laxative usage, and/or rectal therapies at the time of last follow-up Results: Fifty-seven children were identified, of whom 51 (89.5%) had obstructive symptoms and/or enterocolitis and (10.5%) had nonretentive fecal incontinence Nonintractable constipation responsive to laxatives was identified in 10 (17.5%), colonic dysmotility in (7.0%), nonrelaxing anal sphincter as a primary etiology in 22 (38.6%), bacterial overgrowth in (3.5%), food intolerance in (3.5%), and rapid transit in (3.5%) Further surgical intervention was undertaken in 22 (38.6%), including (15.8%) for residual aganglionosis Mean follow-up was 41.4 Ỉ 4.5 months Clinical outcomes were excellent in 16 (28.1%), good in 22 (38.6%), fair in (1.8%), and poor in 18 (31.6%) Children with enterocolitis were more likely to have an excellent or good clinical outcome Conclusions: The majority of children with HD and protracted DD after CS have a favorable long-term clinical outcome when following a systematic algorithm been evolving, particularly with the introduction of laparoscopic and transanal techniques (4) Irrespective of the surgical technique used, up to 60% of children with HD experience a protracted defecation disorder (DD) and/or enterocolitis after initial HD corrective surgery (CS) (5–7) These DDs may include fecal incontinence (5), constipation (6), at times associated with episodes of abdominal distention and emesis (8), and/or enterocolitis (9) Postoperative enterocolitis may lead to increased morbidity and hospitalizations as well as increased mortality (9) Full bowel continence and resolution of symptoms are often achieved by late adolescence, but not in all cases (10), and there is a significant negative effect on the child and the child’s family when dealing with these postoperative DDs (11,12) Given the effect and prevalence of DDs and/or enterocolitis afterHD CS in children, various diagnostic and management strategies have been suggested to evaluate specific (eg, fecal incontinence alone) postoperative DDs in this population (13– 15) These strategies include various radiologic, manometric, dietary, pharmaceutical, and surgical interventions Evaluation of a comprehensive systematic algorithm combining strategies and determining the ability to affect long-term clinical outcome in all children with all postoperative DDs has not been completed, however The purpose of the present study was to determine the diagnoses, management, and long-term clinical outcomes following a well-defined systemic algorithm incorporating a variety of diagnostic and management strategies to address DDs inchildren with HDafter CS presenting to a tertiary care pediatric gastroenterology clinic (JPGN 2011;53: 75–79) METHODS H irschsprung disease (HD), a neural crest disorder (1) characterized by aganglionosis beginning in the rectum and extending to various lengths proximally, occurs in approximately in every 5000 to 10,000 live births (2,3) Surgical management has Received November 7, 2010; accepted January 17, 2011 From the Center for Motility and Functional Gastrointestinal Disorders, Children’s Hospital Boston, Boston, MA Address correspondence and reprint requests to Samuel Nurko, MD, MPH, Children’s Hospital, 300 Longwood Ave, Boston, MA 02115 (e-mail: Samuel.nurko@childrens.harvard.edu) (B.C present affiliation: Texas Children’s Hospital Neurogastroenterology and Motility Program, Baylor College of Medicine, Houston.) The present study was supported in part by NIH grant K24-DK082792A (Dr Nurko), the Children’s Digestive Health and Nutrition Foundation/Nestle Nutrition Research Young Investigator Award (Dr Chumpitazi), and NIH grant P30-DK056338 (Dr Chumpitazi) The authors report no conflicts of interest Copyright # 2011 by European Society for Pediatric Gastroenterology, Hepatology, and Nutrition and North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition DOI: 10.1097/MPG.0b013e318212eb53 JPGN Volume 53, Number 1, July 2011 Following institutional review board approval, medical records of all children status post-CS forHD presenting to a tertiary care pediatric gastroenterology clinic at a tertiary medical center between 1998 and 2006 were reviewed Children with a physician’s diagnosis of constipation, fecal incontinence, and/or enterocolitis and documented follow-up after initial evaluation were included A diagnostic algorithm (Fig 1) that first excludes potential anatomic etiologies via physical examination and/or barium enema was systematically followed in all children as part of the routine clinical practice Although a barium enema was preferred, at times given the child’s anxiety, an examination under anesthesia was undertaken All of the children were tested for the presence of Clostridium difficile toxin in the stool and treated appropriately The senior author (S.N.) was involved in the evaluation and management of all of the patients Children with anal stenosis, strictures, or a transition zone were referred for further surgical evaluation Following initial evaluation, children were classified into of groups: obstructive symptoms (OS) (eg, constipation, straining with defecation, abdominal distention) and/or enterocolitis, or nonretentive fecal incontinence based on radiologic results and 75 Copyright 2011 by ESPGHAN and NASPGHAN Unauthorized reproduction of this article is prohibited Chumpitazi and Nurko JPGN Child with Hirschsprung’s disease s/p corrective surgery Stricture or Transition zone Surgical evaluation History and physical examination C difficile testing Anal stenosis Anal dilatation and surgical evaluation Barium enema No anatomic etiology Nonretentive Fecal Incontinence Obstructive symptoms and/or enterocolitis Expand differential diagnosis Begin fiber and antidiarrheals Begin laxative regimen FIGURE Initial diagnostic and treatment algorithm for a child with Hirschsprung disease after corrective surgery presenting with a defecation disorder and/or enterocolitis Volume 53, Number 1, July 2011 and were started on oral agents (Imodium, fiber supplementation) to slow colonic transit Children with abdominal distention and/or recurrent enterocolitis were started on a 5-day course of antibiotics (metronidazole or amoxicillin with clavulanic acid) monthly for the duration of the symptom If initial management was unsuccessful per physician assessment, then patients underwent further anorectal function evaluation (Fig 2), which included anorectal manometry, flexible sigmoidoscopy, and rectal suction biopsy Clostridium botulinum toxin was injected after completion of a flexible sigmoidoscopy inchildren with anal sphincter pressure above 50 mmHg, who continued with OS and/or enterocolitis (16) Anorectal manometry was completed before all C botulinum toxin injections Surgical referral was completed if residual aganglionosis or an anatomic etiology (eg, stricture) was identified Children with intractable or recurring symptoms despite aggressive medical therapy were referred for surgical consultation after discussion between the primary pediatric gastroenterologist and the family Anorectal manometry was performed as previously described using a continuously perfused catheter using a lowcompliance pneumo-hydraulic system (Model ARM2; Arndorfer Medical Specialties, Greendale, WI) (16) Colonic manometry was performed inchildren with continued symptoms despite completing an anorectal evaluation with directed therapy (Fig 2) (16) Injection of Botox (C botulinum toxin A, Allergan, Irvine, CA) with a 1-mL syringe and a 25- to 30-gauge needle, U/kg (up to 100 U total), was divided and injected equally into quadrants at the level of the dentate line, as previously described (8) Management clinical impression Children classified as having OS and/or enterocolitis were started on an aggressive bowel regimen Children with nonretentive fecal incontinence received full medical evaluations Management was based on the diagnostic findings and clinical course (Figs and 2) Laxative bowel regimens included oral combinations of senna, polyethylene glycol 3350, magnesium Child with Hirschsprung Disease after corrective surgery unresponsive to initial management Begin rectal therapies Residual aganglionosis Surgical evaluation for repeat pullthrough Flexible sigmoidoscopy Anorectal manometry Rectal suction biopsy If obstructive symptoms and/or enterocolitis: Clostridium botulinum injection Adjust bowel regimen based on results Improvement Close follow-up Reassess as needed No improvement Expand differential diagnosis Colonic Manometry Consider directed surgical procedure FIGURE Diagnostic and therapeutic algorithm for a child with Hirschsprung disease and defecationdisorders and/or enterocolitis unresponsive to initial management 76 www.jpgn.org Copyright 2011 by ESPGHAN and NASPGHAN Unauthorized reproduction of this article is prohibited JPGN Volume 53, Number 1, July 2011 hydroxide, and bisacodyl In patients with fewer than bowel movements per week and/or abdominal distention causing discomfort despite the use of an aggressive oral laxative regimen, rectal therapies were recommended These included either normal saline irrigations or bisacodyl suppositories or sodium phosphate enemas Final Diagnoses Responsible for the Symptoms Diagnoses responsible for the symptoms were determined based on the result of diagnostic testing and management response Children with OS that improved significantly (eg, no longer having constipation or fecal incontinence episodes related to stool retention) following an initial bowel regimen were classified as having nonintractable constipation Children who improved following anal sphincter C botulinum injection were classified as having nonrelaxing anal sphincter as the reason for the symptoms, if another cause (eg, colonic dysmotility, persistent aganglionosis) was not subsequently identified Children with abnormalities on colonic manometry were classified as having colonic dysmotility Children undergoing a surgical procedure received a final diagnosis based on the indication for the procedure (eg, residual aganglionosis) Children with nonretentive fecal incontinence received a final diagnosis reflecting the etiology of the incontinence (eg, food intolerance) Clinical Outcome Clinical outcome was determined based on symptom severity and management needed at the time of last follow-up as compared to baseline The categories were defined as follows: Poor: No improvement or worsening in the number of bowel movements and/or fecal accidents, or an enterocolitis episode within months of the last documented follow-up Fair: Improvement in the number of bowel movements with need for rectal therapies (eg, enema, suppository, irrigation), or fecal incontinence episodes more than once per week, or an enterocolitis episode between to months of the last documented follow-up Good: Improvement in the number of bowel movements with continued usage of oral laxatives, or fecal incontinence episodes less than once per week, or an enterocolitis episode between to 12 months of the last documented follow-up Excellent: Improvement in the number of bowel movements or other OS without need for medications, or elimination of all fecal incontinence episodes, or last enterocolitis episode more than year from the last documented follow-up Postoperative Hirschsprung Disease Problems RESULTS Baseline Characteristics Fifty-seven children were identified The mean age was 5.1 Ỉ 0.6 years Forty-six (81%) were boys and 11 (19%) girls Seven (12%) had Down syndrome, (9%) had developmental delay of unknown etiology, and (2%) had Bardet-Biedl syndrome Of the 57 children, 30 (53%) had OS alone (eg, constipation, straining with defecation, abdominal distention), 14 (25%) had both OS and postoperative enterocolitis episodes, (12%) had postoperative enterocolitis alone, and (11%) had nonretentive (nonoverflow) fecal incontinence The original extent of aganglionosis was short segment (rectosigmoid) in 40 (70%), long segment (through to ascending colon) in (14%), and total colonic with or without small bowel involvement in (16%) Surgical pull-through procedures included Soave in 36 (63%), Duhamel in 11 (19.4%), Swenson in (12.3%), and unknown (documentation from outside hospital unavailable) in (5.3%) Diagnostic Studies Diagnostic studies completed within this population are found in Table The findings forchildren undergoing a barium enema were notable for identifying a stricture, identifying a transition zone, and 10 identifying colonic dilatation All of the children undergoing an anorectal manometry (n ¼ 45) did not have a recto-anal inhibitory reflex The mean sphincter pressure in those undergoing an anorectal manometry was 90.2 Ỉ 3.3 mmHg (range 40–140) Six (10.5%) children underwent colonic manometry evaluation Of these, were normal; had high-amplitude propagating contractions only in the proximal colon, and demonstrated complete colonic inertia Final Diagnoses Ten (17.5%) children with OS responded well to an aggressive laxative regimen and were classified as having nonintractable constipation Eight (14%) children were found to have a mechanical obstruction (eg, stricture), and (12%) were found to have residual aganglionosis Twenty-two (38.6%) children were classified as having a nonrelaxing internal anal sphincter (IAS) as the primary reason for their OS Four (6.8%) were identified as having colonic dysmotility Of the children with nonretentive fecal incontinence, had food intolerances that were identified; had bacterial overgrowth as a contributing factor as identified via lactulose breath testing and response to antibiotic therapy, and the remaining had abnormally rapid colonic transit Surgical Interventions Thirty-seven children (69.1%) received anal sphincter C botulinum (Botox) injections The mean number of injections in Statistical Analyses TABLE Diagnostic studies completed Results are presented as mean Ỉ standard error Percentages are rounded to the nearest decimal point x2 analysis was used to analyze differences in categorical variables between groups Excellent and good long-term outcomes were classified as being favorable Binomial logistic forward stepwise regression analysis with favorable outcome as the dependent factor incorporating sex, age at presentation, symptom type (eg, enterocolitis), Down syndrome, extent of original aganglionosis, type of original pull-through (eg, Duhamel), and final diagnosis was performed SPSS was the statistical software used (SPSS Inc, Chicago, IL) www.jpgn.org Diagnostic study Barium enema Anorectal manometry Rectal suction biopsy Flexible sigmoidoscopy Full-thickness biopsy Colonic manometry n, % 47, 45, 39, 38, 13, 6, 83 79 69 67 23 11 77 Copyright 2011 by ESPGHAN and NASPGHAN Unauthorized reproduction of this article is prohibited Chumpitazi and Nurko JPGN TABLE Surgical procedures undertaken inchildren with HDafter the initial CS Surgical procedure Repeat pull-through Anal dilatation and/or stricturoplasty Anal sphincter myectomy Ileostomy/colostomy Antegrade cecostomy enema Sigmoid stricturoplasty n, % 9, 8, 6, 4, 2, 2, 16 14.0 10.5 7.0 3.5 3.5 Some children underwent more than procedure CS ¼ corrective surgery; HD ¼ Hirschsprung disease those undergoing at least Botox injection was 2.8 Ỉ 0.3 Of the 37 children undergoing Botox injections, 33 (89.2%) demonstrated an initial short-term improvement Twenty-two (38.6%) children with HDafter CS underwent at least further surgical procedure, with 10 (17.5%) undergoing multiple procedures A listing of surgical procedures performed can be found in Table All of the children with residual aganglionosis underwent repeat pull-through A repeat pull-through was also performed in other select cases (eg, failed previous stricturoplasty) The original type of surgical procedure did not predict the need for a repeat surgical procedure (P ¼ 0.47) Four (7.0%) failed all therapy and required diverting ileostomies or colostomies Long-term Clinical Outcomes The mean follow-up period in this cohort was 41.4 Ỉ 4.5 months Thirty-eight (66.7%) children had a favorable (excellent or good) long-term outcome Children who underwent a subsequent surgical procedure (14/22) were as likely to have a favorable outcome as those following medical therapy (24/35) alone (P ¼ 0.78) Children with any form of developmental delay including Down syndrome or Bardet-Biedl syndrome (6/13) were as likely as those without developmental delay (32/44) to have a favorable outcome (P ¼ 0.09) (Fig 3) Multivariate logistic regression analysis determined that children with enterocolitis as a presenting symptom were more likely to have a favorable outcome (18/21) than those without enterocolitis (20/36) (P < 0.05) Other factors, including sex, age at presentation, Down syndrome, any form of developmental delay, extent of original aganglionosis, type of original pull-through (eg, FIGURE Distribution of clinical outcomes by percentage into ex, good, fair, poor categories in all 57 patients, and by those having and not having enterocolitis Ex ¼ excellent 78 Volume 53, Number 1, July 2011 Duhamel), and final diagnosis, were not found to predict long-term clinical outcome Two of the (33%) children with nonretentive fecal incontinence had a favorable outcome at the time of the last follow-up The child with nonretentive fecal incontinence with identified low anorectal sphincter pressure had a poor long-term outcome DISCUSSION To our knowledge, this is the first study to evaluate long-term clinical outcomes as well as diagnoses and management strategies when following a comprehensive systematic algorithm addressing all protracted DDs inchildren with HDafter CS A variety of diagnoses were made, including identification of residual aganglionosis and other anatomic problems that required surgical correction Management using the algorithm was dependent on the underlying etiology of the symptoms, and approximately two-thirds of the cohort had had a good or excellent long-term clinical outcome Previous authors have reported that the need for reoperation following initial pull-through CS forHD may be relatively high, with estimates ranging between 26% and 34% (17,18) The rate of need for reoperation in our population is slightly higher (38%) than we had initially expected, given that all of the children evaluated in our gastroenterology clinic were past the initial perioperative period More than 25% of children required further surgical management for either a mechanical obstruction (eg, stricture) or residual aganglionosis This may have been partly the result of the nature of the referral population to a tertiary care center because these patients were likely to have failed previous more conservative measures and/or their symptoms may have been more pronounced Nonetheless, communication with a pediatric surgeon is clearly needed in the routine care of these children The cause for a relatively high number of children presenting with residual aganglionosis is unknown; it may be the result of surgical technique (eg, transition zone pull-through), chronic unidentified enterocolitis, or loss of ganglion cells after pull-through (19,20) Efforts directed toward minimizing postoperative aganglionosis are already being investigated through modification of surgical techniques (10) In the future, progenitor cell transplantation to repopulate areas of aganglionosis after CS with functional ganglion cells may be possible, and any such advances would change the algorithm accordingly (21) Patients with postoperative HD may be at greater risk for DDs given a postsurgical neorectum with likely decreased sensation and accommodative capacity, continued nonrelaxation of the IAS (16), and higher propensity for colonic dysmotility (22,23) Despite these apparent disadvantages, certain children with OS and/or enterocolitis responded well to an aggressive oral laxative regimen alone This supports the view that children with postoperative HD may develop a pattern of defecation avoidance because of trauma or previous discomfort similar to children with functional constipation (6) We support an initial approach of using oral laxative regimens with common behavioral approaches (eg, toilet sitting) in this population of childrenin an attempt to avoid further unnecessary interventions In theory, all children with HD have a nonrelaxing IAS, which may cause a functional obstruction Attribution of symptoms to this functional obstruction following improvement with local Botox injection therapy has been supported by us and others (16,20,24) Given Botox anal sphincter injection is a local therapy, and children who responded had not previously done so with more conservative measures, we believe that attribution of symptoms to a nonrelaxing IAS is appropriate We recently reported our long-term experience of using Botox inchildren with nonrelaxing IAS (16) and believe that it may be a useful therapy within an overall www.jpgn.org Copyright 2011 by ESPGHAN and NASPGHAN Unauthorized reproduction of this article is prohibited JPGN Volume 53, Number 1, July 2011 therapeutic algorithm Other centers may have more experience with anal sphincter myectomy (25), although we prefer to avoid myectomy when possible given higher long-term fecal incontinence rates, and the natural tendency of the anal sphincter to become hypotensive in adults over time with HDafter CS (26) Future incorporation of topical therapies (eg, glycerin trinitrate) to relax the anal sphincter may prove to be beneficial (27) Nonretentive fecal incontinence in our population was less common In the patients within this cohort, the differential diagnosis was broadened and encompassed small bowel bacterial overgrowth, food intolerance, and rapid colonic transit These diagnoses suggest that children with HD with nonretentive fecal incontinence may benefit from full medical evaluations beyond the use of agents to slow intestinal transit alone The only baseline predictive factor for a favorable outcome using this algorithm was enterocolitis as a presenting symptom, suggesting children with this presentation are most likely to benefit from the management within the algorithm The vast majority of children with enterocolitis had a favorable outcome in the present study This may in part be due to the ability of many of the interventions to improve colonic transit and prevent obstruction Moreover, we postulate that enterocolitis is less likely to have a functional/behavioral component and as such may be more directly amenable to the rendered therapies The primary weakness of the present study is that it is retrospective As such, factors such as follow-up intervals and compliance with medication regimens prescribed were not accounted for Symptom improvement was subjective and based on history as recorded by the primary gastroenterologist However, some of the nonstandardized factors may have been ameliorated by the fact that of the investigators (S.N.) was involved in the care of all of the patients, that all of the patients with postoperative HD with DDs at our institution are referred to the pediatric gastroenterology program, and that a systematic algorithm was followed in all of the patients Another limitation of the present study is that it incorporates numerous diagnostic techniques and interventions As such, in theory, an effective intervention may be buried within other less effective or even harmful interventions It is for this reason, however, that we chose to evaluate the systematic algorithm as a whole Given that the algorithm was followed in the entire studied cohort in a manner consistent with daily clinical care, we hope that this model will serve as an early step toward further work in comparative effectiveness in the care of these childrenIn the future, changes in the algorithm with new clinical and/or technical advances may be made and outcomes compared accordingly We propose that the stepwise algorithm is generalizable and can be followed in the majority of medical centers that treat children with HD Evaluation of the child’s anatomy followed by appropriate categorization into obstructive or nonretentive symptoms will lead to appropriate management Referral to another institution will vary depending on the availability of therapies such as anal sphincter Botox, or the need for a more advanced colonic manometry evaluation In our cohort, only a minority of patients underwent colonic manometry, and these patients did not have a superior longterm outcome As such, only a small number of patients would need to be referred for this evaluation using the algorithm In conclusion, the results of the present study suggest that following a comprehensive systematic algorithm for protracted DDs inchildren with postoperative HD may identify diagnoses that require specific therapies and leads to favorable long-term outcomes for the majority of children evaluated REFERENCES Iwashita T, Kruger GM, Pardal R, et al Hirschsprung disease is linked to defects in neural crest stem cell function Science 2003;301:972–6 www.jpgn.org Postoperative Hirschsprung Disease Problems Adzick NS, Nance ML Pediatric surgery First of two parts N Engl J Med 2000;342:1651–7 Russell MB, Russell CA, Niebuhr E An epidemiological study of Hirschsprung’s disease and additional anomalies Acta Paediatr 1994;83:68–71 Georgeson KE, 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defecatory disorders Role in diagnosis and management Am J Gastroenterol 2003;98:1052–7 24 Minkes RK, Langer JC A prospective study of botulinum toxin for internal anal sphincter hypertonicity inchildren with Hirschsprung’s disease J Pediatr Surg 2000;35:1733–6 25 Blair GK, Murphy JJ, Fraser GC Internal sphincterotomy in post-pullthrough Hirschsprung’s disease J Pediatr Surg 1996;31:843–5 26 Heikkinen M, Rintala R, Luukkonen P Long-term anal sphincter performance aftersurgeryfor Hirschsprung’s disease J Pediatr Surg 1997;32:1443–6 27 Tiryaki T, Demirbag S, Atayurt H, et al Topical nitric oxide treatment after pull through operations for Hirschsprung disease J Pediatr Gastroenterol Nutr 2005;40:390–2 79 Copyright 2011 by ESPGHAN and NASPGHAN Unauthorized reproduction of this article is prohibited ... following an initial bowel regimen were classified as having nonintractable constipation Children who improved following anal sphincter C botulinum injection were classified as having nonrelaxing... completed within this population are found in Table The findings for children undergoing a barium enema were notable for identifying a stricture, identifying a transition zone, and 10 identifying colonic... Fishman SJ, Nurko S Long-term clinical outcome after botulinum toxin injection in children with nonrelaxing internal anal sphincter Am J Gastroenterol 2009;104:976–83 17 Fortuna RS, Weber TR, Tracy