Colonic transit in children and adolescents with chronic constipation

Carmo, Rafael L.M.L.; Oliveira, Raquel P.M.; Ribeiro, Antonio E.A.; Lima, Mariana C.L.; Amorim, Bárbara J.; Ribeiro, Antonio Fernando; Ramos, Celso D.; Bustorff-Silva, Joaquim M.; Lomazi, Elizete A.

doi:10.1016/j.jped.2014.10.007

Abstracts

OBJECTIVE:

The aim of this study was to assess clinical features and colonic transit patterns in Brazilian children with refractory constipation.

METHODS:

From 2010 to 2013, 79 constipated patients received follow-up care in a tertiary hospital. Of these patients, 28 (aged 8-14 years) were refractory to conventional therapy and underwent a simplified visual method of nuclear colonic transit study, by ingestion of a liquid meal containing 9.25 MBq/kg of ^99mTc-phytate. Abdominal static images were taken immediately and at two, six, 24, 30, and 48 h after ingestion for qualitative analysis of the radio marker progression through the colon.

RESULTS:

Two patterns of colonic transit were found: slow colonic transit (SCT,n = 14), when images at 48 h showed a larger part of the tracer remained in proximal and transverse colon, and distal retention (DR, n = 14), when after 30 h, the radio isotope passed the transverse colon and was retained in the rectosigmoid up to 48 h. The SCT and DR group included, respectively, nine and ten males; median ages in the nuclear study of 11 and 10 years, p = 0.207; median duration of constipation of seven and six years, p = 0.599. Constipation appearing during first year age (p = 0.04) and report of soft stools (p = 0.02) were more common in SCT patients. Palpable abdominal fecal impaction was found only in DR group. Appendicostomy for antegrade continence enema was successful in 4/12 (30%) of SCT patients (median follow-up: 2.4 years).

CONCLUSION:

Nuclear transit study distinguished two colonic dysmotility patterns and was useful for guiding refractory patients to specific therapies.

Children; Adolescents; Constipation; Diagnosis

OBJETIVO:

Avaliar as características clínicas e os padrões de trânsito intestinal em crianças brasileiras com constipação refratária.

MÉTODOS:

De 2010 a 2013, 79 pacientes constipados receberam acompanhamento em um hospital terciário. Desses pacientes, 28 (entre 8-14 anos) foram identificados como terapia refratária a convencional e passaram por um método visual simplificado de estudo nuclear do trânsito intestinal, com ingestão de uma refeição líquida contendo 9,25 MBq/Kg de fitato^-99mTc. Imagens estáticas abdominais foram tiradas imediatamente e em duas, seis, 24, 30 e 48 horas após a ingestão para uma análise qualitativa da progressão do marcador radioativo pelo cólon.

RESULTADOS:

Foram encontrados dois padrões de trânsito intestinal: trânsito intestinal lento (STC, n = 14), quando as imagens de 48 horas mostraram que grande parte do marcador permaneceu no cólon proximal e transversal; e retenção distal (DR, n = 14), quando, após 30 horas, o radioisótopo havia passado o cólon transverso e estava retido no retossigmoide até 48 horas. O grupo STC e o grupo DR incluíram, respectivamente, nove e 10 meninos; idade média no momento do NTS: 11 e 10 anos, p = 0,207; duração média de constipação: sete e seis anos, p = 0,599. Sintomas de constipação durante o primeiro ano de idade (p = 0,04) e relatos de fezes moles (p = 0,02) foram mais comuns em pacientes com STC. Observou-se impactação fecal abdominal palpável apenas no grupo DR. A apendicostomia para enema anterógrado para continência foi bem-sucedida em 4/12 (305) pacientes com STC (acompanhamento médio: 2,4 anos).

CONCLUSÃO:

O estudo nuclear do trânsito diferenciou dois padrões de dismotilidade intestinal e foi útil para orientar pacientes refratários a terapias específicas.

Crianças; Adolescentes; Constipação; Diagnóstico

Introduction

Constipation is a common complaint in children and improvement is seen in the majority of patients who adhere to treatment recommended by consensus guidelines, including osmotic laxatives and intake of a fiber-rich diet.¹1 Tabbers MM, DiLorenzo C, Berger MY, Faure C, Langendam MW, Nurko S, et al. Evaluation and treatment of functional constipa- tion in infants and children: evidence-based recommendations from ESPGHAN and NASPGHAN. J Pediatr Gastroenterol Nutr. 2014;58:258-74. However, in approximately one-third of children, symptoms are more intense and there is refractoriness to regular enemas and maximum doses of laxatives.²2 Bongers ME, van den Berg MM, Reitsma JB, Voskuijl WP, Benninga MA. A randomized controlled trial of enemas in combination with oral laxative therapy for children with chronic constipa- tion. Clin Gastroenterol Hepatol. 2009;7:1069-74. The constipation may be severe enough to result in complete cessation of spontaneous bowel motions.³3 Wong SW, Lubowski DZ. Slow-transit constipation: evaluation and treatment. ANZ J Surg. 2007;77:320-8. To explain such a clinical course, the main hypothesis is colonic transit dysfunction. Studies of colonic motor function in pediatric patients with refractory constipation have recorded dysfunctional patterns of colonic transit.⁴4 Yik YI, Cook DJ, Veysey DM, Rutkowski SJ, Tudball CF, Brooke S, et al. Targeting the causes of intractable chronic constipation in children: the nuclear transit studies (NTS). In: Singh N, editor. Radioisotopes-applications in biomedical science. Manhattan, NY: In Tech Open Access Publisher; 2011. p. 305-20. Recent studies suggest that severe chronic constipation in children may be due to slowed colonic transit; different patterns of delayed transit have been described⁴4 Yik YI, Cook DJ, Veysey DM, Rutkowski SJ, Tudball CF, Brooke S, et al. Targeting the causes of intractable chronic constipation in children: the nuclear transit studies (NTS). In: Singh N, editor. Radioisotopes-applications in biomedical science. Manhattan, NY: In Tech Open Access Publisher; 2011. p. 305-20. ^, ⁵5 Yik YI, Cain TM, Tudball CF, Cook DJ, Southwell BR, Hutson JM. Nuclear transit studies of patients with intractable chronic constipation reveal a subgroup with rapid proximal colonic tran- sit. J Pediatr Surg. 2011;46:1406-11. ^and ⁶6 Dinning PG, Di Lorenzo C. Colonic dysmotility in constipation. Best Pract Res Clin Gastroenterol. 2011;25:89-101. and specific therapies have been successfully proposed.⁷7 Southwell BR. Treatment of slow transit constipation in chil- dren. J Pediatr Gastroenterol Nutr. 2011;53:S51-3.

There is a lack of data on role of colonic transit studies in clinical practice, mainly concerning its reproducibility in different populations, standardization of technical procedures, and purpose for investigating refractory constipation. The aim of the current study was to group refractory constipated patients according colonic transit pattern, using a simplified method of nuclear transit study (NTS).

Case study and methods

From September 2010 to December 2013, 79 patients diagnosed with functional constipation according to Roma III criteria⁸8 Rasquin A, Di Lorenzo C, Forbes D, Guiraldes E, Hyams JS, Sta- iano A, et al. Childhood functional gastrointestinal disorders: child/adolescent. Gastroenterology. 2006;130:1527-37.received tertiary outpatient follow-up care in a pediatric gastroenterology unit at the University of Campinas Medical School Hospital in São Paulo, Brazil. Of these, 28 patients (aged 8-14 years; ages at the time of NTS) were identified as refractory to conventional therapy, after a prospective follow-up of 2.8 ± 1.7 years (mean ± SD). This group participated in a colonic transit study, after written informed consent term was obtained from the parents/legal guardians and patients. The main demographic characteristics of 28 children with clinical refractoriness included male gender (n = 19) and median duration of symptoms longer than five years (ranging from 2 to 12 years).

Refractory constipation was considered when patient had presented severe chronic constipation resistant to therapy for at least two years, maintained fecal retention, and require regular cleansing enemas, despite adherence to maximum laxative dosage (when osmotic effects are intolerable). Subjects in the study were prescribed to doses of magnesium hydroxide or lactulose equal to or higher than 2 mL/kg/day, or macrogol 3350 with electrolytes 1.4 g/kg/day; exhibited symptoms of excessive laxatives, such as colicky abdominal pain, flatulence, vomiting, and cramps; expressed signs of osmotic intolerance; and consumed 18 g of fibers/day (one-half cup of FibraMais^(r), Nestlé, Brazil). Adherence to therapy and clinical features on constipation symptoms were systematically evaluated during last 6 months before colonic transit study, by weekly telephone contact and clinical consultation every 15 days. If the pediatric gastroenterologist was uncertain regarding the presence of retentive soiling, a plain abdominal radiography was taken to confirm or exclude fecal impaction and Barr score⁹9 Barr RG, Levine MD, Wilkinson RH, Mulvihill D. Chronic and occult stool retention: a clinical tool for its evaluation in school- aged children. Clin Pediatr (Phila). 1979;18:674-9. was defined. Adherence to treatment was an inclusion criterion.

After medical history and physical examination, anorectal manometry and barium enema were performed for excluding Hirschsprung disease and other organic causes of constipation. Anorectal manometry was performed with a continuous perfusion system, and a low-complacency pneumatic hydraulic system of continuous capillary perfusion (Arndorfer, Inc., WI, USA), interfaced with a computerized system using commercially available software (Gastrosoft, Polygram Lower GI, version 6.4 and, Windows, Synetics Medical Inc., TX, USA and Dynapack MPX 816, Dynamed, SP, Brazil) and an 8-channel axial manometry probe (Dynamed Pro-life technology, Prolife technology, São Paulo, SP, Brazil).

NTS was performed during a four-day admission period scheduled exclusively for this purpose. Laxatives were discontinued five days before hospital admission. Rectal disimpaction was performed by rectal infusion of 20 mL/kg of 12% glycerin solution, at a maximum dose of 500 mL. Anorectal manometry was performed after rectal disimpaction. Normal manometry values were considered those reported by Kumar et al.¹⁰10 Kumar S, Ramadan S, Gupta V, Helmy S, Atta I, Alkholy A. Mano- metric tests of anorectal function in 90 healthy children: a clinical study from Kuwait. J Pediatr Surg. 2009;44:1786-90. Then, patients remained 12 h with no medication, maintaining a normal diet and activities. On the morning of the first day, a liquid meal containing 9.25 MBq/kg (a maximum of 370 MBq) of^99mTc-phytate diluted in 20 mL of milk was ingested. Static images of the anterior abdominal view were taken immediately after radioactive drug ingestion and after two, six, 24, 30 and 48 h. Images acquired immediately and at two and 6 h after drug ingestion were used to assess gastric emptying and small bowel transit. Images acquired between six and 48 h allowed assessment of colonic transit.

Colonic transit analysis was based on qualitative visual assessment of the images acquired at each time interval and considering progression of the radioisotope through the colon. Two nuclear medicine physicians reviewed the NTS images while blinded to clinical details. Images were grouped by visual analysis; classification was according to appearance of the activity pattern within the colon at six, 24, 30 and 48 h. Two types of colonic motor patterns were found: the first was termed slow colonic transit (SCT) when the tracer in the main remained in the proximal and transverse colon, at 48-hour scans. The second pattern was classified as distal retention (DR) when the radioisotope had passed the transverse colon at 30 h after the study, but persisted in the rectosigmoid region up to 48 h.

Age, duration of constipation, follow-up time before NTS, and clinical features in the groups were compared by the Mann-Whitney test, and Pearson's chi-squared test was used to compare clinical features test. p-values <0.05 were considered significant.

This research project was presented to the Research Ethics Committee of the UNICAMP School of Medicine, on 4/16/2010 and approved by process 322/2010, CAAE number 02450146000-10, on 4/27/2010. A signed informed consent from patients and legal guardians was required to fulfill inclusion criteria in the study.

Results

NTS showed two motor dysfunction patterns: isotope retention in the proximal colon (SCT group, n = 14) or in the rectosigmoid region (DR group,n = 14). Clinical data are shown at Table 1. The SCT and DR groups showed following characteristics, respectively: nine and ten males; median age at the time of NTS of 11 and 10 years, p = 0.207, Mann-Whitney; median duration of constipation according data recorded in medical history, seven and six years,p = 0.599, Mann-Whitney; and median duration of follow-up at the specialized service until the performance of NTS, 3.5 and 2.2 years,p = 0.02, Mann-Whitney. Constipation symptoms appearing during first year age and report of soft stools were more common in SCT patients (p = 0.04 and p = 0.02, respectively). Abdominal palpable fecal impaction was found only in the DR group.

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Table 1
Comparison of the clinical features in 28 patients managed in a specialized outpatient facility with refractory constipation and presenting with two patterns of colonic transit scintigraphy: slow colonic transit (SCT) and distal retention (DR).

NTS was well tolerated and no adverse events were observed. Two specialists in nuclear medicine reviewed the images, separately. Inter-observer reliability with kappa coefficient was 0.727, p < 0.001. Photographs of the two colonic transit patterns (SCT and DR) are shown in Fig. 1.

Figure 1
Scintigraphic images of bowel transit in a patient exhibiting motor pattern defined as slow colonic transit (A) and distal retention (B). (A) The progress of the radioisotope is observed for a period of 48 h: stomach (S, 0 h), small bowel (2 h), cecum and ascending colon (6 h). The image at 24 h shows that almost all the radioactive material is distributed throughout the entire colon. The slow transit pattern is confirmed in the following images (30 h and 48 h), with minimum progress of the material to the rectum (R). (B) Nuclear colonic transit with retention pattern in the rectosigmoid region. After administration of the material, the stomach (S), small bowel, and ascending colon are sequentially imaged at zero, two, and 6 h, respectively. Progress of the radioisotope throughout the colon is clearly seen in scans at 24 and 30 h. At 48 h, the material is retained in the rectum (R), with almost no radioactivity remaining in the colon.

Before NTS, all subjects underwent anorectal manometry. Rectoanal inhibitory reflex was identified in all patients; other parameters were unable to differentiate groups. Patients in both groups referred hyposensitivity during balloon insufflation with volumes from 20 mL to 60 mL in-rectum, and most children referred balloon insufflation as imperceptible. There are no differences between groups considering anal sphincter length, maximum resting pressure, and maximum squeeze pressure.

Barium enema of patients showed no stricture or malformation.

During the study, 64 plain abdominal radiographs were taken to investigate fecal impaction. Barr scores were calculated to assess severity of stool retention. Radiographs were retrospectively reviewed by two pediatric radiologists and correlated to NTS reports. The agreement between pairs of observers was assessed by the kappa coefficient and was good for the Barr score: 0.59. There was no association between stool retention severity and NTS images, p = 0.08, test.

Twelve patients with SCT underwent to appendicostomy. Soiling was prevented in all cases and four patients recovered spontaneous bowel passage without using laxatives, after a median follow-up period of 2.4 years (min: 1.9 years; max: 2.6 years), the others continued to require stoma for antegrade cleansing enemas, median follow-up period: 1.5 years (min: 1.3 years; max: 4.9 years). During the same follow-up period, no DR patients recovered spontaneous bowel movements without lavage.

Discussion

To allow for comparisons and reproducibility of clinical trials, research studies of new therapies or diagnostic tests in pediatric patients with constipation must be careful to specify the type of patient tested, since constipation is not a disease, but rather a symptom with different determinative factors. The pediatric population of constipated patients consists of a heterogeneous group, ranging in age, severity, and duration of symptoms. Until now, a consensus definition of refractory constipation has not been defined in international guidelines; this represents one of the most widely found clinical presentations of constipation in pediatric tertiary centers.

Considering that colonic transit dysfunction is present in 60% of children with refractory constipation⁴4 Yik YI, Cook DJ, Veysey DM, Rutkowski SJ, Tudball CF, Brooke S, et al. Targeting the causes of intractable chronic constipation in children: the nuclear transit studies (NTS). In: Singh N, editor. Radioisotopes-applications in biomedical science. Manhattan, NY: In Tech Open Access Publisher; 2011. p. 305-20. and that specific therapies have been proposed for dysfunctional colonic patterns,¹¹11 Hutson JM, Chase JW, Clarke MC, King SK, Sutcliffe J, Gibb S, et al. Slow-transit constipation in children: our experience. Pediatr Surg Int. 2009;25:403-6. it would be useful to distinguish them on a clinical basis. A retrospective study correlated constipation symptoms with transit times to determine clinical differences between SCT and DR, authors concluded that this was not possible on a symptomatic basis.¹²12 Shin YM, Southwell BR, Stanton MP, Hutson JM. Signs and symp- toms of slow-transit constipation versus functional retention. J Pediatr Surg. 2002;37:1762-5. However, despite the fact that the frequency of each symptom is not enough to define the transit pattern, some complaints are found more commonly in SCT patients: soft stools despite infrequent bowel movements; delayed passage of meconium; very early onset of constipation, generally during first year of life; and absence of a hard palpable stool mass on distal colon and rectum sigmoid.¹¹11 Hutson JM, Chase JW, Clarke MC, King SK, Sutcliffe J, Gibb S, et al. Slow-transit constipation in children: our experience. Pediatr Surg Int. 2009;25:403-6. ^, ¹²12 Shin YM, Southwell BR, Stanton MP, Hutson JM. Signs and symp- toms of slow-transit constipation versus functional retention. J Pediatr Surg. 2002;37:1762-5. ^and ¹³13 Hutson JM, McNamara J, Gibb S, Shin YM. Slow transit consti- pation in children. J Paediatr Child Health. 2001;37:426-30. The clinical picture of the currently examined groups did not allow distinction of colonic patterns, despite the fact that reports of soft stools and early onset constipation were more frequent in SCT. Reports on stool frequency in the current groups were considered a weak symptom for differentiation purposes, since most of patients were prescribed cleansing enemas on a regular basis.

This study was also are unable to show association between fecal retention evaluated by Barr score and differentiated patterns in NTS. A recent study investigated a relation between Barr score and total colonic transit time with radiopaque markers in children; no relation was found.¹⁴14 Cunha TB, Tahan S, Soares MF, Lederman HM, Morais MB. Abdom- inal radiograph in the assessment of fecal impaction in children with functional constipation: comparing three scoring systems. J Pediatr (Rio J). 2012;88:317-22.

Colonic motility NTS performed in healthy individuals¹⁵15 Proano M, Camilleri M, Phillips SF, Brown ML, Thomforde GM. Transit of solids through the human colon: regional quantifica- tion in the unprepared bowel. Am J Physiol. 1990;258:G856-62. demonstrated that the proximal and distal portions of the colon have different motor functions. The radioisotope persists in the ascending colon for up to 12 h. At 24 h, radioactivity is equally distributed among the ascending colon, transverse colon, and distal portion of the bowel. At 48 h, most of the tracer has already been evacuated. The transverse colon appears to function as a reservoir, while the left colon performs as a conduit. Camilleri & Zinsmeister concluded that evaluation of colonic segment transit time within 24 h after the test has a high sensitivity for detection of colonic motor disorders, since the emptying rate of the proximal colon is significantly different between healthy and constipated individuals.¹⁶16 Camilleri M, Zinsmeister AR. Towards a relatively inexpensive, noninvasive, accurate test for colonic motility disorders. Gas- troenterology. 1992;103:36-42.

Studies on colonic motor function in pediatric patients with refractory constipation have recorded normal or dysfunctional patterns of colonic transit. Yik et al.⁴4 Yik YI, Cook DJ, Veysey DM, Rutkowski SJ, Tudball CF, Brooke S, et al. Targeting the causes of intractable chronic constipation in children: the nuclear transit studies (NTS). In: Singh N, editor. Radioisotopes-applications in biomedical science. Manhattan, NY: In Tech Open Access Publisher; 2011. p. 305-20. identified patients with normal colonic transit (no evidence of colonic dysmotility), anorectal retention, rapid proximal colonic transit (rapid transit through proximal colon at 6 and 24 h), and slow proximal colonic transit. One study observed a predominance of slow transit patients.¹⁷17 Sutcliffe JR, King SK, Hutson JM, Cook DJ, Southwell BR. Gastrointestinal transit in children with chronic idiopathic cons- tipation. Pediatr Surg Int. 2009;25:465-72. Another demonstrated a higher percentage of children with DR.¹⁸18 Mugie SM, Perez ME, Burgers R, Hingsbergen EA, Punati J, Mousa H, et al. Colonic manometry and colonic scintigraphy as a diagnostic tool for children with severe constipation. J Pediatr Gastroenterol Nutr. 2013;57:598-602. This variability may be related to differences in criteria to send patients for test (initial reports only sent patients without fecal retention)¹⁹19 Cook BJ, Lim E, Cook D, Hughes J, Chow CW, Stanton MP, et al. Radionuclear transit to assess sites of delay in large bowel tran- sit in children with chronic idiopathic constipation. J Pediatr Surg. 2005;40:478-83.; technique for the performance of NTS, involving preparation of the patient, and type and mode of meal ingestion; and finally, differences in phases of image acquisition. The current study prescribed a cleansing enema for fecal impaction before the NTS; this decision was based on the understanding that a hard fecal mass could interfere with gastrointestinal transit studies, since children with hard fecal mass usually avoid stool passage due to pain or discomfort.²⁰20 Devanarayana NM, Rajindrajith S. Bowel habits and behav- iors related to defecation in 10- to 16-year-olds: impact of socioeconomic characteristics and emotional stress. J Pediatr Gastroenterol Nutr. 2011;52:569-73. ^and ²¹21 Tjeerdsma HC, Smout AJ, Akkermans LM. Voluntary sup- pression of defecation delays gastric emptying. Dig Dis Sci. 1993;38:832-6. Other researchers have not performed rectal disimpaction before the test. Studies on constipated adults did not confirm a relation between rectal evacuation and colonic transit time.²²22 Karlbom U, Påhlman L, Nilsson S, Graf W. Relationships between defecographic findings, rectal emptying, and colonic transit time in constipated patients. Gut. 1995;36:907-12.

To the best of the authors' knowledge, NTS is not performed in Brazilian health centers, so these results cannot represent a general pattern in Brazilian children, and certainly the choice of children sent to scintigraphy may interfere with the patterns found in this study. The authors only considered such an evaluation on a research basis because only the most severe cases in follow-up were studied. A clinical consensus guideline is required.

The colonic transit patterns found herein were visually identified. Reproducibility of visual evaluation of patterns of colonic transit was previously demonstrated, as well as high rates of inter-observer agreement. Visual evaluation of nuclear images was compared to analysis of the geometric center.²³23 Freedman PN, Goldberg PA, Fataar AB, Mann MM. A comparison of methods of assessment of scintigraphic colon transit. J Nucl Med Technol. 2006;34:76-81. Visual inspection was considered adequate for general appreciation of transit pattern, while analysis of the geometric center indicates the site of greatest intensity of the radioisotope, but does not permit a clear view of transit, failures, and retropulsive movements that can be assessed by the visual technique.²³23 Freedman PN, Goldberg PA, Fataar AB, Mann MM. A comparison of methods of assessment of scintigraphic colon transit. J Nucl Med Technol. 2006;34:76-81. In clinical practice, visual assessment may be adequate for grouping patients. As users of such nuclear methodology, the authors tried to propose a more practical and low cost technique for daily use in most of centers with a nuclear medicine service. Camilleri & Zinsmeister¹⁶16 Camilleri M, Zinsmeister AR. Towards a relatively inexpensive, noninvasive, accurate test for colonic motility disorders. Gas- troenterology. 1992;103:36-42. described that slow colonic transit may be diagnosed 24 h after radioisotope ingestion. In practice, images assessed between 24 and 48 h were also considered the best index for diagnosis in clinical trials.²⁴24 Maurer AH, Parkman HP. Update on gastrointestinal scintigra- phy. Semin Nucl Med. 2006;36:110-8.

Different therapies have been recommended to SCT and DR patients. While patients with DR are counseled to maintain the use of oral laxatives and supplemental intake of dietary fiber, therapeutic proposals for slow transit patients include mainly surgical treatment, more usually by appendicostomy for the performance of anterograde enemas and a new technique with transcutaneous electrical stimulation.³3 Wong SW, Lubowski DZ. Slow-transit constipation: evaluation and treatment. ANZ J Surg. 2007;77:320-8. ^, ⁷7 Southwell BR. Treatment of slow transit constipation in chil- dren. J Pediatr Gastroenterol Nutr. 2011;53:S51-3. ^, ²⁵25 Yik YI, Leong LC, Hutson JM, Southwell BR. The impact of tran- scutaneous electrical stimulation therapy on appendicostomy operation rates for children with chronic constipation-a single- institution experience. J Pediatr Surg. 2012;47:1421-6. ^and ²⁶26 Yik YI, Ismail KA, Hutson JM, Southwell BR. Home transcuta- neous electrical stimulation to treat children with slow-transit constipation. J Pediatr Surg. 2012;47:1285-90. The authors treated a small number of patients surgically and their evolution might be considered relatively better than those with DR on drug therapy, in terms of achieving spontaneous stool passage. In a study on resistant pediatric constipation, 80 patients underwent the Malone procedure and the authors found 12 children were able cease use of appendicostomy because of resolution of their symptoms; the probability of the child to stop colonic lavage was 20% 6.2 years after construction of the stoma; however, colonic transit patterns were not considered before surgical treatment in most patients.²⁷27 Jaffray B. What happens to children with idiopathic constipa- tion who receive an antegrade continent enema? An actuarial analysis of 80 consecutive cases. J Pediatr Surg. 2009;44:404-7. King et al., however, found that antegrade continence enemas were successful in 34 (81%) of 42 children with radiologically proven SCT.²⁸28 King SK, Sutcliffe JR, Southwell BR, Chait PG, Hutson JM. The antegrade continence enema successfully treats idiopathic slow-transit constipation. J Pediatr Surg. 2005;40:1935-40.

In conclusion, this study showed similar results to those conducted in other pediatric populations, a relevant fact for its eventual application in Brazilian children.²⁹29 Ghoshal UC, Sengar V, Srivastava D. Colonic transit study tech- nique and interpretation: can these be uniform globally in different populations with non-uniform colon transit time? J Neurogastroenterol Motil. 2012;18:227-8. These results corroborate the potentially relevant role of the NTS as a guide in clinical practice for management of constipated patients refractory to conventional therapy.

References

¹
Tabbers MM, DiLorenzo C, Berger MY, Faure C, Langendam MW, Nurko S, et al. Evaluation and treatment of functional constipa- tion in infants and children: evidence-based recommendations from ESPGHAN and NASPGHAN. J Pediatr Gastroenterol Nutr. 2014;58:258-74.
²
Bongers ME, van den Berg MM, Reitsma JB, Voskuijl WP, Benninga MA. A randomized controlled trial of enemas in combination with oral laxative therapy for children with chronic constipa- tion. Clin Gastroenterol Hepatol. 2009;7:1069-74.
³
Wong SW, Lubowski DZ. Slow-transit constipation: evaluation and treatment. ANZ J Surg. 2007;77:320-8.
⁴
Yik YI, Cook DJ, Veysey DM, Rutkowski SJ, Tudball CF, Brooke S, et al. Targeting the causes of intractable chronic constipation in children: the nuclear transit studies (NTS). In: Singh N, editor. Radioisotopes-applications in biomedical science. Manhattan, NY: In Tech Open Access Publisher; 2011. p. 305-20.
⁵
Yik YI, Cain TM, Tudball CF, Cook DJ, Southwell BR, Hutson JM. Nuclear transit studies of patients with intractable chronic constipation reveal a subgroup with rapid proximal colonic tran- sit. J Pediatr Surg. 2011;46:1406-11.
⁶
Dinning PG, Di Lorenzo C. Colonic dysmotility in constipation. Best Pract Res Clin Gastroenterol. 2011;25:89-101.
⁷
Southwell BR. Treatment of slow transit constipation in chil- dren. J Pediatr Gastroenterol Nutr. 2011;53:S51-3.
⁸
Rasquin A, Di Lorenzo C, Forbes D, Guiraldes E, Hyams JS, Sta- iano A, et al. Childhood functional gastrointestinal disorders: child/adolescent. Gastroenterology. 2006;130:1527-37.
⁹
Barr RG, Levine MD, Wilkinson RH, Mulvihill D. Chronic and occult stool retention: a clinical tool for its evaluation in school- aged children. Clin Pediatr (Phila). 1979;18:674-9.
¹⁰
Kumar S, Ramadan S, Gupta V, Helmy S, Atta I, Alkholy A. Mano- metric tests of anorectal function in 90 healthy children: a clinical study from Kuwait. J Pediatr Surg. 2009;44:1786-90.
¹¹
Hutson JM, Chase JW, Clarke MC, King SK, Sutcliffe J, Gibb S, et al. Slow-transit constipation in children: our experience. Pediatr Surg Int. 2009;25:403-6.
¹²
Shin YM, Southwell BR, Stanton MP, Hutson JM. Signs and symp- toms of slow-transit constipation versus functional retention. J Pediatr Surg. 2002;37:1762-5.
¹³
Hutson JM, McNamara J, Gibb S, Shin YM. Slow transit consti- pation in children. J Paediatr Child Health. 2001;37:426-30.
¹⁴
Cunha TB, Tahan S, Soares MF, Lederman HM, Morais MB. Abdom- inal radiograph in the assessment of fecal impaction in children with functional constipation: comparing three scoring systems. J Pediatr (Rio J). 2012;88:317-22.
¹⁵
Proano M, Camilleri M, Phillips SF, Brown ML, Thomforde GM. Transit of solids through the human colon: regional quantifica- tion in the unprepared bowel. Am J Physiol. 1990;258:G856-62.
¹⁶
Camilleri M, Zinsmeister AR. Towards a relatively inexpensive, noninvasive, accurate test for colonic motility disorders. Gas- troenterology. 1992;103:36-42.
¹⁷
Sutcliffe JR, King SK, Hutson JM, Cook DJ, Southwell BR. Gastrointestinal transit in children with chronic idiopathic cons- tipation. Pediatr Surg Int. 2009;25:465-72.
¹⁸
Mugie SM, Perez ME, Burgers R, Hingsbergen EA, Punati J, Mousa H, et al. Colonic manometry and colonic scintigraphy as a diagnostic tool for children with severe constipation. J Pediatr Gastroenterol Nutr. 2013;57:598-602.
¹⁹
Cook BJ, Lim E, Cook D, Hughes J, Chow CW, Stanton MP, et al. Radionuclear transit to assess sites of delay in large bowel tran- sit in children with chronic idiopathic constipation. J Pediatr Surg. 2005;40:478-83.
²⁰
Devanarayana NM, Rajindrajith S. Bowel habits and behav- iors related to defecation in 10- to 16-year-olds: impact of socioeconomic characteristics and emotional stress. J Pediatr Gastroenterol Nutr. 2011;52:569-73.
²¹
Tjeerdsma HC, Smout AJ, Akkermans LM. Voluntary sup- pression of defecation delays gastric emptying. Dig Dis Sci. 1993;38:832-6.
²²
Karlbom U, Påhlman L, Nilsson S, Graf W. Relationships between defecographic findings, rectal emptying, and colonic transit time in constipated patients. Gut. 1995;36:907-12.
²³
Freedman PN, Goldberg PA, Fataar AB, Mann MM. A comparison of methods of assessment of scintigraphic colon transit. J Nucl Med Technol. 2006;34:76-81.
²⁴
Maurer AH, Parkman HP. Update on gastrointestinal scintigra- phy. Semin Nucl Med. 2006;36:110-8.
²⁵
Yik YI, Leong LC, Hutson JM, Southwell BR. The impact of tran- scutaneous electrical stimulation therapy on appendicostomy operation rates for children with chronic constipation-a single- institution experience. J Pediatr Surg. 2012;47:1421-6.
²⁶
Yik YI, Ismail KA, Hutson JM, Southwell BR. Home transcuta- neous electrical stimulation to treat children with slow-transit constipation. J Pediatr Surg. 2012;47:1285-90.
²⁷
Jaffray B. What happens to children with idiopathic constipa- tion who receive an antegrade continent enema? An actuarial analysis of 80 consecutive cases. J Pediatr Surg. 2009;44:404-7.
²⁸
King SK, Sutcliffe JR, Southwell BR, Chait PG, Hutson JM. The antegrade continence enema successfully treats idiopathic slow-transit constipation. J Pediatr Surg. 2005;40:1935-40.
²⁹
Ghoshal UC, Sengar V, Srivastava D. Colonic transit study tech- nique and interpretation: can these be uniform globally in different populations with non-uniform colon transit time? J Neurogastroenterol Motil. 2012;18:227-8.

FundingThis study obtained financing support from the FAEPEX (Fundo de Apoio ao Ensino, à Pesquisa e Extensão) da UNICAMP, Solicitation number: 149/09.
☆
Please cite this article as: Carmo RL, Oliveira RP, Ribeiro AE, Lima MC, Amorim BJ, Ribeiro AF, et al. Colonic transit in children and adolescents with chronic constipation. J Pediatr (Rio J). 2015;91:386-91.
☆ ☆
Study conducted at Hospital de Clínicas, Faculdade de Ciências Médicas, Universidade Estadual de Campinas (UNICAMP), Campinas, SP, Brazil.

Publication Dates

Publication in this collection
Aug 2015

History

Received
09 July 2014
Accepted
22 Oct 2014

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[23] ²³
Freedman PN, Goldberg PA, Fataar AB, Mann MM. A comparison of methods of assessment of scintigraphic colon transit. J Nucl Med Technol. 2006;34:76-81.

[24] ²⁴
Maurer AH, Parkman HP. Update on gastrointestinal scintigra- phy. Semin Nucl Med. 2006;36:110-8.

[25] ²⁵
Yik YI, Leong LC, Hutson JM, Southwell BR. The impact of tran- scutaneous electrical stimulation therapy on appendicostomy operation rates for children with chronic constipation-a single- institution experience. J Pediatr Surg. 2012;47:1421-6.

[26] ²⁶
Yik YI, Ismail KA, Hutson JM, Southwell BR. Home transcuta- neous electrical stimulation to treat children with slow-transit constipation. J Pediatr Surg. 2012;47:1285-90.

[27] ²⁷
Jaffray B. What happens to children with idiopathic constipa- tion who receive an antegrade continent enema? An actuarial analysis of 80 consecutive cases. J Pediatr Surg. 2009;44:404-7.

[28] ²⁸
King SK, Sutcliffe JR, Southwell BR, Chait PG, Hutson JM. The antegrade continence enema successfully treats idiopathic slow-transit constipation. J Pediatr Surg. 2005;40:1935-40.

[29] ²⁹
Ghoshal UC, Sengar V, Srivastava D. Colonic transit study tech- nique and interpretation: can these be uniform globally in different populations with non-uniform colon transit time? J Neurogastroenterol Motil. 2012;18:227-8.

	Slow colonic transit (n = 14)	Distal retention (n = 14)	p-value
Age (years) Mean/median	10.4/11	9.5/10	0.207^a
Median duration of constipation (years)	3.2	6	0.599^a
Delay of first meconium passage	9/14	5/14	0.24^b
Constipation appearing before age of 1 year	12/14	6/14	0.04^b
Stool frequency per week	2^c	2^d	NP
Soft stools	9	2	0.02^b
Resistant soiling	11	14	0.186^b
Palpable rectal impaction	0	7	NP
Urinary tract complaints	3	8	0.07^b
Median follow-up period (years)	3.5	2.1	0.02^a

Brasil