Reduction in Bowel Program Duration With Polyethylene Glycol Based Bisacodyl Suppositories

Reduction in Bowel Program Duration With Polyethylene Glycol Based Bisacodyl Suppositories; Steven J. Stiens. MD

ABSTRACT. Stiens SA. Reduction in bowel program duration with polyethylene glycol based bisacodyl suppositories. Arch Phys Med Rehabil 1995;76:674-7.

The neurogenic bowel caused by spinal cord injury frequently requires a bowel program (BP) with stimulant suppositories for effective defecation. Objective: The effectiveness of bowel programs initiated by hydrogenated vegetable oil based bisacodyl (HVB) suppositories was compared with that of polyethylene glycol based bisacodyl suppositories (PGB). Design: Single subject, randomized treatment. Setting: Outpatient. Subject: Chronic T2 complete spinal cord injury (SCI) Intervention: The suppository for the every third-day BP was randomized to PGB or HVB. The times in minutes of the following BP events were recorded: suppository insertion, first flatus begin stool flow, end stool flow, and transfer off toilet. Outcome Measures: BP event times were used to derive BP intervals: suppository insertion to first flatus Time to Flatus, first flatus until begin stool flow = Flatus to Stool Flow, begin stool flow until end stool flow Defecation Period, end stool flow until the transfer off the toilet Wait Until Transfer, and suppository insertion until transfer off the toilet = Total BP Time. The number of digital stimulations required and the amount of stool results were recorded. Results: The data included two groups of BPs: HVB (N=13) and PGB (N=13). Wilcoxon’s rank sum tests were used to compare mean times for each of the BP intervals: Time to Flatus (HVB 31 minutes, PGB 10 minutes, p <.0001), Flatus to Stool Flow (HVB 6.0 minutes, PGB 5.9 minutes, p =.9578), and the Defecation Period (HVB 31, PGB 21, p =.0043). The average BP Time was HVB = 85 minutes and PGB = 46 minutes showing a statistically (p <.0001) and clinically relevant difference. 1995 by the American Congress of Rehabilitation Medicine and the American Academy of Physical Medicine and Rehabilitation

Injuries to the spinal cord (SCI) that result in upper motor neuron damage frequently produce neurogenic bowel dysfunction. The upper motor neuron bowel is characterized by fecal retention and uniformly requires a scheduled evacuation plan to avoid impaction and incontinence. These bowel programs (BPs) remain time-consuming processes that may be detrimental to quality of life.1 Bowel regimens may last longer than 3 hours and still produce insufficient results.2 Consequently, despite tedious and exacting BP regimens, serious problems with bowel evacuation are still reported from as many as 20% of people with SCI.3  

Suppositories consisting of active laxative ingredients dispersed in a base substance are commonly used in a BP. Bisacodyl is the most commonly used active ingredient in rectal chemical stimulant preparations for defecation. This compound, a diphenylmethane derivative (bis (p-acetoxy phenyl)-2-pyridymethane) was first introduced for use as a laxative in 1953 because of its structural similarity to phenolphthalein. Acting as a contact laxative, bisacodyl is practically insoluble in water and sparingly soluble in alcohol. 

From the Veterans Affairs Medical Center SC! Service and Department of Rehabilitation. University of Washington, Seattle. Supported In pare by Research Enrichment Program for Physiatrists. NIDRR no. H133P10011  Submitted for publication September 2. 1994, Accepted in revised form February 6,1995. No commercial company having a direct financial interest in the results of the research supporting this article has or will confer a beneth upon the authors or upon any organizations with which the authors are associated.  Reprint requests to Steven A. Stiens. MD, University of Washington, Department of Rehabilitation. Mail Location RJ-30, Health Sciences Building 8B938. 1959 NE Pacific, Seattle, WA 98195. © 1995 by the American Congress of Rehabilitation Medicine and the American Academy of Physical Medicine and Rehabilitation 003-9993/95/76O7-322 $3.00/0

Administered rectally in a water suspension, bisacodyl acts within 3 minutes to produce suppression of rhythmic stationary spike wave activity and increases spasmodic propulsive peristaltic spike activity,4  

Bisacodyl is available in many rectal preparations including suppositories, enemas, mini-enemas, and solutions.5 Typically. 10-mg suppositories are used because of the ease of insertion and retention. The most common suppository preparation includes bisacodyl powder distributed within a hydrogenated vegetable oil base (HVB).5 Bisacodyl suppositories with a vegetable oil base often require a prolonged period to produce defecation and can cause continued mucosal irritation with resultant mucus accidents hours after the BP. Water-miscible suppositories have recently been used. Bisacodyl suppositories made with the polyethylene glycol polymer bases have been anecdotally reported to produce quicker elimination.6  

This study was performed to compare BP times using HVB and polyethylene glycol-based bisacodyl (PGB) suppositories. The primary question in clinical practice relates to the effectiveness of a new treatment regimen in a particular patient. The idiographic, single case study method is used here to show a method of monitoring patient progress with changes in response to a pharmacological bowel elimination regimen.

METHOD 

The subject is a 35-year-old white man with a 10-year history of T2 complete stable paraplegia that resulted from a spinal cord arteriovenous malformation. Physical examina- tion showed moderate scoliosis and decreased abdominal

IntervalsTime to Flatus to Defecation Wait Until INTERVALS Flatus Stool Flow Period Transfer I I I I I Suppository First Begin End Transfer EVENTS Insertion Flatus Stool Flow Stool Flow Off Toilet 

Fig 1-BP events separate the total period into discrete intervals. The BP begins with suppository insertion. First Flatus ends the interval Time to Flatus (suppository insertion until first gas is passed). Begin Stool Flow ends the second interval termed Flatus to Stool Flow and begins the Defecation Period. End Stool Flow represents the time when Defecation Period has immediately ceased. The time of Transfer off the Toilet ends the Wait Until Transfer period that represents the time spent to insure that the BP is over. The time of Transfer Off the Toilet ends the BP. 

muscle tone without voluntary contraction. Rectal examination showed increased sphincter tone without sensation, voluntary contraction, or relaxation. The seated upright bowel program had been the same for the last 8 years on a once every third day schedule with two (HVB) bisacodyl suppositories. There was no change in diet or medication during the study period. 

The two types of bisacodyl suppositories used in the study differed only in the base used for dispersion of the active ingredient. The HVB suppositoriesa contained 10mg bisacodyl United States Pharmacopeia (USP) in a hydrogenated vegetable oil base. The PGBb suppositories contained 10mg bisacodyl dissolved in a mixed polyethylene glycol polymer base of two molecular weights: E1450 and E400. 

Each bowel program was performed by the subject on a once every third day schedule with the same technique. During a 4-month period, typical BPs were selected for randomzation to two HVB or two PGB 10mg bisacodyl suppositories. At the time of each bowel program, either two P08 or two HVB bisacodyl suppositories were inserted and positioned against the mucosal surface of the distal rectum. The presence or absence of stool in the rectal vault was recorded. The time of insertion was considered time zero and the progress of the bowel program was documented with time parameters (fig I). A single subject design7 was used to compare parameters of the BP. 

Bowel program events were used to separate the total BP period into discrete intervals: First Flatus (ends the interval from suppository insertion until the first gas is passed), Begin Stool Flow (marks the beginning of the defecation interval), End Stool Flow (marks the end of defecation), and Time Off Toilet (marks the end of the period of waiting after stool flow has ended, the subjective end of the BP). Digital stimulations were performed in a circular motion with a gloved lubricated index finger in attempt to dilate the external and internal anal sphincters and the distal rectum stimulating reflex peristalsis. Digital stimulations were per formed if stool flow stopped or slowed in the evacuation process (approximately every 10 minutes).

 The number of digital stimulations required for each BP was recorded. Digital examination of the rectal vault followed the end of stool flow to assure complete evacuation. The amount of stool produced with each BP was recorded using the following ordinal scale: (0) none, no stool expelled; (1) small, covers less than the bottom of the toilet; (2) moderate, covers the bottom of the toilet; or (3) large, breaks the toilet water surface. Mucus and stool incontinences were recorded if they occurred between bowel programs. 

Statistical Analysis. Continuous mean interval data were compared using Wilcoxon's rank sum tests.8 Ordinal data were compared with Fisher's exact test.8 Probability (p) values were derived taking .05 as the level of signiticance. 

RESULTS 

Twenty-six discrete BPs were studied: 13 using HVB and 13 using PGB. On each suppository insertion, stool was consistently palpated in the rectal vault. At the time of the beginning of stool flow the PGB suppositories were frequently observed as only slightly reduced in size suggesting incomplete dissolution. The HVB suppositories were consistently melted by the time of stool flow. There were no bowel or mucus incontinencies between BPs. There were no com plaints of abdominal cramping or variation in stool consistency. 

All the intervals compared between the HVB and the PGB groups showed significant differences, with the exception of Flatus to Stool Flow (fig 2). Wilcoxon's rank sum tests8 were calculated to compare mean times in minutes for each interval of the Bps performed with HVB and PGB. The means and p values obtained were as follows: Time to Flatus (suppository insertion time until first gas expulsion) HVB 37 minutes, PGB 10 minutes, p < .0001, Flatus to Stool Flow HVB 6.0 minutes, PGB 5.9 minutes. p = .9578, and the Defecation Period HVB 31 minutes, PGB 21 minutes, p = .0043. The Total Time for the BPs (from insertion of suppository until transferring off the toilet) averaged 85 minutes for HVB, and 46 minutes for PGB, a statistically significant (p < .0001) difference. 

The numbers of digital stimulations required for the BPs were averaged (HVB 5.3, PGB 4.6) and compared using the Wilcoxon scores (rank sums) test. The observed difference did not reach significance (p = .1840). Each BP produced some stool results. The amount of stool produced by the BPs with HVB and POB. treated as discrete variables with a two-tailed Fisher's exact test, did not show a significant difference (p = .861). 

DISCUSSION 

This single-subject study investigated the statistical and clinical significance of the use of PGB bisacodyl suppositories versus the use of HVB bisacodyl suppositories using idiographic technique and found Comparable bowel program effectiveness with a reduction in BP time by approximately half using the PGB. These time differences were observed with similar volumes of stool results and without stool incontinencies. These improvements show a clinically significant result for this subject.

Fig 2-The time intervals 0f the BP studied were averaged and presented in minutes for PBG and HVB bisacodyl suppositories. The Time to Flatus was significantly longer after HVB suppository insertion. The Flatus to Stool flow period showed no significant difference between the agents. The Defecation Period was significantly shorter with use of the PGB suppository.

The mean BP interval that was most reduced was the Time To Flatus PGB 10 minutes vs. HVB 37 minutes) suggesting that the time difference may be caused by the rate and amount of bioavailability of the active ingredient in the suppositories bisacodyl). Water-miscible suppositories PGB) do not depend on body heat to melt and disperse after the phase change. Despite greater water solubility the PGB suppositor1es frequently did not completely dissolve by the time of stool flow. Bisacodyl. as compound of three benzene rings with hydroxyl groups, most likely acts more effectively as a solute in an ethylene glycol polymer base. This polar base may allow for quicker dispersion and greater potency of the bisacodyl on moist mucosal membranes.  

Although, a specific mechanism of action for bisacodyl on the gut has not been fully defined, this agent has been noted to be an effective gut evacuant in studies that have delivered bisacodyl to the intestinal mucosal surface.9-12,4,13,6 When delivered to the colonic mucosal surface and observed with intraluminal electromyography, bisacodyl produces a complete suppression of rhythmic stationary activity and an increase in propagating sporadic spike bursts.4 This is consis tent with the increase in mass peristaltic waves observed in humans under fluoroscopy while adding a diphenylmethane- derived laxative to barium enemas.12 Persons with SCI have been noted to have significantly more colonic spike wave activity in the basal unstimulated control state as compared with able-bodied controls.14 Despite the increased spike wave activity fecal retention usually occurs until reflex defecation is triggered mechanically or chemically. This in creased spike wave activity could represent excess segmental mixing of colonic contents. Bisacodyl therefore may suppress this activity and trigger a coordinated mass action for effective stool propulsion during defecation. 

The findings of this study show a small reduction in mean stool flow time HVB 31 minutes versus PGB

21 minutes without a significant difference in the number or digital stimulations required between the two groups This time reduction is consistent with other investigators' obser- vations. Oral bisacodyl tablets given before a nasogastnically presented lavage have sig- nificantly reduced the mean duration required for colonic cleansing.15 Ewe9 has noted an inverse linear relationship between the amount of bisacodyl delivered to the upper jejunum and gut transit time. It is possible that the shorter duration of stool flow time observed in this study is caused by properties of the PGB base that offer greater bisacodyl dispersion or better bioavailability. The unlikely possibility that the polyethylene glycol base itself acts as a gut stimulant was not explored. 

The decrease in the bowel program time noted by this study represents a clinically significant improvement over HVB suppositories for this Subject. The single subject design is particularly useful in showing differing efficiency between regimens for individual patients. Multiple single subject studies under similar conditions are required to estcblish generalizability of conclusions derived with individual sub jects. Expanded studies of the effects of PGB bisacodyl suppositories on BPs after spinal cord injury are currently in progress. 

Acknowledgment: Statistical analysis was performed through the consultative help of Jane C. Johnson. BA. at the Medical Informatics Group Biostatistics UMC School of Medicine. University of Missouri, Columbia, MO. The following colleagues critically reviewed the manuscript and are a continued source of beneficial advice Margaret Hammond, St D Richard Buhrer, RN, MN. and Victoria Bozzacco. MN I also thank other members of the Seattle VAMC SCI Gastrointestinal study group for their commitment to neurogenic bowel research: Janet Loehr. ARNP. Catherine O'Keefe, RN. BSN, and Glen House, MSIV Thanks to Paula Micklesen, BS. for her perceptive graphic summary of the bowel intervals  and experimental results and to Debra Roberts for her organization and attentiveness to the word processing as the manuscript developed,  

References 

1. Banwell J, Creasey G, Aggarwal A, Mortimer J. Management of the neurogenic bowel in patients with spinal cord injury. Urol Clin North Am 1993:20:517-26. 2. Frost F. Gastrointestinal dysfunction in spinal cord injury . Disorders of the bowel and bowel empting. In: Green D, editors Medical complications of disability. Rockville (MD): Aspen Publicaiions. 1990 75-99 3. Stone J, Nino-Murcia M, Wolf V. Perkash I, Chronic gastrointestinal problems in spinal cord injury patients: a prospective analysis. Am J Gastroersterol 1990,85:114-9. 4. Schang J, Hemond M, Hebert M, Pilote M. Changes in colonic myoelectric spiking activity during stimulation by bisacodyl. Can J Physiol Pharmacol 1986:64:39-43. 5. Barnhart E. Physicians' desk reference for nonprescription drugs Onadell (NJ): Medical Economics Company. 1990:520-I. 6. Ward R. Reliable product. Paraplegia News 1993;7:7. 7.Onenbacker K. Clinically relevant designs for rehabilitation research: the idiographic model. Am J Phys Med Rehabil 1991;70:S1S144-S50. 8. Colton T. Statistics in medicine. Boston. Little, Brown, 1974:221-2. 9. Ewe K. Effect of bisacodyl on intestinal electrolyte and water net transport and transit. Perfusion studies in men. Digestion 1987;37:247 -53, 10. McEvoy G. Cathartics and Laxatives. In: McEvoy GK, editor American hospital formulary service: drug information. American Hospital Formulary Service, 1991:1726-8 11. Preston D. Lennard-Jones J. Pelvic molitity and response to intraluminal bisacodyl in slow-transit  constipation.  Dig Dis Sci l985;30:289-94. 12. Ritchie J. Mass pertialsis in human colon after contact with oxphenisatin. Gut 1972;13:211-9 13. Brunton L. Agents affecting gastrointestinal water flux and motility. In: Goodman LS, editor. Goodman and Gilman's the pharmacological basis of therapeutics. Elmsford, NY Pergamon, 1990:920-3. 14. Aaronson M. Freed M, Burakoff R. Colonic myoelectric activity in persons with spinal cord injury. Dig Dis Sci 1985;30:295-300.

 

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