Overview
Previous studies have demonstrated the efficacy of this treatment in certain patients suffering from fecal incontinence, but it is not yet reimbursed in this indication as it is still in the evaluation phase. Indeed, little is known about botulinum toxin mechanisms of action. The aim of this study is to better understand the mechanisms of action of intra-rectal botulinum toxin injections, so that the investigators can identify the patients most likely to benefit from this treatment in the future.
Description
Fecal incontinence is a common condition, affecting around 5 to 6% of general population. Although not a serious condition, it severely impairs quality of life and leads to social isolation. Fecal incontinence also has a significant medico-economic cost. When first-line medical treatments fail (transit-regulating therapies, perineal re-education), fecal incontinence patients can be offered treatment with sacral nerve neuromodulation. However, this therapy will only be effective in the long term, and in terms of intention to treat, in less than half of patients who have had the device definitively implanted. Today, no other treatments are available apart from sphincter repair, for which the indications are very limited, or colostomy.
The investigator's team has therefore developed another therapeutic option, intra-rectal injections of botulinum toxin, in patients suffering from active fecal incontinence (i.e., preceded by defecatory urgency). The investigator have conducted two pilot studies, which demonstrated the efficacy of this treatment in an open-label setting, and the investigator are currently completing a randomized, double-blind, controlled study to confirm its efficacy (PHRCN 2014-003650-14). Nevertheless, the mechanisms of action of intra-rectal botulinum toxin injections remain hypothetical. By analogy with the intra-detrusor injections used for over 20 years to treat overactive bladder disease, it is possible that the toxin plays an inhibitory role on rectal motricity. Botulinum toxin inhibits the release of acetylcholine at the neuromuscular junction. Without this release, smooth muscle contraction cannot take place. In one of the two pilot, intra-rectal injections of botulinum toxin were performed in 6 patients with fecal incontinence and hyperactivity of the rectum or colonic reservoir after resection. In addition to the clinically demonstrated effect of these injections, there was a significant reduction in the amplitude of rectal contractions after injection. However, there was no correlation between the observed motor effect of botulinum toxin and the efficacy of the injections. Moreover, some patients did not exhibit colonic or rectal hypermotricity and still benefited from the injections. The investigator would like to continue exploring the motor effect of intra-rectal toxin injections on a larger group of patients suffering from faecal incontinence, using a more powerful motor recording system than anorectal manometry.
For this work, we hypothesize that intra-rectal botulinum toxin injections act primarily via a motor effect by inhibiting propagated rectal contractions. To test this hypothesis, a high-resolution recto-sigmoid manometry probe will be used to evaluate rectal and sigmoidal motricity spontaneously and in response to stimulant laxative injection, before and after intra-rectal injection of botulinum toxin. Patients included will be those suffering from faecal incontinence who have failed conservative treatments and are candidates for intra-rectal injections of botulinum toxin.
Eligibility
Inclusion Criteria:
- Active or predominantly active fecal incontinence with failure of 1st-line conservative treatments (normalization of transit, perineal re-education)
- Impairment of quality of life at investigator's discretion
- Patients at least 18 years of age
- Patients who have read and understood the information letter and signed the consent form
- Patients affiliated to the French Social Security system
- Women of childbearing age using effective contraception (Cf. CTFG) (estro- progestins or intrauterine device or tubal ligation) for at least 1 month and a negative B-HCG urine pregnancy test at inclusion and for the duration of the study.
- Postmenopausal women: confirmatory diagnosis (non-medically induced amenorrhea for at least 12 months prior to inclusion visit)
Exclusion Criteria:
General
- Pregnant women, women in labor, breastfeeding women, or women without proven contraception
- Patient deprived of liberty by administrative or judicial decision, or protected adult (under guardianship or trusteeship)
- Exclusive passive fecal incontinence
- Patient suffering from constipation (Rome IV criteria)
- Patient with an evolving inflammatory or cancerous digestive pathology
- Previous rectal surgery
- Person participating in another research protocol or having participated in another research protocol in the 4 weeks preceding the inclusion visit
Linked to botulinum toxin injections
- Hypersensitivity to botulinum toxin or to one of the excipients (human albumin, sodium chloride)
- Neuromuscular junction pathology (myasthenia, Lambert-Eaton syndrome, etc.)
- Presence of infection at injection site(s)
- General anesthesia less than one month ago
- Association with aminoglycosides and anti-cholinesterase agents (risk of increased toxin effects)
- History of neurogenic damage such as polyradiculoneuritis
- History of dysphagia with esophageal or neurological stasis, swallowing disorders, inhalation pneumonitis
- Botulinum toxin injections in the 3 months preceding the study
- Clinical anal examination suggestive of anorectal abscess
- Recent history (\<12 months) of myocardial infarction and/or rhythm disorders not reduced by appropriate treatment
- Peripheral motor neuropathies (such as amyotrophic lateral sclerosis or motor neuropathy) and underlying neurological disorders
- Current treatment with anticoagulants or anti-aggregants or haemostasis disorders according to recommendations (SFED). When patients are on anticoagulant or anti-aggregant therapy, the type of injections to be performed depends on the type of anticoagulation and the patient's thrombo-embolic risk:
- Patients on anticoagulant or anti-aggregant therapy with a major thrombo-embolic risk will not be included.
- Patients on anticoagulant or anti-aggregant therapy with a moderate or low thrombo-embolic risk may be included. If patients are taking a vitamin K antagonist, treatment will be continued provided that the INR is within the usual range of 2 to 3 (GETED, HAS, 2008). If patients are taking anti-aggregants, these can be continued (SFED, HAS, 2012). If patients are taking new oral anticoagulants, they should take a short break and not take the AOD the evening before or the morning of the injections (GIHP, 2015).
Linked to rectosigmoidoscopy
- Local pathology preventing colonoscopy (anal stenosis)
- Allergy or hypersensitivity to silicone and/or latex
Linked to laxatives
- Contraindication to DULCOLAX® 5 mg, gastro-resistant coated tablet
- Contraindication to XIMEPEG®, powder for oral solution
Linked to high-resolution manometry
- Clinically diagnosed intestinal obstruction
- Severe coagulopathy or oral anticoagulants
- Cardiac disorders for which vagal stimulation is poorly tolerated