Management of bile acid malabsorption using low-fat dietary interventions: a useful strategy applicable to some patients with diarrhoea-predominant irritable bowel syndrome?
ABSTRACT
This study evaluates the efficacy of low-fat dietary interventions in the management of gastrointestinal (GI) symptoms due to bile acid malabsorption. In total, 40 patients with GI symptoms and a 7-day 75selenium homocholic acid taurine (SeHCAT) scan result of <20%, were prospectively recruited and then advised regarding a low-fat dietary intervention. Before and after dietary intervention, patients rated their GI symptoms using a 10-point numerical scale, and recorded their intake in 7-day dietary diaries. After dietary intervention, the median scores for all GI symptoms decreased, with a significant reduction for urgency, bloating, lack of control, bowel frequency (p≥0.01). Mean dietary fat intake reduced to 42 g fat after intervention (p≥0.01). Low-fat dietary interventions in patients with a SeHCAT scan result of <20% leads to clinically important improvement in GI symptoms and should be widely used.
Introduction
Irritable bowel syndrome (IBS) is the most common bowel disorder seen in primary and secondary care, with an estimated prevalence in the general population of 10–20%.1,2 IBS causes a significant economic burden through the utilisation of healthcare resources and absenteeism from work.3,4 The symptoms of IBS frequently have a negative impact on quality of life,4,5 with diarrhoea-predominant IBS (IBS-D) having potentially debilitating effects.5,6
At least 60% of patients told they have IBS-D are misdiagnosed and have missed organic disease (eg bile acid malabsorption (BAM), small bowel bacterial overgrowth, pancreatic insufficiency, coeliac disease and disaccharide intolerance).7 Bile acid diarrhoea (BAD) is the most commonly missed cause of IBS-like symptoms.8,9 BAD is increasingly recognised following upper gastrointestinal (GI) surgery, including cholecystectomy, in diabetes mellitus and following pancreatitis.10,11 BAM also affects people with terminal ileal disease (eg Crohn's disease, after pelvic radiotherapy) or after surgical resection.10,11 More than 1% of the UK population have this condition. 8,9
Bile is synthesised in the liver and stored in the gall bladder. Cholecystokinin, produced by enterendocrine cells in response to nutrients in the duodenum, stimulates contraction of the gallbladder and relaxation of the sphincter of Oddi, thereby releasing bile into the lumen of the small bowel.Feeding of high-fat meals, rich in long-chain triglycerides, to women subjects has been shown to increase blood levels of cholecystokinin and plasma bile acids.12 Conversely, bile acid production and release is reduced in subjects consuming a lower fat test meal or diet.13,14 Approximately 95% of secreted bile is reabsorbed, mainly through an active uptake mechanism in the terminal ileum recirculated to the liver and reused several times a day. Bile acid production is regulated by fibroblast growth factor 19 (FGF19) which is produced in the terminal ileum. Disordered negative feedback of FGF19 leading to bile overproduction15,16 allows excessive bile to reach the colon, triggering electrolyte and water secretion, increased GI motility, shortening of the colon transit time and inhibition of water and electrolyte reabsorption,17,18 leading to unpredictable loose stools or watery diarrhoea and potentially steatorrhoea.17–19 The presence of excessive bile acids in the colon can also lead to abdominal pain, bloating, flatulence, urgency of defecation, nocturnal defecation and faecal incontinence.10,19
The use of low-fat diets to improve symptoms in patients diagnosed with BAM has previously been described.20,21 However, this simple dietary approach to the management of a potentially huge population of patients with BAM or BAD is largely unknown.
The aim of this study was to evaluate the efficacy of low-fat dietary interventions used in the management of GI symptoms due to BAM/diarrhoea, by monitoring the change in GI symptoms before and after a low-fat dietary intervention.
Methods
This prospective evaluation was approved by the local NHS hospital trust's clinical audit committee and did not to require informed signed consent from patients.
Patients were recruited if they were experiencing GI symptoms and were referred by their cancer specialist or GP and had a 7-day 75selenium homocholic acid taurine (SeHCAT) scan result of <20%. They were then treated according to the algorithm shown in Fig 1. If patients required a bile acid sequestrant this was given and the dose optimised before receiving any dietary advice.
Patients were asked to complete a 7-day dietary diary (7DD), before their initial consultation with a registered dietitian and then asked to identify which of their GI symptoms, from a predetermined list, they would like to change and rate those GI symptoms. A verbally administered 10-point numerical rating scale, NRS-10, was used.22 Patients were then advised on a tailored low-fat dietary intervention, which aimed to provide 20% of total energy from fat. Patients attended a follow up with the dietitian 6–8 weeks later at which they brought a second 7DD and rated their GI symptoms again. The contents of the food diary were analysed using the Dietplan6 computer programme (ForestField Software Limited).
Statistical analysis
The median symptom scores for the group before and after dietary intervention were calculated, along with the minimum and maximum scores. The Wilcoxon signed-rank test was used to determine the difference in these scores before and after dietary intervention. Descriptive statistics were presented regarding the proportion of patients in each SeHCAT scan range and the proportion of patients reporting each GI symptom. The difference in the reported dietary fat and fibre intake, before and after dietary intervention, was determined using a t-test to specify the level of statistical significance. The percentage adherence to the low-fat dietary intervention was also calculated.
Results
Baseline characteristics
This study, carried out between April 2012 and July 2013 in a secondary care joint gastroenterology and nutrition clinic, recruited 20 men and 20 women with a mean age of 61 years (range 22–90; median 61; standard deviation 12). In total, 25 (62.5%) patients were established on the bile acid sequestrant colesevelam (Sanofi Aventis) before receiving dietary advice. Table 1 shows the characteristics of patients included in this study at baseline.
Patients were not suitable for inclusion in this evaluation if they had already received low-fat dietary advice from another healthcare professional before their appointment with the dietitian, leading to a significant reduction in their dietary fat intake. 62 patients who were eligible for inclusion had an initial appointment with a dietitian and received low-fat dietary advice. However, 22 of these patients were not included in the service evaluation due to the following reasons; no attendance for follow up (n = 9), delay in follow up (n = 8), follow up undertaken over the phone (n = 2) and/or patients unable to rate symptoms (n = 3). The mean length of time between with first appointment with the dietitian and follow up was 7.9 weeks (range 3–20).
Symptom rating
Table 2 shows the number of patients reporting each GI symptom and the significance of the change in the GI symptom after the low-fat dietary intervention. After dietary intervention, the median scores for all symptoms decreased. The change was statistically significant (p ≥0.01– 0.05) for all symptoms except nausea/vomiting, heartburn/acid reflux, belching or burping, feeling of incomplete evacuation and woken from sleep to open bowels.
Dietary fat
The mean dietary fat intake decreased from an initial mean intake of 62.3 g (median 58.9; range 34.5–100.8) fat to 42.2 g (median 39.1; range 24.5–80.8) fat after dietary intervention (p≥0.01). The mean dietary fibre intake was 14.8 g (median 13.8; range 6.10–32) at the first consultation and 14.4 g (median 13.6; range 4.40–34.70) at follow up (p = not significant). 62.5% (n = 25) of patients had made all of the advised dietary changes advised and 70% (n = 28) had a dietary fat intake within >90% of the dietary fat intake advised.
Discussion
This prospective study shows that after a low-fat dietary intervention, the median rating scores of all GI symptoms reported by patients with a SeHCAT scan result <20% decreased. During the intervention period patients reduced their mean dietary fat intake by one-third. Specifically, there was a significant reduction in median symptom rating for urgency, bloating, lack of control and frequency of opening bowels (p≥0.01). In addition, there was a reduction in median symptom rating for flatulence, abdominal pain, greasy/pale stool and abdominal gurgling (p≥0.05).
This study diagnosed BAM using the SeHCAT scan test19,23 in patients attending a gastroenterology clinic who were experiencing a range of GI symptoms. Other diagnoses where excluded or treated by following a management algorithm.24 Patients were established on medication, if required, prior to the initiation of the dietary intervention. There was no statistically significant change in dietary fibre intake after dietary intervention which could have potentially acted as confounding factors.
Some experts would not consider treating patients with a SeHCAT score of 15–20% as they would consider this ‘normal’, however, by excluding these patients it would dilute any benefit of intervention. The authors consider BAM as a ‘continuum’ and it is not realistic to think that a single cut-off score is universally applicable. This was not a blinded study and patients acted as their own controls. One-third of the participants did not attend follow up which may raise questions about the applicability of this intervention, but no data were collected regarding the reasons for non-attendance.
Previous studies were undertaken over 20 years ago in predominately female populations and involved small numbers of patients receiving multiple concurrent interventions.20,21,25 This study is significantly larger, includes both men and women, and does not exclude patients with previous GI conditions or surgery. Adherence to the low-fat diet was also systematically assessed with a 7DD, by recording symptoms before and after dietary intervention in patients in whom bile acid sequestrant dose was stable. 7DDs have a superior accuracy compared with other methods such as 24-hour dietary recall and food frequency questionnaires.26 All food diaries were analysed by one dietitian, which has been shown to improve reliability of dietary intake assessment.26 The dietary intervention used in this study has previously been shown to be an achievable low-fat intake which patients can follow long term.28 For an individual consuming 1,800 calories per day this equates to 40 g fat, as used in previous studies.20,25
Bile acid sequentrants or binders have been used in the treatment of BAM for over 40 years and can work by forming a complex with bile acids in the small intestine, and thus help to prevent the effects of free bile acids in the colon.17,19,29 The bile acid binder tablet used in this study, colesevelam, has been shown to have more acceptable palatability and a higher affinity for binding bile than a resin-based binder.17,29
One-third of people with a diagnosis of IBS-D actually have primary BAD; this equates to approximately half a million people in the UK.3,10 In addition, there are significant, but as yet unquantified numbers of patients with acquired BAM after treatment for Crohn's disease or for cancer. This simple dietary intervention led to a statistically significant improvement in a range of GI symptoms in patients diagnosed with BAM detected by a SeHCAT scan. When one considers the impact of BAM to both the individual and the economy, this simple dietary intervention has the potential to have a widely beneficial effect. The potential use of dietary fat manipulation in the management of IBS-D or in those with diarrhoea after cancer treatment due to BAM has so far been overlooked in national guidelines.3,9
Conclusion
BAM is a cause for GI symptoms in around half a million people who are currently being treated for IBS-D in the NHS. This study has demonstrated that the use of low-fat dietary interventions in patients with a SeHCAT scan result <20% leads to clinically important improvement in GI symptoms and should be widely used.
Competing interests
HJNA has acted as a paid consultant for GE, manufacturers of SeHCAT and for Sanofi Aventis, manufacturers of colesevelam.
- © Royal College of Physicians 2015. All rights reserved.
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