Brief Article Open Access
Copyright ©2013 Baishideng Publishing Group Co., Limited. All rights reserved.
World J Gastroenterol. Oct 14, 2013; 19(38): 6458-6464
Published online Oct 14, 2013. doi: 10.3748/wjg.v19.i38.6458
Diet of patients after pouch surgery may affect pouch inflammation
Orit Ianco, Amos Ofer, Erwin Santo, Iris Dotan, Comprehensive Pouch Clinic, IBD Center, Department of Gastroenterology and Liver Diseases, Tel Aviv Sourasky Medical Center, Tel Aviv 64239, Israel
Hagit Tulchinsky, Comprehensive Pouch Clinic and the Proctology Unit, Department of Surgery, Tel Aviv Sourasky Medical Center, Tel Aviv 64239, Israel
Michal Lusthaus, Nachum Vaisman, Unit of Clinical Nutrition, Tel Aviv Sourasky Medical Center, Tel Aviv 64239, Israel
Orit Ianco, Hagit Tulchinsky, Michal Lusthaus, Amos Ofer, Erwin Santo, Nachum Vaisman, Iris Dotan, Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv 64239, Israel
Author contributions: Ianco O significantly contributed to data acquisition and drafting the manuscript; Lusthaus M contributed to data acquisition; Ofer A contributed to the study design; Vaisman N contributed to the study design and the interpretation of the results; Santo E contributed to data analysis and manuscript revision; Tulchinsky H and Dotan I planned and designed the study, recruited patients, assessed their clinical status, and contributed to data analysis and the writing of the manuscript.
Supported by A generous grant from the Leona M and Harry B Helmsley Charitable Trust (Partially)
Correspondence to: Iris Dotan, MD, Comprehensive Pouch Clinic, IBD Center, Department of Gastroenterology and Liver Diseases, Tel Aviv Sourasky Medical Center, 6 Weizmann Street, Tel Aviv 64239, Israel. irisd@tasmc.health.gov.il
Telephone: +97-23-6947305 Fax: +97-23-6974184
Received: June 12, 2013
Revised: August 6, 2013
Accepted: August 20, 2013
Published online: October 14, 2013

Abstract

AIM: To investigate the diet of pouch patients compared to healthy controls, and to correlate pouch patients’ diet with disease behavior.

METHODS: Pouch patients were recruited and prospectively followed-up at the Comprehensive Pouch Clinic at the Tel Aviv Sourasky Medical Center. Pouch behavior was determined based on clinical, endoscopic and histological criteria. Healthy age- and sex-matched volunteers were selected from the “MABAT” Israeli Nutrition and Public Health Governmental Study and served as the control group. All the participants completed a 106-item food frequency questionnaire categorized into food groups and nutritional values based on those used in the United States Department of Agriculture food pyramid and the Israeli food pyramid. Data on Dietary behavior, food avoidance, the use of nutritional supplements, physical activity, smoking habits, and body-mass index (BMI) were also obtained. Pouch patients who had familial adenomatous polyposis (n = 3), irritable pouch syndrome (n = 4), or patients whose pouch surgery took place less than one year previously (n = 5) were excluded from analysis.

RESULTS: The pouch patients (n = 80) consumed significantly more from the bakery products food group (1.2 ± 1.4 servings/d vs 0.6 ± 1.1 servings/d, P < 0.05) and as twice as many servings from the oils and fats (4.8 ± 3.4 servings/d vs 2.4 ± 2 servings/d, P < 0.05), and the nuts and seeds food group (0.3 ± 0.6 servings/d vs 0.1 ± 0.4 servings/d, P < 0.05) compared to the controls (n = 80). The pouch patients consumed significantly more total fat (97.6 ± 40.5 g/d vs 84.4 ± 39 g/d, P < 0.05) and fat components [monounsaturated fatty acids (38.4 ± 16.4 g/d vs 30 ± 14 g/d, P < 0.001), and saturated fatty acids (30 ± 15.5 g/d vs 28 ± 14.1 g/d, P < 0.00)] than the controls. In contrast, the pouch patients consumed significantly fewer carbohydrates (305.5 ± 141.4 g/d vs 369 ± 215.2 g/d, P = 0.03), sugars (124 ± 76.2 g/d vs 157.5 ± 90.4 g/d, P = 0.01), theobromine (77.8 ± 100 mg/d vs 236.6 ± 244.5 mg/d, P < 0.00), retinol (474.4 ± 337.1 μg/d vs 832.4 ± 609.6 μg/d, P < 0.001) and dietary fibers (26.2 ± 15.4 g/d vs 30.7 ± 14 g/d, P = 0.05) than the controls. Comparisons of the food consumption of the patients without (n = 23) and with pouchitis (n = 45) showed that the former consumed twice as many fruit servings as the latter (3.6 ± 4.1 servings/d vs 1.8 ± 1.7 servings/d, respectively, P < 0.05). In addition, the pouchitis patients consumed significantly fewer liposoluble antioxidants, such as cryptoxanthin (399 ± 485 μg/d vs 890.1 ± 1296.8 μg/d, P < 0.05) and lycopene (6533.1 ± 6065.7 μg/d vs 10725.7 ± 10065.9 μg/d, P < 0.05), and less vitamin A (893.3 ± 516 μg/d vs 1237.5 ± 728 μg/d, P < 0.05) and vitamin C (153.3 ± 130 mg/d vs 285.3 ± 326.3 mg/d, P < 0.05) than the patients without pouchitis. The mean BMI of the pouchitis patients was significantly lower than the BMI of the patients with a normal pouch: 22.6 ± 3.2 vs 27 ± 4.9 (P < 0.001).

CONCLUSION: Decreased consumption of antioxidants by patients with pouchitis may expose them to the effects of inflammatory and oxidative stress and contribute to the development of pouchitis.

Key Words: Ulcerative colitis, Dietary reference intake, Body mass index, Ileal-pouch anal anastomosis, Pouch surgery, Food frequency questionnaire

Core tip: The diet of patients who had pouch surgery differed significantly from that of healthy individuals. Patients with pouchitis consumed significantly fewer fruit servings and antioxidants than patients with normal pouches, thus possibly exposing the former to inflammatory and oxidative stress. The body mass index of patients with pouchitis was significantly lower than patients with normal pouches, probably as a result of the continuous inflammatory burden.
INTRODUCTION

Total proctocolectomy and the formation of a small bowel reservoir-ileal pouch anal anastomosis (IPAA, “pouch surgery”) is the surgery of choice for the treatment of severe, refractory or complicated ulcerative colitis (UC)[1,2]. Pouch surgery has good short- and long-term outcomes and is associated with improved quality of life[2]. Inflammation of the pouch (“pouchitis”) is the most common long-term complication, with a reported incidence of up to 60%[3]. Nutrition is increasingly incorporated into the management of inflammatory bowel disease (IBD)[4]. However, few studies have assessed the influence of nutrition on the health status of pouch patients. Rather most have focused on patients’ subjective feelings after consuming specific food products[5]. Nevertheless, the potential contribution of nutrition to the development of inflammation in the pouch, as well as to IBD in general, remains unclear. Studies have shown that probiotic supplements, such as various strains of lactobacilli 3 (VSL#3), may prevent pouchitis after closure of the ileostomy, shorten the duration of the inflammation, and maintain remission[6,7]. Several nutritional imbalances may also result from pouch surgery itself, including vitamin B12 and iron deficiency, fat malabsorption and electrolyte and trace element deficiencies[8-11]. Such deficiencies may, in turn, cause or increase inflammation by mechanisms such as increased tissue oxidative stress[10].

We hypothesized that diet modification and nutritional imbalance may occur after pouch surgery and that these could be associated with and predispose pouch patients to the development of pouchitis. We further assumed that such major changes might be related to the consumption of essential vitamins, minerals, antioxidants or fibers, which could thus potentially contribute to pouch inflammation[11-15]. The purpose of the current investigation was thus to gather and analyze the detailed intake of food groups and nutrients as well as examine the nutritional and lifestyle habits of pouch patients, and test for correlations between these parameters and the occurrence of pouchitis.

MATERIALS AND METHODS
Study population

Pouch patients were recruited from the Comprehensive Pouch Clinic at the Tel Aviv Sourasky Medical Center (Tel Aviv, Israel), a tertiary referral center for IBD and the national referral center for pouch patients. Both an IBD-oriented gastroenterologist (Dotan I) and a colorectal surgeon (Tulchinsky H) examined all pouch patients. Healthy age- and sex-matched volunteers were selected from the “MABAT” Israeli Nutrition and Public Health Governmental Study cohort[16]. Pouchitis was diagnosed by accepted clinical, endoscopic and histological criteria (the pouchitis disease activity index, PDAI[17]). Pouch status was further defined as normal or pouchitis (recurrent acute pouchitis and chronic pouchitis) as previously described[2]. Briefly, normal pouch status was defined as no clinical, endoscopic or histological criteria for pouchitis during the previous 2 years and no antibiotic or anti-inflammatory therapy of any type. Chronic pouchitis was defined by clinical, endoscopic and histological criteria that called for chronic administration of antibiotics or anti-inflammatory therapies for more than one month or when there were more than 5 flares of pouchitis within a year[2,18,19]. Recurrent acute pouchitis was defined as ≤ 5 flares of pouchitis responding to a 2-wk course of antibiotics/year. The data on pouch patients who had familial adenomatous polyposis (n = 3), irritable pouch syndrome (n = 4), or patients who had had their pouch for less than one year (n = 5) were excluded.

Since there was no significant difference in the food and nutrient consumption between the patients with chronic pouchitis and those with recurrent acute pouchitis, they were combined into a single “pouchitis” group. The data for all of the enrolled pouch patients were compared to those of the healthy controls. Patients with a normal pouch status (n = 23) were further compared to patients with pouchitis (n = 45). All participants gave their informed consent. The study complied with the Helsinki Declaration and the ethical guidelines of our institution.

Questionnaires

All participants were prospectively interviewed using a food frequency questionnaire (FFQ). The 106 items on the FFQ were categorized into food groups according to those defined in the United States Department of Agriculture )USDA( food pyramid[20] and the Israeli food pyramid[21]. The questionnaire also included sub-food groups defined in the “MABAT” Israeli Nutrition and Public Health Governmental Study[16]. The nutritional values of the food items were taken from the USDA FNDD, version 4.1[22]. The nutritional values of several specific Israeli food items that do not appear in the USDA FNDD database were taken from the Israeli Ministry of Health food consumption and nutrients “TZAMERET” database, version 2[23]. Pouch patients were also asked about their dietary behavior, food avoidance, and the use of nutritional supplements, as well as physical activity, smoking habits, and body-mass index (BMI). Assessment of the questionnaires was based on the recommended range of values established by the USDA FNDD[22] and Israeli Health Ministry “TZAMERET”[23] databases. The nutrient consumption of all participants was compared to the upper limits for daily nutrient recommendations for healthy males and females between the ages of 31-50 years as indicated in the USDA Dietary Reference Intake (DRI) 2010[24].

Statistical analysis

Statistical analyses were conducted using SPSS software version 19.0 (SPSS Inc. Headquarters, S Wacker Drive, Chicago, IL, United States). A P value of < 0.05 was considered significant. Data are presented as mean ± SD for continuous variables, and frequencies and percentages for categorical variables. Independent t-tests were used to compare pouch patients vs healthy controls for food group and nutrient consumption Fisher’s exact test and independent t-tests were used to compare normal pouch patients to recurrent acute and chronic pouchitis patients for the categorical and continuous variables, respectively.

RESULTS
Diets of pouch patients vs controls

Eighty adult pouch patients were recruited and compared to 80 healthy adult volunteers. Subjects from both groups were matched for sex and age. Differences in their nutritional intake were first examined by comparing their consumption of servings of the main food groups. The major food groups were divided into subgroups based on the “MABAT” study distribution[16]. The pouch patients consumed significantly more bakery, oils and fats, and nuts and seeds compared to the controls (Table 1). The consumption of other food groups was comparable. The total nutrient content of foods[25] consumed by the patients and the control groups is shown in Table 2. The pouch patients’ increased consumption of fat servings included significantly more total fat and fat components; i.e., monounsaturated fatty acids and saturated fatty acids, than the controls. The pouch patients also consumed significantly higher amounts of several nutrients than the controls, e.g., niacin, zinc, and vitamins C and D (Table 2). These higher levels were usually attributed to external supplements rather than to the diet itself. In contrast, the pouch patients consumed significantly fewer carbohydrates, sugars, theobromine, retinol and dietary fibers compared to the controls. Interestingly, neither the controls nor the pouch patients met DRI recommendations for dietary fiber intake (38 g/d[24]).

Table 1 Food group consumption in pouch patients and healthy controls (mean ± SD).
Food groupConsumption healthy controls (n = 80, servings/d)Consumption pouch patients (n = 80, servings/d)Recommendation1P value
Grains6.1 ± 4.06.9 ± 4.016-1120.213
Bakery0.6 ± 1.11.2 ± 1.46-1120.030
Potatoes0.5 ± 0.50.7 ± 0.66-1120.063
Vegetables3.9 ± 2.73.6 ± 2.73-50.49
Fruits2.2 ± 2.12.5 ± 2.82-40.47
Dairy3.7 ± 2.64 ± 3.32-30.52
Meat, fish and poultry2.4 ± 2.22.3 ± 1.62-330.945
Eggs0.4 ± 0.50.5 ± 0.42-330.206
Legumes0.4 ± 0.60.3 ± 0.52-330.094
Oils and fats2.4 ± 2.04.8 ± 3.4Limited0.000
Nuts and seeds0.1 ± 0.40.3 ± 0.6Limited0.012
Snacks and soft drinks4.5 ± 3.05.0 ± 4.5Limited0.353
Water6.0 ± 3.96.0 ± 3.5-0.913
1Serving recommendations according to food pyramid (n = 20);
26-11 servings are recommended for the grains, baked goods or potato categories;
32-3 servings are recommended for the meat, fish and poultry, eggs, and legume categories.
Table 2 Consumption of nutrients in pouch patients and healthy controls (mean ± SD).
NutrientConsumption healthy controls (n = 80)%DRIConsumption pouch patients (n = 80)%DRIP value
Energy (kcal)2655.2 ± 1313.7-2509.9 ± 986.4-0.430
Proteins (g)112.8 ± 59.4200%113 ± 42.5201%0.977
Total fat (g)84.4 ± 39-97.6 ± 40.5-0.038
Carbohydrates (g)369.0 ± 215.2284%305.5 ± 141.4234%0.029
Theobromine (mg)236.6 ± 244.5-77.8 ± 100-< 0.001
Total sugars (g)157.5 ± 90.4-124 ± 76.2-0.012
Total dietary fiber (g)30.7 ± 14.080%26.2 ± 15.469%0.055
Zinc (mg)13.3 ± 6.5121%16.6 ± 9.2151%0.01
Retinol (μg)832.4 ± 609.6474.4 ± 337.1< 0.001
Vitamin D (μg)7.9 ± 5.7158%15.7 ± 19.9314%0.001
Vitamin C (mg)148.2 ± 80.6164%210.3 ± 225.4233%0.022
Niacin (mg)34.4 ± 20.0212%43.0 ± 18.1269%0.005
Total monounsaturated fatty acids (g)30 ± 14-38.4 ± 16.4-< 0.001
Total polyunsaturated fatty acids (g)17.9 ± 9.2-20.4 ± 9.2-0.082
Total saturated fatty acids (g)28.0 ± 14.1-30 ± 15.5-0.006
Total W3 fatty acids (g)0.14 ± 0.13-1.2 ± 3.4-0.03
Total W6 fatty acids (g)16.8 ± 9.0-19.9 ± 9.1-0.4
DRI: Dietary reference intakes.
Normal pouch vs pouchitis patients’ diets

The pouch patients were divided into a normal pouch group (n = 23) and a pouchitis group (n = 45) (both recurrent acute and chronic). The demographic parameters of the two groups are shown in Table 3. Comparison of the food consumption of the normal pouch patients to that of patients with pouchitis revealed significant differences in two main food groups; namely, fruits and vegetables (Table 4). Patients with a normal pouch consumed twice as many fruit servings as patients with pouchitis (P < 0.01) and tended to consume more vegetable servings than the pouchitis patients (P < 0.01). The consumption of other food groups was comparable regardless of pouch status. We hypothesized that these findings would be reflected in significantly less consumption of antioxidants. As predicted, pouchitis patients consumed significantly less liposoluble antioxidants, such as cryptoxanthin and lycopene, as well as less vitamins A and C than the normal pouch patients. Taken together, these data suggest that patients with pouchitis may be more exposed to oxidative stress as a result of their consumption of fewer fruits and vegetables. Interestingly, two-thirds of the patients with pouchitis supplemented their diet with vitamins and minerals, compared to 43.5% of the patients with a normal pouch (P = 0.06). Nevertheless, even after this supplementation, the total consumption of antioxidants was still significantly lower in the pouchitis group than in the normal pouch group. Seventy percent of all pouch patients reported some type of food avoidance. The most frequently avoided foods were milk, citrus fruits, and spicy foods. Although up to 25% of all pouch patients avoided milk products, they met the recommended calcium intake level, mostly through supplements.

Table 3 Demographic characteristics of pouch patient subgroups.
Normal pouch (n = 23)Recurrent acute and chronic pouchitis (n = 45)P value
Male/female11/1222/230.56
Age (yr)53.2 ± 13.743.0 ± 14.9< 0.001
Mean time since surgery (yr)7.8 ± 4.411.0 ± 6.30.04
Operation stages (1/2/3)4/16/34/34/70.4
Body mass index (kg/m2)27 ± 4.922.6 ± 3.2< 0.001
Food avoidance60.90%73.30%0.21
Probiotics consumption30.40%31.10%0.6
Vitamins/supplement consumption43.50%66.70%0.06
Smokers4.30%13.30%0.24
Table 4 Food group consumption in patients with recurrent acute and chronic pouchitis vs patients with a normal pouch (mean ± SD).
Food groupConsumption normal pouch patients (n = 23, servings/d)Consumption recurrent acute and chronic pouchitis patients (n = 45, servings/d)Recommendation1P value
Grains7.0 ± 3.57.3 ± 4.56-1120.7
Bakery1.0 ± 1.41.2 ± 1.36-1120.4
Potatoes0.5 ± 0.40.8 ± 0.66-1120.15
Vegetables4.5 ± 3.03.3 ± 2.13-50.06
Fruits3.6 ± 4.11.8 ± 1.72-40.015
Dairy4.3 ± 3.03.7 ± 3.02-30.43
Meat, fish and poultry2.4 ± 1.52.4 ± 1.82-330.99
Eggs0.6 ± 0.50.5 ± 0.42-330.37
Legumes0.2 ± 0.40.3 ± 0.52-330.28
Oils and fats5.3 ± 3.04.7 ± 3.8Limited0.5
Nuts and seeds0.4 ± 0.82.3 ± 0.4Limited0.55
Snacks and soft drinks4.4 ± 3.05.5 ± 5.0Limited0.38
Water6.0 ± 3.96.0 ± 3.5-0.93
1Serving recommendations according to food pyramid (n = 20);
26-11 servings are recommended for the grains, baked goods or potato categories;
32-3 servings are recommended for the meat, fish and poultry, eggs, and legume categories.

Only 26.2% (n = 21) of all pouch patients in the cohort used probiotics; 30.4% (n = 7) in the normal pouch group and 31.1% (n = 14) in the pouchitis group. Most of these were over-the-counter probiotics, and only 4 patients used the probiotic VSL#3.

BMI comparisons

Despite the comparable mean energy intake of patients with normal pouches and those with pouchitis, the mean BMI of both groups was significantly different, with the former having a significantly higher BMI than the latter. In terms of the normal BMI range for the healthy population (18.5-25 kg/m2)[26], 15 patients (65%) in the normal pouch group fell into the overweight range compared to 35 patients (77%) the pouchitis group who were categorized in the normal or underweight range. This may suggest that inflammatory activity itself, rather than decreased caloric intake, plays a role in the significantly lower BMI of patients with pouchitis.

DISCUSSION

Increased attention has been paid in recent years to the role of nutrition in the treatment of IBD patients[4,27], and its putative contribution to inflammation continues to be a topic of considerable interest[14,15]. UC patients undergoing pouch surgery are exposed not only to the consequences of total removal of the large bowel and reconstruction of an ileal reservoir, but also to the potential influence of nutrition on inflammatory processes. Thus it is surprising that there are no nutritional guidelines for these patients. Moreover, there is only sparse information on nutrition among pouch patients and its relationships to the development, treatment, and prevention of pouch inflammation. In this prospective cross-sectional study, we employed the FFQ to characterize pouch patients’ dietary consumption to analyze correlations between diet and pouch inflammation. We hypothesized that nutrition could be significantly impaired in these patients, which would have possible implications for the inflammation of the pouch.

The results indicate major differences in the diet of pouch patients as compared to healthy individuals and, more importantly, between patients with normal pouches and those with pouchitis. In particular, pouch patients consumed significantly higher servings of fats and oils compared to healthy controls, and patients with pouchitis consumed fewer fruit servings and antioxidants than patients with a normal pouch. These findings on fat and oil consumption may be crucial since USDA nutritional guidelines recommend that fats should be consumed sparingly[20,28]. Sakamoto et al. for instance found that high consumption of fats and oils is associated with increased risk of CD[12]. The same may apply to the development of pouchitis, which, similar to CD, is an inflammation of the small bowel in an IBD patient.

Our patients with normal pouches consumed twice as many servings from the fruit food group than the pouchitis patients (Table 4). They also tended to consume more servings from the vegetable food group. Low consumption of fruits and vegetables has been shown to be inversely related to inflammation, as reflected by higher CRP levels[29]. El Muhtaseb et al[10] for instance showed that pouch patients have significantly lower plasma concentrations of liposoluble antioxidants such as beta carotene, and that they have increased oxidative stress in plasma compared to healthy controls. This may imply that the low consumption of antioxidants and vitamin C observed in the pouchitis patients here may contribute to their low serum levels. According to D’Odorico et al[30] this may lead to further oxidative damage. When DRI consumption of dietary fibers is below the recommended level, several mechanisms may lead to a similar effect[31]. Intestinal bacteria ferment soluble fibers, producing short chain fatty acids such as butyrate[31,32] as well as lactic acid[32]. A shortage in butyrate was shown to be associated with the development of pouchitis[32]. Second, lactic acid decreases fecal pH[31], which may contribute to protection from pouchitis[31] by inhibiting the proteolytic activity of bacterial glycosidases[33].

Taken together, these results on the low consumption of antioxidants, vitamins and dietary fibers by pouchitis patients support our hypothesis that these imbalances may both predispose and be associated with the development of pouchitis in pouch patients. Whether the consumption of more antioxidants and vitamins can prevent further intestinal inflammation or even reverse it is an open question reserved for future studies. Notably, probiotic supplements were consumed by 26.2% of our pouch patients, but the probiotic formula VSL#3 that has been reported to be beneficial for the prevention of pouchitis[34] was consumed by only 5%. This low rate of use may change in the near future since 2011 VSL#3 has now been included in the Israeli MOH health basket as a supplement for patients with pouchitis[35].

A major finding of the current work is the correlation between BMI and the inflammatory state. Patients with normal pouches had significantly higher BMI ratios than patients with pouchitis, even to the point of being in the “overweight” range[26]. This finding is intriguing given that there was no difference in energy intake between the normal pouch and the chronic pouchitis patient groups. Thus, differences in BMI might be due to increased malabsorption[3], increased energy expenditure[3] or differences in microbiota composition, which may lead to differential utilization of nutrients[36]. This correlation between BMI and pouch inflammatory state also suggests that the inflammation itself contributes to energy expenditure, as we reported elsewhere for CD patients[3].

In conclusion, the results of this study revealed significant differences in the consumption of food groups and nutrients between healthy controls and pouch patients, and between patients with normal pouches and those with pouchitis. These differences correlated, in part, with pouchitis and affected the patients’ BMI levels. Further studies on the mechanistic effects of nutrition on pouch inflammation are needed to help provide guidelines for nutritional counseling and interventions to alleviate the symptoms of pouchitis and modify its course.

COMMENTS
Background

Total proctocolectomy and the formation of a small bowel reservoir-ileal pouch anal anastomosis (IPAA, “pouch surgery”) is the surgery of choice for the treatment of severe, refractory or complicated ulcerative colitis (UC). Inflammation of the pouch (“pouchitis”) is the most common long-term complication, with a reported incidence of up to 60%. Nutrition has been increasingly incorporated into the management of inflammatory bowel disease (IBD). However, few studies have assessed the influence of nutrition on the health of pouch patients. Moreover, the potential contribution of nutrition to the development of inflammation in the pouch, as well as in IBD in general, remains under-researched.

Research frontiers

The characteristics of pouch patients’ nutrition were prospectively evaluated using a food frequency questionnaire. The questionnaire data were analyzed for correlations between pouch disease behavior, as determined by clinical, endoscopic and histological criteria. Most previous nutritional studies on pouch patients have focused on their subjective feelings after consuming specific food products rather than on the overall relationships between various food groups and nutrients and pouch disease behavior.

Innovations and breakthroughs

The dietary intake and nutrient composition of pouch patients was analyzed for relationships with pouch disease behavior. The key finding shows that the diet of patients with pouch surgery differed significantly from that of healthy individuals. Moreover, patients with pouchitis consume significantly fewer fruit servings and antioxidants compared to patients with normal pouches, possibly exposing the former to inflammatory and oxidative stress. The body mass index of patients with pouchitis was significantly lower than patients with normal pouches, probably as a result of the continuous inflammatory burden.

Applications

The findings suggest that the consumption of fruits and vegetables, as well as supplementation with specific vitamins, minerals and antioxidants may be beneficial for patients with pouchitis. Specific nutritional consultation for pouch patients is advisable.

Terminology

Pouch surgery: This is the surgery of choice for the treatment of severe, refractory or complicated UC. The large bowel and the rectum are removed (total proctocolectomy), and a reservoir (“pouch”) constructed of the normal small bowel is created and connected to the anus (IPAA). Pouchitis: Inflammation of the small bowel (that was originally normal, not inflamed) creating the pouch.

Peer review

This research compares the dietary and nutritional treatment of pouch patients and pouchitis. This manuscript is a meaningful and enlightening study in general because it reveals the dietary differences between pouch patients and controls as well as between patients with or without pouchitis, which can guide further investigations on this topic.

Footnotes

P- Reviewers Bashashati M, Chen JL, Kim YJ S- Editor Gou SX L- Editor A E- Editor Zhang DN

References
1.  Simchuk EJ, Thirlby RC. Risk factors and true incidence of pouchitis in patients after ileal pouch-anal anastomoses. World J Surg. 2000;24:851-856.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 173]  [Cited by in F6Publishing: 148]  [Article Influence: 6.2]  [Reference Citation Analysis (0)]
2.  Tulchinsky H, Dotan I, Alper A, Brazowski E, Klausner JM, Halpern Z, Rabau M. Comprehensive pouch clinic concept for follow-up of patients after ileal pouch anal anastomosis: report of 3 years’ experience in a tertiary referral center. Inflamm Bowel Dis. 2008;14:1125-1132.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 36]  [Cited by in F6Publishing: 20]  [Article Influence: 1.3]  [Reference Citation Analysis (0)]
3.  Vaisman N, Dotan I, Halack A, Niv E. Malabsorption is a major contributor to underweight in Crohn’s disease patients in remission. Nutrition. 2006;22:855-859.  [PubMed]  [DOI]  [Cited in This Article: ]
4.  O’Sullivan M, O’Morain C. Nutritional Therapy in Inflammatory Bowel Disease. Curr Treat Options Gastroenterol. 2004;7:191-198.  [PubMed]  [DOI]  [Cited in This Article: ]
5.  Buckman SA, Heise CP. Nutrition considerations surrounding restorative proctocolectomy. Nutr Clin Pract. 2010;25:250-256.  [PubMed]  [DOI]  [Cited in This Article: ]
6.  Gionchetti P, Rizzello F, Helwig U, Venturi A, Lammers KM, Brigidi P, Vitali B, Poggioli G, Miglioli M, Campieri M. Prophylaxis of pouchitis onset with probiotic therapy: a double-blind, placebo-controlled trial. Gastroenterology. 2003;124:1202-1209.  [PubMed]  [DOI]  [Cited in This Article: ]
7.  Gionchetti P, Rizzello F, Morselli C, Poggioli G, Tambasco R, Calabrese C, Brigidi P, Vitali B, Straforini G, Campieri M. High-dose probiotics for the treatment of active pouchitis. Dis Colon Rectum. 2007;50:2075-282; discussion 2075-282;.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 147]  [Cited by in F6Publishing: 123]  [Article Influence: 7.2]  [Reference Citation Analysis (0)]
8.  Oikonomou IK, Fazio VW, Remzi FH, Lopez R, Lashner BA, Shen B. Risk factors for anemia in patients with ileal pouch-anal anastomosis. Dis Colon Rectum. 2007;50:69-74.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 24]  [Cited by in F6Publishing: 26]  [Article Influence: 1.5]  [Reference Citation Analysis (0)]
9.  M’Koma AE, Wise PE, Schwartz DA, Muldoon RL, Herline AJ. Prevalence and outcome of anemia after restorative proctocolectomy: a clinical literature review. Dis Colon Rectum. 2009;52:726-739.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 26]  [Cited by in F6Publishing: 22]  [Article Influence: 1.5]  [Reference Citation Analysis (0)]
10.  El Muhtaseb MS, Talwar D, Duncan A, St J O’reilly D, McKee RF, Anderson JH, Foulis A, Finlay IG. Free radical activity and lipid soluble anti-oxidant vitamin status in patients with long-term ileal pouch-anal anastomosis. Colorectal Dis. 2009;11:67-72.  [PubMed]  [DOI]  [Cited in This Article: ]
11.  McLaughlin SD, Clark SK, Tekkis PP, Ciclitira PJ, Nicholls RJ. Review article: restorative proctocolectomy, indications, management of complications and follow-up--a guide for gastroenterologists. Aliment Pharmacol Ther. 2008;27:895-909.  [PubMed]  [DOI]  [Cited in This Article: ]
12.  Sakamoto N, Kono S, Wakai K, Fukuda Y, Satomi M, Shimoyama T, Inaba Y, Miyake Y, Sasaki S, Okamoto K. Dietary risk factors for inflammatory bowel disease: a multicenter case-control study in Japan. Inflamm Bowel Dis. 2005;11:154-163.  [PubMed]  [DOI]  [Cited in This Article: ]
13.  Hou JK, Abraham B, El-Serag H. Dietary intake and risk of developing inflammatory bowel disease: a systematic review of the literature. Am J Gastroenterol. 2011;106:563-573.  [PubMed]  [DOI]  [Cited in This Article: ]
14.  Chapman-Kiddell CA, Davies PS, Gillen L, Radford-Smith GL. Role of diet in the development of inflammatory bowel disease. Inflamm Bowel Dis. 2010;16:137-151.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 160]  [Cited by in F6Publishing: 162]  [Article Influence: 11.6]  [Reference Citation Analysis (0)]
15.  Reif S, Klein I, Lubin F, Farbstein M, Hallak A, Gilat T. Pre-illness dietary factors in inflammatory bowel disease. Gut. 1997;40:754-760.  [PubMed]  [DOI]  [Cited in This Article: ]
16.  Israel Center for Disease Control MoH. MABAT: First Israeli National Health and Nutrition Survey 1999–2001. Food & Nutrition Services. 2003;225.  [PubMed]  [DOI]  [Cited in This Article: ]
17.  Sandborn WJ, Tremaine WJ, Batts KP, Pemberton JH, Phillips SF. Pouchitis after ileal pouch-anal anastomosis: a Pouchitis Disease Activity Index. Mayo Clin Proc. 1994;69:409-415.  [PubMed]  [DOI]  [Cited in This Article: ]
18.  Ståhlberg D, Gullberg K, Liljeqvist L, Hellers G, Löfberg R. Pouchitis following pelvic pouch operation for ulcerative colitis. Incidence, cumulative risk, and risk factors. Dis Colon Rectum. 1996;39:1012-1018.  [PubMed]  [DOI]  [Cited in This Article: ]
19.  Heuschen UA, Autschbach F, Allemeyer EH, Zöllinger AM, Heuschen G, Uehlein T, Herfarth C, Stern J. Long-term follow-up after ileoanal pouch procedure: algorithm for diagnosis, classification, and management of pouchitis. Dis Colon Rectum. 2001;44:487-499.  [PubMed]  [DOI]  [Cited in This Article: ]
20.   Available from: http: //www.choosemyplate.gov/foodgroups/index.html.  [PubMed]  [DOI]  [Cited in This Article: ]
21.   Available from: http: //www.health.gov.il/pages/default.asp?maincat=33&catid=846.  [PubMed]  [DOI]  [Cited in This Article: ]
22.  USDA Food and Nutrient Database for Dietary Studies, 4.1. 2010. Beltsville, MD: Agricultural Research Service, Food Surveys Research Group; .  [PubMed]  [DOI]  [Cited in This Article: ]
23.   Available from: http: //www.health.gov.il/Download/pages/tzameret-feb08.pdf.  [PubMed]  [DOI]  [Cited in This Article: ]
24.   Available from: http://iom.edu/Activities/Nutrition/SummaryDRIs/~/media/Files/Activity%20Files/Nutrition/DRIs/New%20Material/5DRI%20Values%20SummaryTables%2014.pdf.  [PubMed]  [DOI]  [Cited in This Article: ]
25.  Kerver JM, Yang EJ, Obayashi S, Bianchi L, Song WO. Meal and snack patterns are associated with dietary intake of energy and nutrients in US adults. J Am Diet Assoc. 2006;106:46-53.  [PubMed]  [DOI]  [Cited in This Article: ]
26.  Sinha A, Kling S. A review of adolescent obesity: prevalence, etiology, and treatment. Obes Surg. 2009;19:113-120.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 52]  [Cited by in F6Publishing: 54]  [Article Influence: 3.4]  [Reference Citation Analysis (0)]
27.  Lucendo AJ, De Rezende LC. Importance of nutrition in inflammatory bowel disease. World J Gastroenterol. 2009;15:2081-2088.  [PubMed]  [DOI]  [Cited in This Article: ]
28.  Dixon LB, Cronin FJ, Krebs-Smith SM. Let the pyramid guide your food choices: capturing the total diet concept. J Nutr. 2001;131:461S-472S.  [PubMed]  [DOI]  [Cited in This Article: ]
29.  Holt EM, Steffen LM, Moran A, Basu S, Steinberger J, Ross JA, Hong CP, Sinaiko AR. Fruit and vegetable consumption and its relation to markers of inflammation and oxidative stress in adolescents. J Am Diet Assoc. 2009;109:414-421.  [PubMed]  [DOI]  [Cited in This Article: ]
30.  D’Odorico A, Bortolan S, Cardin R, D’Inca’ R, Martines D, Ferronato A, Sturniolo GC. Reduced plasma antioxidant concentrations and increased oxidative DNA damage in inflammatory bowel disease. Scand J Gastroenterol. 2001;36:1289-1294.  [PubMed]  [DOI]  [Cited in This Article: ]
31.  Welters CF, Heineman E, Thunnissen FB, van den Bogaard AE, Soeters PB, Baeten CG. Effect of dietary inulin supplementation on inflammation of pouch mucosa in patients with an ileal pouch-anal anastomosis. Dis Colon Rectum. 2002;45:621-627.  [PubMed]  [DOI]  [Cited in This Article: ]
32.  De Preter V, Bulteel V, Suenaert P, Geboes KP, De Hertogh G, Luypaerts A, Geboes K, Verbeke K, Rutgeerts P. Pouchitis, similar to active ulcerative colitis, is associated with impaired butyrate oxidation by intestinal mucosa. Inflamm Bowel Dis. 2009;15:335-340.  [PubMed]  [DOI]  [Cited in This Article: ]  [Cited by in Crossref: 29]  [Cited by in F6Publishing: 25]  [Article Influence: 1.7]  [Reference Citation Analysis (0)]
33.  Ruseler-van Embden JG, Schouten WR, van Lieshout LM. Pouchitis: result of microbial imbalance? Gut. 1994;35:658-664.  [PubMed]  [DOI]  [Cited in This Article: ]
34.  Gionchetti P, Rizzello F, Venturi A, Brigidi P, Matteuzzi D, Bazzocchi G, Poggioli G, Miglioli M, Campieri M. Oral bacteriotherapy as maintenance treatment in patients with chronic pouchitis: a double-blind, placebo-controlled trial. Gastroenterology. 2000;119:305-309.  [PubMed]  [DOI]  [Cited in This Article: ]
35.   Available from: http: //www.old.health.gov.il/Download/pages/trufotSal2011.pdf.  [PubMed]  [DOI]  [Cited in This Article: ]
36.  Zhang H, DiBaise JK, Zuccolo A, Kudrna D, Braidotti M, Yu Y, Parameswaran P, Crowell MD, Wing R, Rittmann BE. Human gut microbiota in obesity and after gastric bypass. Proc Natl Acad Sci USA. 2009;106:2365-2370.  [PubMed]  [DOI]  [Cited in This Article: ]