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Original Research

Effects of a proposed physical activity and diet control to manage constipation in middle-aged obese women

Sayed A Tantawy1 Department of Physiotherapy, Centre of Radiation, Oncology and Nuclear Medicine, Cairo University, Giza, Egypt;2 Department of Physiotherapy, College of Medical and Health Sciences, Ahlia University, Manama, Kingdom of BahrainCorrespondence[email protected]
,
Dalia M Kamel2 Department of Physiotherapy, College of Medical and Health Sciences, Ahlia University, Manama, Kingdom of Bahrain;3 Department of Physiotherapy of Obstetrics and Gynecology, Faculty of Physical Therapy, Cairo University, Giza, Egypt
,
Walid Kamal Abdelbasset4 Department of Physical Therapy and Health Rehabilitation, College of Applied Medical Sciences, Prince Sattam Bin Abdul Aziz University, Alkharj, Saudi Arabia;5 Department of Physical Therapy, Kasr Al-Aini Hospital, Cairo University, Cairo, Egypt
&
Hany M Elgohary6 Department of Physical Therapy for Surgery, Faculty of Physical Therapy, Cairo University, Giza, Egypt
Pages 513-519 | Published online: 14 Dec 2017

Abstract

Background

Obesity is very common worldwide and is related to critical morbidity and mortality. It has a large number of impacts on the human body. Constipation has a prevalence from 4% to 29% in various parts of the world and is considered to be a major health problem, with an estimated incidence of 5% in males and 15% in females. There is a strong association between obesity and constipation. This study aimed to investigate the effect of physical activity and a low-calorie diet on constipation in middle-aged obese women.

Methods

This study included 125 obese women (age 20–40 years) who had chronic constipation. Participants were randomly assigned to two groups. Group A included 62 women who received a suggested protocol of physical activity, a low-calorie diet, and the routine standard care for constipation, whereas Group B included 63 women who received only the standard medical care for constipation and a low-calorie diet. Both groups followed the program for 12 weeks. Changes in the Patient Assessment of Constipation Symptoms (PAC-SYM) and Patient Assessment Quality of Life (PAC-QOL) scores, and in the body mass index (BMI) were recorded in study subjects, both at baseline and at the end of the study program.

Results

There were no statistically significant differences in the baseline characteristics of patients in the two groups. After 12 weeks of intervention, both groups showed significant intra-group differences (p < 0.05) in all of the measured variables, except the BMI which showed a nonsignificant difference (p > 0.05) in Group B. Between-groups comparison showed significant differences (p < 0.05) in all of the measured parameters in favor of Group A.

Conclusion

Physical activity and weight reduction improve PAC-SYM and PAC-QOL scores in middle-aged, premenopausal women with constipation in the short term (up to 12 weeks).

Introduction

Constipation is a worldwide condition affecting individuals of all ages, with prevalence ranging from 4% to 29% in various parts of the world.Citation1Citation4 Gender-wise comparisons reveal that women, particularly premenopausal women, experience constipation more often than men,Citation5,Citation6 with an estimated 5% of the male and 15% of the female population being affected.Citation2 This indicates that women are 2 to 3 times more likely to suffer from constipation than men.Citation7 The physiologic reason behind this female predominance is unclear; however, some studies have concentrated on female sex hormones as a potential reason for this gender difference.Citation3,Citation6 Several women experience changes in bowel habits (ie, looser consistency) with the onset of mensesCitation2 when progesterone and estradiol levels significantly decline, thus, bringing about the feminine cycle.Citation8 In contrast, prolongation of orocecal transit time is observed during the luteal stage.Citation9 In addition, constipation is common during the second and third trimesters of pregnancy, when progesterone and estradiol levels are considerably elevated.Citation10 However, pregnancy also brings many changes, including the gravid uterus that compresses the intestines; therefore, pregnancy-induced constipation cannot be attributed to the effects of progesterone alone. In fact, there is controversy regarding the impact of sex steroids on colonic transit, as a previous study reported no significant differences in colonic transit between any of the phases of the menstrual cycle. Although colonic transit in women was slower than in men, this was not statistically significant.Citation11 Moreover, estradiol and a combination of sex steroids do not have a beneficial impact on colonic transit in postmenopausal women.Citation12 Further, the damage to pelvic floor muscles during childbirth or gynecological surgeries is another risk factor in women.Citation3 Constipation can be managed by lifestyle modifications, through increasing the consumption of dietary fibers and fluids, and increasing physical activity. Pharmacological treatment is another way to manage constipation – through stool softeners, bulk-forming agents, osmotic agents, and chloride channel activators. Some chronic cases can be treated by probiotics and surgery.Citation7 Several studies have also shown the positive effect of moderate-intensity exercise on stool consistency and frequency.Citation4,Citation13,Citation14

The exercise dose effect is a very important factor that should be considered, as mild to moderate physical activity showed positive effects on the health of the gastrointestinal tract (GIT), evidenced as a decrease in liver enzymes in obese patients with hepatitis C infection,Citation15 and reduced incidence of liver disease,Citation16 cholelithiasis,Citation17 colon cancer,Citation16 and constipationCitation18 in addition to decreased C-reactive protein (CRP), an inflammatory marker, in obese women.Citation19 In contrast, acute vigorous exercise could provoke nausea, vomiting, diarrhea, gastrointestinal (GI) bleeding, and heartburn.Citation20 In addition, compared to physically inactive individuals, physically active individuals have demonstrated a lower prevalence of constipation.Citation21

Methods

This study, conducted from December 2015 to November 2016, was approved by the Research Ethical Committee of the Faculty of Physical Therapy, Cairo University (No P.T. REC/012/001542), and was a registered randomized controlled clinical trial at Clinicaltrial.gov with identifier number (NCT02745652). In total, 125 women (age 20–40 years) were recruited into this study. Participants were considered eligible if they met the inclusion criteria of being diagnosed with functional constipation, as defined by the Rome Foundation.

Patients whose BMI exceeded 30 kg/m2 were included. In addition, subjects fulfilled the ROM criteria of constipation, as follows: 1) Suffered from any two or more of the following symptoms in the past 12 weeks (not necessarily consecutive), with symptom-onset at least 6 months prior to diagnosis: a) straining during at least 25% of defecations, b) lumpy or hard stools in at least 25% of defecations, c) sensation of incomplete evacuation for at least 25% of defecations, d) sensation of anorectal obstruction/blockage for at least 25% of defecations, e) requirement of manual maneuvers to facilitate at least 25% of defecations (eg, digital evacuation, support of the pelvic floor muscles), and f) fewer than three defecations per week; 2) loose stools rarely occurred without the use of laxatives; 3) insufficient criteria for irritable bowel syndrome; and 4) women were sedentary (<1 hour/week of physical activity), with no evidence of participation in diet control/weight reduction programs within the last 6 months.

Patients with metabolic, endocrine, and neurologic constipation; current or past smokers; those with any orthopedic limitation; and those with congenital megacolon, pseudo-obstruction, and anorectal disorders were excluded from the study. Patients suffering from constipation due to drugs, disabled patients, and those who had undergone any abdominal surgery during the intervention or those who failed to complete the study protocol were also excluded. All participants provided written informed consent for study participation before enrolling in the study.

Study design and intervention

Participants were randomly divided into two groups. Group A included 62 women who were following a suggested protocol of physical activity and a low-calorie diet in addition to the routine standard care for constipation. The low-calorie diet allowed 1,000–1,200 kcal/day, divided as follows: 50%–60% carbohydrates, 20% protein, <30% total fat, and 18 g of fiber/1,000 kcal. The diet plans were revised every 2 weeks, and the diet was modified while ensuring that it was within the allowed caloric value, in addition to the routine standard care for constipation. Group B included 63 patients who received only the standard medical care for constipation and a low-calorie diet as in Group A. Patients in both groups followed their program for 12 weeks.

Exercise intervention for Group A

Each woman in Group A participated in the exercise training program for 12 weeks, 3 times per week, with each exercise session lasting 60 minutes. Participants were instructed not to eat for 3 hours before the exercise session.

The exercise training program was in the form of walking on a treadmill without tightly grasping the rails, because this action seemed to reduce the workload during any stage of the exercise. To overcome this issue, the participants were asked to remove their hands from the rails, close their fists, and place only one finger on the rails to maintain balance once they were accustomed to walking on the treadmill.

The exercise session was started by a 10-minute warm-up, which involved walking without any resistance or inclination on the walkway of the treadmill, followed by 40 minutes of walking with 15 degrees of inclination and a speed adjusted to reach 20%–40% of the target heart rate (THR) in the first 6 weeks of the study; the speed was increased to reach 40%–60% THR in the next 6 weeks of the study. The session ended with 10 minutes of recovery period, in which the intensity of the exercise was reduced to the level of the warm-up.

The assessment procedures performed before and after 12 weeks of intervention consisted of the following:

  • The Patient Assessment of Constipation – Symptom (PAC-SYM) is a reliable and validCitation22,Citation23 tool to measure the patient’s perspective of constipation symptoms in terms of the frequency and severity. It is a 12-item self-reported measure, which is divided into three manifestation sub-scales (ie, abdominal, rectal, and stool). Items are scored on a 4-point Likert scale, with a score of 4 demonstrating the worst symptom severity.Citation24,Citation25

  • The Patient Assessment of Constipation Quality of Life (PAC-QOL) is a comprehensive measure of the constipation burden on the patient’s quality of life (QOL) in terms of functions, activities, and well-being. It is considered a valid and reproducible tool with high internal consistency.Citation26

  • The Short Form-36 (SF-36) is well validated, reliable, not time- or effort-intensive, and has been presented in several international studies.Citation27Citation29 It is a 36-item questionnaire that measures the QOL across eight scales (domains), which are based on both physical and emotional aspects. The eight domains of the SF-36 are concerned with the following: physical functioning, role limitations owing to physical health or emotional problems, energy/fatigue, emotional wellbeing, social functioning, pain, and general health. In addition, a single item is included to identify any perceived change in health, making the SF-36 a useful indicator for change in QOL over time and treatment. The scores of the SF-36TM physical component summary and SF-36TM mental component summary are calculated by simply calculating the mean score of all of the physically and emotionally relevant items.Citation29Citation31

Descriptive statistics were calculated as the mean and standard deviation. Inferential statistics evaluated the changes in constipation symptoms, QOL questionnaires, and BMI using the unpaired t-test between the two groups, while the paired t-test was used to measure the changes within a group. Pearson correlation coefficient was used to measure the strength and direction of the relationship between BMI and PAC-SYM scores, and between BMI and QOL. All data were analyzed using SPSS version 18.0 (SPSS, Chicago, IL, USA), with statistical significance set at p ≤ 0.05.

Results

In total, 125 women with functional constipation were included in this study. Participants were assigned to study group (Group A) and control group (Group B). Women in Group A were advised physical activity and a low-calorie diet in addition to receiving the standard medical care for constipation, whereas those in Group B received only the standard medical care for constipation and a low-calorie diet. At the beginning of the study, before intervention, there were no statistically significant differences between patients in both groups in terms of age, height, weight, BMI, PAC-SYM scores, and PAC-QOL questionnaire scores, with p > 0.05. Demographic and clinical characteristics of patients in both groups are described in . These data reveal that the patients in both groups had similar clinical characteristics.

Table 1 Demographic and clinical characteristics of patients in both groups (A&B)

The main findings of this study showed that all measurements were significantly improved at the end of the study period among patients in both groups, except for BMI, which decreased only among patients in Group A. As reported in and , the percentage of change of BMI in Group A was 11.3%, whereas it was 5.6% in Group B. This decrease in BMI among patients in Group A after 12 weeks of intervention is shown in .

Table 2 Statistical analysis of mean differences in Group (A) pre- and post-intervention

Table 3 Statistical analysis of mean differences in Group (B) pre- and post-intervention

Table 4 Statistical analysis of mean differences between both groups (A and B) at the end of the intervention

Statistically significant improvement in PAC-SYM scores, including the overall, stool, abdominal, and rectal scores, was observed among patients in both groups. Changes in scores among patients in Group A were 33.8%, 29.5%, 37.6%, and 54.6%, respectively, whereas changes in scores among patients in Group B were 21.8%, 16.73%, 23.6%, and 28.0%, respectively. When patients in both groups were compared, those in Group A showed greater improvement in PAC-SYM scores, as presented in and , and the improvement in scores after the 12-week intervention is reported in .

Further, a statistically significant improvement was observed in the QOL of patients, including the overall quality, psychosocial discomfort, physical discomfort, and SF-36 (physical and mental aspects) scores, in both groups. Changes among patients in Group A were 34.9%, 43.6%, 39.7%, 6.6%, and 8.4%, respectively, whereas changes among patients in Group B were 22.3%, 27.3%, 22.2%, 4.1%, and 2.8%, respectively. Intergroup comparison showed that patients in Group A presented greater improvement in the QOL, as shown in and , and the improvement after the 12-week intervention is presented in .

Statistical analysis of the correlation coefficient revealed a strong positive correlation between BMI and constipation symptoms (0.81, 0.76, 0.82, and 0.85) in the overall, stool, abdominal, and rectal scores, respectively. A strong correlation was also observed between BMI and QOL (0.77, 0.74, 0.80, 0.78, and 0.75) in the overall, satisfaction, psychosocial discomfort, physical discomfort, and worries and concerns scores, respectively. This indicated that BMI scores have a direct correlation with PAC-SYM and QOL scores.

Discussion

This study aimed to investigate the effect of 12 weeks of physical activity on improvement of idiopathic constipation in obese premenopausal women. Significant improvement was observed in the condition of women in both study and control groups. Between-groups comparisons showed significant improvement in the PAC-SYM and PAC-QOL, with significant reduction in the BMI in the favor of Group A.

The improvement in the PAC-SYM scores observed in the current study was in line with many studiesCitation14,Citation32Citation35 that showed that physical activity exerts positive effects on constipation.

The exact mechanism by which exercise helps in managing and preventing constipation is still unclear.Citation36 Some of the underlying mechanisms suggested that exercise affects colonic motility and accelerates gut transit. This exercise effect has been attributed to vagus nerve stimulation and/or decrease of blood flow to the GI tract; this increases the release of important GI hormones. Another explanation is the mechanical stimulation of the gut during physical activity such as bouncing, upright posture, gravity, and contraction of the abdominal muscles. This mechanical stimulation helps stools to move into the rectum, thus adding to the stimulation; the increase in energy expenditure during physical activity was found to influence energy intake and, therefore, the need for increasing dietary fiber intake.Citation37Citation39

In middle-aged inactive subjects (84.4% of whom were women) with symptoms of chronic constipation, regular physical activity improved both the defecation pattern and the recto-sigmoid or total colonic transit time.Citation32 Moreover, in adolescents, constipation was associated with insufficient physical activity and excessive sedentary behavior. In such patients, constipation could be prevented by increasing physical activity.Citation14 In the current study, the regular physical activity of the participants was walking at 40%–60% THR. This was similar to a previous study which reported that walking for an hour every day at 60% of the maximum heart rate improves the condition of sedentary young individuals who suffer from chronic constipation.Citation33 Further, in the present study, participants received additional dietary modifications with 18 g of fiber/1,000 kcal; the diet was revised every 2 weeks. The dietary modification was supported by moderate physical activity. Increased fiber intake has been associated with substantial reduction in the prevalence of constipation in women.Citation34 In addition, the lack of dietary fibers known as non-starch polysaccharides plays an important role in the etiology of constipation,Citation40 and consumption of a medium amount of dietary fibers is associated with a lower prevalence of constipation.Citation41 Dietary fibers increase fecal volume and bacterial mass, leading to softening of the stools and an increase in their size, which helps maintain regular stool patterns and defecation. Additionally, fiber intake increases colonic motility through the products of bacterial fermentation.Citation37,Citation42

In this study, the BMI of women in Group A significantly reduced and showed significant correlation with both PAC-SYM scores and PAC-QOL scores (r = 0.81 and r = 0.77, respectively). This is in contrast with a previous study that showed no significant correlation between constipation and BMI; however, the subjects in this previous study were younger than 25 years with BMI in the normal range.Citation33 However, the current result is in agreement with the result reported in a previous study that found a correlation between constipation and BMI in middle-aged and elderly individuals.Citation43 Therefore, obesity seems to be a risk factor for constipation. In addition, BMI is inversely correlated with constipation.Citation34

Further, the current study showed significant improvement in the PAC-QOL scores of the patients, indicating that improvement in constipation symptoms improves the QOL. This is in agreement with a previous study which reported that increasing the intake of dietary fiber and the level of physical activity considerably improved constipation symptoms and QOL of their patients.Citation35 Another study reported that chronic constipation negatively affects the QOL of the affected individual.Citation2 This impact is more pronounced in women and at an advanced age; therefore, middle-aged women are more likely to be affected with constipation.

In this study, there were some limitations which are recommended to be addressed in future studies such as the ROM criteria, which is based on self-reported symptoms; therefore, there is a need to include an objective constipation assessment such as defecography. Furthermore, the current study proposed a physical activity program which needs more validation. Last, the participants’ fluid intake was not covered in this study.

Conclusion

Increased physical activity positively affects the BMI, constipation complaints, and the QOL of premenopausal women. More effort and awareness are required to encourage an active lifestyle and dietary balance among different patients with constipation, especially women.

Acknowledgments

The authors would like to thank the patients of Cairo University Hospitals for their participation in the study.

Disclosure

The authors report no conflicts of interest in this work.

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