Two Lactobacilli strains as adjuvant therapy in the management of irritable bowel syndrome: a randomized control trial
Dva kmeny laktobacilů jako pomocná terapie při léčbě syndromu dráždivého tračníku: randomizovaná kontrolní studie
Zmírnění příznaků syndromu dráždivého tračníku (IBS) zahrnutím probiotik do léčby pacientů trpící tímto onemocněním se ukazuje jako slibná metoda. Cílem této randomizované klinické studie bylo posoudit účinnost probiotického přípravku kombinujícího dva kmeny Lactobacillus (L.): L. acidophilus a L. plantarum u pacientů s IBS s převahou průjmu (IBS-D). Do randomizované zaslepené studie bylo zahrnuto 100 pacientů, kteří byli rozděleni do dvou skupin. Pacientům ve skupině A byla podávána standardní léčbu IBS, zatímco pacienti ve skupině B dostávali kromě standardní léčby také probiotika. Obě skupiny byly léčeny po dobu až 12 týdnů. Pacienti byli klinicky hodnoceni pomocí škály závažnosti příznaků IBS (IBS-SSS) před zahájením léčby a poté na jejím konci tak, aby bylo možné zhodnotit skutečný účinek probiotické intervence při léčbě IBS-D. Oba typy léčby vedly k významnému snížení celkového skóre IBS-SSS, ve skupině B však bylo snížení výraznější ve srovnání se skupinou A. Snížení celkového skóre bylo významné v počtu dní s bolestmi, závažnosti břišní distenze, spokojenosti se střevními příznaky a vlivu IBS na život pacientů. Při standardní léčbě došlo ke snížení celkového skóre IBS-SSS o 241 bodů, zatímco přidání probiotika vedlo ke snížení o 307 bodů. Před léčbou měli všichni pacienti závažné příznaky IBS, zatímco po léčbě dosáhlo 100 % pacientů ve skupině B buď úplné remise, nebo měli mírné příznaky, zatímco 14,3 % pacientů ve skupině B mělo stále středně závažné příznaky IBS. Celkově lze konstatovat, že u pacientů užívajících probiotika došlo k většímu snížení celkového skóre IBS-SSS i skóre jednotlivých oddílů. Přidání probiotik ke standardní léčbě zlepšilo také závažnost onemocnění a jeho příznaků. Výsledky této studie by mohly podpořit zařazení probiotik do pokynů pro léčbu IBS.
Klíčová slova:
nutraceutika – probiotika – mikrobiom – klinické studie – syndrom dráždivého tračníku – microbiota dysbiosis
Authors:
Sadeel A. Shanshal 1; Mohammad H. Alsaaty 2,3; Kh. Harith Al-Qazaz 1; Radhwan N. Al-Zidan 1
Authors place of work:
College of Pharmacy, University of Mosul
1; College of Medicine, University of Mosul, Mosul, Iraq Ibn Sina Teaching Hospital, Mosul, Iraq
2; Slovak Medical University in Bratislava, Slovak Republic
3
Published in the journal:
Čes. slov. Farm., 2023; 72, 233-241
Category:
Original Articles
doi:
https://doi.org/10.5817/CSF2023-5-233
Summary
Alleviating the symptoms of irritable bowel syndrome (IBS) through the addition of probiotics to the treatment of IBS patients appears to be promising. The present randomized clinical trial seeks to assess the efficacy of a multi-strain probiotic product combining two Lactobacillus (L.) strains: L. acidophilus and L. plantarum, in diarrhea-predominant IBS (IBS-D) patients. A randomized, single-blinded clinical trial design was adopted to randomly assign 100 patients into two groups. Patients in group A received standard IBS treatment, whereas Group B patients were treated with probiotics besides the standard treatment. Both groups were treated for up to 12 weeks. The patients were assessed clinically by using IBS – Symptom Severity Scale (IBS-SSS) before starting the treatment and then at the end of the treatment period to evaluate the actual effect of probiotic intervention in treating IBS-D. Both treatments resulted in significant reductions in the total IBS-SSS score, but the reduction in Group B was significantly higher than in Group A. The reduction was significant in the number of days with pain, the severity of abdominal distension, satisfaction with bowel symptoms, and the effect of IBS on patients’
life. The standard treatment showed a reduction of 241 points in the overall IBS-SSS score, while adding the probiotic resulted in 307 points reduction. Before treatment, all patients had severe IBS symptoms, but after treatment, 100% of patients in group B either achieved complete remission or had mild symptoms, while 14.3% of patients in group A still had moderate IBS. The patients on probiotics exhibited higher reductions in IBS-SSS overall scores as well as scores of individual sections. The probiotics also improved the severity of the disease and its symptoms when added to standard treatment. The results of this trial could support the addition of probiotics to the guidelines for managing IBS.
Keywords:
nutraceuticals – clinical trials – Microbiome – Irritable bowel syndrome – microbiota dysbiosis – probiotic
Introduction
One of the most common functional gastrointestinal diseases is irritable bowel syndrome or IBS for short, which is characterised by recurrent abdominal pain and changes in the frequency and shape of the stool without a documented medical or biological cause1). The IBS prevalence is greatly diverse based on nations and areas2). A meta-analysis from 2012 found that the overall prevalence of IBS across different countries was 11.2%3). Because there are no specific biomarkers for IBS and clinical criteria are the only basis for diagnosis, the reported prevalence of IBS may vary as epidemiological data is collected4). In a relatively new study which utilized the Rome IV criteria, the prevalence of IBS was found to be 4.1% in the general population worldwide, while the prevalence increased to 10.1% when the Rome III criteria were applied5). Rome IV criteria divide IBS into three categories: diarrhea-predominant IBS, constipation-predominant IBS, and IBS with mixed bowel habits. Diarrhea-predominant IBS or IBS-D is the most common type, accounting for around a third of all IBS cases, but it tends to have more severe effects3).
The cause of IBS is not well understood and likely involves multiple factors. Some possible causes include issues with intestinal muscle contractions, increased sensitivity to pain in the gut, changes in the immune system in the gut lining, changes in the gut microbiome, and changes in how the nervous system processes signals from the gut6, 7). There has been growing attention to the potential connections between these conditions8, 9). It is believed that imbalances in the gut microbiome may play a significant role in many of the conditions that have been described10). Intestinal dysbiosis, or gut microbiota dysbiosis, refers to a state in which there is an imbalance in the types and activities of microorganisms present in the intestines10).
In the human body, the gut microflora can be regarded as a “super organ” as it influences how the nutrients are digested and absorbed. Also, it holds the responsibility for the training and functioning of immunity, inducing responses to inflammation, and for shaping the epithelial barrier of the intestines, besides the prominent role of the microbiota-gut-brain axis11, 12). It is important to note that the relationship between gut microorganisms, the gut, and the brain is mutual and interdependent. Dysbiosis can lead to changes in intestinal movement, abdominal pain, and overall health, while at the same time, stress can affect the intensity of pain perception in addition to its effect on the structure and function of the gut microbiome13, 14). For instance, multiple studies15–17) have found substantial changes in the gut bacteria that may contribute to the onset and severity of IBS. A recent meta-analysis that focused on the molecular characteristics of gut microorganisms found that Lactobacillus strains were significantly less abundant in patients with IBS compared to healthy controls17). Moreover, subtype analysis revealed that IBS-D patients had a reduction in the colonization of Lactobacillus srtains, showing that these specific bacteria may play a role in maintaining a balance in the gut for individuals with diarrhea-predominant IBS (IBS-D). As a result, altering the microbiota makeup becomes especially critical in managing IBS18, 19).
Hence, probiotic supplementation for IBS patients appears to be quite promising in this regard. Probiotics are described as living microorganisms that give considerable health benefits to the host when supplied at the appropriate dose20). They can ameliorate dysbiosis of the gut microbiota and decrease harmful bacterial colonization. Furthermore, while some probiotics generate an anti-inflammatory activity, others can adjust hypersensitivity of the gut or considerably increase intestinal epithelial integrity and reduce the permeability of the gut barrier21–23). Probiotics have been shown to improve patients’ quality of life by reducing the IBS symptoms (such as abdominal discomfort or flatulence)24,25). Although specialists believe that probiotics help IBS and are safe for patients, there is no single general consensus about the makeup, dose, and duration of probiotic administration26). A recent meta-analysis of more than thirty randomized clinical trials found that supplementing with multi-probiotic strains is superior to single-strain formulations regarding IBS symptom relief24). However, specialists feel that further study into the effect of probiotics is needed before probiotic supplements may be used to treat IBS. The current randomized clinical trial is aimed at evaluating the effectiveness of a probiotic product containing two Lactobacillus (L.) strains (2 billion colony-forming units (CFU) per capsule): L. acidophilus and L. plantarum, in IBS-D patients.
Methods
A randomized, single-blinded monocentric clinical trial design was adopted in this study. The study was registered in the clinical trial registry of the US National Library of Medicine and followed the CONSORT guidelines. A total of 100 patients clinically diagnosed with IBS-D were included in this study. The randomization was performed using a web-based program, GraphPad (https://www.graphpad.com/ quickcalcs/randomize1/), randomly assigning subjects into two groups. Each patient was given a sequence number starting from 1 to 100, and by using the GraphPad website, those patients were randomly assigned into two groups: either “Group A” or “Group B”. A minimum sample of 90 patients (45 in each group) was considered to be necessary to detect an effect size of (0.6) with a power of 80% at a significance level of 5% using GPower 3.1.727).
The inclusion criteria for this study were patients clinically diagnosed with IBS by fulfilling Rome’s IV criteria and aged between 16 and 55 years old. Suffering from IBS-D with pain and distension and having symptoms for at least 6 months were additional inclusion criteria. Diarrhea-predominant IBS was confirmed by asking the patients about their stool consistency at the time of diagnosis. On the other hand, patients older than 55 years old and those suffering from celiac disease, inflammatory bowel disease, thyroid disease, colonic cancer, and other systemic diseases were excluded from the study. The presence of alarming features such as anemia, blood in stool, weight loss, dysphagia, abdominal masses, and a family history of gastrointestinal cancers was also within the exclusion criteria. Lactulose intolerance and a recent history of antibiotic usage within the last three months were additional reasons to exclude patients diagnosed with IBS from being recruited in this study. Finally, a history of anxiety, depression, or other psychological disorders or using antidepressants or anxiolytics were criteria for excluding patients from participating in this trial.
Each patient was given a sequence number starting from 1 to 100, and by using the GraphPad website, those patients were randomly assigned into two groups: either “Group A” or “Group B”. Patients in Group A received standard IBS treatment only (mebeverine 135 mg, sulpiride 25 mg and simethicone 200 mg, administered in a single capsule, three times daily before meals). Group B patients were treated with probiotics (two probiotic strains, L. plantarum, and L. acidophilus, were included in a capsule to be administered twice daily), each capsule contains 2 billion CFU), besides the standard treatment given to group A. In group B, standard treatment and the probiotics were started simultaneously. Both groups were treated for 12 weeks. The patients were assessed before starting the treatment and then at the end of the treatment period to evaluate the actual effect of probiotic intervention in treating IBS-D. Patient recruitment, assessment, assigning to the study groups, and prescribing treatment was carried out in an outpatient clinic for gastroenterology in Ibn Sina Teaching Hospital in Mosul in Iraq.
Patient assessment in this study was carried out using a questionnaire adapted from a study conducted in the United Kingdom28). The questionnaire consisted of 3 parts; Part I was to collect data about the demographic characteristics of patients, Part II comprised the IBS severity scoring system (IBS-SSS), and Part III consisted of questions to collect other IBS-related data. The collected demographic characteristics included age, gender, body mass index (BMI), marital status, educational level, employment status, monthly income, and life habits (smoking, alcohol consumption). IBS-SSS consisted of 5 main questions (severity of abdominal pain, number of days having abdominal pain in 10 days, the severity of abdominal distension, patient satisfaction with their bowel habits, and how IBS affects patient life). Each of the 5 questions of the IBS-SSS was given a score from 0 to 100 points. The questions for the severity of abdominal pain and abdominal distension had five possible options: a score of zero was assigned to no pain and no distension, respectively, and a score of 100 was for very severe pain and distension, respectively. The number of days with abdominal pain in the 10-day period was multiplied by 10 to get a 100-point score for the question. For the questions of satisfaction with bowel habits and the effect of IBS on the patient’s life, there were 4 possible answers, with the answers of very happy and not at all interfering with life scoring zero and being very unhappy and completely affecting life scoring 100, respectively. The highest possible total score for the IBS-SSS was 500 points. Based on the total score, IBS can be classified into mild IBS (75–174 points), moderate IBS (175–299 points), and severe IBS (300-500 points). Those scoring less than 75 are considered healthy individuals or in remission(28). The IBS-related information collected in Part III involved asking the patients about the consistency of the stool and if it contains blood or mucus, about the main site of their IBS-related pain, and if IBS is affecting the patient’s ability to work. The questionnaire was filled out by one of the researchers while interviewing the patients. The entire questionnaire is available as a supplementary file.
Statistical analysis was performed by using SPSS (Statistical Package for the Social Sciences) version 28. Mean ± SD (standard deviation), frequency, and percentages were used for descriptive analysis, and independent samples-t-test and Chi-square test were used in the inferential analysis. A P-value of less than 0.05 was considered an indicator of the results’ significance. Before conducting this study, ethical approval was obtained from the Collegiate Committee for Medical Research Ethics at the University of Mosul with its certificate coded CCMRE-ph-A-22-11 on 18/7/2022 and registered at the US Clinical Trials Registry (NCT05523427). Additionally, each patient in the two groups was asked to sign an informed consent and a consent to publish after explaining the aim of the study to them and before allowing them to participate. A copy of the consent is available as a supplementary file.
Results
Two patients were dropped from the study, and a final sample of 98 patients who fit the inclusion criteria participated in the study. The final sample was equally divided between the two study groups (49 patients in each group). The patients in Group A who received standard IBS treatment only were matched to those in Group B who were additionally given probiotics in terms of age, BMI, gender, marital status, education, employment, monthly income, and smoking, as indicated by the lack of significant differences in these demographic characteristics which are presented in Table 1. This matching between the two study groups was also evident in the number of weeks from last year in which the patients were absent from work due to IBS and the number of weeks when they worked despite suffering from IBS. For the 10 patients in group A and the 11 patients in group B who were unemployed, being absent from work or suffered while working meant the domestic chores that they were supposed to do.
The average overall IBS-SSS score and the scores of its individual sections for the two study groups are given in Table 2, along with the statistical differences within each group before and after treatment and between the groups. Both treatments resulted in significant reductions in the total score, but the reduction in Group B was significantly higher than in Group A. The same level of significance in reducing the scores was also observed in the number of days with pain in a 10-day period, the severity of abdominal distension, satisfaction with bowel symptoms, and the effect of IBS on patients’ life. Table 2 shows that although the two treatments were significantly able to reduce the IBSSSS scores, but the addition of probiotics would result in a more profound positive effect on these scores. The standard treatment showed a reduction of 241 points in the overall IBS-SSS score, while adding the probiotic resulted in 307 points reduction.
Based on the overall IBS-SSS groups, all 98 patients in the two groups had severe IBS before starting the treatments. After 8 weeks of standard IBS treatment in Group A and the addition of probiotics to the standard treatment in Group B, none of the patients had a score for severe IBS. Moreover, patients in Group B had scored only for remission and mild IBS following treatment. Most patients in the two groups (89.8% in Group A and 69.4% in Group B) had 2–3 bowel movements per day before treatment. Following treatment, the majority in the two groups admitted having one bowel movement each day (53.1% in Group A and 65.3% in Group B). All the patients in the two groups admitted passing mucus with stool before treatment. This has not changed after standard treatment in Group A, but 83.7% of patients in Group B stopped passing mucus following treatment. These results are summarized in Table 3.
Table 1. Patients basic demographics characteristic
Variables |
Group A (Standard treatment) (n = 49) |
Group B (Standard treatment + Probiotics) (n = 49) |
P-value |
Age Mean ± SD Range |
41.55 ± 8.29 22–55 |
39.18 ± 10.21 17–54 |
0.2111 |
BMI Mean ± SD Range |
28.41 ± 3.37 17.63–37.46 |
28.63 ± 3.40 22.49–35.16 |
0.7461 |
Gender (n (%)) Male Female |
29 (59.2) 20 (40.8) |
24 (49.0) 25 (51.0) |
0.3112 |
Marital Status (n (%)) Married Single |
44 (89.8) 5 (10.2) |
39 (79.6) 10 (20.4) |
0.1612 |
Education (n (%)) No Formal Education Primary Secondary University |
5 (10.2) 8 (16.3) 16 (32.7) 20 (40.8) |
6 (12.2) 4 (8.2) 12 (24.5) 27 (55.1) |
0.3862 |
Employment (n (%)) Not Employed Government Private |
10 (20.4) 20 (40.8) 19 (38.8) |
11 (22.4) 23 (46.9) 15 (30.7) |
0.6952 |
Monthly income (n (%)) Low (< 500 $) Medium (500–1,000 $) High (> 1,000 $) |
4 (8.2) 37 (75.5) 8 (16.3) |
6 (12.2) 34 (69.4) 9 (18.4) |
0.7462 |
Smoking [n (%)] Yes No |
16 (32.7) 33 (67.3) |
17 (34.7) 32 (65.3) |
0.8312 |
Absent from work (n (%)) Less than week 1 – 3 weeks More than 3 weeks |
43 (87.8) 5 (10.2) 1 (2) |
44 (89.8) 4 (8.2) 1 (2) |
0.9412 |
Suffering at work (n (%)) Less than week 1–3 weeks More than 3 weeks |
13 (26.5) 31 (63.3) 5 (10.2) |
10 (20.4) 33 (67.3) 6 (12.3) |
0.7622 |
1Independent samples-t-test
2Chi-square test
Table 2. IBS-SSS scores between groups
Variables |
Group A (Standard treatment) (n = 49) |
Group B (Standard treatment + Probiotics) (n = 49) |
P-value2 |
||
Mean ± SD |
P-value1 |
Mean ± SD |
P-value1 |
||
Overall IBS-SSS scores |
|
< 0.001 |
|
< 0.001 |
|
Before treatment After treatment |
369.06 ± 24.22 128.02 ± 49.07 |
|
393.80 ± 43.93 86.41 ± 43.28 |
|
< 0.001 < 0.001 |
IBS-SSS: Severity score of abdominal pain |
|
< 0.001 |
|
< 0.001 |
|
Before treatment After treatment |
75 ± 7.21 18.88 ± 12.00 |
|
78.06 ± 10.98 17.86 ± 11.41 |
|
0.106 0.667 |
IBS-SSS: Number of days in the last 10 days with pain |
|
< 0.001 |
|
< 0.001 |
|
Before treatment After treatment |
8.84 ± 1.47 3.82 ± 1.39 |
|
8.88 ± 1.60 3.20 ± 1.00 |
|
0.896 0.014 |
“IBS-SSS: Severity score of abdominal distension” |
|
< 0.001 |
|
< 0.001 |
|
Before treatment After treatment |
70.92 ± 10.64 26.53 ± 9.42 |
|
85.20 ± 13.42 14.29 ± 12.50 |
|
< 0.001 < 0.001 |
“IBS-SSS: Satisfaction score for bowel symptoms” |
|
< 0.001 |
|
< 0.001 |
|
Before treatment After treatment |
68.78 ± 9.40 24.24 ± 14.72 |
|
72.98 ± 18.16 14.14 ± 16.50 |
|
0.154 0.002 |
IBS-SSS: Score of IBS affecting or interfering with life |
|
< 0.001 |
|
< 0.001 |
|
Before treatment After treatment |
66.00 ± 0.00 20.20 ± 16.24 |
|
68.78 ± 9.40 8.08 ± 14.33 |
|
0.042 < 0.001 |
1 Within same group
2 Between groups Independent samples-t-test
Table 3. Prevalence of IBS severity and IBS symptoms
Variables |
Group A (Standard treatment) (n = 49) |
Group B (Standard treatment + Probiotics) (n = 49) |
||
Before treatment |
After treatment |
Before treatment |
After treatment |
|
IBS severity (n (%)) |
0 (0) 0 (0) 0 (0) 49 (100) |
7 (14.3) 35 (71.4) 7 (14.3) 0 (0) |
0 (0) 0 (0) 0 (0) 49 (100) |
20 (40.8) 29 (59.2) 0 (0) 0 (0) |
Remission |
||||
Mild |
||||
Moderate |
||||
Severe |
||||
Frequency of bowel |
0 (0) 1 (2.0) 44 (89.8) 4 (8.2) |
1 (2.0) 26 (53.1) 22 (44.9) 0 (0) |
0 (0) 0 (0) 34 (69.4) 15 (30.6) |
16 (32.7) 32 (65.3) 1 (2.0) 0 (0) |
movement (n (%)) |
||||
Once every 2–3 days |
||||
Once a day |
||||
2–3 times a day |
||||
4–6 times a day |
||||
Passing mucus (n (%)) |
|
|
|
|
Yes No |
49 (100) 0 (0) |
49 (100) 0 (0) |
49 (100) 0 (0) |
8 (16.3) 41 (83.7) |
Having a hurry (n (%)) |
|
|
|
|
Yes No |
29 (59.2) 20 (40.8) |
23 (46.9) 26 (53.1) |
41 (83.7) 8 (16.3) |
10 (20.4) 39 (79.6) |
Discussion
The changes in the gastrointestinal function of patients suffering from IBS are mainly linked to the alteration in gut microbiota29–32). Additionally, the ability of probiotics to modulate gut microbiota is documented to relieve IBS symptoms, and different probiotic strains have proven their effectiveness in IBS treatment30–33). Therefore, this clinical trial aimed to assess the efficacy of two probiotic strains: L. plantarum and L. acidophilus in alleviating IBS symptoms.
Two strains of Lactobacilli were used in the current trial as in other studies34, 35). Whereas many studies around the world were conducted using a single strain of bacteria30,36–40), probiotics of multiplestrains were also used; in the USA using three strains41), in the Republic of Korea used six strains42) and in Bangladesh, fourteen different bacterial strains43) were used. The literature had contradictory results regarding the superiority of single-strain versus multi-strain probiotic treatment in IBS. Some studies, such as44), state that a single probiotic strain is superior, while others studies have shown that multi-strain probiotic supplementation is more effective than giving a single strain24). However, the evidence seems to favor the multi-strain, as the mentioned article was a meta-analysis of more than 30 studies24).
In this study, the participants were randomly assigned to either group A (receiving standard treatment only) or group B (receiving standard treatment plus the probiotics). In other studies30, 37, 38, 41, 43, 45), the patients were assigned to either probiotic or placebo group. The use of standard treatment in the two groups in this study was based on our belief that probiotics are more of an adjuvant therapy rather than standard treatment for IBS. The two groups enrolled in this trial were comparable as no significant differences were found in all the demographic characteristics between the participants in groups A and B. Similar results were found in a Bangladeshi study43).
IBS severity scoring system (IBS-SSS) was used in the current study to assess patients’ symptoms, and it was also used in many other studies40, 43, 46). This scoring index appears to be the best available system for the assessment of symptom severity in IBS patients when compared to other available options47). Although the patients in the two groups were matched for their socio-demographic attributes, significant differences were found in the overall IBS-SSS score, severity score of abdominal distension, and score of IBS affecting or interfering with life between the two groups before treatment with higher scores in Group B. We would like to highlight that even with these significant differences in the scores before treatment, patients in Group B achieved lower after-treatment scores than those in Group A, further confirming the positive effect of probiotics on IBS.
The duration of therapy was continued for 12 weeks in studies conducted in Finland40), France48), and the UK46). The same duration was adopted in our trial. While Sun et al.37) and Kim et al.38) adopted only 4 weeks, and Preston et al.41) assessed patients for 6 weeks. On the other hand, the duration of therapy was 6 months in a study by Khodadoostan et al. in Iran45). An analysis of the literature regarding the duration of probiotic treatment showed inconsistent findings; for example, the meta-analysis by Zhang et al.26) concluded that a therapy duration with probiotics of less than 8 weeks is more effective than if the duration was longer than 8 weeks. However, it has been suggested that patient dropouts from studies with longer duration may be responsible for the superiority of shorter durations49). One study could not find significant differences between the group taking the probiotics and the placebo group until after 10 or 11 weeks of therapy49). Therefore, if patient’s adherence could be controlled, then longer durations are probably better.
The current trial demonstrated a significant reduction in the overall IBS-SSS score and its individual sections in both groups of study, although a greater reduction was observed in the group using supplemental probiotics compared to the group using standard treatment only. This gives an indication of the potential benefits gained from adding probiotics to the treatment of IBS patients. Despite the finding that standard treatment alone was sufficient to produce significant improvement in IBS-SSS, the benefit gained from adding probiotics was much greater. This comes in agreement with all of the evidence mentioned above on the effectiveness of probiotics in alleviating the symptoms of IBS.
Reduction of greater than 50 points in IBS-SSS scoring was considered an indication of patient improvement clinically28). However, a decrease of at least 95 points in the IBS-SSS score was necessary to show noticeable clinical changes in symptoms50). In our trial, the addition of probiotics to standard treatment resulted in 307-point reduction in the overall IBS-SSS score after 12 weeks of treatment whereas standard treatment alone reduced the score by 241 points only, and the difference between the two reductions was statistically significant. This reduction is greater than that achieved by Ishaque et al. (reduction of 145 points after 4 weeks of treatment, increased to 200 points after 16 weeks)43). Lyra et al. found that using a single probiotic strain resulted in only 50 points decrease in IBS-SSS after 12 weeks of treatment40), and Sisson et al. declared a 63 points reduction in IBS-SSS scores46).
The prevalence of IBS severity was greatly improved by using standard treatment alone or by adding probiotics with superiority to probiotics; before treatment, all patients were categorized as severe cases, and after using standard treatment alone, about 70% of patients were experiencing mild IBS and only 14% were suffering from moderate IBS. On the other hand, adding probiotics to standard treatment resulted in potential improvement of patients as about 59% had mild IBS, and 41% were in the remission stage. This gives additional support for the privilege of adding probiotics in treating IBS patients.
Before starting the treatment, approximately all patients showed either 2 to 3 or 4 to 6 bowel movements per day, and after receiving standard treatment, bowel movements ranged between 1 and 3 times per day. However, by adding probiotics, 65% of patients had one bowel movement per day, and about 33% moved their bowel once every 2 to 3 days. Thus, regarding bowel movement, both treatments were effective with a favor to probiotics. The standard treatment showed no effect on mucus passing as all patients in group A were still suffering from mucus at the end of 12 weeks of treatment. This contrasted with group B as 84% of patients showed the disappearance of mucus.
Limitations
The study has some limitations, among which the absence of microbial biomarker profile of patients. However, all the participating patients were from the same city and may have a similar microbial composition. Moreover, the sample size was relatively small, and replication with a larger sample size and a longer follow-up may be needed to make a clearer clinical conclusion. Regarding bias context, the study was single-blinded; allowing participant blinding was not possible because the two groups were treated with medications, and the effects of report bias could not be eliminated. All the data collection forms were filled by one researcher; however, efforts were made to lessen patients burden and interpretation of their symptoms. The study was well strengthened by not leaving the control patients untreated or providing them with a placebo treatment as it took into account the ethical consideration of treating a patient suffering from symptoms. As a result, abdominal pain improved significantly in both groups, with a higher rate among the investigated intervention.
Conclusions
Irritable bowel syndrome is a troublesome disorder whose pathogenesis involves a disturbance in gut microbiota. For this reason, probiotics can effectively alleviate IBS symptoms. This trial has shown the correctness of the later statement when the patients treated with probiotics alongside standard treatment experienced better responses than those given standard treatment alone. The patients on probiotics exhibited higher reductions in IBS-SSS overall scores as well as scores of individual sections. The probiotics also improved the severity of the disease and its symptoms when added to standard treatment. Therefore, the guidelines for managing IBS may need to be reviewed to include probiotics as a therapeutic rather than a supplement option. In this study, the effect of probiotics on the clinical picture of IBS was investigated. A stool analysis could be performed in the future to observe the potential of probiotics to improve dysbiosis.
This trial is conducted in accordance with the ethical principles of the Declaration of Helsinki.
Conflict of interest: none.
S. A. Shanshal • H. Kh. Al-Qazaz • Radhwan N. Al-Zidan (*)
College of Pharmacy, University of Mosul
Mosul 41002, Iraq
e-mail: Radhwan.alzidan@uomosul.edu.iq
M. H. Alsaaty
College of Medicine, University of Mosul, Mosul, Iraq Ibn Sina Teaching Hospital, Mosul, Iraq
Slovak Medical University in Bratislava, Slovak Republic
Zdroje
- Ford A. C., Lacy B. E., Talley N. J. Irritable Bowel Syndrome. N. Engl. J. Med. 2017; 376(26), 2566–2578.
- Canavan C., West J., Card T. The epidemiology of irritable bowel syndrome. Clin. Epidemiol. 2014; 6, 71–80.
- Lovell R. M., Ford A. C. Global Prevalence of and Risk Factors for Irritable Bowel Syndrome: A Meta-analysis. Clin. Gastroenterol. Hepatol. 2012; 10(7),712–721.e4.
- Vork L., Weerts Z. Z. R. M., Mujagic Z., Kruimel J. W., Hesselink M. M., Muris J. W. M., Keszthelyi D., Jonkers D. M. E., Masclee A. M. Rome III vs Rome IV criteria for irritable bowel syndrome: A comparison of clinical characteristics in a large cohort study. Neurogastroenterol. Motil. 2018; 30(2), e13189.
- Luo Y., Camey S., Bangdiwala S.I., Palsson O.S., Sperber A.D., Keefer L. Mo1080: THE BURDEN OF PAIN IN ROME IV GASTROINTESTINAL DISORDERS: A ROME FOUNDATION GLOBAL STUDY. Gastroenterology 2022; 162(7), S689.
- Chang J., Leong R. W., Wasinger V. C., Ip M., Yang M., Phan T. G. Impaired Intestinal Permeability Contributes to Ongoing Bowel Symptoms in Patients With Inflammatory Bowel Disease and Mucosal Healing. Gastroenterology 2017; 153(3), 723–731.e1.
- Pusceddu M. M., Gareau M. G. Visceral pain: gut microbiota, a new hope? J. Biomed. Sci. 2018; 25(1), 73.
- Kim M.-Y., Choi S.-W. Dietary modulation of gut microbiota for the relief of irritable bowel syndrome. Nutr. Res. Pract. 2021; 15(4), 411–430.
- Singh P., Tuck C., Gibson P. R., Chey W. D. The Role of Food in the Treatment of Bowel Disorders: Focus on Irritable Bowel Syndrome and Functional Constipation. Off J. Am. Coll. Gastroenterol. ACG 2022; 117(6), 947–957.
- Singh R., Zogg H., Wei L., Bartlett A., Ghoshal U. C., Rajender S., Ro S. Gut Microbial Dysbiosis in the Pathogenesis of Gastrointestinal Dysmotility and Metabolic Disorders. Neurogastroenterol. Motil. 2021; 27(1), 19–34.
- Oriach C. S., Robertson R. C., Stanton C., Cryan J. F., Dinan T. G. Food for thought: The role of nutrition in the microbiota-gut–brain axis. Clin. Nutr. Exp. 2016; 6, 25–38.
- Cebula A., Seweryn M., Rempala G. A., Pabla S. S., McIndoe R. A., Denning T. L., Bry L., Kraj P., Kisielow P., Ignatowicz L. Thymus-derived regulatory T cells contribute to tolerance to commensal microbiota. Nature 2013; 497(7448), 258–262.
- Madison A., Kiecolt-Glaser J. K. Stress, depression, diet, and the gut microbiota: human–bacteria interactions at the core of psychoneuroimmunology and nutrition. Curr. Opin. Behav. Sci. 2019; 28, 105–110.
- Foster J. A., Rinaman L., Cryan J. F. Stress & the gut-brain axis: Regulation by the microbiome. Neurobiol. Stress 2017; 7, 124–136.
- Tap J., Derrien M., Törnblom H., Brazeilles R., Cools-Portier S., Doré J., Störsrud S., Le Nevé B., Öhman L., Simrén M. Identification of an Intestinal Microbiota Signature Associated With Severity of Irritable Bowel Syndrome. Gastroenterology 2017; 152(1), 111–123.e8.
- Maharshak N., Ringel Y., Katibian D., Lundqvist A., Sartor R. B., Carroll I. M., Ringel-Kulka T. Fecal and Mucosa-Associated Intestinal Microbiota in Patients with Diarrhea-Predominant Irritable Bowel Syndrome. Dig. Dis. Sci. 2018; 63(7), 1890–1899.
- Liu H.-N., Wu H., Chen Y.-Z., Chen Y.-J., Shen X.-Z., Liu T.-T. Altered molecular signature of intestinal microbiota in irritable bowel syndrome patients compared with healthy controls: A systematic review and meta-analysis. Dig. Liver Dis. 2017; 49(4), 331–337.
- Chong P. P., Chin V. K., Looi C. Y., Wong W. F., Madhavan P., Yong V. C. The Microbiome and Irritable Bowel Syndrome – A Review on the Pathophysiology, Current Research and Future Therapy. Front. Microbiol. 2019; 10, 1870.
- Distrutti E., Monaldi L., Ricci P., Fiorucci S. Gut microbiota role in irritable bowel syndrome: New therapeutic strategies. World J. Gastroenterol. 2016; 22(7), 2219–2241.
- Hill C., Guarner F., Reid G., Gibson G.R., Merenstein D. J., Pot B., Morelli L., Canani R. B., Flint H. J., Salminen S., Calder P. C., Sanders M. E. The International Scientific Association for Probiotics and Prebiotics consensus statement on the scope and appropriate use of the term probiotic. Nat. Rev. Gastroenterol. Hepatol. 2014; 11(8), 506–514.
- Mazzawi T. Gut Microbiota Manipulation in Irritable Bowel Syndrome. Microorganisms 2022; 10(7), 1332.
- Staudacher H., Whelan K. Altered gastrointestinal microbiota in irritable bowel syndrome and its modification by diet: Probiotics, prebiotics and the low FODMAP diet. Proc. Nutr. Soc. 2016; 75(3), 306–318.
- Plaza-Díaz J., Ruiz-Ojeda F., Vilchez-Padial L., Gil A. Evidence of the Anti-Inflammatory Effects of Probiotics and Synbiotics in Intestinal Chronic Diseases. Nutrients 2017; 9(6), 555.
- Niu H.-L., Xiao J.-Y. The efficacy and safety of probiotics in patients with irritable bowel syndrome: Evidence based on 35 randomized controlled trials. Int. J. Surg. 2020; 75, 116–127.
- Li B., Liang L., Deng H., Guo J., Shu H., Zhang L. Efficacy and Safety of Probiotics in Irritable Bowel Syndrome: A Systematic Review and Meta-Analysis. Front.. Pharmacol 2020; 11.
- Zhang Y., Li L., Guo C., Mu D., Feng B., Zuo X., Li Y. Effects of probiotic type, dose and treatment duration on irritable bowel syndrome diagnosed by Rome III criteria: a meta-analysis. BMC Gastroenterol. 2016; 16(1), 62.
- Faul F., Erdfelder E., Lang A.-G., Buchner A. G* Power 3: A flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behav. Res. Methods 2007; 39(2), 175–191.
- Francis C. Y., Morris J., Whorwell P. J. The irritable bowel severity scoring system: a simple method of monitoring irritable bowel syndrome and its progress. Aliment. Pharmacol. Ther. 1997; 11(2), 395–402.
- Khaleel S. M., Shanshal S. A., Khalaf M. M. The Role of Probiotics in Colorectal Cancer: A Review. J. Gastrointest. Cancer 2023; 1–10.
- Madempudi R. S., Ahire J. J., Neelamraju J., Tripathi A., Nanal S. Randomized clinical trial: the effect of probiotic Bacillus coagulans Unique IS2 vs. placebo on the symptoms management of irritable bowel syndrome in adults. Sci. Rep. 2019; 9(1), 1–9.
- Ringel Y., Maharshak N. Intestinal microbiota and immune function in the pathogenesis of irritable bowel syndrome. Am. J. Physiol. Liver Physiol. 2013; 305(8), G529–G541.
- Stern E. K., Brenner D. M. Gut microbiota-based therapies for irritable bowel syndrome. Clin. Transl. Gastroenterol. 2018; 9(2), e134.
- Hungin A. P. S., Mitchell C. R., Whorwell P., Mulligan C., Cole O., Agréus L., Fracasso P., Lionis C., Mendive J., Philippart de Foy J. Systematic review: probiotics in the management of lower gastrointestinal symptoms– an updated evidence‐based international consensus. Aliment. Pharmacol. Ther. 2018; 47(8), 1054–1070.
- Sadrin S., Sennoune S. R., Gout B., Marque S., Moreau J., Grillasca J., Pons O., Maixent J. M. Lactobacillus acidophilus versus placebo in the symptomatic treatment of irritable bowel syndrome: the LAPIBSS randomized trial. Cell. Mol. Biol. 2017; 63(9), 122–131.
- Sadrin S., Sennoune S., Gout B., Marque S., Moreau J., Zinoune K., Grillasca J.-P., Pons O., Maixent J.-M. A 2-strain mixture of Lactobacillus acidophilus in the treatment of irritable bowel syndrome: A placebo-controlled randomized clinical trial. Dig. Liver Dis. 2020; 52(5), 534–540.
- Ducrotté P., Sawant P., Jayanthi V. Clinical trial: Lactobacillus plantarum 299v (DSM 9843) improves symptoms of irritable bowel syndrome. World J. Gastroenterol. 2012; 18(30), 4012–4018.
- Sun Y.-Y., Li M., Li Y.-Y., Li L.-X., Zhai W.-Z., Wang P., Yang X.-X., Gu X., Song L.-J., Li Z. The effect of Clostridium butyricum on symptoms and fecal microbiota in diarrhea-dominant irritable bowel syndrome: a randomized, double-blind, placebo-controlled trial. Sci. Rep. 2018; 8(1), 1–11.
- Kim J. Y., Park Y. J., Lee H. J., Park M. Y., Kwon O. Effect of Lactobacillus gasseri BNR17 on irritable bowel syndrome: A randomized, double-blind, placebo-controlled, dose-finding trial. Food Sci. Biotechnol. 2018; 27(3), 853–857.
- Thijssen A. Y., Clemens C. H. M., Vankerckhoven V., Goossens H., Jonkers D. M. A. E., Masclee A. A. M. Efficacy of Lactobacillus casei Shirota for patients with irritable bowel syndrome. Eur. J. Gastroenterol. Hepatol. 2016; 28(1), 8–14.
- Lyra A., Hillilä M., Huttunen T., Männikkö S., Taalikka M., Tennilä J., Tarpila A., Lahtinen S., Ouwehand A. C., Veijola L. Irritable bowel syndrome symptom severity improves equally with probiotic and placebo. World J. Gastroenterol. 2016; 22(48), 10631.
- Preston K., Krumian R., Hattner J., de Montigny D., Stewart M., Gaddam S. Lactobacillus acidophilus CL1285, Lactobacillus casei LBC80R and Lactobacillus rhamnosus CLR2 improve quality-of-life and IBS symptoms: a double-blind, randomised, placebo-controlled study. Benef. Microbes 2018; 9(5), 697–706.
- Yoon J. S., Sohn W., Lee O. Y., Lee S. P., Lee K. N., Jun D. W., Lee H. L., Yoon B. C., Choi H. S., Chung W. Effect of multispecies probiotics on irritable bowel syndrome: a randomized, double‐blind, placebo‐controlled trial. J .Gastroenterol. Hepatol. 2014; 29(1), 52–59.
- Ishaque S. M., Khosruzzaman S. M., Ahmed D. S., Sah M. P. A randomized placebo-controlled clinical trial of a multi-strain probiotic formulation (Bio-Kult®) in the management of diarrhea-predominant irritable bowel syndrome. BMC Gastroenterol. 2018; 18(1), 1–12.
- Satish Kumar L., Pugalenthi L. S., Ahmad M., Reddy S., Barkhane Z., Elmadi J. Probiotics in Irritable Bowel Syndrome: A Review of Their Therapeutic Role. Cureus 2022; 14(4), e24240.
- Khodadoostan M., Shavakhi A., Sherafat Z., Shavakhi A. Effect of Probiotic Administration Immediately and 1 Month after Colonoscopy in Diarrhea-predominant Irritable Bowel Syndrome Patients. Adv. Biomed. Res. 2018; 7(1), 94.
- Sisson G., Ayis S., Sherwood R. A., Bjarnason I. Randomised clinical trial: a liquid multi‐strain probiotic vs. placebo in the irritable bowel syndrome–a 12 week double‐blind study. Aliment. Pharmacol. Ther. 2014; 40(1), 51–62.
- Rijnaarts I., Witteman B. J. M., Zoetendal E. G., Govers C., de Wit N. J. W., de Roos N.M. Subtypes and severity of irritable bowel syndrome are not related to patients’ self-reported dietary triggers: results from an online survey in Dutch adults. J. Acad. Nutr. Diet. 2021; 121(9), 1750–1762.
- Spiller R., Pélerin F., Cayzeele Decherf A., Maudet C., Housez B., Cazaubiel M., Jüsten P. Randomized double blind placebo-controlled trial of Saccharomyces cerevisiae CNCM I-3856 in irritable bowel syndrome: improvement in abdominal pain and bloating in those with predominant constipation. United Eur. Gastroenterol. J. 2016; 4(3), 353–362.
- Roberts L. M., McCahon D., Holder R., Wilson S., Hobbs F. D. A randomised controlled trial of a probiotic ‘functional food’in the management of irritable bowel syndrome. BMC Gastroenterol. 2013; 13(1), 1–10.
- Spiegel B., Bolus R., Harris L.A., Lucak S., Naliboff B., Esrailian E., Chey W. D., Lembo A., Karsan H., Tillisch K. Measuring irritable bowel syndrome patient‐reported outcomes with an abdominal pain numeric rating scale. Aliment. Pharmacol. Ther. 2009; 30(11‐12), 1159– 1170.
Štítky
Pharmacy Clinical pharmacologyČlánok vyšiel v časopise
Czech and Slovak Pharmacy
2023 Číslo 5
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