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, according to a systematic review and meta-analysis published in Clinical Gastroenterology and Hepatology.
“The distinct phenotype of patients with IMO should be incorporated in patient-reported outcome measures and further correlated with mechanistic microbiome studies,” wrote investigators led by gastroenterologist Ali Rezaie, MD, MSc, medical director of the GI Motility Program at Cedars-Sinai Medical Center and director of biotechnology in the center’s Medically Associated Science and Technology (MAST) Program. Recognizing specific GI symptom profiles can improve diagnosis and treatment strategies, facilitating further clinical trials and targeted microbiome studies to optimize patient care.
Excessive luminal loads of methanogenic archaea – archaea being bacteria-like prokaryotes and one of the main three domains of the tree of life – have been implicated in the pathophysiology of various diseases, including constipation.
The Study
To elucidate the phenotypical presentation of IMO in patients, Rezaie’s group compared the prevalence and severity of gastrointestinal (GI) symptoms in individuals who had IMO with those who did not have IMO. IMO was based on excess levels of this gaseous GI byproduct in exhaled breath tests.
Searching electronic databases from inception to September 2023, the researchers identified 19 eligible studies from diverse geographical regions with 1293 IMO patients and 3208 controls. Eleven studies were performed in the United States; the other studies were conducted in France (n = 2), India (n = 2), New Zealand (n = 1), South Korea (n = 1), Italy (n = 1), and the United Kingdom (n = 1). Thirteen studies were of high quality, as defined by a Newcastle-Ottawa Assessment Scale score of 6.
Patients with IMO were found to exhibit a range of GI symptoms, including bloating (78%), constipation (51%), diarrhea (33%), abdominal pain (65%), nausea (30%), and flatulence (56%).
In other findings:
- Patients with IMO had a significantly higher prevalence of constipation vs controls: 47% vs 38% (odds ratio [OR], 2.04, 95% confidence interval [CI], 1.48-2.83, P < .0001).
- They had a lower prevalence of diarrhea: 37% vs 52% (OR .58, 95% CI, .37-.90, P = .01); and nausea: 32% vs 45%; (OR, .75; 95% CI, .60-.94, P = .01).
- Patients with IMO had more severe constipation: standard mean deviation [SMD], .77 (95% CI, .11-1.43, P = .02) and a lower severity of diarrhea: SMD, –.71 (95% CI, –1.39 to –.03, P = .04). Significant heterogeneity of effect, however, was detected.
- Constipation was more prevalent in IMO diagnosed with the lactulose breath test and the glucose breath test and constipation was particularly prevalent in Europe and the United States.
Mechanism of Action
The findings on constipation and diarrhea corroborate methane’s slowing physiologic effects on motility, the authors noted. It has been consistently found to delay gut transit, both small bowel and colonic transit.
Mechanistically, methane reduces small intestinal peristaltic velocity while augmenting non-propagating contraction amplitude, suggesting that reduction of intestinal transit time is mediated through promotion of non-propulsive contractions.
“This study further consolidates methane’s causal role in constipation and paves the way to establish validated disease-specific patient-reported outcomes,” Rezaie and associates wrote, calling for longitudinal and mechanistic studies assessing the archaeome in order to advance understanding of IMO.
This study was funded in part by Nancy Stark and Stanley Lezman in support of the MAST Program’s Innovation Project at Cedars-Sinai.
Rezaie serves as a consultant/speaker for Bausch Health. Cedars-Sinai Medical Center has a licensing agreement with Gemelli Biotech, in which Rezaie and coauthor Pimentel have equity. They also hold equity in Good LIFE. Pimentel consults for and has received grant support from Bausch Health.
, according to a systematic review and meta-analysis published in Clinical Gastroenterology and Hepatology.
“The distinct phenotype of patients with IMO should be incorporated in patient-reported outcome measures and further correlated with mechanistic microbiome studies,” wrote investigators led by gastroenterologist Ali Rezaie, MD, MSc, medical director of the GI Motility Program at Cedars-Sinai Medical Center and director of biotechnology in the center’s Medically Associated Science and Technology (MAST) Program. Recognizing specific GI symptom profiles can improve diagnosis and treatment strategies, facilitating further clinical trials and targeted microbiome studies to optimize patient care.
Excessive luminal loads of methanogenic archaea – archaea being bacteria-like prokaryotes and one of the main three domains of the tree of life – have been implicated in the pathophysiology of various diseases, including constipation.
The Study
To elucidate the phenotypical presentation of IMO in patients, Rezaie’s group compared the prevalence and severity of gastrointestinal (GI) symptoms in individuals who had IMO with those who did not have IMO. IMO was based on excess levels of this gaseous GI byproduct in exhaled breath tests.
Searching electronic databases from inception to September 2023, the researchers identified 19 eligible studies from diverse geographical regions with 1293 IMO patients and 3208 controls. Eleven studies were performed in the United States; the other studies were conducted in France (n = 2), India (n = 2), New Zealand (n = 1), South Korea (n = 1), Italy (n = 1), and the United Kingdom (n = 1). Thirteen studies were of high quality, as defined by a Newcastle-Ottawa Assessment Scale score of 6.
Patients with IMO were found to exhibit a range of GI symptoms, including bloating (78%), constipation (51%), diarrhea (33%), abdominal pain (65%), nausea (30%), and flatulence (56%).
In other findings:
- Patients with IMO had a significantly higher prevalence of constipation vs controls: 47% vs 38% (odds ratio [OR], 2.04, 95% confidence interval [CI], 1.48-2.83, P < .0001).
- They had a lower prevalence of diarrhea: 37% vs 52% (OR .58, 95% CI, .37-.90, P = .01); and nausea: 32% vs 45%; (OR, .75; 95% CI, .60-.94, P = .01).
- Patients with IMO had more severe constipation: standard mean deviation [SMD], .77 (95% CI, .11-1.43, P = .02) and a lower severity of diarrhea: SMD, –.71 (95% CI, –1.39 to –.03, P = .04). Significant heterogeneity of effect, however, was detected.
- Constipation was more prevalent in IMO diagnosed with the lactulose breath test and the glucose breath test and constipation was particularly prevalent in Europe and the United States.
Mechanism of Action
The findings on constipation and diarrhea corroborate methane’s slowing physiologic effects on motility, the authors noted. It has been consistently found to delay gut transit, both small bowel and colonic transit.
Mechanistically, methane reduces small intestinal peristaltic velocity while augmenting non-propagating contraction amplitude, suggesting that reduction of intestinal transit time is mediated through promotion of non-propulsive contractions.
“This study further consolidates methane’s causal role in constipation and paves the way to establish validated disease-specific patient-reported outcomes,” Rezaie and associates wrote, calling for longitudinal and mechanistic studies assessing the archaeome in order to advance understanding of IMO.
This study was funded in part by Nancy Stark and Stanley Lezman in support of the MAST Program’s Innovation Project at Cedars-Sinai.
Rezaie serves as a consultant/speaker for Bausch Health. Cedars-Sinai Medical Center has a licensing agreement with Gemelli Biotech, in which Rezaie and coauthor Pimentel have equity. They also hold equity in Good LIFE. Pimentel consults for and has received grant support from Bausch Health.
, according to a systematic review and meta-analysis published in Clinical Gastroenterology and Hepatology.
“The distinct phenotype of patients with IMO should be incorporated in patient-reported outcome measures and further correlated with mechanistic microbiome studies,” wrote investigators led by gastroenterologist Ali Rezaie, MD, MSc, medical director of the GI Motility Program at Cedars-Sinai Medical Center and director of biotechnology in the center’s Medically Associated Science and Technology (MAST) Program. Recognizing specific GI symptom profiles can improve diagnosis and treatment strategies, facilitating further clinical trials and targeted microbiome studies to optimize patient care.
Excessive luminal loads of methanogenic archaea – archaea being bacteria-like prokaryotes and one of the main three domains of the tree of life – have been implicated in the pathophysiology of various diseases, including constipation.
The Study
To elucidate the phenotypical presentation of IMO in patients, Rezaie’s group compared the prevalence and severity of gastrointestinal (GI) symptoms in individuals who had IMO with those who did not have IMO. IMO was based on excess levels of this gaseous GI byproduct in exhaled breath tests.
Searching electronic databases from inception to September 2023, the researchers identified 19 eligible studies from diverse geographical regions with 1293 IMO patients and 3208 controls. Eleven studies were performed in the United States; the other studies were conducted in France (n = 2), India (n = 2), New Zealand (n = 1), South Korea (n = 1), Italy (n = 1), and the United Kingdom (n = 1). Thirteen studies were of high quality, as defined by a Newcastle-Ottawa Assessment Scale score of 6.
Patients with IMO were found to exhibit a range of GI symptoms, including bloating (78%), constipation (51%), diarrhea (33%), abdominal pain (65%), nausea (30%), and flatulence (56%).
In other findings:
- Patients with IMO had a significantly higher prevalence of constipation vs controls: 47% vs 38% (odds ratio [OR], 2.04, 95% confidence interval [CI], 1.48-2.83, P < .0001).
- They had a lower prevalence of diarrhea: 37% vs 52% (OR .58, 95% CI, .37-.90, P = .01); and nausea: 32% vs 45%; (OR, .75; 95% CI, .60-.94, P = .01).
- Patients with IMO had more severe constipation: standard mean deviation [SMD], .77 (95% CI, .11-1.43, P = .02) and a lower severity of diarrhea: SMD, –.71 (95% CI, –1.39 to –.03, P = .04). Significant heterogeneity of effect, however, was detected.
- Constipation was more prevalent in IMO diagnosed with the lactulose breath test and the glucose breath test and constipation was particularly prevalent in Europe and the United States.
Mechanism of Action
The findings on constipation and diarrhea corroborate methane’s slowing physiologic effects on motility, the authors noted. It has been consistently found to delay gut transit, both small bowel and colonic transit.
Mechanistically, methane reduces small intestinal peristaltic velocity while augmenting non-propagating contraction amplitude, suggesting that reduction of intestinal transit time is mediated through promotion of non-propulsive contractions.
“This study further consolidates methane’s causal role in constipation and paves the way to establish validated disease-specific patient-reported outcomes,” Rezaie and associates wrote, calling for longitudinal and mechanistic studies assessing the archaeome in order to advance understanding of IMO.
This study was funded in part by Nancy Stark and Stanley Lezman in support of the MAST Program’s Innovation Project at Cedars-Sinai.
Rezaie serves as a consultant/speaker for Bausch Health. Cedars-Sinai Medical Center has a licensing agreement with Gemelli Biotech, in which Rezaie and coauthor Pimentel have equity. They also hold equity in Good LIFE. Pimentel consults for and has received grant support from Bausch Health.
FROM CLINICAL GASTROENTEROLOGY AND HEPATOLOGY