Tulsa, Okla. – A pioneering study conducted by researchers at the Laureate Institute for Brain Research (LIBR) in Tulsa, Okla., has made significant strides in understanding the elusive gut-brain connection, a complex relationship that has long puzzled scientists due to the difficulty of accessing the body’s interior. The study, “Parieto-occipital ERP indicators of gut mechanosensation in humans,” appears in the peer-reviewed scientific journal Nature Communications.
The research team successfully had participants swallow a minimally invasive vibrating capsule to measure neural responses during gastrointestinal stimulation, providing a novel approach to study this intricate connection. The capsule was developed by Vibrant Ltd. Participants in the study included healthy adult male and female volunteers ages 18-40. The researchers found that the volunteers were able to sense the stimulation of the vibrating capsule under two conditions: normal and enhanced. The enhanced stimulation condition led to improved perceptual accuracy, faster detection of the stimulation, and reduced variability in reaction time, indicating potential for studying this method in different clinical populations. This is a significant breakthrough as it demonstrates the feasibility of this novel approach to studying gut feelings.
The researchers also discovered the “gastric evoked potential,” a late neural response in certain areas of the brain specifically induced by capsule stimulation. These neural responses increased in amplitude depending on the intensity of the stimulation and were significantly correlated with perceptual accuracy. This discovery provides a new way to measure and understand the neural processes governing the gut-brain connection.
“We were able to localize most of the capsule stimulations to the gastroduodenal segments of the digestive tract using abdominal X-ray imaging,” said Dr. Sahib Khalsa, a psychiatrist and neuroscientist at LIBR, and senior author of the study. “This finding is crucial as it provides a more precise understanding of where these gut-brain interactions are originating.”
“The potential clinical implications for the results of this study are substantial,” said Dr. Khalsa. “The vibrating capsule method could transform the clinical approach to disorders of gut-brain interaction, including eating disorders and certain gastrointestinal disorders such as irritable bowel syndrome (IBS) or functional dyspepsia.”
Dr. Khalsa continued. “This would provide a much-needed tool for assessing gut sensation in these conditions and could lead to more personalized and effective treatment strategies. It also opens up the possibility of identifying perceptual or biological mediators of successful treatment, which could serve as predictive markers for future therapeutic interventions.”
The research team was led by senior author Sahib Khalsa, MD, PhD, Director of Clinical Operations at the Laureate Institute for Brain Research and Associate Professor in the Oxley College of Health Sciences at The University of Tulsa. Co-first authors on the study were Ahmad Mayeli, PhD and Obada Al Zoubi, PhD who were a PhD student and postdoctoral scholar, respectively, from LIBR at the start of the project.
The research was supported by the National Institute of Mental Health and The William K. Warren Foundation and was conducted at LIBR between September 2019 and February 2022.
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CONTACT: For more information about the project, contact Sahib Khalsa, MD, PhD, at Laureate Institute for Brain Research at firstname.lastname@example.org.
ABOUT LAUREATE INSTITUTE FOR BRAIN RESEARCH (LIBR) Launched in 2009, the Laureate Institute for Brain Research (laureateinstitute.org) is home to a multidisciplinary team of scientists and clinical research staff who apply neuroimaging, genetic, pharmacological, neuropsychological and psychotherapeutic methods to investigate the neurobiology and treatment of psychiatric disorders. LIBR’s creation was supported by The William K. Warren Foundation for the purpose of conducting studies aimed at developing more effective treatments and/or prevention strategies for these disorders. The studies are led by scientists from diverse backgrounds, including psychiatry, psychology, physics, cognitive neuroscience, developmental neuroscience, population neuroscience and genetics, molecular and cellular neurobiology, and computer science.
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Parieto-occipital ERP indicators of gut mechanosensation in humans
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