An e-book co-ordinated by a WCM-Q researcher which compiles the latest research into the use of faecal transplants to restore healthy gut microbiota has proven so successful it is to be relaunched in an expanded form next year.
The e-book, titled, ‘Faecal Microbiota Transplants: challenges in translating microbiome research to clinical applications,’ has garnered more than 100,000 views in only one month since its publication in Frontiers in Microbiology, one of the most cited open access microbiology research journals.
Following that success, the journal has invited the editorial team to launch a second volume of the e-book to capitalise on the upswell of interest in the topic.
The first volume of the e-book, of which WCM-Q assistant professor of biology Dr Ghizlane Bendriss is the research topic co-ordinator, featured 26 research articles examining the challenges preventing faecal microbiota transplants (FMT) from becoming adopted into mainstream clinical practice.
The procedure, which involves transplanting a healthy stool sample from a donor into the gastrointestinal tube of a patient with an unbalanced gut microbiome showing a loss of diversity, has been found to be effective at re-establishing a diverse gut flora in the recipient, but widespread adoption remains elusive.
Dr Bendriss, who holds a PhD in neuroscience, said: “Faecal microbiota transplants show promise as treatments for a wide variety of conditions, yet progress in translation into clinical applications has been slow.
"This e-book is a collection of accepted manuscripts highlighting the challenges that are preventing the widespread clinical adoption of FMT, which include difficulty in finding and screening healthy donors, regulatory challenges, technical difficulties relating to collection, storage and transport of stool samples, difficulty predicting outcomes, and the lack of known biomarkers to assess the success of transplants, among many others.”
However, Dr Bendriss said that new developments in the field of multi-omics, now increasingly coupled with artificial intelligence to enable large-scale pattern detection and in-depth study of metabolic processes, provide new tools for testing the effectiveness of faecal transplants.
WCM-Q is a regional pioneer in the study of multi-omics, including metabolomics, metagenomics and proteomics, and has also developed advanced capabilities in AI and machine learning research in recent years.