Abstract
Sir, The human body is inhabited by a multitude of bacteria, viruses, fungi, phages constituting the microbiota, and their gene pool called the microbiome which is essential for human well-being.[1] The role of gut microbiome in peri-operative medicine is recently being explored. However, most of the literature available is that of animal studies and more extensive research would be needed in humans to establish an association. The mechanism of action of gut-microbiome on various systems of the human body can be explained by the “gut-brain axis.” This is a two-way interaction between the enteric nervous system (ENS) and central nervous system (CNS) [Figure 1]. The gut microbiota secrete various metabolites and products like-short chain fatty acids (SCFA), enzymes, polysaccharides, cytokines, and neurotransmitters, which are released in to the circulation to act on the CNS. The vagus nerve also carries inputs from ENS to CNS. The brain in-turn acts on the gut through the hypothalamic-pituitary-adrenal (HPA) axis and the autonomic nervous system.[2] Immune mediated interaction and alteration of microglial activity are other proposed mechanisms of gut-brain interaction. All these mechanisms have been proven only by preclinical animal studies.[1]Figure 1: Gut brain axis. HPA = Hypothalamic pituitary adrenal axisAnaesthetic agents-like propofol and volatile anaesthetics have been found to alter the gut microbiota composition in animal studies. Han et al. studied gut microbiota of mice after sevoflurane exposure and found that microbiome composition was reduced on day-1, 3, 7, and 14 after sevoflurane anaesthesia compared to the control group. They also noted a significant difference in fecal metabolites of the experimental and control groups.[3] Also an infusion of propofol for 3 hours in rats was found to decrease the number of certain bacterial species for 14 days.[4] Postoperative delirium (POD) and post-surgical pain (PSP) have also been attributed to the gut-microbiome by animal studies. This means, why certain patients have more POD or PSP than others can be determined by their gut-microbiome constitution and may be pre-treatment with pre-biotics, post-biotics, or fecal microbiota transplantation reduces the risk of POD and PSP in these patients. However, this association between POD/PSP and gut-microbiome has been shown mostly in animal studies and human association is yet to be established.[1] Zhang et al. compared the gut-microbiota of rats who developed POD and those who did not develop POD after abdominal surgery. The composition of microbiota was significantly different between the groups. They also conducted fecal microbiota transplantation from rats with POD to antibiotic treated rats, which then developed POD.[5] A human study has proved association of gut microbiome with chronic PSP, where Yao et al. had preoperatively collected gut-microbiome samples for 132 patients undergoing breast cancer surgery. The gut microbiota of 66 patients who developed chronic PSP (CPSP) was significantly different from those who did not develop PSP. Fecal microbiome transplantation from CPSP patients to mice led to development of hyperalgesia in these mice.[6] The gut microbiome composition has been attributed to development of opioid tolerance. Chronic opioid exposure leads to activation of opioid receptors on gut epithelium and destruction of gut mucosal barrier, allowing translocation of gut bacteria leading to an inflammatory response and pain exacerbation.[1] The gut microbiota composition influences many chronic pain conditions like fibromyalgia, headache, neuropathic, visceral, and chronic pelvic pain. The mediators of gut microbiota can alter the neuronal excitability at the dorsal root ganglia and mediate neuro inflammation leading to central sensitization and peripheral sensitization in chronic pain. Thus, targeting the gut-microbiota seems to be a promising treatment of chronic pain.[1,2] In future, gut microbiome analysis might help to screen patients at risk of postoperative cognitive dysfunction, postoperative pain, chronic pain and opioid tolerance and alteration of gut microbiota by use of prebiotics, postbiotics, dietary, and life-style changes might provide therapeutic benefit in such patients. However, this hypothesis is based majorly on animal studies and gut microbiome still needs to be explored in humans. Financial support and sponsorship Nil. Conflicts of interest There are no conflicts of interest.
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