How a Plant-Based Diet Affects Blood Pressure and Gut Health in Kidney Transplant Patient

Overview

Kidney transplant improves the quality of life (QoL) and survival of appropriate patients with advanced chronic kidney disease (CKD) and end-stage kidney disease (ESKD). However, these patients still have higher mortality compared to the general population and cardiovascular disease (CVD) is the leading cause of mortality. Among several metabolic complications post-transplantation, hypertension is one of the common risk factors for CVD. In addition to cardiometabolic alteration post-transplant, there is often observed gut microbial dysbiosis, marked by a decrease in microbial diversity and an increase in the relative abundance of Proteobacteria compared to individuals in a healthy state. Different dietary patterns can lead to distinct gut microbiota compositions. Diets rich in plant-based foods, whole grains, fruits, and vegetables tend to promote a more diverse and beneficial gut microbiota characterized by a higher abundance of fiber-degrading bacteria. On the other hand, diets high in saturated fats, refined sugars, and processed foods have been associated with dysbiosis, characterized by a reduction in beneficial bacteria and an overgrowth of potentially harmful microbes. While there is data in the normal population suggesting that a healthy diet can alter gut microbiota composition, the impact of a plant-based diet on gut microbiota-associated hypertension in kidney transplant recipients remains understudied. To address this gap, the investigators propose a single-center, single-blinded, 1:1 parallel randomized controlled trial to examine the effect of consuming a plant-based diet (intervention group) for 12 weeks on the change in blood pressure, gut microbiota, and patient report outcomes compared to the habitual diet (control group) in kidney transplant recipients with stable kidney allograft function at least 6 months post-transplantation. The investigators hypothesize that the adoption of a plant-based diet decreases in blood pressure, induces significant changes in gut microbiota composition and does not change in QoL.

Kidney transplantation is the best therapeutic option for patients with advanced CKD and ESKD. It significantly improves quality of life and survival. However, kidney transplant recipients remain facing higher mortality compared to the general population. Similar to the non-transplant population, cardiovascular disease (CVD) is the most common cause of mortality in kidney transplant recipients and hypertension is one of the most common risk factors for CVD. While a plant-based diet is associated with improved blood pressure control, there is a lack of evidence of the benefit of a plant-based diet in kidney transplant recipients. Recently, the gut microbiota has emerged, and the impact appears to be bidirectional. Gut microbiota participates in various effects in the human body such as the synthesis of vitamins, production of short-chain fatty acids, degradation of plant polysaccharides, and immune system development. In CKD, there is alteration in gut microbiota most notably as decrease in the Lactobacillaceae and Prevotellaceae families. After successful kidney transplantation, gut microbial dysbiosis has also been observed and typically characterized by a decrease in microbial diversity and an increase in the relative prevalence of Proteobacteria in comparison to individuals with normal health. Evidence has demonstrated the association of gut microbiota on kidney transplant outcomes such as hypertension, allograft rejection, immunosuppressant metabolism, and post-transplant infection. Therefore, dietary intervention is one of the non-pharmacologic options that can modify and change gut microbiota. Several types of plant-based diets are associated with beneficial effects on kidney transplant outcomes. For instance, Mediterranean diet is associated with a lower incidence of metabolic syndrome. Dietary Approaches to Stop Hypertension (DASH) diet is associated with a lower risk of kidney allograft function decline and all-cause mortality. Studies have shown the interaction among plant-based dietary consumption, gut microbiota composition, and blood pressure. Although these dietary patterns-related clinical outcomes are associated with improved gut microbiota in kidney transplant recipients, there is a lack of data about the association between consuming plant-based diet, change in gut microbiota, and blood pressure control in kidney transplant recipients. Therefore, the investigators hypothesize that plant-based diet consumption improves blood pressure control and gut microbiota; while, does not decrease the quality of life in kidney transplant recipients