Mediterranean Diet and Exercise Associated with Better Gut Health in Older Adults
A new study pubÂlished in The American Journal of Clinical Nutrition found that adherÂing to a low-caloÂrie Mediterranean diet alongÂside physÂiÂcal activÂity yields sigÂnifÂiÂcant carÂdioÂvasÂcuÂlar benÂeÂfits by alterÂing the colon’s bacÂteÂrÂial comÂpoÂsiÂtion and metaboÂlite proÂducÂtion, repÂreÂsentÂing a subÂstanÂtial advanceÂment in underÂstandÂing preÂvenÂtive meaÂsures against carÂdioÂvasÂcuÂlar disÂeases. The research involved 400 parÂticÂiÂpants aged 55 to 75 at high carÂdioÂvasÂcuÂlar risk and showed that the interÂvenÂtion group exhibÂited greater weight loss, improved carÂdioÂvasÂcuÂlar risk facÂtors, and alterÂations in gut bacÂteÂria genÂera linked to bile acid metabÂoÂlism, highÂlightÂing the potenÂtial for perÂsonÂalÂized health recÂomÂmenÂdaÂtions based on indiÂvidÂual microÂbiome proÂfiles for more effecÂtive preÂvenÂtion and manÂageÂment of carÂdiometaÂbolic disÂeases.
A new study pubÂlished in The American Journal of Clinical Nutrition found that adherÂing to a low-caloÂrie Mediterranean diet alongÂside physÂiÂcal activÂity yields sigÂnifÂiÂcant carÂdioÂvasÂcuÂlar benÂeÂfits.
The research sugÂgests these lifestyle changes impact carÂdioÂvasÂcuÂlar health by alterÂing the colon’s bacÂteÂrÂial comÂpoÂsiÂtion and metaboÂlite proÂducÂtion.
The findÂings repÂreÂsent a subÂstanÂtial advanceÂment in underÂstandÂing preÂvenÂtive meaÂsures against carÂdioÂvasÂcuÂlar disÂeases, which are the priÂmary cause of death in develÂoped nations.
See Also:Health NewsThe Mediterranean diet has long been assoÂciÂated with posÂiÂtive gut microbes and metaboÂlites, yet its effect on the fecal metabolome is poorly underÂstood.
The traÂdiÂtional Mediterranean diet involves a high intake of vegÂetaÂbles, fruits, legumes and nuts, modÂerÂate conÂsumpÂtion of fish, low conÂsumpÂtion of meat, modÂerÂate alcoÂhol and extra virÂgin olive oil as the priÂmary fat source.
Greater adherÂence to the Mediterranean diet corÂreÂlates with benÂeÂfiÂcial gut bacÂteÂria and metaboÂlites, attribÂuted to increased fiber-degradÂing species and anti-inflamÂmaÂtory responses.
However, its effects on gut microÂbiota and plasma metabolome are inconÂsisÂtent across studÂies, with unclear impacts on carÂdioÂvasÂcuÂlar disÂease risk facÂtors.
With the latÂest study, researchers aimed to assess the weight-loss impact of a year-long lifestyle interÂvenÂtion based on an energy-reduced Mediterranean diet with physÂiÂcal activÂity (interÂvenÂtion group) comÂpared to an ad libiÂtum Mediterranean diet (conÂtrol group) on fecal metaboÂlites, microÂbiota and their links to carÂdioÂvasÂcuÂlar disÂease risk facÂtors.
The interÂvenÂtion affected four stool metaboÂlites, priÂmarÂily comÂposed of bile acids, ceramides, sphinÂgosines, fatty acids, carÂnitines, nucleotides and purine and Krebs cycle metaboÂlites.
The study involved 400 parÂticÂiÂpants aged 55 to 75 at high carÂdioÂvasÂcuÂlar risk, and data were colÂlected at baseÂline and after a year.
The researchers found that the interÂvenÂtion group exhibÂited greater weight loss and improved carÂdioÂvasÂcuÂlar risk facÂtors comÂpared to the conÂtrol.
These changes were assoÂciÂated with alterÂations in carÂdioÂvasÂcuÂlar disÂease risk facÂtors. Moreover, cerÂtain gut bacÂteÂria genÂera were reduced, and alpha diverÂsity increased in the interÂvenÂtion group.
The study’s results sugÂgested an interÂplay between diet, metaboÂlites and gut microÂbiota. While preÂviÂous studÂies focused on plasma or urine metaboÂlites, few explored the fecal metabolome.
Results from parÂticÂiÂpants with obeÂsity and metaÂbolic synÂdrome indiÂcated reducÂtions in plasma choÂlesÂterol and fecal bile acid (metaboÂlites involved in nutriÂent absorpÂtion) conÂcenÂtraÂtions after the Mediterranean diet interÂvenÂtion.
See Also:Mediterranean Diet and Exercise Improve Working Memory in Young StudentsThe interÂvenÂtion enriched gut bacÂteÂrÂial genÂera linked to bile acid metabÂoÂlism and increased fecal cadavÂerÂine, which is assoÂciÂated with improved insulin senÂsiÂtivÂity.
Participants in the interÂvenÂtion group showed more sigÂnifÂiÂcant reducÂtions in adiÂposÂity (fat tisÂsue accuÂmuÂlaÂtion) and improveÂments in lipid proÂfile and gluÂcose markÂers.
Furthermore, decreases in the abunÂdance of E. halÂlii and Dorea spp. were observed in the interÂvenÂtion group, linked to changes in fecal metaboÂlites and carÂdioÂvasÂcuÂlar risk facÂtors.
E. halÂlii is impliÂcated in gluÂcose metabÂoÂlism and insulin resisÂtance, while Dorea spp. is assoÂciÂated with preÂdiÂaÂbetes and eleÂvated blood gluÂcose levÂels.
The researchers acknowlÂedged that the study had some limÂiÂtaÂtions. The parÂticÂiÂpants were older Mediterranean adults with speÂcific health conÂdiÂtions, so genÂerÂalÂizÂing the results to other popÂuÂlaÂtions may not be approÂpriÂate.
Additionally, the sequencÂing method used in the study limÂits taxÂoÂnomic proÂfilÂing to the genus level, hinÂderÂing difÂferÂenÂtiÂaÂtion between closely related bacÂteÂria and limÂitÂing the abilÂity to infer funcÂtionÂalÂity.
However, the study has notable strengths. Despite the non-repÂreÂsenÂtaÂtive samÂple, the findÂings are relÂeÂvant for a sigÂnifÂiÂcant porÂtion of the global popÂuÂlaÂtion at high risk of carÂdiometaÂbolic disÂeases.
The ranÂdomÂized conÂtrolled design allowed for estabÂlishÂing causalÂity and assessÂing interÂvenÂtion effects, with adjustÂments made for sigÂnifÂiÂcant conÂfounders, reducÂing residÂual conÂfoundÂing. Although the sequencÂing method has limÂiÂtaÂtions, it is suitÂable for anaÂlyzÂing many samÂples.
Beyond indiÂvidÂual health outÂcomes, the researchers said underÂstandÂing the impact of these interÂvenÂtions on the gut microÂbiome sheds light on mechÂaÂnisms underÂlyÂing improved carÂdiometaÂbolic bioÂmarkÂers.
They hope this knowlÂedge will inform tarÂgeted pubÂlic health strateÂgies and perÂsonÂalÂized health recÂomÂmenÂdaÂtions, taiÂlorÂing interÂvenÂtions based on indiÂvidÂual microÂbiome proÂfiles for more effecÂtive preÂvenÂtion and manÂageÂment of carÂdiometaÂbolic disÂeases.
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