ObjectiveWe sought to assess the current magnitude of the opportunity for secondary stroke prevention with B vitamins.DesignA cohort study.SettingThe Urgent TIA (Transient Ischaemic Attack) Clinic at an academic medical centre.Main outcome measuresWe assessed the prevalence of biochemical vitamin B12 deficiency (B12Def, serum B12 <156 pmol/L), hyperhomocysteinaemia (HHcy; plasma total homocysteine [tHcy] >14 µmol/L) and metabolic B12 deficiency (MetB12Def, serum B12 <258 pmol/L and HHcy) between 2002 and 2017, by age group and by stroke subtype.ResultsData were available in 4055 patients. B12Def was present in 8.2% of patients overall; it declined from 10.9% of patients referred before 2009 to 5.4% thereafter (p=0.0001). MetB12Def was present in 10.6% of patients, and HHcy was present in 19.1% of patients. Among the patients aged ≥80 years, MetB12Def was present in 18.1% and HHcy in 35%. Among the 3410 patients whose stroke subtype was determined, HHcy was present in 18.4% of patients: 23.3% of large artery atherosclerosis, 18.1% of cardioembolic, 16.3% of small vessel disease, 10.8% of other unusual aetiologies and 13.6% of undetermined subtypes (p=0.0001).ConclusionsDespite a decline in our referral area since 2009, B12Def, MetB12Def and HHcy remain common in patients with stroke/TIA. Because these conditions are easily treated and have serious consequences, all patients with stroke/TIA should have their serum B12 and tHcy measured.
Background There are clearly sex differences in cardiovascular disease. On average, women experience cardiovascular events at an older age, and at any age, women, on average, have less atherosclerotic plaque than men. The role of the human intestinal microbiome in health and disease has garnered significant interest in recent years, and there have been indications of sex differences in the intestinal microbiome. The purpose of this narrative review was to evaluate evidence of sex differences in the interaction between the intestinal microbiome and risk factors for cardiovascular disease. Several studies have demonstrated changes in microbiota composition and metabolic profile as a function of diet, sex hormones, and host metabolism, among other factors. This dysbiosis has consequently been associated with several disease states, including atherosclerosis and cardiovascular disease. In this respect, there is a growing appreciation for the microbiota and its secreted metabolites, including trimethylamine N-oxide (TMAO), derived from intestinal bacterial metabolic pathways involving dietary choline and l-carnitine, as novel risk factors for atherosclerosis and cardiovascular outcomes. Although traditional risk factors for vascular disease have been studied broadly over the years, there exists little research to evaluate interactions of cardiovascular risk factors with a potentially sexually dimorphic intestinal microbiome. This review evaluates the role of sex differences in the composition of the intestinal microbiome, including effects of sex hormones on the microbiome, and the effects of these sex differences on cardiovascular risk factors. Diabetes and obesity exhibit sexual dimorphism, while the data concerning hypertension and dyslipidemia remain inconclusive based on the available literature. In addition, an increased proportion of gram-negative species capable of driving metabolic endotoxemia and a low-grade inflammatory response, as well as decreased numbers of butyrate-producing species, have been observed in relation to traditional vascular risk factors. In this context, circulating SCFAs and TMAO are recognized as key metabolites of the intestinal microbiome that can be readily measured in the blood for the evaluation of metabolic profile. Conclusion Novel strategies focused on resolving intestinal dysbiosis as a means to slow progression of atherosclerosis and reduce the risk of cardiovascular disease should be evaluated through a lens of sex differences.
Background: Sodium-glucose co-transporter 2 (SGLT2) inhibitors have been demonstrated to promote reverse cardiac remodeling in people with diabetes or heart failure. While it has been theorized that SGLT2 inhibitors might afford similar benefits in people without diabetes or prevalent heart failure, this has not been evaluated. We sought to determine if SGLT2 inhibition with empagliflozin leads to a decrease in left ventricular (LV) mass in people without type 2 diabetes or significant heart failure. Methods: Between April 2021 and January 2022, 169 individuals, 40-80 years of age, without diabetes but with risk factors for adverse cardiac remodeling were randomized to empagliflozin (10 mg/day; n=85) or placebo (n=84) for 6 months. The primary outcome was the 6-month change in LV mass indexed (LVMi) to baseline body surface area (BSA) as measured by cardiac magnetic resonance imaging. Other measures included 6-month changes in LV end-diastolic and -systolic volumes indexed to baseline BSA and LV ejection fraction. Results: Among the 169 participants (141 men [83%], mean age 59.3 ± 10.5 years), baseline LVMi was 63.2 ± 17.9 g/m 2 and 63.8 ± 14.0 g/m 2 for the empagliflozin- and placebo-assigned groups, respectively. The difference (95% CI) in LVMi at 6 months in the empagliflozin group vs. placebo group adjusted for baseline LVMi was -0.30 g/m2 (-2.1,1.5 g/m 2 ) (P=0.74). Median baseline (IQR) NT-proBNP was 51 pg/mL (20, 105 pg/mL) and 55 pg/mL (21, 132 pg/mL) for the empagliflozin- and placebo-assigned groups, respectively. The 6-month treatment effect of empagliflozin vs. placebo (95% CI) on blood pressure and NT-proBNP (adjusted for baseline values) were -1.3 mmHg (-5.2, 2.6 mmHg) (P=0.52), 0.69 mmHg (-1.9, 3.3 mmHg) (P=0.60) and -6.1 pg/mL (-37.0, 24.8 pg/mL) (P=0.70) for systolic blood pressure, diastolic blood pressure and NT-proBNP, respectively. No clinically meaningful between group differences in LV volumes (diastolic and systolic indexed to baseline BSA) or ejection fraction were observed. No difference in adverse events was noted between the groups. Conclusions: Among people with neither diabetes nor significant heart failure but with risk factors for adverse cardiac remodeling, SGLT2 inhibition with empagliflozin did not result in a meaningful reduction in LVMi after 6 months. Clinical Trial Registration: https://clinicaltrials.gov/ct2/show/NCT04461041clinicaltrials.gov Identifier: NCT04461041
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