•In West Africans with T2D, neuropathy was the commonest microvascular complication.•Hypertension was independently associated with neuropathy and nephropathy in T2D.•Increasing systolic BP was ...independently associated with nephropathy in T2D.•Increasing diastolic BP was independently associated with nephropathy in T2D.•Systolic/diastolic BP was not independently associated with neuropathy/retinopathy.
In type 2 diabetes mellitus (T2D), cardiovascular risk factors including glycemic control differentially affect various microcirculatory beds. To date, studies comparing the impact of blood pressure (BP) on various microvascular beds in T2D are limited. We assessed the associations of BP and its control with neural, renal, and retinal microvascular dysfunction.
This was a cross-sectional study among 403 adults with T2D. Microvascular dysfunction was based on nephropathy (albumin-creatinine ratio ≥ 30 mg/g), neuropathy (vibration perception threshold ≥ 25 V and/or Diabetic Neuropathy Symptom score > 1), and retinopathy (based on retinal photography). Logistic regression was used to examine the associations of hypertension, systolic BP, and diastolic BP with microvascular dysfunction with adjustments for age, sex, diabetes duration, smoking pack years, HbA1c concentration, total cholesterol concentration, and BMI.
The mean age (± SD), proportion of females, and proportion of hypertensives were 56.35 (± 9.91) years, 75.7%, and 49.1%, respectively. In a fully adjusted model, hypertension was significantly associated with neuropathy odds ratio 3.44, 95% confidence interval 1.96–6.04, P < 0.001 and nephropathy 2.05 (1.09–3.85), 0.026 but not for retinopathy 0.98 (0.42–2.31), 0.970. Increasing Z-score systolic BP was significantly associated with nephropathy 1.43 (1.05–1.97), 0.025 but not for neuropathy 1.28 (0.98–1.67), 0.075 or retinopathy 1.27 (0.84–1.91), 0.261. Increasing Z-score diastolic BP was significantly associated with nephropathy 1.81 (1.32 – 2.49), < 0.001 but not retinopathy 1.38 (0.92–2.05), 0.120 or neuropathy 0.86 (0.67–1.10), 0.230.
Our study shows varying strengths of associations of hypertension, systolic BP, and diastolic BP with microvascular dysfunction in different microcirculatory beds. Hypertension prevention and/or control may be valuable in the prevention/treatment of microvascular disease, especially nephropathy, and neuropathy.
Physical exercise aids glycemic control and the prevention of diabetes-related complications. However, exercise beyond an individual's pulmonary functional capacity may be detrimental. To date, ...little is known about the relationship between pulmonary function and exercise capacity in people with type 2 diabetes (T2D). We investigated the relationship between pulmonary function and exercise capacity in T2D.
Spirometry and 6-min walk test (6MWT) were conducted for 263 systematically sampled adults with T2D without primary heart/lung disease. The primary measure of exercise capacity was the 6-min walk distance (6MWD); impaired exercise capacity was defined as 6MWD<400 m. Logistic regression analyses were used to assess the associations between spirometric measures and exercise capacity with adjustments for age, sex, height, body mass index, diabetes duration, glycated hemoglobin concentration, smoking, suboptimum blood pressure control, and total cholesterol concentration.
Compared with individuals with normal spirometry, those with pulmonary restriction/obstruction had significantly lower 6MWD (404.67 m vs. 451.70),p < 0.001). The proportion of individuals with impaired exercise capacity was higher in individuals with impaired pulmonary function compared with those with normal pulmonary function (39.8% vs. 20.7%,p = 0.001). In the unadjusted models, decreasing Z-score FEV1 odds ratio 1.40, 95% confidence interval (1.07–1.83),p = 0.013 and Z-score FVC 1.37 (1.06–1.76),0.016, but not Z-score FEV1/FVC ratio 1.00 (0.78–1.27),0.972 were significantly associated with impaired exercise capacity. In the fully adjusted model, the strength of association remained statistically significant for Z-score FEV1 1.60 (1.06–2.41),0.025 but not Z-score FVC 1.48 (0.98–2.23),0.065.
Our study shows inverse associations between FEV1 and impaired exercise capacity in T2D, Future research could characterize optimal exercise levels based on a patient's FEV1.
•Impaired exercise capacity was commoner in patients with type 2 diabetes with lung dysfunction than without lung dysfunction.•Lower forced expiratory volume in 1 s was positively associated with impaired exercise capacity.•The conventional cardiovascular and respiratory risk factors did not explain the observed associations.
