Dual-energy X-ray absorptiometry (DEXA) is a rapid and precise technique for the assessment of bone mineralization in children. Interpretation of the results in growing children is complex as results are influenced by age, body size (height and weight) and puberty. Conventionally, bone mineral data derived from DEXA have been presented as an areal density [BMD; bone mineral content (BMC, g)/projected bone area (BA, cm2)], yet this fails to account for changes in BMC that result from changes in age, body size or pubertal development. Measurement of BMC and BA of the whole body, lumbar spine and left hip were made in 58 healthy boys and girls using DEXA. The relationship between BMC and BA was curvilinear, with the best fit being that of a power model (BMD = BMC/BAlambda, where lambda is the exponent to which BA is raised in order to remove its influence on BMC). The value of lambda changed when measures of body size and puberty were taken into account (e.g. for lumbar spine from 1.66 to 1.49). Predictive formulae for BMC were produced using regression analysis and based on the variables of age, body size and pubertal development. This provides a method for interpreting the measured BMC which is independent of such variables and a constant reference range for children aged 6-18 y.
AimsMetformin is associated with lowering of vitamin B12 levels. We hypothesise that holotranscobalamin (holoTC) and methylmalonic acid (MMA) are more sensitive indicators of B12 deficiency in patients receiving metformin therapy, and that these correlate with declining peripheral neurological function.
MethodsPatients with type 2 diabetes were recruited and divided into those receiving metformin for greater than 6 months and a non-metformin group. Baseline characteristics were measured in both groups including vitamin B12, holoTC and MMA concentrations. Neurological function was assessed using neurothesiometry, monofilament, Neuropathy Total Symptom Score-6 questionnaire and the Self-administered Leeds Assessment of Neuropathic Symptoms and Signs questionnaire.
ResultsIn total, 202 patients were recruited: 152 in the metformin group and 50 in the non-metformin group. Vitamin B12 levels were lower in the metformin group (219.1±105.4 ng/L, 281.4±95.1 ng/L, p<0.001). HoloTC was significantly lower in the metformin group (54.8±30.5 pmol/L, 70.1±26.0 pmol/L, p=0.002). No significant difference in serum MMA was observed between the two groups (0.40±0.26 μmol/L, 0.35±0.22, p=0.23). No significant difference in neurological function was observed between the groups.
ConclusionAlthough metformin therapy is associated with lower vitamin B12 status there does not appear to be any significant effect on peripheral neuropathy in those receiving metformin. We do not recommend changing current practice to routinely monitor or replace patients receiving metformin with vitamin B12 unless clinically indicated. Br J Diabetes Vasc Dis 2012;12:189-193.
Background Many maternal serum markers show concentration changes in Down's syndrome pregnancies but the magnitude of the change in median marker levels varies with gestation. To date these changes have not been accurately specified.
Systolic blood pressure was higher in subjects born preterm than term, but there were no differences in endothelial dysfunction or arterial stiffness. The systematic review revealed no clear association between prematurity and vascular function.
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