Acute methionine loading does not alter arterial stiffness in humans.

Hyperhomocystinemia is a risk factor for cardiovascular disease, and acute elevation of plasma homocysteine after methionine loading impairs endothelial function in healthy subjects. Interestingly, pretreatment with vitamin C can ameliorate this effect. We have already shown that acute oral vitamin C administration reduces arterial stiffness in healthy subjects, and the aim of the present study was to investigate the effect of methionine loading on arterial stiffness with and without concomitant vitamin C using the noninvasive technique of pulse wave analysis. Eight healthy male subjects (mean age, 29 years; range, 20-42 years) were studied on three occasions at weekly intervals. In a double-blind, double-dummy, randomized order they received orally either 100 mg/kg methionine, 100 mg/kg methionine plus 2 g of vitamin C, or matching placebos. Peripheral and central blood pressure, heart rate, cardiac index, arterial stiffness, and plasma homocysteine levels were assessed at baseline and 6 hours after dosing. Compared with placebo, there was no significant change in any of the hemodynamic parameters, including arterial stiffness, after oral methionine, although plasma homocysteine did increase from 11.5 +/- 1.6 to 28.7 +/- 4.4 microM (mean +/- SEM; p < 0.001). Combined methionine and vitamin C led to a similar increase in plasma homocysteine but significantly reduced augmentation index by 10.5 +/- 3.2% (p = 0.02). Acute hyperhomocystinemia does not significantly alter arterial stiffness, as assessed by pulse wave analysis, whereas a combination of methionine and vitamin C leads to a similar reduction in augmentation index to that previously described after vitamin C alone. These data reinforce evidence that vitamin C reduces arterial stiffness but do not indicate any important interaction with oral methionine.

Increased augmentation index and systolic stress in type 1 diabetes mellitus.

Type 1 diabetes mellitus is associated with endothelial dysfunction and increased arterial stiffness, both of which may contribute to the excess cardiovascular mortality in such patients. Arterial stiffening increases pulse wave velocity and wave reflection, which augments central systolic pressure and stress. Using the non-invasive technique of pulse wave analysis, we investigated aortic augmentation and central pressure in 35 patients with type 1 diabetes and 35 matched controls. Peripheral pulse waveforms were recorded from the radial artery. Central aortic waveforms were then generated, and augmentation index (AIx), ascending aortic pressure and tension time index (TTI), a measure of systolic load, were calculated. Peripheral and central blood pressure did not differ between the two groups. AIx was significantly elevated in the diabetic patients compared with controls (7.1+/-1.6% vs. 0.4+/-2.0%; p=0.01), as was the TTI (2307+/-51 mmHg x s x min(-1) vs. 2010+/-61 mmHg. s x min(-1); p<0.001). Estimated pulse wave velocity was also higher in the diabetic group. Type 1 diabetes is associated with an increased AIx and rate of wave travel, indicating enhanced wave reflection and increased systemic arterial stiffness, and elevation of the TTI. Such haemodynamic effects may contribute to the increased left ventricular mass and risk of cardiovascular disease associated with type 1 diabetes mellitus.