Abstract Title

EFFECTS ANTIOXIDANTS ON CEREBROVASCULAR HEMODYNAMICS DURING MODERATE AND HIGH INTENSITY EXERCISE

Presenter Name

Gilbert Moralez

Abstract

It has been identified that central reactive oxygen species (ROS) scavenge nitric oxide (NO) and increase central sympathetic nerve activity (SNA) outflow. During dynamic exercise increases in ROS have been measured across the brain. PURPOSE: to test the hypothesis that during dynamic leg cycling exercise, antioxidants would increase middle cerebral artery blood velocity (MCAv) and cerebrovascular conductance (CVCi). METHODS: Five healthy subjects performed back supported semi-recumbent dynamic leg cycling with antioxidant cocktail (AxT) and without AxT (placebo – Pl). Arterial pressures (AP) and MCAv were measured continuously using Finometer and Doppler ultrasound technologies, respectively, during moderate intensity dynamic leg exercise at heart rates (HR) of 120 bpm (e120) and heavy intensity at HR of 150 bpm (e150). RESULTS: No differences in AP were observed between Pl and Axt at e120 and e150 (P≥0.50). MCAv during AxT at e120 and e150 was increased above Pl at rest (P=0.03) and during exercise (P<0.05). Additionally, the calculated CVCi was significantly greater at rest, e120 and e150 between CT and Pl (P=0.05). CONCLUSIONS: From these data we conclude that Axt scavenged exercise induced central ROS resulting in increased central/peripheral NO induced cerebrovascular vasodilation during exercise.

Purpose (a):

To test the hypothesis that during dynamic leg cycling exercise, antioxidants would increase middle cerebral artery blood velocity (MCAv) and cerebrovascular conductance (CVCi).

Methods (b):

Five healthy subjects performed back supported semi-recumbent dynamic leg cycling with antioxidant cocktail (AxT) and without AxT (placebo – Pl). Arterial pressures (AP) and MCAv were measured continuously during moderate intensity dynamic leg exercise at heart rates (HR) of 120 bpm (e120) and heavy intensity at HR of 150 bpm (e150).

Results (c):

No differences in AP were observed between Pl and Axt at e120 and e150 (P≥0.50). MCAv during AxT at e120 and e150 was increased above Pl at rest (P=0.03) and during exercise (P<0.05). Additionally, the calculated CVCi was significantly greater at rest, e120 and e150 between CT and Pl (P=0.05).

Conclusions (d):

From these data we conclude that Axt scavenged exercise induced central ROS resulting in increased central/peripheral NO induced cerebrovascular vasodilation during exercise.

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EFFECTS ANTIOXIDANTS ON CEREBROVASCULAR HEMODYNAMICS DURING MODERATE AND HIGH INTENSITY EXERCISE

It has been identified that central reactive oxygen species (ROS) scavenge nitric oxide (NO) and increase central sympathetic nerve activity (SNA) outflow. During dynamic exercise increases in ROS have been measured across the brain. PURPOSE: to test the hypothesis that during dynamic leg cycling exercise, antioxidants would increase middle cerebral artery blood velocity (MCAv) and cerebrovascular conductance (CVCi). METHODS: Five healthy subjects performed back supported semi-recumbent dynamic leg cycling with antioxidant cocktail (AxT) and without AxT (placebo – Pl). Arterial pressures (AP) and MCAv were measured continuously using Finometer and Doppler ultrasound technologies, respectively, during moderate intensity dynamic leg exercise at heart rates (HR) of 120 bpm (e120) and heavy intensity at HR of 150 bpm (e150). RESULTS: No differences in AP were observed between Pl and Axt at e120 and e150 (P≥0.50). MCAv during AxT at e120 and e150 was increased above Pl at rest (P=0.03) and during exercise (P<0.05). Additionally, the calculated CVCi was significantly greater at rest, e120 and e150 between CT and Pl (P=0.05). CONCLUSIONS: From these data we conclude that Axt scavenged exercise induced central ROS resulting in increased central/peripheral NO induced cerebrovascular vasodilation during exercise.