8 research outputs found
Changing hormonal levels during menstrual cycle.
<p>P4 and E2 levels were significantly higher at the mid-luteal phase compared to the follicular phase. *: p < 0.05.</p
Sex differences in GPT scores.
<p>GPT score was significantly lower at the 3rd Ax (mid-luteal phase) compared to the 2nd Ax (ovulation phase) in female participants. GPT scores at the three assessment sessions remained unchanged for men. *: p < 0.05. GPT: Grooved Pegboard Test; Ax: assessment.</p
The effects of hormonal changes in cortical excitability.
<p>A) ICI changes during three Ax sessions in men and women. B) ICF changes during three Ax sessions in men and women. 1st, 2nd and 3rd Ax for men is equivalent to follicular, ovulation and mid-luteal phases respectively for female participants. *: p < 0.05. MEP: Motor evoked potential; ICI: intracortical inhibition; ICF: intracortical facilitation; Ax: assessment.</p
The descriptive data for hormonal levels in female group during menstrual cycle.
<p>pmol/L: picomoles per liter</p><p>The descriptive data for hormonal levels in female group during menstrual cycle.</p
Raw data from a representative subject demonstrating the SEP components used for analysis of conduction and processing of the afferent volley at the primary sensory cortex, brainstem and the peripheral volley recorded at Erb’s point.
<p>The dotted line represents the time of stimulation.</p
Group data (mean ± standard error) of amplitudes motor evoked potentials (MEP) before (black bars) and after (grey bars) “Motor Movement” and “Sensory 100 Hz” peripheral electrical stimulation (PES) to right abductor pollicis brevis muscle (APB).
<p>MEP amplitude increased following Motor Movement PES and reduced following Sensory 100 Hz PES. * p<0.05.</p
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Linear regression between cortical SEP components (N<sub>20</sub>-P<sub>25</sub> and P<sub>25</sub>-N<sub>33</sub>) and corticomotor excitability (MEP amplitude).
<p>Note the significant positive correlation (r = 0.71, p<0.001) between these parameters.</p