Previous studies have reported that muscle vibration could induce a rapid plasticity of motor cortex and increase the corticomotor excitability. However, less has been addressed on how long the duration of prolong muscle vibration would induce corticomotor modulations and muscle selectivity after vibration. To examine the effect of vibration duration on corticomotor excitability and muscle selectivity of hand muscle, a small amplitude muscle vibration was applied to a hand intrinsic muscle, abductor pollicis brevis (APB), of thirteen younger healthy subjects (24.6 ± 4.19 yrs; six females) and nine older healthy subjects (61.8 ± 12.9 yrs; six females) for five, ten and 15 minutes, respectively. Transcranial magnetic stimulation (TMS) was utilized to quantify motor-evoked potentials (MEPs) in the rested APB, and an index of selective activation (ISA) in APB muscle was calculated before and after each muscle vibration condition. In the younger healthy subjects, different muscle vibration duration induced different effects on MEP and ISA changes (p<0.05). MEPs increased after the 5-minute vibration but decreased after the 15-minute vibration as compared with before vibration (p<0.05). In addition, ISA was significantly increased after 5-minute vibration as compared with before vibration. Moreover, the relationship between vibration-modulated MEP and ISA changes could be represented as a second-order polynomial (p<0.05) for the 13 healthy young subjects. However, the relationship was different between two genders. For the female subjects, the relationship was better explained by a linear function (p<0.05); for the males, the relationship was better fitted with a second-order polynomial (p>0.05). For the older healthy subjects, different muscle vibration duration did not induce any significant changes in MEP or ISA. We conclude that different muscle vibration duration would induce different effects in motor pathway excitability and the ability to control finger muscle in different age and genders.