Although the trend of technology scaling is sought to realize higher performance computer systems, it also results in Integrated Circuits (ICs) suffering from increasing Process, Voltage, and Temperature (PVT) variations and adverse aging effects. In most cases, these reliability threats manifest themselves as timing errors on critical speed-paths of the circuit, if a large design guardband is not reserved. In this work, we propose the Reactive Rejuvenation (RR) architectural approach consisting of detection and recovery phases to mitigate circuit from BTI-induced aging. The BTI impact on the critical and near critical paths performance is continuously examined through a lightweight logic circuit which asserts an error signal in the case of any timing violation in those paths. By utilizing timing violation occurrence in the system, the timing-sensitive portion of the circuit is recovered from BTI through switching computations to redundant aging-critical voltage domain. The proposed technique achieves aging mitigation and reduced energy consumption as compared to a baseline circuit. Thus, significant voltage guardbands to meet the desired timing specification are avoided.