Human cells possess inherent biological periodicity, and energy accumulation in the body follows cyclical patterns. Like all natural phenomena with rhythmic cycles, cellular responses to stimuli, energy absorption, and metabolism are not continuous processes, but follow internal temporal characteristics with specific time-based periodicities.
When appropriate stimulation is applied to the body, it produces stimulation effects that activate cellular activity and promote physiological functions. However, if stimulation becomes too frequent or excessive, exceeding the cellular capacity and response ability, it triggers inhibition effects. This not only fails to maintain positive effects but also reduces biological responses and affects normal cellular physiological reactions.
Cumulative dose directly impacts physiological responses. When cellular biological cycles and energy cycles are ignored, frequent stimulation causes cumulative doses to exceed reasonable ranges, triggering inhibition effects. The progression shows beneficial accumulation transitioning to harmful over-accumulation, with clear threshold effects and dose-response relationships that determine therapeutic outcomes.
Scientific treatment cycle protocols, specifically 10-15 days of stimulation followed by 3-5 days of rest, prevent over-stimulation and reduce inhibition effects while utilizing energy accumulation periodicity. This approach allows each treatment session's effects to stack constructively when properly timed, maintaining sustained stimulation effects and ensuring optimal biological responses compared to continuous treatment protocols.
In conclusion, 650nm laser therapy on the radial artery achieves optimal therapeutic outcomes through a comprehensive understanding of biological principles. By respecting cellular biological rhythms, maintaining the critical balance between stimulation and inhibition effects, carefully controlling cumulative dose accumulation, and following evidence-based scientific treatment protocols, this approach maximizes therapeutic benefits while minimizing adverse effects, ensuring sustained positive biological responses.