Effects of a Resistance Training Protocol on Physical Performance, Body Composition, Bone Metabolism, and Systemic Homeostasis in Patients Diagnosed with Parkinson's Disease: A Pilot Study

Parkinson's disease (PD) is a neurodegenerative disorder characterized by motor impairments and it is correlated with loss of bone mineral density. This study aimed to analyze the effects of resistance training on bone metabolism, systemic homeostasis, body composition, and physical performance in people with PD. Thirteen subjects (age 64.83 ± 5.70) with PD diagnosis were recruited. Participants performed neuromuscular tests, body composition assessment, and blood sample analysis at baseline, and after an 11 weeks-training period. Each training session lasted 90 min, three times a week. The participants had significant improvements in the timed up and go ( < 0.01), sit to stand ( < 0.01), dominant peg-board ( < 0.05), dominant foot-reaction time ( < 0.01), and functional reach tests ( < 0.05). They showed better pressure foot distributions in the left forefoot ( < 0.05) and hindfoot ( < 0.05) and increased cervical right lateral bending angle ( < 0.05). The protocol affects bone metabolism markers osteocalcin ( < 0.05), calcium ( < 0.01), PTH ( < 0.01), the C-terminal telopeptide (CTX) ( < 0.01), and vitamin D ( < 0.05). Eleven weeks of resistance training improved manual dexterity, static and dynamic balance, reaction time, cervical ROM, and reduced bone loss in people with PD.