TY - JOUR
T1 - Exploring cognitive reserve’s influence: unveiling the dynamics of digital telerehabilitation in Parkinson’s Disease Resilience
AU - Isernia, Sara
AU - Di Tella, Sonia
AU - Rossetto, Federica
AU - Borgnis, Francesca
AU - Realdon, Olivia
AU - Cabinio, Monia
AU - Pagliari, Chiara
AU - Torchio, Alessandro
AU - Castagna, Anna
AU - Blasi, Valeria
AU - Silveri, Maria Caterina
AU - Baglio, Francesca
PY - 2024
Y1 - 2024
N2 - Telerehabilitation is emerging as a promising digital method for delivering rehabilitation to Parkinson’s Disease (PD) patients, especially in the early stages to promote brain resilience. This study explores how cognitive reserve (CR), the brain’s ability to withstand aging and disease, impacts the effectiveness of telerehabilitation. It specifically examines the influence of lifelong cognitive activities on the relationship between neural reserve and improved functional abilities following rehabilitation. In the study, 42 PD patients underwent a 4-month neuromotor telerehabilitation program. CR proxies were assessed using the Cognitive Reserve Index questionnaire (CRIq), brain changes via 3T-MRI, and functional response through changes in the 6-Minute Walk Distance (6MWD). Participants were divided into responders (n = 23) and non-responders (n = 19) based on their 6MWD improvement. A multiple regression model was run to test significant predictors of 6MWD after treatment in each group. The results revealed a significant correlation between 6MWD and CRIq scores, but only among responders. Notably, the CRIq Leisure-Time sub-index, along with baseline 6MWD, were predictors of post-treatment 6MWD. These findings highlight CR’s role in enhancing the benefits of telerehabilitation on PD patients’ neuromotor functions. Clinically, these results suggest that neurologists and clinicians should consider patients’ lifestyles and cognitive engagement as important factors in predicting and enhancing the outcomes of telerehabilitation. The study underscores the potential of CR as both a predictor and booster of telerehabilitation’s effects, advocating for a personalized approach to PD treatment that takes into account individual CR levels.
AB - Telerehabilitation is emerging as a promising digital method for delivering rehabilitation to Parkinson’s Disease (PD) patients, especially in the early stages to promote brain resilience. This study explores how cognitive reserve (CR), the brain’s ability to withstand aging and disease, impacts the effectiveness of telerehabilitation. It specifically examines the influence of lifelong cognitive activities on the relationship between neural reserve and improved functional abilities following rehabilitation. In the study, 42 PD patients underwent a 4-month neuromotor telerehabilitation program. CR proxies were assessed using the Cognitive Reserve Index questionnaire (CRIq), brain changes via 3T-MRI, and functional response through changes in the 6-Minute Walk Distance (6MWD). Participants were divided into responders (n = 23) and non-responders (n = 19) based on their 6MWD improvement. A multiple regression model was run to test significant predictors of 6MWD after treatment in each group. The results revealed a significant correlation between 6MWD and CRIq scores, but only among responders. Notably, the CRIq Leisure-Time sub-index, along with baseline 6MWD, were predictors of post-treatment 6MWD. These findings highlight CR’s role in enhancing the benefits of telerehabilitation on PD patients’ neuromotor functions. Clinically, these results suggest that neurologists and clinicians should consider patients’ lifestyles and cognitive engagement as important factors in predicting and enhancing the outcomes of telerehabilitation. The study underscores the potential of CR as both a predictor and booster of telerehabilitation’s effects, advocating for a personalized approach to PD treatment that takes into account individual CR levels.
KW - Parkinson's disease
KW - telerehabilitation
KW - Parkinson's disease
KW - telerehabilitation
UR - http://hdl.handle.net/10807/299828
U2 - 10.1038/s41746-024-01113-9
DO - 10.1038/s41746-024-01113-9
M3 - Article
SN - 2398-6352
VL - 7
SP - 1
EP - 7
JO - npj Digital Medicine
JF - npj Digital Medicine
ER -