Raffaele Molino-Lova scite author profile

The evolution to bipedalism forced humans to develop suitable strategies for dynamically controlling their balance, ensuring stability, and preventing falling. The natural aging process and traumatic events such as lower-limb loss can alter the human ability to control stability significantly increasing the risk of fall and reducing the overall autonomy. Accordingly, there is an urgent need, from both end-users and society, for novel solutions that can counteract the lack of balance, thus preventing falls among older and fragile citizens. In this study, we show a novel ecological approach relying on a wearable robotic device (the Active Pelvis Orthosis, APO) aimed at facilitating balance recovery after unexpected slippages. Specifically, if the APO detects signs of balance loss, then it supplies counteracting torques at the hips to assist balance recovery. Experimental tests conducted on eight elderly persons and two transfemoral amputees revealed that stability against falls improved due to the “assisting when needed” behavior of the APO. Interestingly, our approach required a very limited personalization for each subject, and this makes it promising for real-life applications. Our findings demonstrate the potential of closed-loop controlled wearable robots to assist elderly and disabled subjects and to improve their quality of life.

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Spinal manipulation compared with back school and with individually delivered physiotherapy for the treatment of chronic low back pain: a randomized trial with one-year follow-up

Cecchi

Molino-Lova

Chiti

et al. 2010

Clin Rehabil

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Higher circulating levels of uric acid are prospectively associated with better muscle function in older persons

Macchi

Molino-Lova

Polcaro

et al. 2008

Mechanisms of Ageing and Development

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Background-Previous studies have shown that oxidative protein damage is independently associated with low grip strength and that dietary intake and circulating levels of anti-oxidant vitamins are positive predictors of muscle strength among older persons. Since uric acid (UA), has strong anti-oxidant properties, we tested the hypothesis that UA levels is cross-sectionally associated with muscle strength and protective against the decline of strength over the aging process.

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One-Year Adherence to Exercise in Elderly Patients Receiving Postacute Inpatient Rehabilitation After Cardiac Surgery

Macchi

Polcaro

Cecchi

et al. 2009

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