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S Micera

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Articles 74
Citations 656
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Recent Articles
11.
Meneghetti N, Dedola F, Gavryusev V, Sancataldo G, Turrini L, De Vito G, et al.
J Neural Eng . 2020 Oct; 17(5):056033. PMID: 33052890
Objective: Ultrasounds (US) use in neural engineering is so far mainly limited to ablation through high intensity focused ultrasound, but interesting preliminary results show that low intensity low frequency ultrasound...
12.
Alibou N, Artoni F, DAnna E, Micera S
Annu Int Conf IEEE Eng Med Biol Soc . 2020 Oct; 2020:3901-3904. PMID: 33018853
The major challenge in upper limbs neuroprosthetic improvement is the implementation of effective sensory feedback. Transcutaneous electrical nerve stimulation (TENS) of the median and ulnar nerves confirmed, with electroencephalographic (EEG)...
13.
Granata G, Valle G, Di Iorio R, Iodice F, Petrini F, Strauss I, et al.
Clin Neurophysiol . 2020 Aug; 131(10):2341-2348. PMID: 32828036
Objective: To study motor cortex plasticity after a period of training with a new prototype of bidirectional hand prosthesis in three left trans-radial amputees, correlating these changes with the modification...
14.
Guaitolini M, Aprigliano F, Mannini A, Monaco V, Micera S, Sabatini A
Annu Int Conf IEEE Eng Med Biol Soc . 2020 Jan; 2019:2443-2446. PMID: 31946392
Unbalancing events during gait can end up in falls and, thus, injury. Detecting events that could bring to fall and consequently activating fall prevention systems before the impact may help...
15.
Aprigliano F, Guaitolini M, Sabatini A, Micera S, Monaco V
Annu Int Conf IEEE Eng Med Biol Soc . 2020 Jan; 2019:2430-2433. PMID: 31946389
This study investigates the performance of an updated version of our pre-impact detection algorithm while parsing out hip kinematics in order to identify unexpected tripping-like perturbations during walking. This approach...
16.
Strauss I, Valle G, Artoni F, Danna E, Granata G, Di Iorio R, et al.
Sci Rep . 2019 Dec; 9(1):19258. PMID: 31848384
Although peripheral nerve stimulation using intraneural electrodes has been shown to be an effective and reliable solution to restore sensory feedback after hand loss, there have been no reports on...
17.
Barra B, Badi M, Perich M, Conti S, Mirrazavi Salehian S, Moreillon F, et al.
J Neural Eng . 2019 Oct; 17(1):016004. PMID: 31597123
Objective: Translational studies on motor control and neurological disorders require detailed monitoring of sensorimotor components of natural limb movements in relevant animal models. However, available experimental tools do not provide...
18.
Risso G, Valle G, Iberite F, Strauss I, Stieglitz T, Controzzi M, et al.
Sci Rep . 2019 May; 9(1):7916. PMID: 31133637
Providing somatosensory feedback to amputees is a long-standing objective in prosthesis research. Recently, implantable neural interfaces have yielded promising results in this direction. There is now considerable evidence that the...
19.
Aprigliano F, Monaco V, Micera S
J Biomech . 2019 Jan; 85:193-197. PMID: 30655080
This study was aimed at investigating the intersegmental coordination of six older adults while managing unexpected slippages delivered during steady walking, and wearing an Active Pelvis Orthosis (APO). The APO...
20.
Valle G, Petrini F, Strauss I, Iberite F, Danna E, Granata G, et al.
Sci Rep . 2018 Nov; 8(1):16666. PMID: 30420739
Recent studies have shown that direct nerve stimulation can be used to provide sensory feedback to hand amputees. The intensity of the elicited sensations can be modulated using the amplitude...