Paolo Sassu
Overview
Explore the profile of Paolo Sassu including associated specialties, affiliations and a list of published articles.
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Articles
32
Citations
190
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0
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Recent Articles
1.
Mori F, Menichini G, Rizzo F, Sassu P, Innocenti M
Handchir Mikrochir Plast Chir
. 2024 Apr;
56(2):e1.
PMID: 38670087
No abstract available.
2.
Mori F, Menichini G, Rizzo F, Sassu P, Innocenti M
Handchir Mikrochir Plast Chir
. 2024 Apr;
56(2):135-140.
PMID: 38670086
Background: The evolution of microsurgery has relied on advancements in operating microscopes and surgical instruments. Pioneering advancements, however, especially within the domain of "super-microsurgery", challenge the limits of human dexterity...
3.
Pettersen E, Sassu P, Pedrini F, Granberg H, Reinholdt C, Breyer J, et al.
J Vis Exp
. 2024 Apr;
(205).
PMID: 38557950
Surgical procedures, including nerve reconstruction and end-organ muscle reinnervation, have become more prominent in the prosthetic field over the past decade. Primarily developed to increase the functionality of prosthetic limbs,...
4.
Pettersen E, Sassu P, Pedrini F, Granberg H, Reinholdt C, Breyer J, et al.
J Vis Exp
. 2024 Mar;
(205).
PMID: 38526122
Over the past decade, the field of prosthetics has witnessed significant progress, particularly in the development of surgical techniques to enhance the functionality of prosthetic limbs. Notably, novel surgical interventions...
5.
Gstoettner C, Laengle G, Harnoncourt L, Sassu P, Aszmann O
J Hand Surg Eur Vol
. 2024 Feb;
49(6):783-791.
PMID: 38366374
Selective nerve transfers are used in the setting of upper limb amputation to improve myoelectric prosthesis control. This surgical concept is referred to as targeted muscle reinnervation (TMR) and describes...
6.
Earley E, Zbinden J, Munoz-Novoa M, Just F, Vasan C, Holtz A, et al.
IEEE Trans Neural Syst Rehabil Eng
. 2024 Feb;
32:1013-1022.
PMID: 38363669
Highly impaired individuals stand to benefit greatly from cutting-edge bionic technology, however concurrent functional deficits may complicate the adaptation of such technology. Here, we present a case in which a...
7.
Ortiz-Catalan M, Zbinden J, Millenaar J, DAccolti D, Controzzi M, Clemente F, et al.
Sci Robot
. 2023 Oct;
8(83):eadf7360.
PMID: 37820004
Restoration of sensorimotor function after amputation has remained challenging because of the lack of human-machine interfaces that provide reliable control, feedback, and attachment. Here, we present the clinical implementation of...
8.
Pettersen E, Sassu P, Reinholdt C, Dahm P, Rolfson O, Bjorkman A, et al.
Trials
. 2023 Oct;
24(1):654.
PMID: 37814331
No abstract available.
9.
Zbinden J, Sassu P, Mastinu E, Earley E, Munoz-Novoa M, Branemark R, et al.
Sci Transl Med
. 2023 Jul;
15(704):eabq3665.
PMID: 37437016
Remnant muscles in the residual limb after amputation are the most common source of control signals for prosthetic hands, because myoelectric signals can be generated by the user at will....
10.
Pettersen E, Sassu P, Reinholdt C, Dahm P, Rolfson O, Bjorkman A, et al.
Trials
. 2023 May;
24(1):304.
PMID: 37131180
Background: Painful conditions such as residual limb pain (RLP) and phantom limb pain (PLP) can manifest after amputation. The mechanisms underlying such postamputation pains are diverse and should be addressed...