Abstract
Arthroplasty is a surgical procedure to restore the function of the joint of patient suffering from knee osteoarthritis. However, postoperative functional deficits are reported even after a rehabilitation program. In order to determine the origin of functional deficits of patient suffering from knee osteoarthritis and total knee arthroplasty, we developed a rodent model including a chemically-induced-osteoarthritis and designed a knee prosthesis (Ti6Al4V/PEEK) biomechanically and anatomically adapted to rat knee joint. Dynamic Weight-Bearing, gait kinematics, H-reflex from vastus medialis muscle and activities from metabosensitive III and IV afferent fibers in femoral nerve were assessed at 1 and 3 months post-surgery. Results indicate that knee osteoarthritis altered considerably the responses of afferent fibers to their known activators (i.e., lactic acid and potassium chloride) and consequently their ability to modulate the spinal sensorimotor loop, although, paradoxically, motor deficits seemed relatively light. On the contrary, results indicate that, after the total knee arthroplasty, the afferent responses and the sensorimotor function were slightly altered but that motor deficits were more severe. We conclude that neural changes attested by the recovery of the metabosensitive afferent activity and the sensorimotor loop were induced when a total knee replacement was performed and that these changes may disrupt or delay the locomotor recovery.
Highlights
Arthroplasty is a surgical procedure to restore the function of the joint of patient suffering from knee osteoarthritis
As suggested in the literature, it seems relevant to explore the neuromuscular adaptations from patient suffering from knee osteoarthritis and total knee arthroplasty (TKA) in order to more efficiently target the origin of functional deficits and improve long-term outcomes[9,22]
In order to determine the origin of the functional deficits observed after knee osteoarthritis and TKA, we developed a rodent model including a chemically-induced-OA and a knee prosthesis biomechanically and anatomically adapted to rat knee joint
Summary
Arthroplasty is a surgical procedure to restore the function of the joint of patient suffering from knee osteoarthritis. Ability to use appropriate motor strategies decreases and related gait functionality are altered because to a switch to slower and safer patterns[9,18,19,20] Over time, this phenomenon could lead to contralateral knee degradation which cannot sustain higher repeated weight bearing strain, and could result in a second TKA process of the contralateral healthy knee. This phenomenon could lead to contralateral knee degradation which cannot sustain higher repeated weight bearing strain, and could result in a second TKA process of the contralateral healthy knee This adaptive strategy is presumed to increase joint stability during prolonged activity[17] and reflects the role of sensorimotor loop in overcoming task constraints despite heavy neuromuscular deficits. The study was completed by a histological analysis of the joint
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