Litcius/Paper detail

Knee joint pathology and efferent pathway dysfunction: Mapping muscle inhibition from motor cortex to muscle force

David A. Sherman, Justin L. Rush, Neal R. Glaviano, Grant E. Norte

2024Musculoskeletal Science and Practice11 citationsDOIOpen Access PDF

Abstract

Dysfunction in efferent pathways after knee pathology is tied to long-term impairments in quadriceps and hamstrings muscle performance, daily function, and health-related quality of life. Understanding the underlying etiology is crucial for effective treatment and prevention of poor outcomes, such as post-traumatic osteoarthritis or joint replacement. To synthesize recent evidence of efferent pathway dysfunction (i.e., motor cortex, motor units) among individuals with knee pathology. Commentary. We summarize the current literature investigating the motor cortex, corticospinal tract, and motoneuron pool in individuals with three common knee pathologies: anterior cruciate ligament (ACL) injury, anterior knee pain (AKP), and knee osteoarthritis (OA). To offer a complete perspective, we draw from studies applying a range of neuroimaging and neurophysiologic techniques. /findings: Adaptations within the motor cortices, corticospinal tract, and motoneuron pool are present in those with knee pathology and underline impairments in quadriceps and hamstrings muscle function. Each pathology has evidence of altered motor system excitability and reduced volitional muscle activation and force-generating capacity, but few impairments were common across ACL injury, AKP, and OA studies. These findings underscore the central role of the motor cortex and motor unit behavior in the long-term outcomes of individuals with knee pathology. Adaptations in the efferent pathways underlie persistent muscle dysfunction across three common knee pathologies. This review provides an overview of these changes and summarizes key findings from neurophysiology and neuroimaging studies, offering direction for future research and clinical application in the rehabilitation of joint injuries. • Efferent pathway dysfunction leads to long-term muscle and functional impairments. • Motor system changes are common in ACL injury, anterior knee pain, and osteoarthritis. • Altered excitability and muscle activation occur across knee pathologies, but vary. • Motor cortex and unit behavior play key roles in muscle dysfunction after knee injury. • Neuroimaging and neurophysiology provide insights for future research and rehab strategies.

Topics & Concepts

EfferentMedicineNeuroscienceAnatomyPhysical medicine and rehabilitationPathologyPsychologyAfferentTranscranial Magnetic Stimulation StudiesKnee injuries and reconstruction techniquesMuscle activation and electromyography studies