Shantanu Patil scite author profile

Objective Meniscus lesions following trauma or associated with osteoarthritis (OA) have been described, yet meniscus aging has not been systematically analyzed. The objectives of this study were to (i) establish standardized protocols for representative macroscopic and microscopic analysis, (ii) improve existing scoring systems, and (iii) apply these techniques to a large number of human menisci. Design Medial and lateral menisci from 107 human knees were obtained and cut in two different planes (triangle/crossection and transverse/horizontal) in three separate locations (mid portion, anterior and posterior horns). All sections included vascular and avascular regions and were graded for i) surface integrity, ii) cellularity, iii) matrix/fiber organization and collagen alignment, and iv) Safranin-O staining intensity. The cartilage in all knee compartments was also scored. Results The new macroscopic and microscopic grading systems showed high inter-reader and intra-reader intraclass correlation coefficients. The major age-related changes in menisci in joints with no or minimal OA included increased Safranin-O staining intensity, decreased cell density, the appearance of acellular zones, and evidence of mucoid degeneration with some loss of collagen fiber organization. The earliest meniscus changes occurred predominantly along the inner rim. Menisci from OA joints showed severe fibrocartilaginous separation of the matrix, extensive fraying, tears and calcification. Abnormal cell arrangements included decreased cellularity, diffuse hypercellularity along with cellular hypertrophy and abnormal cell clusters. In general, the anterior horns of both medial and lateral menisci were less affected by age and OA. Conclusions New standardized protocols and new validated grading systems allowed us to conduct a more systematic evaluation of changes in aging and OA menisci at a macroscopic and microscopic level. Several meniscus abnormalities appear to be specific to aging in the absence of significant OA. With aging the meniscal surface can be intact but abnormal matrix organization and cellularity was observed within the meniscal substance. The increased Safranin-O staining appears to represent a shift from fibroblastic to chondrocytic phenotype during aging and early degeneration.

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Anterior cruciate ligament changes in the human knee joint in aging and osteoarthritis

Hasegawa¹,

Otsuki²,

Pauli³

et al. 2012

Arthritis & Rheumatism

150

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Objective The development and patterns of spontaneous aging-related changes in the anterior cruciate ligament (ACL) and their relationship to articular cartilage degeneration are not well characterized. The aim of this study was to investigate the types and temporal sequence of aging-related ACL changes and establish the correlation with cartilage lesion patterns at all stages of OA development in human knee joints without prior joint trauma. Methods Human knee joints (n=120; 65 donors; age 23-92) were obtained at autopsy and ACL and cartilage were graded macroscopically and histologically. Inflammation surrounding the ACL was assessed separately. Results Histological ACL substance scores and ligament sheath inflammation scores increased with aging. Collagen fiber disorganization was the earliest and most prevalent change. The severity of mucoid degeneration and chondroid metaplasia in the ACL increased with development of cartilage lesions. A correlation between ACL and cartilage degeneration was observed, especially in the medial compartment of the knee joint. Conclusion ACL degeneration is highly prevalent in knees with cartilage defects, and may even precede cartilage changes. Hence, ACL deficiencies may not only be important in post-traumatic OA, but also a feature associated with knee OA pathogenesis in general.

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Tibial Forces Measured In Vivo After Total Knee Arthroplasty

D’Lima¹,

Patil²,

Steklov³

et al. 2006

The Journal of Arthroplasty

204

101

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The Mark Coventry Award: In Vivo Knee Forces During Recreation and Exercise After Knee Arthroplasty

et al. 2008

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Knee forces directly affect arthroplasty component survivorship, wear of articular bearing surfaces, and integrity of the bone-implant interface. It is not known which activities generate forces within a range that is physiologically desirable but not high enough to jeopardize the survivorship of the prosthetic components. We implanted three patients with an instrumented tibial prosthesis and measured knee forces and moments in vivo during exercise and recreational activities. As expected, stationary bicycling generated low tibial forces, whereas jogging and tennis generated high peak forces. On the other hand, the golf swing generated unexpectedly high forces, especially in the leading knee. Exercise on the elliptical trainer generated lower forces than jogging but not lower than treadmill walking. These novel data allow for a more scientific approach to recommending activities after TKA. In addition, these data can be used to develop clinically relevant structural and tribologic testing, which may result in activity-specific knee designs such as a knee design more tolerant of golfing by optimizing the conflicting needs of increased rotational laxity and conformity.

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Shantanu Patil

Macroscopic and histopathologic analysis of human knee menisci in aging and osteoarthritis

Anterior cruciate ligament changes in the human knee joint in aging and osteoarthritis

Tibial Forces Measured In Vivo After Total Knee Arthroplasty

The Mark Coventry Award: In Vivo Knee Forces During Recreation and Exercise After Knee Arthroplasty

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