ORCID Profile
0000-0001-5901-4720
Current Organisation
University of Tasmania
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Publisher: The Journal of Rheumatology
Date: 06-2016
Abstract: Knee cartilage defects are a key feature of osteoarthritis (OA) but correlates of hip defects remain unexplored. The aims of this cross-sectional study were to describe the correlates of hip cartilage defects. The study included 194 subjects from the Tasmanian Older Adult Cohort who had right hip short-tau inversion recovery magnetic resonance imaging (MRI). Hip cartilage defects were assessed and categorized as grade 0 = no defects, grade 1 = focal blistering or irregularities on cartilage or partial thickness defect, and grade 2 = full thickness defect. Hip pain was determined by Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC). Hip structural changes were measured on MRI, and hip radiographic OA (ROA) was assessed. Leg strength and physical activity were assessed using dynamometer and pedometers, respectively. Data were analyzed using log binomial and linear regression. Of 194 subjects, 24% (n = 48) had no defects, 34% (n = 66) had grade 1, and 41% (n = 80) had grade 2. In multivariable analyses, any hip defects were associated with greater hip pain [prevalence ratio (PR) 1.20, 95% CI 1.02–1.35] and lower mean leg strength (men mean ratio 0.83, 95% CI 0.67–0.98). Grade 1 defects were associated with hip bone marrow lesions (BML PR 1.42, 95% CI 1.03–1.96) and high cartilage signal (men PR 1.84, 95% CI 1.27–2.70), but not with hip pain or other structural findings. Grade 2 defects were associated with greater hip pain (PR 1.40, 95% CI 1.09–1.80), hip BML (PR 1.45, 95% CI 1.15–1.85), hip effusion cross-sectional area (PR 1.14, 95% CI 1.01–1.30), hip ROA (men PR 1.60, 95% CI 1.13–2.25), and steps/day (PR 0.97, 95% CI 0.96–0.99). Grade 2 defects in both sexes and grade 1 defects (mostly in men) are associated with clinical, demographic, and structural factors relevant for OA. Damage to the hip cartilage could be one of the major causes of rapid disease progression and pathophysiology of hip defects. The topic needs further study.
Publisher: Springer Science and Business Media LLC
Date: 07-11-2013
DOI: 10.1007/S10067-013-2394-0
Abstract: The objective of this study was to describe the cross-sectional and longitudinal relationship between hip bone marrow lesions (BMLs), high cartilage signal, and hip and knee pain. One hundred ninety-eight participants in the Tasmanian Older Adult Cohort Study with right hip MRI conducted at two time points, approx. 2.3 years apart, were included. Short T1 Inversion Recovery MR images were used to quantitatively measure hip BML size and determine high cartilage signal presence. Hip and knee pain were in idually assessed using the Western Ontario and McMaster Universities Osteoarthritis index pain score. Fifty-five participants (28%) had either femoral and/or acetabular BMLs. Cross-sectionally, the presence of large femoral, acetabular, or any hip BMLs was associated with higher odds of hip pain (OR = 4.42, 95% CI = 1.37-19.7 OR = 5.23, 95% CI = 1.17-22.9 OR = 4.43, 95% CI = 1.46-13.2, respectively). High cartilage signal was strongly associated with hip BMLs (OR = 6.45, 95% CI = 3.37-12.6), but not with pain. Longitudinally, incident acetabular (Mean diff = +5.90, 95% CI = +3.78 to +8.15) and femoral BMLs (Mean diff = +1.18, 95% CI = 0.23-1.94) were associated with worsening hip pain, while resolving femoral BMLs were associated with a decrease in knee pain (Mean diff = -3.18, 95% CI = -5.99 to -0.50). The evidence is consistent for hip, but not knee pain, and strongly suggests that large hip BMLs are associated with hip pain. Furthermore, high cartilage signal is asymptomatic, but strongly associated with hip BMLs. These findings suggest that hip BMLs play an important role in hip osteoarthritis.
Publisher: Wiley
Date: 09-03-2022
Abstract: Cam morphology contributes to the development of hip osteoarthritis (OA) but is less studied in the general population. This study describes its associations with clinical and imaging features of hip OA. Anteroposterior hip radiographs of 1019 participants from the Tasmanian Older Adult Cohort (TASOAC) were scored at baseline for α angle (cam morphology) in both hips. Using the Altman's atlas, radiographic hip OA (ROA) was assessed at baseline. Hip pain and right hip structural changes were assessed on a subset of 245 magnetic resonance images (MRI) at 5 years. Joint registry data for total hip replacement (THR) was acquired 14 years from baseline. Of 1906 images, cam morphology was assessed in 1016 right and 890 left hips. Cross‐sectionally, cam morphology modestly associated with age (prevalence ratio [PR]: 1.02 P = .03) and body mass index (BMI) (PR: 1.03‐1.07, P = .03) and strongly related to male gender (PR: 2.96, P .001). Radiographically, cam morphology was prevalent in those with decreased joint space (PR: 1.30 P = .03) and osteophytes (PR: 1.47, P = .03). Longitudinally, participants with right cam and high BMI had more hip pain (PR: 17.9, P = .02). At the end of 5 years of follow‐up these participants were also more likely to have structural changes such as bone marrow lesions (BMLs) (PR: 1.90 P = .04), cartilage defects (PR: 1.26, P = .04) and effusion‐synovitis at multiple sites (PR: 1.25 P = .02). Cam morphology at baseline in either hip predicted up to threefold risk of THR (PR: 3.19, P = .003) at the end of 14 years. At baseline, cam morphology was linked with age, higher weight, male gender, early signs of radiographic OA such as joint space narrowing (JSN) and osteophytes (OST). At follow‐up, cam predicted development of hip BMLs, hip effusion‐synovitis, cartilage damage and THR. These findings suggest that cam morphology plays a significant role in early OA and can be a precursor or contribute to hip OA in later life.
Publisher: Elsevier BV
Date: 10-2013
DOI: 10.1016/J.JOCA.2013.06.002
Abstract: To describe the cross-sectional and longitudinal association between hip Bone marrow lesions (BMLs) and bone density. 198 subjects with a right hip MRI and dual-energy X-ray absorptiometry (DXA) scans conducted at two time points, approximately 2.6 years apart were included. MR images were used to assess hip BML presence and size (cm(2)) while DXA scans were used to determine bone mineral density (BMD) of the total hip, spine and femoral neck. Fifty-five subjects (28%) had either a femoral and/or acetabular BML. Cross-sectionally, acetabular BMLs were associated with 5-6% lower total hip [P = 0.01] and femoral neck BMD [P < 0.001]. Resolving acetabular BMLs were associated with a 1-2% increase in BMD at hip [P = 0.05] and femoral neck [P = 0.01]. In contrast, resolving femoral BMLs were associated with a 4% lower and incident femoral BMLs with 3% higher femoral neck BMD [P = 0.04, P < 0.001 resp.]. Finally, each 1 cm(2) change femoral BMLs was associated with increase in femoral neck BMD: +0.03 g/cm(2), 95% confidence intervals (CI): +0.00, +0.05, and enlarging acetabular BMLs was associated with decrease in hip: -0.01 g/cm(2), 95% CI: -0.03, -0.00 and femoral neck BMD: -0.01 g/cm(2), 95% CI: -0.03, -0.001. Hip BMLs were associated with local BMD (hip and femoral neck) but not with spine BMD and these associations vary according to site. BML prevalence and change was low in this study, hence these findings need confirmation. However, we hypothesize that these associations represent a combination of changes related directly to the BML pathology or changes adjacent to the disease process.
Publisher: Springer Science and Business Media LLC
Date: 15-05-2014
DOI: 10.1007/S00223-014-9863-6
Abstract: Studies examining the association between muscle size, muscle strength, and bone mineral density (BMD) are limited. Thus, this study aimed to describe the association between hip muscles cross-sectional area (CSA), muscle strength, and BMD of the hip and spine. A total of 321 subjects from the Tasmanian Older Adult Cohort study with a right hip MRI scan conducted between 2004 and 2006 were included. Hip muscles were measured on MR images by OsiriX (Geneva) software measuring maximum muscle CSA (cm(2)) of gluteus maximus, obturator externus, gemelli, quadratus femoris, piriformis, pectineus, sartorius, and iliopsoas. Dual-energy X-ray absorptiometry measured total hip, femoral neck, and spine BMD, and lower limb muscle strength was assessed by dynamometer. Muscle CSA of the hip flexors (pectineus, sartorius, and iliopsoas) and the hip rotators, obturator externus, and quadratus femoris were associated with both total hip and femoral neck BMD (all p < 0.05). The associations between CSA of pectineus and sartorius and BMD were stronger in women (p = 0.01-0.001) compared to men (p = 0.12-0.54). Additionally, only gemelli CSA was associated with BMD of the spine (p = 0.002). Gluteus maximus and piriformis showed no relationship with BMD. CSA of most hip muscles (except gluteus maximus and gemelli) were positively associated with leg strength (p = 0.02 to <0.001). Lastly, leg strength was weakly associated with BMD (p = 0.11-0.007). Hip muscle CSA, and to a lesser extent muscle strength, were positively associated with hip BMD. These data suggest that both higher muscle mass and strength may contribute to the maintenance of bone mass and prevention of disease progression in older adults.
No related grants have been discovered for Harbeer Ahedi.