Objective
To determine whether anatomical thigh muscle cross-sectional areas (MCSAs) and strength differ between osteoarthritis (OA) knees with frequent pain compared with contralateral knees without pain, and to examine the correlation between MCSAs and strength in painful versus painless knees.
Methods
48 subjects (31 women; 17 men; age 45–78 years) were drawn from 4796 Osteoarthritis Initiative (OAI) participants, in whom both knees displayed the same radiographic stage (KLG2 or 3), one with frequent pain (most days of the month within the past 12 months) and the contralateral one without pain. Axial MR images were used to determine MCSAs of extensors, flexors and adductors at 35% femoral length (distal to proximal) and in two adjacent 5 mm images. Maximal isometric extensor and flexor forces were used as provided from the OAI data base.
Results
Painful knees showed 5.2% lower extensor MCSAs (p=0.00003; paired t-test), and 7.8% lower maximal extensor muscle forces (p=0.003) than contra-lateral painless knees. There were no significant differences in flexor forces, or flexor and adductor MCSAs (p>0.39). Correlations between force and MCSAs were similar in painful and painless OA knees (0.44
Objective. To compare cross-sectional and longitudinal side differences in thigh muscle anatomic cross-sectional areas (ACSAs), strength, and specific strength (strength/ACSA) between knees with early versus advanced painful radiographic osteoarthritis in the same person. Methods. Forty-four of 2,678 Osteoarthritis Initiative participants (31 women and 13 men) met the inclusion criteria of bilateral frequent knee pain, medial joint space narrowing (JSN) in 1 knee, and no medial (or lateral) JSN in the contralateral knee. Thigh muscle ACSAs of the quadriceps, hamstrings, adductors, and individual quadriceps heads at consistent locations were determined using magnetic resonance imaging. Isometric muscle strength was determined in extension/flexion (Good Strength Chair). Baseline quadriceps ACSAs and strength were considered primary end points, and longitudinal changes of these factors were considered secondary end points (by paired t-tests). Results. No significant side differences in quadriceps (or other thigh muscle) ACSAs, strength, or specific strength were observed between medial JSN knees versus knees without JSN, or between specific medial JSN knee strata and contralateral knees without JSN, either in men or women. Two-year longitudinal changes in thigh muscle ACSAs and strength were small (<5.2%) and did not differ significantly between medial JSN knees and knees without JSN. Conclusion. In the context of previous findings that side differences in pain are associated with side differences in quadriceps ACSAs, the current results suggest that quadriceps (and other thigh muscle) properties are not independently associated with radiographic disease status (JSN) once knees have reached frequent pain status. Further, our longitudinal findings indicate that a more advanced radiographic stage of knee osteoarthritis is not necessarily associated with a longitudinal decline in muscle function.
Objective
To determine whether lower thigh muscle specific strength increases
risk of incident radiographic knee osteoarthritis (RKOA), and whether there
exists a sex-specific relationship between thigh muscle specific strength
and BMI.
Methods
161 Osteoarthritis Initiative participants (62% female) with
incident RKOA (Kellgren-Lawrence grade 0/1 at baseline, developing an
osteophyte and joint space narrowing grade ≥1 by year 4) were
matched to 186 controls (58% female) without incident RKOA. Thigh
muscle anatomical cross-sectional areas (ACSAs) were determined at baseline
using axial MRI scans. Isometric extensor and flexor muscle strength were
measured at baseline and specific strength (strength÷ACSA)
calculated. Logistic regression assessed risk of incident RKOA associated
with muscle specific strength (with and without adjustment for BMI).
Results
Lower knee extensor and flexor specific strength significantly
increased the risk of incident RKOA in women (OR 1.47 [95%CI
1.10, 1.96] and 1.41 [1.06, 1.89], respectively) but
not in men. The significant relationship in women was lost after adjustment
for BMI. Lower specific strength was associated with higher BMI in women
(r=−0.29, p<0.001), but not in men; whereas (absolute)
strength was associated with BMI in men (r=0.28, p=0.001),
but not in women.
Conclusion
Lower thigh muscle specific strength predicts incident RKOA in women,
with this relationship being confounded by BMI. The sex-specific
relationship between muscle specific strength and BMI provides a possible
explanation why women with muscle strength deficits typically have a poorer
prognosis than men with similar strength deficits.
In women, painful knees display greater IMF content than do contralateral pain-free knees. Other between-knee comparisons did not reveal a regional association between radiographic KOA and thigh adipose tissue status. Structural progression of KOA may be associated with greater longitudinal increases in SCF in men and greater increases of IMF in women, compared with nonprogressive controls.
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