James Wickham scite author profile

To evaluate the efficacy of autologous adipose-derived mesenchymal stem cell (ADMSC) therapy on pain, function and disease modification in knee osteoarthritis. Methods: 30 participants with symptomatic knee osteoarthritis were randomized into three groups. Two treatment groups received intra-articular ADMSC therapy consisting of either a single injection (100 × 10 6 ADMSCs) or two injections (100 × 10 6 ADMSCs at baseline and 6 months). The third group served as control and continued conservative management. Results: No serious adverse events were observed. Both treatment groups receiving ADMSCs showed clinically significant pain and functional improvement at completion of follow-up at 12 months. Radiological analysis using the Magnetic Resonance Imaging Osteoarthritis Knee Score indicated modification of disease progression. Conclusion: Autologous ADMSC therapy appears to be a safe and effective therapy for knee osteoarthritis and may have the potential to prevent disease progression.Trial registration number: ACTRN12614000814673

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Muscles within muscles: the neuromotor control of intra-muscular segments

Wickham

Brown

1998

European Journal of Applied Physiology

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The aim of this investigation was to anatomically identify, and then determine the function of, individual segments within the human deltoid muscle. The anatomical structure of the deltoid was determined through dissection and/or observation of the shoulder girdles of 11 male cadavers (aged 65-84 years). These results indicate that the deltoid consists of seven anatomical segments (D1-D7) based upon the distinctive arrangement of each segment's origin and insertion. Radiographic analysis of a cadaveric shoulder joint suggested that only the postero-medial segment D7 has a line of action directed below the shoulder joint's axis of rotation. The functional role of each individual segment was then determined utilising an electromyographic (EMG) technique. Seven miniature (1 mm active plate; 7 mm interelectrode distance) bipolar surface electrodes were positioned over the proximal portion of each segment's muscle belly in 18 male and female subjects (18-30 years). EMG waveforms were then recorded during the production of rapid isometric shoulder abduction and adduction force impulses with the shoulder joint in 40 degrees of abduction in the plane of the scapula. Each subject randomly performed 15 abduction and 15 adduction isometric force impulses following a short familiarisation period. All subjects received visual feed back on the duration and amplitude of each isometric force impulse produced via a visual force-time display which compared subject performance to a criterion force-time curve. Movement time was 400 ms (time-to-peak isometric force) at an intensity level of 50% maximal voluntary contraction. Temporal and intensity analyses of the EMG waveforms, as well as temporal analysis of the isometric force impulses, revealed the neuromotor control strategies utilised by the CNS to control the activity of each muscle segment. The results showed that segmental neuromotor control strategies differ across the breadth of the muscle and that individual segments of the deltoid can be identified as having either "prime mover", "synergist", "stabiliser" or "antagonist" functions; functional classifications normally associated with whole muscle function. Therefore, it was concluded that the CNS can "fine tune" the activity of at least six discrete segments within the human deltoid muscle to efficiently meet the demands of the imposed motor task.

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Quantifying ‘normal’ shoulder muscle activity during abduction

Wickham

Pizzari

Stansfeld

et al. 2010

Journal of Electromyography and Kinesiology

124

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Muscles within muscles: Coordination of 19 muscle segments within three shoulder muscles during isometric motor tasks

Brown

Wickham

McAndrew

et al. 2007

Journal of Electromyography and Kinesiology

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James Wickham

Adipose-Derived Mesenchymal Stem Cell Therapy in the Treatment of Knee Osteoarthritis: A Randomized Controlled Trial

Muscles within muscles: the neuromotor control of intra-muscular segments

Quantifying ‘normal’ shoulder muscle activity during abduction

Muscles within muscles: Coordination of 19 muscle segments within three shoulder muscles during isometric motor tasks

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