Home  About us  Contact
 

Joint Loading (joint + loading)

Distribution by Scientific Domains
Medical Sciences60%

Selected Abstracts

Aquatic exercise for children with cerebral palsy

DEVELOPMENTAL MEDICINE & CHILD NEUROLOGY, Issue 12 2005
Michelle Kelly BScPT MSc
Exercise for children with cerebral palsy (CP) is gaining popularity among pediatric physical therapists as an intervention choice. Exercise in water appeals to children with CP because of the unique quality of buoyancy of water that reduces joint loading and impact, and decreases the negative influences of poor balance and poor postural control. In this paper, research of land-based exercise and aquatic exercise for children with CP is reviewed. Clinically relevant considerations for aquatic exercise programming for children with CP are discussed. [source]

Modulation of Na+ -H+ exchange isoforms NHE1 and NHE3 by insulin-like growth factor-1 in isolated bovine articular chondrocytes

JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 11 2008
Amanda L. Tattersall
Abstract Incubation with serum modulates the transporters that regulate intracellular pH (pHi) in articular chondrocytes, upregulating acid extrusion by Na+ -H+ exchange (NHE). There is stimulation of NHE1, together with induction of NHE3 activity. These isoforms exhibit differential responses to components of mechanical load experienced by chondrocytes during joint loading. The identity of the component(s) of serum responsible is unknown. A possibility, however, is insulin-like growth factor-1 (IGF-1), present in normal cartilage and found at enhanced levels in osteoarthritic tissue. In the present study, the effects of IGF-1 on pHi regulation have been characterized using fluorescence measurements of bovine articular chondrocytes, and the sensitivity of pHi regulation to hyperosmotic shock and raised hydrostatic pressure determined. For cells isolated in the absence of IGF-1, pHi recovery following acidification was predominantly mediated by NHE1. Recovery was enhanced when cells were incubated for 18 h with 20 ng mL,1 IGF; this effect represented increased acid extrusion by NHE1, supplemented by NHE3 activity. NHE3 activity was not detected in IGF-1-treated cells that had been incubated with the protein synthesis inhibitor cycloheximide, although NHE1 activity was unaffected. In the absence of IGF-1, suspension in hyperosmotic solutions or raised hydrostatic pressure enhanced pHi recovery of acidified cells. This response was missing in cells incubated with IGF-1. Unresponsiveness to hyperosmotic shock represented inhibition of NHE3 activity, and was prevented using the protein kinase A inhibitor KT5720. For raised hydrostatic pressure, a decrease in NHE1 activity was responsible, and was prevented by the protein kinase C inhibitor chelerythrine. © 2008 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 26:1428,1433, 2008 [source]

Age-related changes in electromyographic quadriceps activity during stair descent

JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 2 2005
Rana S. Hinman
Abstract Purpose: To determine the effects of age on (i) the onset of vastus medialis obliquus (VMO) activity relative to that of vastus lateralis (VL) and (ii) the onset of quadriceps activity in terminal swing relative to heel-strike, during stair descent. Methods: Sixty-six healthy men and women with no known knee pathology were recruited from the community and the University of Melbourne. Thirty-three older people aged over 50 (mean (SD) 68 (8) years) and 33 younger people aged under 40 (mean (SD) 25 (4) years) participated. Surface electromyography (EMG) was used to record muscle activity during stair descent. Muscle onset was identified from individual EMG traces with a computer algorithm and validated visually. Results: Both younger and older participants demonstrated a relatively synchronous onset of VMO and VL (i.e. within 10ms of each other) with no differences between the age groups evident (P = 0.262). However older participants activated their quadriceps significantly earlier than the younger group (P < 0.001) even when differences in body mass and speed of stair descent were accounted for. Conclusion: Age-related changes in quadriceps activity are apparent. The clinical implications of such changes are unknown, but increases in joint loading are possible. Earlier quadriceps activation may compensate for balance and strength impairments in older people during challenging activities. © 2004 Orthopaedic Research Society. Published by Elsevier Ltd. All rights reserved. [source]

Developmental and osteoarthritic changes in Col6a1 -knockout mice: Biomechanics of type VI collagen in the cartilage pericellular matrix

ARTHRITIS & RHEUMATISM, Issue 3 2009
Leonidas G. Alexopoulos
Objective Chondrocytes, the sole cell type in articular cartilage, maintain the extracellular matrix (ECM) through a homeostatic balance of anabolic and catabolic activities that are influenced by genetic factors, soluble mediators, and biophysical factors such as mechanical stress. Chondrocytes are encapsulated by a narrow tissue region termed the "pericellular matrix" (PCM), which in normal cartilage is defined by the exclusive presence of type VI collagen. Because the PCM completely surrounds each cell, it has been hypothesized that it serves as a filter or transducer for biochemical and/or biomechanical signals from the cartilage ECM. The present study was undertaken to investigate whether lack of type VI collagen may affect the development and biomechanical function of the PCM and alter the mechanical environment of chondrocytes during joint loading. Methods Col6a1,/, mice, which lack type VI collagen in their organs, were generated for use in these studies. At ages 1, 3, 6, and 11 months, bone mineral density (BMD) was measured, and osteoarthritic (OA) and developmental changes in the femoral head were evaluated histomorphometrically. Mechanical properties of articular cartilage from the hip joints of 1-month-old Col6a1,/,, Col6a1+/,, and Col6a1+/+ mice were assessed using an electromechanical test system, and mechanical properties of the PCM were measured using the micropipette aspiration technique. Results In Col6a1,/, and Col6a1+/, mice the PCM was structurally intact, but exhibited significantly reduced mechanical properties as compared with wild-type controls. With age, Col6a1,/, mice showed accelerated development of OA joint degeneration, as well as other musculoskeletal abnormalities such as delayed secondary ossification and reduced BMD. Conclusion These findings suggest that type VI collagen has an important role in regulating the physiology of the synovial joint and provide indirect evidence that alterations in the mechanical environment of chondrocytes, due to either loss of PCM properties or Col6a1,/, -derived joint laxity, can lead to progression of OA. [source]

The influence of altered occlusal guidance on condylar displacement during submaximal clenching

JOURNAL OF ORAL REHABILITATION, Issue 10 2005
N. OKANO
summary As cited in literatures, canine protected occlusion has a potential to reduce clenching induced temporomandibular joint loadings. However, these previous studies did not perform a control of the clenching level which differed with the depending occlusal conditions. This result may be due largely to an associated reduced jaw closing muscle activity. The present study has investigated clenching induced condylar displacements with controlled clenching level. Twenty healthy human subjects (15 males and five females with an average age of 26·5 years) volunteered to participate in this study. Metallic occlusal overlays were fabricated for the lower working side canine and overlaid to the second molar and the non-working side second molar in order to simulate a canine protected occlusion, group function occlusion and bilateral balanced occlusion. Electromyographic (EMG) activity from the bilateral masseter, anterior temporalis, and posterior temporalis was recorded. These signals were rectified, summarized, and presented to each subject using an oscilloscope screen. Using this visual feedback, subjects were asked to perform clenching tasks at a 50% level of maximal voluntary contraction exerted with simulated group function occlusion and three-dimensional condylar displacements were recorded. An experimental occlusal pattern that shows statistically significant affects on condylar displacements (anova: P < 0·001) was found. When compared with the simulated canine protected occlusion, the simulated group function occlusion caused smaller working side condylar displacement and the simulated bilateral balanced occlusion caused significantly smaller non-working side and working side condylar displacements. These results suggest that the increased working side tooth contacts have a potential to reduce working side joint loadings, and a balancing side contact has a potential to reduce non-working side joint loadings, under the laboratory condition where the clenching level is controlled. [source]