Relationship between Lower Limb Angular Kinematic Variables and the Effectiveness of Sprinting during the Acceleration Phase

The ability to reach a high running velocity over a short distance is essential to a high playing performance in team games. The aim of this study was to determine the relationship between running time over a 10-meter section of a 30-meter sprint along a straight line and changes in the angle and angular velocity that were observed in the ankle, knee, and hip joints. The possible presence may help to optimize motion efficiency during acceleration sprint phase. Eighteen girls involved in team sports were examined in the study. The Fusion Smart Speed System was employed for running time measurements. The kinematic data were recorded using the Noraxon MyoMotion system. Statistically significant relationships were found between running time over a 10-meter section and the kinematic variables of hip and ankle joints. An excessively large flexion in hip joints might have an unfavorable effect on running time during the acceleration phase. Furthermore, in order to minimize running time during the acceleration phase, stride should be maintained along a line (a straight line) rather than from side to side. It is also necessary to ensure an adequate range of motion in the hip and ankle joints with respect to the sagittal axis

Copper Does Not Induce Tenogenic Differentiation but Promotes Migration and Increases Lysyl Oxidase Activity in Adipose-Derived Mesenchymal Stromal Cells

Background. Copper belongs to the essential trace metals that play a key role in the course of cellular processes maintaining the whole body’s homeostasis. As there is a growing interest in transplanting mesenchymal stromal cells (MSCs) into the site of injury to improve the regeneration of damaged tendons, the purpose of the study was to verify whether copper supplementation may have a positive effect on the properties of human adipose tissue-derived MSCs (hASCs) which potentially can contribute to improvement of tendon healing. Results. Cellular respiration of hASCs decreased with increasing cupric sulfate concentrations after 5 days of incubation. The treatment with CuSO4 did not positively affect the expression of genes associated with tenogenesis (COL1α1, COL3α1, MKX, and SCX). However, the level of COL1α1 protein, whose transcript was decreased in comparison to a control, was elevated after a 5-day exposition to 25 μM CuSO4. The content of the MKX and SCX protein in hASCs exposed to cupric sulfate was reduced compared to that of untreated control cells, and the level of the COL3α1 protein remained unchanged. The addition of cupric sulfate to hASCs’ medium increased the activity of lysyl oxidase which was positively correlated with concentration of CuSO4. Moreover, a high level of CuSO4 stimulated the action of intracellular superoxide dysmutase. The hASC secretion profile after a 5-day exposure to 50 μM cupric sulfate differed from that of untreated cells and was similar to the secretion profile of human tenocytes. Additionally, cupric sulfate increased secretion of CXCL12 in hASCs. Furthermore, the exposition to the CuSO4 significantly increased directed migration of human ASCs in a dose-dependent manner. Conclusion. Copper sulfate supplementation can have a beneficial effect on tendon regeneration not by inducing tenogenic differentiation, but by improving the recruitment of MSCs to the site of injury, where they can secrete growth factors, cytokines and chemokines, and prevent the effects of oxidative stress at the site of inflammation, as well as improve the stabilization of collagen fibers, thereby accelerating the process of tendon healing

Time of Return to Work (RTW) May Not Correlate with Patient-Reported Outcomes Measurements (PROM) at Minimum One Year Post Arthroscopic Bankart Repair

It is widely recognized that work serves a dual role by not only ensuring financial independence but also functioning as a vital source of psychosocial well-being and contributing significantly to the attribution of meaning in life. The cost of work disability can be a multifactorial problem for both employers and workers; thus the inability to return to work (RTW) may have a destructive effect on mental health and confidence. Shoulder surgery is one of the conditions that inevitably impacts patients’ ability to work. As current data focus on restoring range of motion, strength, and the patients’ activity, to this day the data about RTW post shoulder surgery remain limited. The purpose of this study was to evaluate the return-to-work time of patients treated with an arthroscopic Bankart repair and to evaluate if patient-reported outcomes (PROM) correlate with the incapacity to work after an arthroscopic Bankart repair. We performed a retrospective review by conducting a questionnaire with patients more than 12 months after surgery and we identified 31 patients who met the criteria for the study and were able to contact 17 of them. In this paper we demonstrated that on average among groups working physically and at the office we may expect patients who underwent arthroscopic Bankart repair to return to work within 7 weeks from the surgery, with office workers tending to return significantly faster with an average of 2.5 weeks (p = 0.0239)