Stem malalignment in total hip arthroplasty (THA) has been associated with poor long-term outcomes and increased complications (e.g. periprosthetic femoral fractures). Our understanding of the biomechanical impact of stem alignment in cemented and uncemented THA is still limited. This study aimed to investigate the effect of stem fixation method, stem positioning, and compromised bone stock in THA. Validated FE models of cemented (C-stem – stainless steel) and uncemented (Corail – titanium) THA were developed to match corresponding experimental model datasets; concordance correlation agreement of 0.78 & 0.88 for cemented & uncemented respectively. Comparison of the aforementioned stems was carried out reflecting decisions made in the current clinical practice. FE models of the implant positioned in varus, valgus, and neutral alignment were then developed and altered to represent five different bone defects according to the Paprosky classification (Type I – Type IIIb). Strain was measured on the femur at 0mm (B1), 40mm (B2), and 80mm (B3) from the lesser trochanter.Abstract
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Umbilical cord derived stem cell secretion could enhance the osteogenic differentiation of human bone marrow stem cells. It may promote bone, cartilage and tendon regeneration in rat models, but the effect was not significant up to now. Mesenchymal stem cells (MSCs) are multipotent cells that have extensive proliferative capacity. MSCs synthesise various exosomes, growth factors and cytokines. Stem cell secretions were made from serum free conditioned medium of stem cells collected from different human tissues, such as adipose tissue and dental pulp. Our hypothesis is umbilical cord stem cell secretion could promote multiple proliferation and differentiation of MSCs, also enhance the regeneration of musculoskeletal tissues.Summary Statement
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