Radiological residual acetabular dysplasia (RAD) has been reported in up to 30% of children who had successful brace treatment of infant developmental dysplasia of the hip (DDH). Predicting those who will resolve and those who may need corrective surgery is important to optimize follow-up protocols. In this study we have aimed to identify the prevalence and predictors of RAD at two years and five years post-bracing. This was a single-centre, prospective longitudinal cohort study of infants with DDH managed using a published, standardized Pavlik harness protocol between January 2012 and December 2016. RAD was measured at two years’ mean follow-up using acetabular index-lateral edge (AI-L) and acetabular index-sourcil (AI-S), and at five years using AI-L, AI-S, centre-edge angle (CEA), and acetabular depth ratio (ADR). Each hip was classified based on published normative values for normal, borderline (1 to 2 standard deviations (SDs)), or dysplastic (> 2 SDs) based on sex, age, and laterality.Aims
Methods
Stem cells are widely known in the state of the art of cell-based therapies. Recently, ADSCs are becoming a popular resource of adult stem cells across different fields, and latest publications show its wide application for the treatment of soft tissue injuries like tendon injuries, which represent a high percentage of the consultations in orthopaedic practitioners. Molecular-based therapies and local deliveries are necessary for an effective treatment of chronic tendon injuries. In this study, human ADSCs were selected to investigate its differentiation potential into the tendon phenotype. Customised cell culture media was used as the differentiation factor. In the present study, ADSCs were used in passage 3 to ensure pluripotency in vitro. Using the customised cell culture media, its time, concentration and frequency of refreshment effects were investigated. On the selected time points different techniques were performed: 1,) cells were harvested, and messenger RNA (mRNA) was examined by Real Time Polymerase Chain Reaction (RT-PCR), analysing the expression of common tendon and extracellular matrix (ECM) markers. Protein expression was determined by Western Blotting. 2) Collagen content was analysed by tissue digestion and colorimetric techniques. 3) Deoxyribonucleic Acid (DNA) was stained, and fluorescent imaging was used to characterise nuclear roundness. 4) Metabolic activity of the cultures was assessed using CellTiter 96® Aqueous One Solution (MTS). 5) Cell proliferation was evaluated using CyQuant® Cell Proliferation Assay.Introduction
Materials and Methods
