To determine the risk of total knee replacement (TKR) for primary osteoarthritis (OA) associated with overweight/obesity in the Australian population. This population-based study analyzed 191,723 cases of TKR collected by the Australian Orthopaedic Association National Joint Registry and population data from the Australian Bureau of Statistics. The time-trend change in incidence of TKR relating to BMI was assessed between 2015-2018. The influence of obesity on the incidence of TKR in different age and gender groups was determined. The population attributable fraction (PAF) was then calculated to estimate the effect of obesity reduction on TKR incidence. The greatest increase in incidence of TKR was seen in patients from obese class III. The incidence rate ratio for having a TKR for obesity class III was 28.683 at those aged 18-54 years but was 2.029 at those aged >75 years. Females in obesity class III were 1.7 times more likely to undergo TKR compared to similarly classified males. The PAFs of TKR associated with overweight or obesity was 35%, estimating 12,156 cases of TKR attributable to obesity in 2018. The proportion of TKRs could be reduced by 20% if overweight and obese population move down one category. Obesity has resulted in a significant increase in the incidence of TKR in the youngest population in Australia. The impact of obesity is greatest in the young and the female population. Effective strategies to reduce the national obese population could potentially reduce 35% of the TKR, with over 10,000 cases being avoided.
Transportation media and injection protocol have implications for the viability of MSCs used for intra-lesional treatment of tendon injuries. Every effort should be made to implant cells within 24h of laboratory re-suspension, using a needle bore larger than 21G. Intra-lesional implantation of autologous mesenchymal stem cells (MSCs) has resulted in significant improvements in tendon healing in experimental animal models. Intra-tendinous injection of MSCs into naturally-occurring equine tendon injuries has been shown to be both safe and efficacious1 and these protocols can assist in the translation to the human. Efficient transfer of cells from the laboratory into the tissue requires well validated techniques for transportation and implantation. The aim of this study was to determine the influence of transport media and injection procedure on cellular damage.Summary Statement
Introduction
Wear particles from joint replacements may result in loosening and periprosthetic osteolysis. Interference with systemic macrophage trafficking to the implant, modulation of macrophage phenotype from M1 to M2, and inhibition of NFκB may mitigate these adverse effects. Joint replacement of the lower extremity is highly successful in alleviating pain, and improving ambulation and function. However, prosthetic byproducts of different materials, in sufficient amounts, may lead to loosening and periprosthetic osteolysis. Debris from polymers (such as polyethylene and PMMA), metals and ceramics are capable of inciting an adverse tissue reaction, which is orchestrated by cells of the monocyte/macrophage lineage. Three experimental approaches have been taken by our group to potentially mitigate the adverse biological sequela of particle disease. These include: 1) interfering with ongoing migration of monocyte/macrophages to the implant site by inhibiting the chemokine system 2) altering the functional activities of local macrophages by converting pro-inflammatory M1 macrophages to an anti-inflammatory pro-tissue healing M2 phenotype and 3) modulating the production and release of pro-inflammatory cytokines, chemokines and other potentially harmful factors by inhibiting the key transcription factor NFκB.Summary
Introduction
This work raises the potential of utilizing stem cells to catalyze cartilage regeneration by a minimal number of neonatal chondrocytes via controlling cell distribution in 3D matrices, and may solve the challenge of scarce donor availability associated with cell-based therapy. Cartilage loss is a leading cause of disability among adults and represents a huge socio-economical burden. Allogeneic neonatal articular chondrocytes (NChons) is a promising cell source for cartilage regeneration because these cells are highly proliferative, immune-privileged, and readily produce abundant cartilage matrix. However, scarce donor availability for NChons greatly hinders their broad clinical application. Besides their ability to differentiate into different tissue types, stem cells may contribute to tissue regeneration through the secretion of paracrine factors. Here we examined the potential for using a minimal number of NChons to catalyze cartilage tissue formation by co-culturing them with adipose-derived stem cells (ADSCs) in 3D biomimetic hydrogels.Summary Statement
Introduction
The surgical treatment options for patients who have sustained an intra-capsular hip fracture can vary depending on a number of patient and fracture related factors. Currently most national guidelines support the use of cemented prostheses for patient undergoing hemi-arthroplasty surgery. Uncemented prostheses are commonly used for a variety of indications including those patients who have significant medical co-morbidities. To determine whether cemented hemi-arthroplasty is associated with a higher post operative mortality when compared to uncemented procedures. Data was extracted from the Scottish SMR01 database from 01/04/1997 from all patients who were admitted to hospital after sustaining a hip fracture. We investigated mortality at day 1, 2, 4, 7, 30, 120 and 1 year from surgery vs. that on day 0. In order to control for the effects of confounding variables between patients cohorts, 12 case-mix variable were used to construct a multivariable logistic regression analysis model to determine the independent effect of prosthesis fixation method. There were 64,979 patients were included in the study. Mortality for osteosynthesis of extra-capsular fractures was consistently lower when compared to that for surgical procedures for intra-capsular fractures. At day 0, uncemented hemi-arthroplasty operations had a lower associated mortality (p<0.001) when compared to cemented implant designs. Unadjusted figures showed an increased mortality equal to 1 extra death per 424 procedures. By day 1 this had become 1 extra death per 338 procedures. By day 7 cumulative mortality was less for cemented than for uncemented procedures though this did not reach significance until day 120. When compared to uncemented fixation techniques, cemented hemiarthroplasty is associated with a higher mortality in the immediate postoperative period. However, by day 120 and beyond the trend is reversed.
The surgical treatment options for patients who have sustained an intra-capsular hip fracture can vary depending on a number of patient and fracture related factors. Currently most national guidelines support the use of cemented prostheses for patient undergoing hemiarthroplasty surgery. Uncemented prostheses are commonly used for a variety of indications including those patients who have significant medical co-morbidities. To determine whether cemented hemiarthroplasty is associated with a higher post operative mortality when compared to uncemented procedures. Data were extracted from the Scottish SMR01 database from 01/04/1997 from all patients who were admitted to hospital after sustaining a hip fracture. We investigated mortality at day 1,2,4,7,30, 120 and 1 year from surgery vs. that on day 0. In order to control for the effects of confounding variables between patients cohorts, 12 case-mix variable were used to construct a multivariable logistic regression analysis model to determine the independent effect of prosthesis design. There were 52283 patients included in the study. Mortality for osteosynthesis of extra-capsular fractures was consistently lower when compared to that for surgical procedures for intra-capsular fractures. At day 0, uncemented hemiarthroplasty had a lower associated mortality (p<0.001) when compared to cemented implant designs. However, this increased mortality was equal to 1 extra death per 2000 procedures. From day 1 onward mortality for cemented procedures was equal to or lower than that of uncemented. By day 4, cumulative mortality was less for cemented than for uncemented procedures. Complication and re-operation rate was significantly higher in the uncemented cohort. The use of uncemented hemiarthroplasty for the treatment of intra-capsular hip fractures cannot be justified in terms of early/late post-operative mortality.
Delay to theatre after hip fracture is common in order to medically optimise the patient prior to surgery. The association between delay to surgery and mortality after hip fracture remains a contentious issue. We aimed to investigate how medical postponement, time to surgery and correction of medical abnormalities prior to surgery affect peri-operative mortality after hip fracture. From February to December 2007 prospective data was collected from all acute trauma units in Scotland relating to hip fracture patients' fitness for theatre, reasons for postponement of surgery and subsequent plans of action. The data-set recorded whether medical abnormalities were identified following criteria reported by McLaughlin et al. Survival at 30-days post-operation was used as primary outcome measure. Multivariable logistic regression models were used to control for differences in case-mix between patients. Data were available for 4284 patients. Patients postponed for medical reasons were less likely to survive to 30 days compared to patients who were not postponed (87% (122/947) versus 93% (3098/3337)). Survival also decreased as time to theatre increased - 92% of patients operated on during the same/next day vs. 89% of those operated on admission day four. However, after controlling for differences in case-mix variables and co-morbidities, neither variable significantly affected survival. We then analysed whether delaying surgery to resolve medical problems improved survival. Adjusted survival was not significantly different between those patients who had their medical problem resolved prior to surgery compared to those patients who were not postponed. Individuals who were postponed but did not have their clinical abnormality resolved prior to surgery had significantly lower adjusted 30 day survival. The possible benefits of postponement need to be weighed against prolonged discomfort and the possibility of developing other complications. Postponing patients who cannot be medically improved should be avoided.