The ability of the body to constantly maintain metabolism homeostasis while fulling the heightened energy and macromolecule demand is crucial to ensure successful tissue healing outcomes. Studies investigating the local metabolic environment during healing are scarce to date. Here, using Type 2 Diabetes (T2D) as a study model, we investigate the impact of metabolism dysregulation on scaffold-guided large-volume bone regeneration. Our study treated wild-type or T2D rats with 5 mm critical-sized femoral defects with 3D-printed polycaprolactone (PCL) scaffolds with 70% porosity. Metabolomics was leveraged for a holistic view of metabolism alteration as healing progress and correlated to regenerated bone tissue volume and quality assessed using micro-computed tomography (µ-CT), histology, and immunohistology. Semi-targeted metabolomics analysis indicated dysregulation in the glycolysis and TCA cycle – the main energy production pathways, in T2D compared to healthy animals. The abundance of metabolites substrates, i.e., amino acids – for protein/ extracellular matrix synthesis was also affected in T2D. Tissue-level metabolites observations aligned with morphological observation with less newly formed bone observed in T2D than wild-type rats. This study enlightens the metabolism landscape during scaffold-guided large-volume bone regeneration in wild-type vs. T2D to further guide the personalization of the scaffold to drive successful regeneration.
As the climate of medicine continues to change, physicians and healthcare administrations seek to improve both the quality of the care we provide patients, as well as reducing the cost at which we provide that care. Delivering value based care is of the utmost importance. The Perioperative Surgical Home (PSH) model is a multidisciplinary team approach to care that has shown success in reducing cost, length of stay, and admission to after care facilities. We sought to compare the results of total knee arthroplasty patients managed in the PSH rapid recovery model, to patients managed in a more traditional fashion. We compared 451 patients managed in the PSH model from January 1 to December 31, 2015 to 453 patients managed in a more traditional fashion from January 1 to December 31, 2014.BACKGROUND
METHODS
The Perioperative Surgical Home (PSH) is a physician-led, patient centered, rapid recovery care delivery model that includes multi-specialty care teams and cost-efficient use of resources developed to deliver patient centered value based care. The purpose of this study was to compare a group of patients undergoing primary total hip arthroplasty (THA) managed in the PSH model to a matched group managed in a more traditional fashion with respect to clinical outcomes, complications, and costs. We prospectively followed the first 180 THA patients from the PSH group, comparing them to a group matched for age, Body Mass Index (BMI), American Society of Anesthesiologists (ASA) Score, and Charlson Comorbidity Index (CCI) that was treated prior to implementation of the PSH. A combination of regional anesthesia and multi-modal pain control was used to minimize patient narcotic consumption. There was a rapid de-escalation of care post-operatively. Weekly multi disciplinary meetings were held where advanced discharge planning was discussed and we evaluated successes and areas of improvement of the prior week in an effort to continuously improve. We used Wilcoxon, Chi square, and multivariate regression analysis to compare the groups for length of stay (LOS), total direct cost (TDC), complications, 30-day readmissions, and discharge location.Background
Methods
The Perioperative Surgical Home (PSH) is a multi-disciplinary rapid recovery pathway aimed at transforming surgical care by delivering value and improving outcomes and patient satisfaction. Our institution developed a PSH pathway for total hip arthroplasty (THA) patients in March 2014. The Orthopaedic and Anesthesia Services co-managed the patients throughout the entire surgical process. Weekly meetings were held to discuss medical and social requirements for upcoming patients including disposition planning. All patients received day of surgery physical therapy, and anesthesia post-surgical pain control and medical co-management. We hypothesized that the PSH would provide enhanced care for THA patients. To our knowledge this is the first report on the PSH in a total joint population We prospectively followed 180 THA patients from the PSH group (SH) and compared them to a group matched for age, body mass index (BMI), American society of anesthesiologist score (ASA), and Charleson comorbidity index score (CCI) that were not involved in the PSH (NSH). We used Wilcoxon, Chi square, and multivariate analysis to compare the groups for length of stay (LOS), total direct cost (TDC), complications, readmissions at 30 days, and discharge disposition location.Background
Methods
There were no significant differences between the three BMI groups and post-operative complications (p = 0.7), patient satisfaction (p=0.1) or pain levels (p=0.7) at 1-year post-TKA. As has been demonstrated previously, increasing BMI negatively influenced post operative walking frequency (p=0.02)