clavata as a valuable tool
for bioindicators of habitat damage.”
“Objective: To review functional results and quality of life of the first patients implanted with a newly introduced bone conduction implant system. Study Design: Retrospective chart analysis of 6 patients (6 ears) implanted for conductive hearing loss (CHL) and mixed hearing loss (MHL) in 1 tertiary referral center between July 2012 and February 2013. Methods: Implantation of a new bone conduction hearing device. Pure tone audiometry (air conduction and bone conduction thresholds, pure tone average, air-bone gap, and functional gain), speech audiometry (Freiburg Monosyllabic Test), intraoperative and postoperative complication rate, and patient satisfaction (Glasgow benefit AG-014699 ic50 inventory
[GBI]) were assessed. Results: Air-conduction pure tone average (PTA) was 58.8 +/- 8.2 dB HL. Unaided average air-bone gap (ABG) was 33.3 SYN-117 +/- 6.2 dB. Aided air-conduction PTA in sound field was 25.2 +/- 5.1 dB HL. Aided average ABG was -0.3 +/- 7.3 dB. Average functional gain was 33.6 +/- 7.2 dB. Mean improvement of GBI was +36.1. No intraoperative complications occurred. During a follow-up period of 8.5 +/- 2.2 months, no device failure and no need for revision surgery occurred. Conclusion: Audiometric results of the new bone conduction hearing system are satisfying and comparable to the results of devices that have been applied previously for CHL and MHL. Intraoperatively and postoperatively, no complications were noted. Level of Evidence: 4 (Individual retrospective cohort EPZ5676 cost study) Level of Evidence: 4 (Individual retrospective cohort study)”
“The scarcity of bone marrow mesenchymal stromal cells (BMSCs) prompts the search for alternative sources for cell-based bone defects repair. Human dermal fibroblasts (FBs) have been
shown to have a high proliferative potential and the capacity to differentiate into an osteogenic phenotype. The easy and repeated harvest in large quantities makes this cell source a potential candidate for bone tissue engineering. The aim of our study was to compare directly the immune phenotype, proliferative capacity and osteogenic differentiation potential of FBs with that of “gold standard” BMSCs or adipose-derived mesenchymal stromal cells (ADSCs), another alternative osteoprogenitor cell source. Flow cytometry demonstrated that FBs, ADSCs and BMSCs shared common cell surface marker protein expression profiles when using a panel of surface antigens. FBs had the highest proliferative potential, but lowest osteogenic differentiation potential in vitro, compared with ADSCs or BMSCs. More importantly, BMPR-IB(+)-sorted FBs subpopulation had a higher osteogenic differentiation potential than BMPR-IB(-)-sorted FBs subpopulation. Our results indicated that the heterogeneous FBs were not an appropriate cell source for bone tissue engineering.