A novel controlled drug-delivery system for growth hormone applied to healing skin wounds in diabetic rats

Controlled release systems for drugs, hormones and growth factors can be particularly useful in tissue repair processes. These systems act as a biodegradable support containing the substance to be delivered, allowing their gradual release. In the past years, the local application of growth factors has acquired special relevance as a therapeutic option for use in subjects who show de cient tissue scarring, the hormone dose being the limiting factor for its success. In this study, the in vitro biocompatibility of a copolymer formed by vinylpyrrolidone and 2-hydroxyethyl methacrylate, used as an administration vehicle for hGH, was evaluated. The system was then tested in vivo in terms of its capacity for healing incisional wounds in healthy and diabetic rats. For the in vitro studies, polymer and hormone degradation rates were determined, and polymer biocompatibility was evaluated in broblast cultures. In the in vivo experiments, an incision was made in the back of the animals, and polymers discs with/ without hGH, were introduced in the aperture. Morphological, immunohistochemical and morphometric evaluations were performed on wound tissue specimens 3¿10 days after surgery. In vitro, the polymer was found to be biodegradable and showed no toxic effects on broblasts, the hormone being slowly released to the culture medium. In untreated diabetic rats, a delayed skin scarring and cell response were observed, compared to that noted in healthy animals. Skin closure, keratinisationand brosis occurred earlier in the presence of the polymer-hGH system. The use of this co-polymer as an administrationvehicle for hGH improves the wound scarring process in the pathological setting of diabetes

Bone marrow cells immunomagnetically selected for CD271+ antigen promote in vitro the repair of articular cartilage defects

[Abstract] Objective: The purposes of this project were to quantify the cells expressing the mesenchymal stem cell (MSC) marker CD271 in synovial membranes from human osteoarthritic (OA) and healthy joints, and to determine if those CD271 cells were involved in spontaneous human cartilage repair and were beneficial for the repair of human articular cartilage defects. Methods: The coexpression of CD44/CD271, CD90/CD271, and CD105/CD271 antigens was determined by immunofluorescence in OA and healthy synovial membranes and during spontaneous cartilage repair. Isolated MSCs from the bone marrow of four OA patients (mean age: 64 years) were magnetically separated into MSC CD271+ and MSC CD271 subsets. The separated cell subsets were then implanted into 2 mm focal defects of articular cartilage. These implants were cultured in chondrogenic differentiation medium supplemented with recombinant human transforming growth factor-beta3 for 8 weeks. The repair tissues were analyzed by histochemistry (hematoxylin–eosin and safranin O) and immunohistochemistry for collage types I and II. Results: Cells expressing the CD271 antigen were diffusely distributed in OA synovial membranes and localized in the subintimal zone in healthy synovial membranes. The number of cells expressing MSC markers was higher in OA synovial membranes than in synovia from healthy joints, corresponding to the highest level of coexpression of CD90/CD271 antigens (9.8% vs. 2.6%). Spontaneous repair tissue showed more cells expressing the CD271 antigen (9.9% ± 4.0%). The highest levels of expression were found to be associated with CD44; 64% of positive CD271 cells coexpressed the CD44 antigen. In both implant cell types, the repair tissue morphology resembled articular cartilage, having an extracellular matrix with a hyaline aspect and numerous lacunae containing cells, and was immunopositive for collagen types I and II. Statistical analyses of the repair tissue demonstrated that the implantation of MSC CD271+ provided such benefits as a greater filling of the chondral defect and better integration between the repair tissue and native cartilage. Safranin O staining of repair tissue was negative in implants of MSC CD271- but more positive in implants with MSC CD271+. The overall histologic score for CD271 implants was 9.5 ± 0.89 and 12.19 ± 1.01 for CD271+ implants. Conclusions: Synovial membranes from OA patients contain more cells expressing CD271 antigen than those from healthy joints, and spontaneous cartilage repair tissue contains cells positive for CD271 antigen. These data suggest the involvement of CD271 antigen in spontaneous cartilage repair and indicate that the cell subset MSC CD271+ provides higher quality chondral repair than the CD271- subset.Galicia. Consellería de Economía, Industria e Comercio; PGIDIT05SAN08PRGalicia. Consellería de Economía, Industria e Comercio; PGIDIT04PXIC91602PNGalicia. Consellería de Economía, Industria e Comercio; PGIDIT04PXIC91601PNInstituto de Salud Carlos III; FISCP03/00127Instituto de Salud Carlos III; FIS05/249

Quantification of cells expressing mesenchymal stem cell markers in healthy and osteoarthritic synovial membranes

[Abstract] Objective. To quantify cells expressing mesenchymal stem cell (MSC) markers in synovial mem- branes from human osteoarthritic (OA) and healthy joints. Methods. Synovial membranes from OA and healthy joints were digested with collagenase and the isolated cells were cultured. Synovial membrane-derived cells were phenotypically characterized for differentiation experiments using flow cytometry to detect the expression of mesenchymal markers (CD29, CD44, CD73, CD90, CD105, CD117, CD166, and STRO-1) and hematopoietic markers (CD34 and CD45). Chondrogenesis was assessed by staining for proteoglycans and collagen type II, adipogenesis by using a stain for lipids, and osteogenesis by detecting calcium deposits. Coexpression of CD44, CD73, CD90, and CD105 was determined using immunofluorescence. Results. Cells expressing MSC markers were diffusely distributed in OA synovial membranes; in healthy synovial membrane these cells were localized in the subintimal zone. More numerous MSC markers in OA synovial membranes were observed in cells also expressing the CD90 antigen. FACS analysis showed that more than 90% of OA synovial membrane-derived cells were positive for CD44, CD73, and CD90, and negative for CD34 and CD45. OA synovial membrane-derived cells were also positive for CD29 (85.23%), CD117 (72.35%), CD105 (45.5%), and STRO-1 (49.46%). Micropellet analyses showed that the culture of cells with transforming growth factor-ß3 stimulated proteoglycan and collagen type II synthesis. Conclusion. Synovial membranes from patients with OA contain more cells positive for CD44, CD90, and CD105 antigens than those from joints with undamaged cartilage

La clase invertida en el Grado de Medicina: el uso de minivídeos

En los últimos años, se han descrito numerosas experiencias que detallan los efectos beneficiosos del uso de La metodología flipped classroom (clase al revés, aula invertida o flipped learning model) en la enseñanza universitaria. Por ello, un grupo de profesores de la Facultad de Medicina (Universidad Complutense de Madrid, UCM) y un médico del Servicio de Medicina Intensiva del Hospital Clínico San Carlos diseñaron y utilizaron distintos mini-vídeos como material audiovisual en la docencia de algunos temas de la asignatura de Bioquímica Humana mediante el enfoque pedagógico de la clase invertida. Tras su uso en el aula, los estudiantes manifestaron un alto grado de satisfacción por la incorporación de esta metodología en los seminarios que se imparten en esta asignatura del Grado de Medicina

Motivating and Engaging Undergraduate Students through Adaptive Flipped Classroom, Gamification, and Electronic Portfolio for Responsible, Reflective, and Autonomous Learning

Sección Deptal. de Biología Celular (Medicina)Depto. de EnfermeríaFac. de MedicinaFac. de Enfermería, Fisioterapia y PodologíaFALSEsubmitte