ABSTRACT
Introducción: La grasa infrapatelar de Hoffa es una inclusión infraarticular presente en la rodilla y existen evidencias que células multipotentes están presentes en tejido adiposo del humano adulto. Objetivo: El propósito de este trabajo es aislar e identificar células mesenquimales a partir de muestras de la grasa de Hoffa tomadas de pacientes a los que se les practicó cirugía de rodilla que expongan este tejido. Metodología: Una vez obtenido el consentimiento informado de un total de 12 pacientes, se obtuvo la muestra de tejido graso. La grasa fue disgregada incubándola en colagenasa en PBS a 37ºC y con agitación, luego se inactivó con suero fetal bovino, se separaron mediante centrifugación los adipocitos maduros de las células multipotentes y se obtuvieron las muestras para sembrar en medio Mesencult. Una porción de muestra fue utilizada para identificación mediante citometría de flujo y otra parte para ser coloreada con azul de metileno. Resultados y Discusión: Tanto en las tinciones con azul de metileno como en los cultivos celulares se han apreciado células con la morfología propia de una célula mesenquimal en forma de estrella y que fueron corroborados mediante citometría de flujo para los marcadores CD13, CD29, CD59 y CD105; igualmente hemos podido observar la efectividad del tratamiento enzimático. Conclusiones: En la actualidad nos encontramos consolidando los cultivos primarios para posteriormente diferenciarlos en líneas celulares específicas que puedan ser utilizadas en estudios de patologías, tales como obesidad, diabetes y trastornos articulares...
Introduction: The infrapatellar fat pad (sometimes know Hoffa's pad) is a soft tissue that lies beneath the patella (kneecap) separating it from the femoral condyle. There is evidence suggesting the presence of stem cells on adipose tissue in the adult human. Objective: The purpose of this work is to isolate and identify grown stem cells from Hoffa's fat samples obtained from patients undergoing surgeries exposing this tissue. Materials and Methods: After obtaining informed consent, the biopsy of Hoff's fat pad was obtained. The samples were incubated with collagenase and PBS a 37ºC and agitated, then it was inactivated with fetal bovine serum and centrifuged, washed twice with PBS, the pellet was resuspended and one part was cultivated on Mesencult medium the other part was used for flow cytometry and stained with methylene blue for morphologic analysis. Also before and after the enzyme digestion, the samples were added to 10% formaldehyde to evaluate the collagenase treatment. Results and analysis: The results show the effectiveness of the enzymatic treatment, the architecture of the adipose tissue was lost. The star shape stem cells morphology was appreciated with methylene blue in the cultures, it was corroborated by flow cytometry with CD13, CD29, CD59 and CD 105 markers. Conclusions: Primary cultures are consolidating, the next aim will be to obtain differentiated specific cell types that can be use in the study of obesity, diabetes and articular illnesses...
Subject(s)
Stem Cells , Fats , Cell Culture TechniquesABSTRACT
BACKGROUND: The majority of current portable orthotic devices and rehabilitative braces provide stability, apply precise pressure, or help maintain alignment of the joints with out the capability for real time monitoring of the patient's motions and forces and without the ability for real time adjustments of the applied forces and motions. Improved technology has allowed for advancements where these devices can be designed to apply a form of tension to resist motion of the joint. These devices induce quicker recovery and are more effective at restoring proper biomechanics and improving muscle function. However, their shortcoming is in their inability to be adjusted in real-time, which is the most ideal form of a device for rehabilitation. This introduces a second class of devices beyond passive orthotics. It is comprised of "active" or powered devices, and although more complicated in design, they are definitely the most versatile. An active or powered orthotic, usually employs some type of actuator(s). METHODS: In this paper we present several new advancements in the area of smart rehabilitation devices that have been developed by the Northeastern University Robotics and Mechatronics Laboratory. They are all compact, wearable and portable devices and boast re-programmable, real time computer controlled functions as the central theme behind their operation. The sensory information and computer control of the three described devices make for highly efficient and versatile systems that represent a whole new breed in wearable rehabilitation devices. Their applications range from active-assistive rehabilitation to resistance exercise and even have applications in gait training. The three devices described are: a transportable continuous passive motion elbow device, a wearable electro-rheological fluid based knee resistance device, and a wearable electrical stimulation and biofeedback knee device. RESULTS: Laboratory tests of the devices demonstrated that they were able to meet their design objectives. The prototypes of portable rehabilitation devices presented here did demonstrate that these concepts are capable of the performance their commercially available but non-portable counterparts exhibit. CONCLUSION: Smart, portable devices with the ability for real time monitoring and adjustment open a new era in rehabilitation where the recovery process could be dramatically improved.
