Células-tronco em odontologia Stem cells in Dentistry

INTRODUÇÃO: existe um grande interesse no desenvolvimento de técnicas para a manipulação de células-tronco, no intuito de instituirem-se tratamentos restauradores de tecidos e órgãos. Para que a bioengenharia seja eficaz, faz-se necessária a presença de três fatores: as próprias células-tronco, uma matriz extracelular e fatores de crescimento. Existem inúmeros fatores de crescimento envolvidos no desenvolvimento do órgão dentário. Por isso pesquisadores ainda não foram capazes de formar um órgão completo, embora existam diversos estudos evidenciando a formação de esmalte e dentina a partir de células-tronco isoladas da polpa dentária. Recentemente, também foram isoladas células-tronco da polpa dos dentes decíduos. Sabe-se que estas células são altamente proliferativas, sendo de grande importância para o cirurgião-dentista o conhecimento do seu comportamento biológico e técnicas de obtenção. OBJETIVO: este estudo teve como objetivo realizar uma revisão de literatura acerca das atuais tendências das pesquisas com células-tronco na Odontologia, além de discorrer sobre os fatores implicados para o sucesso na utilização prática dessas células.<br>INTRODUCTION: there is great interest in developing techniques for manipulation of stem cells for the use in restoring organs and tissues. The effectiveness of bioengineering is based on the existence of stem cells, an extra cellular matrix and growth factors. Innumerous growth factors are involved in the development of dental organs, and this complexity of factors makes it extremely difficult to grow a complete organ, even though there are multiple essays reporting the formation of enamel and dentin from isolated stem cell, originating from dental pulp tissues. More recently, deciduous teeth have been used to extract stem cells from their pulp tissues. We know that these cells are highly proliferate. The recognition of the biological behavior of these cells and techniques used to isolate them is of great interest to dentists. AIM: the aim of this study was to review the current trends of research with stem cells in Dentistry and the factors implied for their practical and successful use

Synovial Joints: from Development to Homeostasis

Synovial joint morphogenesis occurs through the condensation of mesenchymal cells into a non-cartilaginous region known as interzone, and the specification of progenitor cells that commit to the articular fate. Although several signaling molecules are expressed by the interzone, the mechanism is poorly understood. For treatments of cartilage injuries, it is critical to discover the presence of joint progenitor cells in adult tissues and their expression gene pattern. Potential stem cells niches have been found in different joint regions, such as the surface zone of articular cartilage, synovium and groove of Ranvier. Inherited joint malformation as well as joint degenerating conditions are often associated with other skeletal defects, and may be seen as the failure of morphogenic factors to establish the correct microenvironment in cartilage and bone. Therefore, exploring how joints form can help us understand how cartilage and bone are damaged and to develop drugs to reactivate this developing mechanism