Classificação morfofuncional dos dentes de saguis-de-tufo-branco (Callithrix jacchus, Callitrichidae), saguis-de-tufo-preto (C. penicillata) e saguis-de-cara-branca (C. geoffroyi) / Morphofunctional classification of teeth of marmosets-tufted white (Callithrix jacchus, Callitrichidae), marmosets-tufted black (C. penicillata), and marmosets white-face (C. geoffroyi)

A study was conducted to analyze the morphology of the teeth of white-tufted-ear-marmoset (C. jacchus) black-tufted-ear-marmoset (C. penicillata) and marmosets-white-faced (C. geoffroyi), to compare them among themselves and with other species described in the literature. Teeth of the three species were submitted to macroscopic, microscopic and ultrastructural analyzes. The results were correlated with those of other species. We concluded that: the three species have a similar dental formula, reaching a total of 32 teeth, expressed in the formula 2x: incisors 2/2; canines 1/1, pre-molars 3/3 and molars 2/2, ich are classified as diplodont, anelodont, bunodont and brachyodont.

Realizou-se um estudo para analisar morfologicamente os dentes do saguis-de-tufo-branco (C. jacchus), saguis-de-tufo-preto (C. penicillata) e saguis-de-cara-branca (C. geoffroyi), para compara-los entre si e com outras espécies já descritas na literatura. Utilizou-se dentes das três espécies para analises macroscópicas, microscópicas e ultraestrutural e os resultados correlacionados com os obtidos com outras espécies citadas na literatura. Chegou-se a conclusão de que: as três espécies apresentaram uma fórmula dentária idêntica, chegando a um total de 32 dentes, expressa na fórmula 2x: incisivos 2/2; caninos 1/1; pré-molares 3/3 e molares 2/2, estes são classificados como diplodontes, anelodontes, bunodontes, e braquiodontes.

Mesenchymal stem cells: emphasis in adipose tissue

The study of stem cells has evolved rapidly in recent decades. The importance is given to the concept that these cells are potentially able to become any cell type and have the power of self-renewal throughout the life of the organism. Mesenchymal stem cells (MSCs) can be isolated from various organs of the body such as bone marrow, adipose tissue, synovium, muscle and dermis, deciduous teeth, umbilical cord, placenta, liver, spleen and thymus. After their isolation in vitro, mesenchymal stem cells have the capacity to differentiate into various mesenchymal lineages and various tissues after the use of appropriate cultures. Studies have reported that mesenchymal stem cells from adipose tissue have the potential to differentiate themselves, like the cells commonly studied bone marrow. Adipose tissue is attractive due to its easy access, rapid expansion in vitro and only one collects the large amount of tissue. This review intends to show the protocols for isolation, cell culture and means of commercial cellular differentiation most widely used with emphasis on adipose tissue.