RESUMEN
A anquilose da articulação temporomandibular (ATM) é caracterizada pela união intracapsular do complexo disco-côndilo à superfície do osso temporal, podendo gerar restrição dos movimentos mandibulares e limitação de abertura bucal. São descritas ainda alterações como restrição da capacidade mastigatória, dificuldade de fonação e de uma adequada higiene bucal, além de dificuldade de interação social. O presente caso retrata um paciente feminino, 27 anos, com histórico de fratura de parassínfise e côndilo mandibular bilateral após trauma em 2014, evoluindo com anquilose da ATM direita, com abertura máxima de 13,27 mm. Para o tratamento do caso descrito, foi utilizado o acesso de Al-Kayat, coronoidectomia ipsilateral e ressecção de massa anquilótica em gap com interposição de retalho da fáscia do músculo temporal no lado direito. Após seis meses do procedimento cirúrgico, foi realizada uma nova tomografia da face na qual se observa ausência de lesões e de sinais de recidiva da anquilose e também foi observada a manutenção do espaço de lacuna feita pela ressecção óssea. O resultado satisfatório da técnica foi atribuído pela obtenção e estabilização de uma abertura bucal adequada, melhora da capacidade mastigatória e da fonação. Além do sucesso clínico, uma vantagem da técnica utilizada foi o baixo custo do procedimento por utilizar apenas interposição do músculo temporal sem uso de materiais aloplásticos. Além disso, a coronoidectomia ipsilateral associada foi suficiente para auxiliar na manutenção da abertura alcançada, não sendo necessária a coronoidectomia contralateral, o que minimizou o tempo operatório e a morbidade de mais um sítio cirúrgico acessado.
Ankylosis of the temporomandibular joint (TMJ) is characterized by the intracapsular union of the condyle- disc complex to the surface of the temporal bone, which can cause restriction of the mandibular movements and a limitation of a mouth opening. Alterations are also described as a restriction of masticatory capacity, difficulty in phonation and suitable oral hygiene, as well as difficulty in social interaction. A 27-year-old female patient with a bilateral history of parasymphysis and mandibular condyle fracture after a trauma in 2014, which evolved to an ankylosis of the right TMJ, with a maximum mouth opening of 13.27 mm. For the treatment of the described case, it was used the Al- Kayat approach, ipsilateral coronoidectomy and resection of the ankylotic mass in gap with interposition of temporalis muscle fascia flap on the right side. After six months of the surgical procedure, it was made a new computed tomography of the face in which it was possible to notice the absence of lesions and signs of recurrence of the ankylosis. It was also observed the maintenance of the gap space made by the bone resection. The satisfactory result of the technique was attributed to the achievement and stabilization of an adequate mouth opening, improved chewing ability and phonation. Besides the clinical success, an advantage of the technique used was the low cost of the procedure by using only temporal muscle interposition without the use of alloplastic materials. In addition, the associated ipsilateral coronoidectomy was sufficient to help maintaining the achieved mouth opening, and the contralateral coronoidectomy was not necessary, as a result it was minimized the surgical time and morbidity of one more accessed surgical site.
RESUMEN
Many biomaterials are used for Bone Morphogenetic Proteins (BMPs) delivery in bone tissue engineering. The BMP carrier system's primary function is to hold these growth factors at the wound's site for a prolonged time and provide initial support for cells to attach and elaborate the extracellular matrix for bone regeneration. This study aimed to evaluate the nanostructured carbonated hydroxyapatite microspheres (nCHA) as an rhBMP-2 carrier on rats calvaria. A total of fifteen male Wistar rats were randomly divided into three groups (n = 5): clot (control group), rhBMP-2 associated with collagen membrane (COL/rhBMP-2) or associated with the microspheres (nCHA/rhBMP-2). After 45 days, the calvaria defect samples were evaluated through histological, histomorphometric, and SR-µCT analyses to investigate new-formed bone and connective tissue volume densities. The descriptive histological analysis showed that nCHA/rhBMP-2 improved bone formation compared to other groups. These results were confirmed by histomorphometric and SR-µCT analysis that showed substantially defect area filling with a higher percentage of newly formed (36.24 ± 6.68) bone than those with the COL/rhBMP-2 (0.42 ± 0.40) and Clot (3.84 ± 4.57) (p < 0.05). The results showed that nCHA is an effective carrier for rhBMP-2 encouraging bone healing and an efficient alternative to collagen membrane for rhBMP-2 delivery.
RESUMEN
This study's aim was to evaluate the biocompatibility and bioabsorption of a new membrane for guided bone regeneration (polylactic-co-glycolic acid associated with hydroxyapatite and ß-tricalcium phosphate) with three thicknesses (200, 500, and 700 µm) implanted in mice subcutaneously. Scanning electron microscopy, X-ray diffraction, Fourier transform infrared spectroscopy, and the quantification of carbon, hydrogen and nitrogen were used to characterize the physico-chemical properties. One hundred Balb-C mice were divided into 5 experimental groups: Group 1-Sham (without implantation); Group 2-200 µm; Group 3-500 µm; Group 4-700 µm; and Group 5-Pratix®. Each group was subdivided into four experimental periods (7, 30, 60 and 90 days). Samples were collected and processed for histological and histomorphometrical evaluation. The membranes showed no moderate or severe tissue reactions during the experimental periods studied. The 500-µm membrane showed no tissue reaction during any experimental period. The 200-µm membrane began to exhibit fragmentation after 30 days, while the 500-µm and 700-µm membranes began fragmentation at 90 days. All membranes studied were biocompatible and the 500 µm membrane showed the best results for absorption and tissue reaction, indicating its potential for clinical guided bone regeneration.