Die Bedeutung von RUNX2 in der postnatalen Entwicklung des Kondylus

Zhao

BioMed Research International

et al. 2013

The purpose of this study is to investigate the spacial expression pattern and functional significance of three key transcription factors related to bone and cartilage formation, namely, Sox9, Runx2, and Osterix in cartilages during the late development of mouse mandible. Immunohistochemical examinations of Sox9, Runx2, and Osterix were conducted in the mandibular cartilages of the 15 neonatal C57BL/6N mice. In secondary cartilages, both Sox9 and Runx2 were weakly expressed in the polymorphic cell zone, strongly expressed in the flattened cell zone and throughout the entire hypertrophic cell zone. Similarly, both transcriptional factors were weakly expressed in the uncalcified Meckel's cartilage while strongly expressed in the rostral cartilage. Meanwhile, Osterix was at an extremely low level in cells of the flattened cell zone and the upper hypertrophic cell zone in secondary cartilages. Surprisingly, Osterix was intensely expressed in hypertrophic chondrocytes in the center of the uncalcified Meckel's cartilage while moderately expressed in part of hypertrophic chondrocytes in the rostral process. Consequently, it is suggested that Sox9 is a main and unique positive regulator in the hypertrophic differentiation process of mandibular secondary cartilages, in addition to Runx2. Furthermore, Osterix is likely responsible for phenotypic conversion of Meckel's chondrocytes during its degeneration.

Section: Introductionmentioning

confidence: 99%

An Immunohistochemistry Study of Sox9, Runx2, and Osterix Expression in the Mandibular Cartilages of Newborn Mouse

Zhao

BioMed Research International

et al. 2013

“…La mecanotrasducción es entendida como un evento molecular dinámico, donde las fuerzas mecánicas provenientes del medio, como un aparato de adelantamiento o un cambio de oclusión, se convierten en señales bioquímicas intracelulares debido a que producen una respuesta de adaptación celular en la matriz celular o hasta la misma expresión génica 71,72 . A nivel condilar la evidencia experimental disponible demuestra que el estrés mecánico constante e intermitente infiere en la capacidad de proliferación celular y la síntesis de matriz en el cartílago condilar 39,73 . Para que el estrés mecánico pueda generar un cambio en los patrones de proliferación y diferenciación celular establecidos es necesario que se produzca la transformación de una señal mecánica en un estímulo bioquímico, que se transmita a las células efectoras para que realicen su función 24,74 .…”

Section: Factor De Crecimiento Vascular Endotelial (Vegf)unclassified

Crecimiento del cartílago condilar. Una revisión de la literatura

Peláez

Murillo

Parada

2018

Odontol. sanmarquina

El cóndilo mandibular es un cartílago secundario caracterizado por su respuesta a cargas funcionales y mecánicas. Su estimulación repetida desencadena una serie de eventos que parecen aumentar el número de células mesenquimales de replicación. En esta revisión de la literatura se presentan los hallazgos fundamentales para comprender los factores que condicionan el crecimiento condilar. Se analizaron los siguientes tópicos asociados: embriología, influencia genética y ambiental, función como centro de crecimiento y la bioingeniería aplicada a este campo. Se evidenció en la literatura revisada que el cóndilo actúa como principal centro de crecimiento adaptativo regional y que la regulación del desarrollo está determinada por factores genéticos y epigenéticos que modifican la expresión de factores de transcripción y crecimiento.

“…In these cases, the maxilla may be characterized by reduced anterior and posterior height, and the palate may be high, narrow, and strongly arched [12]. In the mandible, parallel rami, narrow, distally rounded coronoid processes, and changes to the condyles have been described [13]. In addition, radiological assessments of the alveolar bone show a dense and compact structure [14].…”

Section: Introductionmentioning

confidence: 99%

Prosthetic rehabilitation of a patient with cleidocranial dysplasia using dental implants—a clinical report

2021

Self Cite

Adult patients with oral manifestations of untreated syndromic malformations usually exhibit a high degree of suffering. In this clinical report, we describe the implant-supported prosthetic treatment of a patient with cleidocranial dysplasia, a rare autosomal-dominant inherited malformation syndrome. Therapy for oral manifestations of cleidocranial dysplasia should be started in early childhood; however, the 26-year-old patient in the present study had not undergone orthodontic therapy in childhood. The treatment measures performed prior to this study were limited to the removal of several permanent teeth. Surgical pretreatment, placement of six implants each in the maxilla and mandible, and prosthetic restoration are described. The implantation was guided using a three-dimensional template. Long-term immediate temporary restoration and immediate loading of the implants were performed. The definitive prosthetic restoration was completed using fixed, acrylic resin-veneered screw-retained fixed dental prostheses. The clinical and radiological parameters observed in this case suggest that surgical and prosthetic procedure concepts from implantology can be adopted for patients with CCD.