Please use this identifier to cite or link to this item: http://repositorio.cualtos.udg.mx:8080/jspui/handle/123456789/1285
Title: Molecular profiling of a simple rat model of open tibial fractures with hematoma and periosteum disruption
Authors: Villafan Bernal, Jose Rafael
Franco de la Torre, Lorenzo
Sandoval Rodríguez, Ana Soledad
Armendáriz Borunda, Juan Socorro
Alcalá Zermeño, Juan Luis
Cruz Ramos, José Alfonso
López Armas, Gabriela
Bastidas Ramírez, Blanca Estela
González Enríquez, Gracia Viviana
Collazo Guzmán, Emerson Armando
Martínez Portilla, Raigam Jafet
Sánchez Enríquez, Sergio
Keywords: open fracture
animal model
molecular characteristics
gene expression
bone proteins
osteoporosis
bone
osteocalcin
bone morphogenetic proteins
Issue Date: Nov-2016
Publisher: Spandidos Publications
Citation: Villafan Bernal JR, Franco de la Torre L, Sandoval Rodriguez AS, Armendariz Borunda J, Alcala Zermeño JL, Cruz Ramos JA, Lopez Armas G, Bastidas-Ramirez BE, González Enríquez GV, Collazo Guzman EA, Martinez Portilla RJ &, Sánchez Enríquez S. (2016). Molecular profiling of a simple rat model of open tibial fractures with hematoma and periosteum disruption. Experimental and Therapeutic Medicine, Vol 12 (5), 3261-3267 pp. DOI: 10.3892/etm.2016.3758
Series/Report no.: Experimental and Therapeutic Medicine;Vol. 12 (5): 3261-3267, 2016
Abstract: Abstract Bone fractures are a worldwide public health concern. Therefore, improving understanding of the bone healing process at a molecular level, which could lead to the discovery of potential therapeutic targets, is important. In the present study, a model of open tibial fractures with hematoma disruption, periosteal rupture and internal fixation in 6-month-old male Wistar rats was established, in order to identify expression patterns of key genes and their protein products throughout the bone healing process. A tibial shaft fracture was produced using the three‑point bending technique, the hematoma was drained through a 4‑mm incision on the medial aspect of the tibia and the fracture stabilized by inserting a needle into the medullary canal. Radiographs confirmed that the induced fractures were diaphyseal and this model was highly reproducible (kappa inter‑rater reliability, 0.82). Rats were sacrificed 5, 14, 21, 28 and 35 days post‑fracture to obtain samples for histological, immunohistochemical and molecular analysis. Expression of interleukin‑1β (Il‑1β), transforming growth factor‑β2 (Tgf‑β2), bone morphogenetic protein‑6 (Bmp‑6), bone morphogenetic protein‑7 (Bmp‑7) and bone γ‑carboxyglutamic acid‑containing protein (Bglap) genes was determined by reverse transcription quantitative polymerase chain reaction and protein expression was evaluated by immunohistochemistry, while histological examination allowed characterization of the bone repair process. Il‑1β showed a biphasic expression, peaking 5 and 28 days post‑fracture. Expression of Tgf‑β2, Bmp‑6 and Bmp‑7 was restricted to the period 21 days post‑fracture. Bglap expression increased gradually, peaking 21 days post‑fracture, although it was expressed in all evaluated stages. Protein expression corresponded with the increased expression of their corresponding genes. In conclusion, a clear and well‑defined expression pattern of the evaluated genes and proteins was observed, where their maximal expression correlated with their known participation in each stage of the bone healing process.
Description: Artículo
URI: http://repositorio.cualtos.udg.mx:8080/jspui/handle/123456789/1285
ISSN: 1792-0981 print
1792-1015 online
Appears in Collections:3209 Artículos

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