Animals
Forty-eight skeletally-mature, male or female New Zealand white rabbits, weighing 2.5-3.0 kg (Mean 2.7±0.2), were included in the study. The animals were transferred to the experimental animal center of Zunyi medical University at least a week before surgery and kept in separate cages in order to help them adapt to the new environment as well as to ensure their health. This study was performed in accordance with the regulations of the Animal Management Regulations and Administrative Measures on Experimental Animal.
Establishment of rabbit fracture model
Forty-eight healthy rabbits were used to establish fracture models by the following surgery under aseptic condition. All rabbits were randomly selected and placed in the supine position, and their submandibular region was prepared individually. They were anesthetized with an ear vein injection of 3% pelltobarbitalum natricum (1 ml/kg body weight), and 2% lidocaine (2 mL) was then injected for intensive local anesthesia. After submandibular incision and dissection of the periosteum, the both side of the mandible anterior to the masseter muscle was exposed by blunt and sharp dissection, and neurovascular bundle of mandible was transected. Then, incomplete fractures (about 5 mm×2 mm) were made in front of the mental foramen of the mandible through the buccal and lingual using diamond burs, and the zone was fully rinsed and cooled by physiological saline at the same time. All fracture models need no reduction and fixation.
Experimental groups
Forty-eight New Zealand white rabbits were randomly assigned to nerve growth factor group (NGF group), gelatin sponge group (GS group), blank group and intact group with 12 rabbits in each group. In the NGF group, the mental neurovascular bundle was cut off and implanted nerve growth factor with gelatin sponge as the carrier. The mental neurovascular bundle was cut off and implanted normal saline with gelatin sponge as the carrier in the GS group. The mental neurovascular bundle was cut off without implanting material serving as the blank group. The intact group retained the neurovascular bundle intact and no material was implanted.
Postoperative care
After the rabbits were fully awakened from the operation, they were returned to separate cages and acupuncture lower lip response was performed on the same day. Penicillin (0.4 million units) was administered to each rabbit intramuscularly twice a day for three days. Before the stitches were removed on the 7th day, the wound was cleaned and the healing status was observed every day.
Visual observation and X-ray inspection of the fracture zone
At the 2th, 4th, 6th and 8th weeks after the operation, three animals in each group were sacrificed and performed to observe and compare fracture healing using Cone-beam computed tomography systems (CBCT). The operated mandible of each executed rabbit was dissected subperiosteally and observed the formation of callus in the fracture area using visual.
Histological observation
Callus tissue in mandibular fracture area was collected using rongeur, rinsed in physiological saline and then immediately put in 10% neutral buffered formalin fixative for 48 hours. Subsequently, samples were rinsed in running tap water for ten minutes and incubated with 10% EDTA (pH=7.2). The decalcifying solutions were changed every three days until the decalcification was completed. The decalcifcation process was finished when thespecimen was easily penetrated through by a needle without any force. Next, samples were washed in 0.01 M PBS for ten minutes and then followed by routine dehydration and paraffin embedding. The paraffin wrapped tissues were cut into 4 µm sections using a Leica microtome (Leica, Germany). The tissue sections were soaked by xylene solution for two times with twenty minutes to dewax the sections, and then soaked in 100%, 95%, 80% and 75% alcohol for 5 min, and finally rinsed in running tap water.
After deparaffinization and rehydration, the sections were stained with hematoxylin dye for five minutes and then rinsed in running tap water. Soak the sections with 100%, 95%, 80% and 75% alcohol to dehydrate the sections. The sections were soaked in xylene until the sections were clear, and then the tablet was sealed. Finally, the pathological changes of callus tissue were observed and photographed using an Olympus BX53 fluorescence microscope (Tokyo, Japan).
RNA extraction and quantitative real-time PCR
For RNA extraction, callus tissue in mandibular fracture area was collected using rongeur, and immediately frozen in liquid nitrogen. The frozen tissue was ground to a fine powder in liquid nitrogen using a freezer mill (Bone Mill; SPEX CertiPrep, Metuchen, NJ, USA). Total RNA was extracted using the RNeasy Mini Kit (Qiagen, Hilden, Germany), according to the manufacturer’s instruction. The quantity, degradation and contamination of total RNA were assessed using a NanoDrop 2000 spectrophotometer (Thermo Scientific, Waltham, MA, USA) and 1% agarose gel electrophoresis, respectively.
RNAs were reverse-transcribed by oligo (dT) primer using the ThermoScriptTM RT–PCR system (Invitrogen, Carlsbad, CA, USA). Quantitative RT-PCR analysis was carried out using an ABI PRISM7300 Fast Real-Time PCR System (Applied Biosystems, Foster City, CA, USA). The published sequences of BMP-9, VEGF and GAPDH were obtained from GeneBank and these oligonucleotide primers for the rabbit-specific genes were designed using the Primer Express Software (Applied Biosystems), as shown in Table 1. GAPDH, a constitutively-expressed housekeeping gene, was used as control gene, and all gene expression data was calibrated to those for GAPDH. Gene expression quantitation was calculated with the comparative cross-threshold (Ct) method. The difference between the average Ct value of the gene of target and the GAPDH were expressed as (ΔCt), and ∆∆Ct equals to the difference between the ΔCt and the Ct value of the calibrator sample. The 2-ΔΔCt gave the relative quantitation value of gene expression.
Statistical analysis
The descriptive values for BMP-9 and VEGF in different periods in the NGF group, GS group, blank group and intact group were presented in mean and standard deviations. The statistical analysis was analyzed with SPSS 20.0, (IBM, Armonk, NY, USA). Statistical differences among groups were detected by one-way ANOVA followed by Bonferroni’s multiple comparison test. A p-value of <0.05 was considered statistically significant.