Rabbit Model for Femoral Defect (FD)

Femoral Bone Defect

  • Product No.DSI840Rb01
  • Organism SpeciesOryctolagus cuniculus (Rabbit) Same name, Different species.
  • Prototype SpeciesHuman
  • SourceFemoral defect caused by surgery
  • Model Animal StrainsJapanese big white rabbit, male, 4 months, 2~3kg
  • Modeling GroupingModel group: femoral defect modeling; B positive control group: femoral defect modeling, using autogenous bone transplantation; test group: femoral defect modeling, biomaterial transplantation;
  • Modeling Period16w
  • Modeling Method1. femoral defect modeling
    Surgical procedures: after successful anesthesia, the rabbit hind leg knee joint was slightly flexed, skin was tightened, hair was removed, and 2.5% iodine was disinfected. Sterilize the surgical area with tincture of iodine and ethanol, and spread sterile towels. Avoiding the subcutaneous blood vessels, incise the skin, subcutaneous tissue and fascia obliquely. The incision is 2.0cm to expose the external femoral epicondyle, peel off the attached tendons, and expose the femoral shaft and femoral condyle metaphyseal line. The hand-held dental fracture drill with a diameter of 6mm drilled into a depth of about 1cm to remove bone and periosteum at the defect.

    2. Take autologous bone as graft material for positive control
    Procedures of autologous bone tissue sampling:At the center of the fifth lumbar spinous process, a dorsal midline incision of about 5.0cm was made. The skin and subcutaneous incision was made to expose the lumbar back fascia. First, the fascia and aponeurosis attached were cut from the inside to the outside along the bilateral iliac crest line. After careful separation of the iliac crest, the internal and external muscles of the iliac bone were separated from the inside to the outside periosteum. The size of each iliac bone wing was about 1.5cm × 2.0cm with a bone knife, and the incision was sutured intermittently. The ilium bone was made into 1mm×1 mm×15 mm single-sided cortical bone strip along the long axis. Autologous bone was collected from animals, and bone defect model was made 2 weeks after surgery.
  • ApplicationsDisease Model
  • Download n/a
  • UOM Each case
  • FOB US$ 400
    For more details, please contact local distributors!
  • Rabbit Model for Femoral Defect (FD) Packages (Simulation)
  • Rabbit Model for Femoral Defect (FD) Packages (Simulation)
  • DSI840Rb01.jpg Fig. Rabbit femur
  • Certificate ISO9001: 2008, ISO13485: 2003 Registered

Model Evaluation of the Rabbit Model for Femoral Defect (FD)

The detection points were divided into 4, 8 and 16 weeks after surgery
1. Imaging detection
DR digital X radiographs were performed 1 day before sampling (4, 8 and 16 weeks after surgery). According to the general healing and cortical connection scoring standards, the double-blind principle was used to evaluate the fracture healing in each group and perform imaging scores.
At the same time, the animal’s femoral tissue was detected by micro-CT at 16 weeks after the surgery to analyze the bone density and trabecular bone parameters to observe the repair effect.
2. Cadaver observation
Two animals were sacrificed at 4, 8 and 16 weeks after surgery, observing the degradation of the material and adhesion of surrounding tissues. The cadaver evaluation after sampling shall include the following contents:
a. Appearance description of the defect;
b. Appearance of bone around defect (e.g. presence of callus);
c. Appearance of surrounding bone (e.g. presence of osteophytes);
d.Description of the color and quantity of tissue at the repaired site (including surface appearance and structure), degree of implant integration.

Pathological Results of the Rabbit Model for Femoral Defect (FD)

MicrocT was used to detect femur, analyze BMD, Bone Coverage, trabecular Bone and other information.

The tissue of the bone defect area was cut as the specimen, fixed with 10% formalin or 4% formaldehyde at room temperature for 3 days, and the specimen was analyzed by HE staining after dehydration, embedding and hard tissue sectioning.Histological score was performed.

Histological observation: Osteoblasts, bone trabeculae, blood vessel formation and collagen fiber formation were observed by HE staining and masson, and the histological differences among each experimental group were compared.

Cytokines Level of the Rabbit Model for Femoral Defect (FD)

The new tissue samples were taken from the bone defect area and crushed under liquid nitrogen to extract total protein.
Western blotting was used to detect the expression of alkaline phosphatase (ALP), Runx2 and Osteoclacin.

Statistical Analysis of the Rabbit Model for Femoral Defect (FD)

SPSS software is used for statistical analysis, measurement data to mean ± standard deviation (x ±s), using t test and single factor analysis of variance for group comparison, P<0.05 indicates there was a significant difference, P<0.01 indicates there are very significant differences.

Related products

Catalog No. Organism species: Oryctolagus cuniculus (Rabbit) Applications (RESEARCH USE ONLY!)
DSI840Rb01 Rabbit Model for Femoral Defect (FD) Disease Model
TSI840Rb69 Rabbit Femur Tissue of Femoral Defect (FD) Paraffin slides for pathologic research: IHC,IF and HE,Masson and other stainings
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