Mouse Model for Tumor Transplantation (TT)

Transplanted tumors

FOR IN VITRO AND RESEARCH USE ONLY, NOT FOR USE IN CLINICAL DIAGNOSTIC PROCEDURES!
    • Product No.DSI530Mu01
    • Organism SpeciesMus musculus (Mouse)Same name, Different species.
    • Brand OwnerCLOUD-CLONE CORP.(CCC, USA)
    • ManufacturerCLOUD-CLONE CORP.(CCC, WUH)
    • Prototype SpeciesHuman
    • Sourceinduced by subcutaneously transplanted tumor cells
    • Model Animal StrainsBalb/c Nude Mice(SPF), healthy, male, age: 4~5weeks, bodyweight:15g~18g.
    • Modeling GroupingRandomly divided into six group: Control group, Model group, Positive drug group and Test drug group (three doses), n=15.
    • Modeling Period3W
    • Modeling Method1.Collect the logarithmic growth phase of esophageal cancer cell line( TE-1), wash with PBS, a total of 5 * l07 cell suspension per milliliter, inoculated subcutaneously in nude mice subcutaneous (0.2 ml/per mice) and then feed in the SPF environment.
      2. Regular observation of tumor growth in nude mice, and use vernier caliper to measure the tumor size and draw the tumor growth curve.
      3. About 21 days, mice were sacrificed and the tumor tissue removed in l0% formalin fixed, paraffin embedded sections, conventional HE staining and immunohistochemical staining.
    • ApplicationsDisease Model
    • Downloadn/a
    • FormatEach modeled animal
    • FOBUS$ 120
      For negotiated price and more details, please contact local distributors!
    • Mouse Model for Tumor Transplantation (TT)Packages (Simulation)
    • Mouse Model for Tumor Transplantation (TT)Packages (Simulation)
    • Mouse Model for Tumor Transplantation (TT)Fig 2. CD31 immunohistochemical staining in tumor tissue of model group (X200).
    • DSI530Mu01.pngFig 1. Transplanting TE-1 tumor cells into nude mice
    • CertificateISO9001: 2008, ISO13485: 2003 Registered

    Model Evaluation

    1. Cancer tumor growth:
    To observe the changes in tumor growth and build tumor growth curve: the size of tumor was measured 2 times per week, the tumor volume was calculated according to the formula, V=Π/6[(A+B)/2]^3 (A, B respectively for tumors of the long diameter and short diameter.

    Pathological Results

    2. HE staining:
    The tumor cells become false palisading, oval, irregular shape, cytoplasm stained red or violet red nucleus in violet or purple red, irregularly shaped, oval, unequal in size, clear membrane, chromatin with unequal thickness and deep staining. The tumor cells were arranged densely, unequal in size, uniform distribution of patchy; tumor tissue showed visible focal necrosis, visible cell debris and debris, a small amount of inflammatory cell infiltration, tumor and normal tissue but no clear demarcation, capsule formation.
    3. VEGF and CD31 immunohistochemical staining:
    VEGF-C and CD31 promote angiogenesis in angiogenesis. Immunohistochemistry results showed that VEGF-C and CD31 positive cells and positive vessels were expressed in tumor tissues

    Cytokines Level

    4. Fluorescent quantitative PCR (Q-PCR) detection:
    Take control of oesophagus and tumorigenic mouse tumor to make the Q-PCR detection, detection index: VEGF-C, Lymphatic vessel endothelial hyaluronan receptor 1(LYVE-1), GAPDH as reference.

    Statistical Analysis

    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.

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