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Evaluating the Efficacy of Tumor-targeted Antibody in vivo

immunotherapy immune checkpoint immune checkpoint genes

As the most frequently used animal model, mice have been widely applied in the evaluation of drug efficacy. However, the human immune checkpoint genes only share ~60% identity with their murine counterparts. Thus antibodies that recognize human proteins do not necessarily interact with murine proteins, making it inappropriate to use wild type mice for evaluating the in vivo efficacy of human-specific antibody. The humanized immune checkpoint mouse models (Immune-Hu models), which were independently developed by Shanghai Model Organisms Center, are ideal models to evaluate the efficacy of anti-tumor antibody therapy.

Integrated Service for Antibody Discovery from Target to PCC

Liver Cancer PDX Model

PDX PDX models Patient-derived Xenografts

Patient-derived Xenografts (PDX) are advanced preclinical oncology models for drug development. It offers a far better alternative for preclinical drug evaluation as compared to the conventional cell line-derived xenograft model.

Cancer Model

research on cancer cancer model mouse models of cancer

The laboratory mouse is widely considered as a valid and affordable model organism for studying human disease. Mouse models of cancer not only enable researchers to understand the genetic basis of tumor development in complicated and dynamic physiological systems, but also serve as irreplaceable tools for developing and testing new therapies.  Shanghai Model Organisms Center offers a variety of mouse models of cancer to meet the needs of both academic and industry partners.

Mouse models for cancer research

Tumor bearing Mouse DEN model PDX model CDX model

Shanghai Model Organisms Center provides multiple types of tumor-bearing mouse models for cancer research and drug efficacy testing, including cell line-derived xenograft model (CDX) and patient-derived xenograft model (PDX). While PDX models better reflect the heterogeneity and diversity of human cancers, CDX models allow researchers to advance their pre-clinical drug development in a cost- and time-efficient manner.

Why IL-2 Still Holds Promise in Therapeutics of Cancer and Autoimmunity

GEMM-Derived Allografts

Mouse Models Expedite the Elucidation of AD Pathogenesis

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