InnoModels Biotechnology 3D Organoid Platform: Key Functions Explained
- Categories:Company news
- Author:InnoModels
- Origin:InnoModels
- Time of issue:2024-07-12 15:21
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(Summary description)In the vast ocean of drug discovery and development, scientists are always looking for a tool that can more accurately predict the efficacy of drugs, reduce the cost of research and development, and increase the success rate. The 3D organoid platform is such a cutting-edge biological research tool, which plays a crucial role in the field of new drug development with its unique advantages.
InnoModels Biotechnology 3D Organoid Platform: Key Functions Explained
(Summary description)In the vast ocean of drug discovery and development, scientists are always looking for a tool that can more accurately predict the efficacy of drugs, reduce the cost of research and development, and increase the success rate. The 3D organoid platform is such a cutting-edge biological research tool, which plays a crucial role in the field of new drug development with its unique advantages.
- Categories:Company news
- Author:InnoModels
- Origin:InnoModels
- Time of issue:2024-07-12 15:21
- Views:
In the vast ocean of drug discovery and development, scientists are always looking for a tool that can more accurately predict the efficacy of drugs, reduce the cost of research and development, and increase the success rate. The 3D organoid platform is such a cutting-edge biological research tool, which plays a crucial role in the field of new drug development with its unique advantages.
Introduction of the 3D Organoid Platform:
The 3D organoid platform is based on the innovative technology of the InnoModels Biotechnology Clinical Tumor Biospecimen Library, which shares the same set of models with the PDC (In Vitro Drug Detection Platform) and PDX (Patient-Derived Xenograft Models) platforms, providing a seamless connection to the entire process of new drug discovery and development. From in vitro high-throughput screening to in vivo studies, this platform maintains the continuity of the model, ensuring the consistency and reliability of experimental data.
Key Features Explained:
1. Rapid prediction of drug efficacy
The 3D organoid platform can rapidly predict the effectiveness of drugs in the clinic and provide early feedback to researchers. By constructing 3D organoid models that are highly similar to human tissues, the platform can simulate the drug efficacy response in the human body, providing an important basis for new drug development.
2. Drug screening and optimization
The platform is able to screen out test drugs with higher development potential from alternative compounds and optimize the allocation of resources. In the early stage of drug development, the platform can help researchers quickly screen potential drug candidates, laying the foundation for subsequent in vivo studies.
3. Model Screening and Selection
Based on the response of the drug to the model, the 3D organoid platform can select the most adaptable model for subsequent in vivo experiments. This model screening function helps to ensure the accuracy and reliability of experimental data and improve the success rate of new drug development.
4. Comparison of drug efficacy and difference analysis
By comparing with counterpart drugs or clinical therapeutic drugs, the platform can visualize the differences in efficacy and effective models. This comparative analysis helps researchers to more accurately assess the efficacy and safety of drugs, providing strong support for drug marketing.
5. Disease specificity analysis
The platform can compare efficacy differences between different cancer model cohorts to determine the best indication for a drug. This disease-specific analysis helps provide targeted strategies for drug development to meet the needs of patients with different disease types.
6. Efficacy and resistance analysis
Based on efficacy data, the InnoModels Biotechnology 3D organoid platform can differentiate models into effective and resistant models. Further, based on the differences in genetic characteristics between models and before and after treatment, the platform can deeply explore the mechanism of drug action, providing powerful support for drug optimization and personalized treatment.
7. Biomarker discovery
By categorizing models according to their efficacy and analyzing the differences in genetic profiles of different groups based on histology, the platform aims to find biomarkers that can predict the efficacy of drugs. These biomarkers are expected to become an important tool for new drug development, helping doctors to more accurately predict patients' treatment effects.
Summary:
With its unique technical advantages and key functions, the 3D organoid platform of InnoModels Biotechnology plays an important role in the field of new drug development. The platform is capable of rapidly predicting drug efficacy, optimizing drug screening and configuration, selecting the most adapted models for in vivo studies, intuitively comparing differences in drug efficacy and disease-specific analysis, and discovering biomarkers. In the future, with the continuous advancement of technology and the expansion of applications, the 3D organoid platform of InnoModels will play an even more important role in the field of new drug research and development, and make greater contributions to the cause of human health.
- Tel 15010000264
- E-mail limy@imodels.tech
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InnoModels Biotechnology (Beijing) Co., Ltd.
TEL:15010000264 13810723384
Email:cndw@imodels.tec
Address:Building 14, Life Valley, Shuangying West Road, Changping District, Beijing
Chuangmo Biotechnology (Beijing) Co., Ltd. Beijing ICP 222*** 98-1 Website Construction: China Enterprise Power Beijing Second Branch Company