Zebrafish Regeneration Model Service Based on Tail Fin Amputation Technique

STEMart offers a cutting-edge Zebrafish Regeneration Model Service based on the tail fin amputation technique, providing a robust platform for studying tissue regeneration and wound healing. Zebrafish have a remarkable ability to regenerate various tissues, making them an ideal model for exploring regenerative biology and identifying therapeutic targets for regenerative medicine. Our laboratory is equipped with advanced imaging and monitoring systems to study the regeneration process in real-time, offering high-resolution insights into tissue recovery and regrowth.

The tail fin amputation technique involves the precise removal of a portion of the zebrafish’s caudal fin, followed by the observation of regeneration over time. This method allows for the study of molecular, genetic, and cellular mechanisms driving tissue regeneration. It is widely applied in developmental biology, tissue engineering, and regenerative medicine research to understand how regenerative processes are regulated and to identify factors that can enhance or inhibit regeneration.

Leveraging our expertise in zebrafish models and regenerative biology, we offer a comprehensive range of services to support research on tissue repair and regeneration. From investigating gene expression during regeneration to testing the effects of pharmaceuticals on the regenerative process, our zebrafish regeneration model service is designed to provide reliable, high-quality data for your research needs.

What We Offer

• Tissue Regeneration Monitoring Service

Real-time observation and analysis of tissue regeneration in zebrafish following tail fin amputation, providing detailed insights into the stages of tissue repair.

• Gene Expression Analysis During Regeneration

Investigation of gene expression changes during the regeneration process, using advanced molecular biology techniques to identify key genes involved in tissue repair.

• Pharmaceutical Testing on Regeneration

Evaluation of drug effects on tissue regeneration, allowing for the identification of compounds that enhance or inhibit the regenerative process.

• Wound Healing and Inflammation Studies

Analysis of the inflammatory response and wound healing mechanisms during tail fin regeneration, offering insights into the broader implications for regenerative medicine.

Why Choose Us

• High-Resolution Imaging

Our advanced imaging systems enable real-time, high-resolution monitoring of the entire regeneration process, from wound healing to complete tissue regrowth.

• Comprehensive Regenerative Analysis

We provide in-depth analysis of the regenerative process, including gene expression, cellular dynamics, and tissue architecture recovery.

• Expertise in Regenerative Biology

Our team of experts has extensive experience in zebrafish models and regenerative biology, offering full support from study design to data interpretation.

Our Resources

Fluorescent Imaging System (Zeiss Axio Observer)

The Zeiss Axio Observer enables high-resolution, real-time imaging of zebrafish tissue regeneration, providing clear visualization of cell activity and tissue regrowth.

Microdissection System (Fine Science Tools Microdissection Kit)

This precision microdissection system allows for accurate and reproducible tail fin amputations, ensuring consistent results for regeneration studies.

Zebrafish Embryo Incubator (Pentair Aquatic Habitats)

Our incubator ensures optimal environmental conditions for zebrafish maintenance and regeneration studies, providing a controlled environment for reliable data collection.

STEMart provides high-quality animal model services tailored to meet the specific needs of our clients. Our team of experienced specialists utilizes cutting-edge equipment and adheres to rigorous quality control protocols, ensuring precise and dependable results. Contact us to learn more about our animal model services and how we can help you achieve your research goals.