Automatic Isolated Organ Bath
Introducing the Automatic Isolated Organ Bath, an advanced and versatile system designed for pharmacological research, physiological studies, and educational purposes in biomedical laboratories and academic institutions. This state-of-the-art apparatus provides researchers and educators with a comprehensive platform for studying isolated organ responses to pharmacological agents, physiological stimuli, and experimental interventions.
The Automatic Isolated Organ Bath features a precision-engineered bath chamber, temperature control system, perfusion pumps, tissue holders, and data acquisition software. It is specifically designed to maintain isolated organ preparations in a controlled environment, allowing for precise manipulation of physiological parameters and recording of tissue responses.
The bath chamber is constructed from durable and transparent materials, providing optimal visibility of the isolated organ during experiments. It includes a heating system and temperature sensors to maintain physiological temperatures, ensuring tissue viability and stability throughout the experimental procedure.
The perfusion pumps integrated into the system allow for continuous perfusion of oxygenated buffer or physiological solutions into the organ bath, mimicking in vivo conditions and facilitating the study of organ responses to various stimuli. The tissue holders and mounting systems enable secure positioning and stabilization of isolated organ preparations for consistent and reliable data acquisition.
The Automatic Isolated Organ Bath is equipped with user-friendly controls, intuitive software interfaces, and customizable settings for experiment design and data analysis. It offers real-time monitoring of physiological parameters such as contractile force, tension, pressure, and electrical activity, providing valuable insights into organ function and pharmacological effects.
Overall, the Automatic Isolated Organ Bath is an indispensable tool for researchers, pharmacologists, physiologists, and educators involved in studying organ physiology, drug effects, and experimental interventions. Its advanced features, precision engineering, and versatility make it an essential asset for advancing scientific knowledge and education in biomedical sciences.