Radnoti Working Heart Apparatus
The Radnoti Working Heart Apparatus is a sophisticated and versatile system designed for cardiovascular research, physiological studies, and educational purposes in biomedical laboratories and academic institutions. This advanced apparatus provides researchers and educators with a comprehensive platform for studying cardiac function, cardiovascular dynamics, and cardiac responses to various interventions.
The Radnoti Working Heart Apparatus includes a precision-engineered heart chamber, cannulation systems, perfusion pumps, pressure sensors, and data acquisition software. It is designed to simulate physiological conditions and maintain a functioning isolated heart preparation for experimental investigations.
The heart chamber is constructed from durable and transparent materials, allowing for easy visualization of the heart during experiments. It features adjustable clamps and holders for secure positioning of the heart preparation and cannulation tubes, ensuring stable perfusion and monitoring of cardiac parameters.
The perfusion pumps integrated into the apparatus provide controlled and continuous perfusion of oxygenated buffer or physiological saline into the heart chamber, mimicking coronary circulation and maintaining tissue viability. Pressure sensors enable real-time monitoring of intracardiac pressures, while the data acquisition software allows for recording and analysis of cardiovascular parameters such as heart rate, contractility, and cardiac output.
The Radnoti Working Heart Apparatus is designed for ease of use, with user-friendly controls, intuitive software interfaces, and comprehensive instruction manuals. It is suitable for a wide range of cardiovascular experiments, including pharmacological studies, ischemia-reperfusion models, and cardiac electrophysiology investigations.
Overall, the Radnoti Working Heart Apparatus offers researchers and educators a powerful and versatile tool for studying cardiac physiology, pathophysiology, and pharmacology. Its precision engineering, functionality, and reliability make it an indispensable asset for advancing cardiovascular research and education.