Current electrophysiology catheter systems designed for human and large animal studies are not suitable for small animal models due to their size, sensitivity, and precision requirements. Small animals, such as rodents, are essential in preclinical research for understanding cardiac electrophysiology and developing treatments for various cardiac conditions. However, the lack of appropriately scaled and sensitive catheter systems for small animals limits the ability to conduct accurate and reliable electrophysiological studies, hindering advancements in cardiac research and therapeutic development. The Key X Sciences EP catheter system is an excellent product that our clients have validated to solve this problem. The Key X Sciences EP catheter system is specifically designed for intracardiac or intraesophageal electrophysiology experiments in rodents and large animals. It allows for precise monitoring of electrical signals from the heart or esophagus, enabling researchers to investigate cardiac arrhythmias and other electrophysiological phenomena in small animal models. The catheter features customizable electrode configurations, simultaneous signal collection and stimulation capabilities, and compatibility with various bioelectric amplifiers, stimulators, and data collectors, making it an essential tool for conducting comprehensive cardiac electrophysiology research.

Current implantable telemetry systems for rodents often require invasive surgical procedures, leading to stress and discomfort for animals during experimentation. Approximately 70% of rodents experience post-surgical complications such as pain and inflammation following implantation of telemetry devices, impacting the validity of research outcomes and raising ethical concerns. Our Nano Rechargeable Telemetry system offers a microinvasive, cost-effective solution for wireless physiological signal monitoring, with features including 2.4GHz wireless transmission, compatibility with Key X Sciences software and third party analysis, detection of multiple parameters, extended battery life, and lightweight design for versatile research applications.

Traditional small animal operating tables often lack integrated vital signs and surgical monitoring capabilities, leading to less efficient research experiments and potentially lower survival rates for experimental animals. Researchers conducting experiments on small animals require reliable and efficient monitoring solutions to ensure the accuracy of their results and the well-being of the animals involved. Without integrated monitoring capabilities, researchers may face challenges in accurately assessing vital signs during experiments, leading to potential inaccuracies in their findings and compromising the welfare of the animals. The Rodent Surgical Platforms offer an integrated solution for vital signs and surgical monitoring, enhancing the reliability and efficiency of research experiments involving small animals. It features panel heating and rectal temperature measurement functions, customizable surface ECG surgical tabletops for non-invasive ECG signal acquisition, and external ECG lead interfaces for flexible positioning during surgeries. Additionally, it comes with PC software for easy data recording and analysis. With its durable aluminum alloy casing, various tabletop material options, and built-in Bluetooth module for remote temperature control, this operating table provides researchers with a comprehensive solution for conducting experiments on small animals.

Researchers conducting physiological experiments face the challenge of accurately collecting data from large animals while providing precise stimuli, often requiring complex and cumbersome setups. Implantable Telemetry System offers customizable options to meet diverse experimental needs, including the ability to collect parameters such as ECG, EMG, EEG, respiration, gastrointestinal electricity, temperature, and activity. With programmable stimulus waveforms, including support for S1S1 square wave stimulation, researchers can accurately configure and deliver stimuli for various physiological experiments.

Currently available Zebrafish ECG monitoring systems are not tailored to the unique physiological characteristics of zebrafish, limiting their utility in cardiovascular studies using this model organism. Key X Zebrafish ECG System is a specialized monitoring system specifically designed for zebrafish research, offering tailored perfusion devices, electrodes, and signal processing capabilities to ensure accurate and reliable ECG data collection. With Key X Zebrafish ECG system, researchers can customize their setup by selecting compatible components based on their experimental needs, allowing for optimal data collection and analysis in zebrafish cardiovascular studies.

Managing biological signal amplification efficiently poses challenges, with traditional wired systems limiting flexibility and hindering research progress, potentially impacting study outcomes and budgets. Our Wireless Amplifier system streamlines bioelectrical signal collection with features including rechargeable battery, 2.4GHz wireless transmission, superior signal quality, continuous real-time monitoring for one month, and seamless integration with third-party recording equipment, ideal for pharmacological, physiological, and pathological research.

Current data acquisition systems often lack flexibility and scalability, limiting researchers' ability to adapt to evolving experimental needs and integrate diverse physiological signals. Studies have shown that traditional data acquisition systems can be restrictive, with fixed configurations that hinder customization and expansion, ultimately impeding the progress of research projects. Key X Sciences Data Acquisition System is a versatile and modular data acquisition platform designed to accommodate various research requirements, allowing users to easily customize and scale their data acquisition setups according to specific experimental needs.

In intracardiac pressure measurements, traditional catheter systems may suffer from inaccuracies, limited functionality, or difficulty in use, potentially leading to unreliable data collection and experimental outcomes. Existing pressure catheter systems for intracardiac pressure measurements may pose several challenges, including inaccuracies in pressure readings, limited functionality in certain experimental settings, or complexity in catheter placement and operation. These issues can compromise the reliability and validity of data collected during cardiovascular experiments. The Key X Sciences Pressure Catheter System is an excellent product our clients have found to solve this problem. Our advanced pressure catheter system offers precise and reliable intracardiac pressure measurements, addressing challenges associated with traditional catheter systems. With features such as accurate pressure sensing technology, versatile functionality adaptable to various experimental setups, and user-friendly design facilitating easy catheter placement and operation, this system ensures accurate data collection and enhances the effectiveness of cardiovascular research.