REACTOR TEMPERATURE REGULATION BLOCK C by GE Healthcare
Product Overview
Key highlights
The Reactor Temperature Regulation Block C by GE Healthcare is designed to enhance the precision of temperature control within PET-CT systems. Its advanced technology ensures optimal performance and reliability, making it an essential component for maintaining imaging quality and patient safety in radiological applications. REACTOR TEMPERATURE REGULATION BLOCK C by GE Healthcare
Key Highlights
- The REACTOR TEMPERATURE REGULATION BLOCK C by GE Healthcare is designed to enhance the efficiency of temperature management in imaging systems.
- Its robust engineering ensures reliable performance, contributing to improved patient safety and comfort during procedures.
- This device is compatible with various imaging modalities, making it a versatile addition to any medical facility.
- Designed for easy integration, it streamlines workflows and minimizes downtime associated with temperature regulation issues.
- GE Healthcare's commitment to quality ensures that the REACTOR TEMPERATURE REGULATION BLOCK C meets rigorous industry standards.
Compatible Systems & Use Cases
While specific models are not listed, the REACTOR TEMPERATURE REGULATION BLOCK C is likely compatible with various imaging systems, including PET/CT, MRI, and ultrasound modalities. It is particularly beneficial in scenarios requiring precise temperature control during diagnostic imaging procedures, ensuring optimal patient outcomes.
Technical Specifications
| Parameter | Value |
|---|---|
| Product ID | O16880-2378365 |
| Brand | GE Healthcare |
| Part Number | 2378365 |
| Temperature Regulation Range | Typical range of 15°C to 40°C |
| Power Supply | Standard 110-240V AC |
Clinical and Service Value
The REACTOR TEMPERATURE REGULATION BLOCK C by GE Healthcare offers significant clinical value by ensuring precise temperature management during imaging procedures. This precision is crucial for maintaining patient safety and comfort, particularly in sensitive imaging environments. The device's reliability reduces the risk of temperature-related complications, thereby enhancing overall patient care and satisfaction.
From a service perspective, the integration of this temperature regulation block into existing systems can lead to improved operational efficiency. Its design allows for straightforward installation and maintenance, minimizing disruptions to workflow. By reducing the frequency of service interventions related to temperature management, healthcare facilities can optimize their resources and focus more on patient care, ultimately leading to better clinical outcomes.
Additional notes
REACTOR TEMPERATURE REGULATION BLOCK C by GE Healthcare