Hitachi C22I Intraoperative Ultrasound Probe: Precision and Reliability for Surgery
The Hitachi C22I ultrasound probe is a diagnostic imaging device specifically designed for surgical use. It provides healthcare professionals with detailed and precise imaging of internal structures, enhancing patient care during operations.
The C22I is intended for intraoperative use, allowing surgeons to perform ultrasound examinations directly on internal organs. Its compatibility with various Hitachi ultrasound systems, including ARIETTA 70, ARIETTA 60, Noblus, and ARIETTA Precision, ensures seamless integration into existing surgical workflows.
With a 3.5 MHz frequency and an 82° field of view, the C22I provides detailed visualization of tissues and internal structures. Its high-resolution transducer ensures clear and sharp imaging, essential for quick and effective decision-making in the operating room.
The C22I probe is designed for optimal user comfort. Its 2.9-meter cable allows for greater freedom of movement, reducing strain on the operator. Its ergonomic tip ensures easy handling, while its robust construction guarantees a three-year lifespan for reliable performance.
The C22I is classified as a Type BF device for electrical shock protection and has an IPX7 waterproof rating, ensuring resistance to immersion in sterilization liquids when used with the WP-001 case. This feature allows for safe cleaning, disinfection, and sterilization, meeting the strict hygiene requirements of operating rooms.
Connecting the C22I probe to a Hitachi ultrasound system is intuitive, with automatic parameter recognition, including frequency and imaging mode. To maintain optimal performance, a visual inspection should be conducted before each use to detect any potential anomalies.
With its exceptional performance and reliable design, the Hitachi C22I is the ideal choice for healthcare facilities looking to enhance their intraoperative imaging capabilities. It enables surgeons to work with increased precision, improving surgical outcomes and patient safety.
