Hitachi L53K Probe: Precision and Reliability for Intraoperative Diagnostics
The Hitachi L53K probe is an advanced medical device specifically designed for ultrasound observation of internal organs during surgical procedures. This high-tech equipment is essential for healthcare professionals, offering unmatched precision and reliability in the field of intraoperative diagnostics.
The L53K probe stands out with its 8.5 MHz frequency, which allows for clear and detailed images of internal organs. With a 25 mm field of view, it provides a comprehensive overview, facilitating real-time diagnosis and decision-making during surgical procedures. The 3.0-meter cable length ensures optimal freedom of movement for doctors while guaranteeing a stable and reliable connection with the ultrasound diagnostic instrument.
Its ergonomic design and ease of use make it a practical and efficient tool for healthcare professionals. The probe is classified as Type BF equipment according to the IEC60601-1 standard, offering protection against electric shocks and resistance to liquid immersion (IPX7).
The L53K probe is compatible with several Hitachi ultrasound diagnostic instruments, including the ARIETTA 70, ARIETTA 60, ARIETTA Precision, and ARIETTA Prologue NOTE models. This compatibility allows for easy integration into existing systems, providing increased flexibility and versatility.
In terms of safety, the L53K probe is designed to minimize risks for patients and operators. It is equipped with several safety features, such as danger, warning, caution, and note symbols, which inform users of the precautions to take to avoid injuries and equipment damage.
The L53K probe is also easy to clean, disinfect, and sterilize, which is crucial for maintaining high hygiene standards in medical environments. The instruction manual provides detailed guidelines on cleaning, disinfection, and sterilization procedures, ensuring safe and effective use of the probe.
The L53K probe is an indispensable tool for healthcare professionals, offering exceptional precision and reliability for intraoperative diagnostics. Its ergonomic design, compatibility with various ultrasound diagnostic instruments, and safety features make it an ideal choice for healthcare facilities aiming to improve the quality of their diagnostics and ensure patient safety.
