Hitachi SML44 Ultrasound Probe - Precision and Reliability for Medical Diagnostics
The SML44 probe is equipped with a 7.5 MHz frequency, providing high resolution and exceptional image clarity. This frequency is ideal for examining superficial tissues, such as mammary glands and vascular organs, offering detailed visualization of anatomical structures. The probe also features a 38 mm field of view, allowing for extensive coverage of the area of interest.
One of the most notable aspects of the SML44 probe is its compatibility with Hitachi's ultrasound diagnostic instruments, including the ALOKA ARIETTA 850. This compatibility ensures seamless integration and optimal performance, allowing healthcare professionals to make the most of their equipment. The probe is classified as a Type BF device, offering protection against electric shock and water resistance according to the IPX7 standard, making it suitable for use in demanding medical environments.
The applied part of the probe, including the ultrasonic radiation part, is designed to withstand intensive use while maintaining consistent performance. The 2.2-meter cable length offers flexibility in use, allowing operators to move freely while maintaining a secure connection to the diagnostic instrument.
The SML44 probe is also equipped with advanced features such as Real-Time Virtual Sonography (RVS), which enables real-time visualization of anatomical structures. This feature is particularly useful for surgical interventions and complex medical procedures, providing precise guidance and better treatment planning.
In terms of safety, the SML44 probe is designed to minimize risks to patients and operators. It is equipped with clear safety symbols indicating hazard levels and necessary precautions. Cleaning, disinfection, and sterilization instructions are provided in a separate manual, ensuring that the probe is always used under optimal hygienic conditions.
The Hitachi SML44 ultrasound probe is an indispensable tool for healthcare professionals, offering a combination of precision, reliability, and safety. With its advanced technical features and innovative functionalities, it enables high-quality diagnostic imaging, contributing to better patient care.