Hitachi L64 Probe: Precision and Reliability for Medical Imaging
The Hitachi L64 probe is a high-quality linear ultrasound probe, specifically developed to meet the needs of healthcare professionals in superficial tissue imaging. Operating at a frequency of 10 MHz, it provides detailed visualization of anatomical structures through advanced brightness modulation technology.
Designed for optimal integration with Hitachi ultrasound devices, this probe offers extensive compatibility with various models in the range. Its operation is based on the emission and reception of ultrasonic waves, which are then converted into high-resolution images for accurate organ analysis.
The L64 probe is primarily used for examining the mammary gland, thyroid, and other superficial organs. Thanks to its high frequency, it is particularly suited for applications requiring fine image resolution, thus facilitating the diagnosis of tissue abnormalities and potential lesions.
The compact and ergonomic design of the L64 probe ensures a comfortable grip and easy handling, reducing user fatigue during prolonged examinations. Its lightweight construction (approximately 0.46 kg, including cable and connector) further enhances its usability.
The L64 probe is equipped with various options to meet the specific needs of healthcare professionals. The addition of an elastography coupler allows for better tissue elasticity assessment, while an optional magnetic sensor facilitates integration with real-time imaging systems for more precise examinations.
To ensure optimal performance and longevity, the L64 probe requires regular maintenance according to the manufacturer's recommendations. It is compatible with multiple disinfection and sterilization methods, including ETO gas sterilization and plasma sterilization.
The Hitachi L64 probe is a reliable and high-performance solution for healthcare professionals seeking superior imaging quality. With its advanced technologies and multiple options, it adapts to specialists' needs for precise and rapid diagnostics.
