2052 Probe by BK Medical: Advanced Imaging Technology for Precise Pelvic Floor Assessment
The 2052 probe by BK Medical is a state-of-the-art tool designed to meet the needs of specialists in urology, gynecology, and proctology. With its ability to deliver detailed, high-resolution images, this device is ideal for a wide range of diagnostic applications, including transrectal and transvaginal examinations. It is especially useful for evaluating rectal wall layers, sphincter tear extension, and pelvic floor damage.
One of the standout features of the 2052 probe is its ability to acquire exceptionally clear images. With a 360º field of view and a wide frequency range from 16 to 6 MHz, this probe allows for precise visualization of anatomical structures. Using this probe, clinicians can observe in detail the layers of the rectal wall, assess radial and longitudinal sphincter tears, and analyze the extent of anal sphincter damage.
The 3D technology of the 2052 probe enables the acquisition of 3D images of the pelvic floor. The 3D cube provides accurate distance, area, angle, and volume measurements, offering unparalleled precision. The ability to slice the data cube allows users to view anatomical details in the optimal plane. This technology ensures a thorough analysis of anatomical structures and facilitates the diagnosis of abnormalities.
Moreover, the 2052 probe is easy to use, providing operator-independent image acquisition with a single gesture. Once the examination is complete, the data can be reviewed and analyzed at any time on any PC, enhancing flexibility in the diagnostic process.
Despite its advanced technology, the 2052 probe stands out for its lightweight design, weighing just 850 g. This feature makes it easy to handle while ensuring optimal patient comfort during examinations.
The 2052 probe is primarily used in transrectal and transvaginal applications, as well as for assessing pelvic floor structures in urology. It offers high-resolution imaging and allows for the visualization of deep body structures with precision, which is essential for diagnosing complex pelvic conditions.
