Benefit of the detailed educational white papers related to our products, technologies, methodologies, and clinical applications. Research findings, questions and tips, and specific highlights are now within reach to support your daily activities in the clinical field.
CEUS Contrast-Enhanced Ultrasound
CEUS allows easy and accurate characterization of focal liver lesions. This not only implies a very high capacity to distinguish benign from malignant lesions, but also to identify the specific types of benign lesions, often with better accuracy than with CT, taking advantage of the high temporal and spatial resolutions of ultrasonography.
Virtual Navigator - Thyroid - Neck
In the last decade, there has been a rapid refinement in the diagnosis and therapy in the neck, especially in the field of thyroid disease. Ultrasound plays a fundamental role in the management of thyroid neoplasm and in particular in the management of recurring neck problems after thyroidectomy.
Virtual Navigator - Urology
Virtual Navigator is Esaote’s revolutionary technology for fusion imaging that allows CT, MR and PET side-by-side with real-time ultrasound. Esaote Virtual Navigator offers infinite possibilities for patient monitoring, diagnosis and follow-up and is an excellent solution for Interventional Radiologists and Urologists in Prostate.
Real Time Elastosonography
Thyroid ultrasound (US) is useful for detecting and characterizing nodular disease which prevalence being dramatically increased in iodine-defcient areas. The great majority of nodules are benign, less than 5% of them being malignant.
Elaxto-Rheuma - Measuring Skin Thickness of Systemic Sclerosis Patients
Preliminary study show that elastosonography improves ultrasound’s reliability to measure skin thickness of systemic sclerosis patients helping the identifcation of dermis-hypodermis interface.
Elaxto Thyroid Nodules
Elastography, a new dynamic ultrasound technique, reaches high predictive values and might reduce the number of unnecessary biopsies, increase cost savings and improve patients quality of life.
Diagnostic value enhancement and system usability optimization are the main key factors taken into consideration in the development of the eHD Technology. It focuses the whole ultrasound chain, from the transducer to the display, passing through signal processing and strategic features.
EHD Technology in Musculoskeletal The New Era in Ultrasound
Diagnostic value enhancement and system usability optimization are the main key factors taken into consideration in the development of the eHD Technology in MSK. It focuses the whole ultrasound chain, from the transducer to the display, passing through signal processing and strategic features.
Developments in Musculoskeletal Ultrasound
Ultrasound technology’s innovations supply extraordinary power for clinical development in the MSK Ultrasound imaging field thanks to their real-time performance, high tissue resolution, advanced features and reliable cost.
Skin Ultrasound - Where MHz can make a difference
Thanks to the available very-high-frequency (up to 22 MHz) in Ultrasound technology it is now possible to examine benign and malignant skin lesions in epidermis, dermis and subcutis as well as blood vessels close to the skin. Precise measurement of skin thickness and accurate assessment of internal skin structures also supply better answers regarding the performance of surgical or non surgical procedures, therapeutic or cosmetic treatment and follow up.
High Frequency Ultrasound in MSK
The XHF, eXtreme High Frequency Imaging, offers very detailed and precise representation of superfcial structures. This technology makes it possible to visualize the Bicipital Aponeurosis using suitable high-resolution, high-quality linear probes.
Transducers are the core of Ultrasound technology. Integrating physics, electronics and geometrics in their design is the greatest engineering challenge of the signal processing chain.