Yes, modern ultrasounds, especially those with integrated AI technology, can detect very small lesions that might otherwise go unnoticed. However, accuracy depends on the location, tissue type, and the physician’s experience.
ONCOLOGICAL ULTRASOUND
Early detection of cancer can save lives, and oncological ultrasound is a modern, non-invasive, and accurate method used to identify tumors at early stages, without exposing the patient to radiation.
Price: 620 RON
What does an oncological ultrasound involve?
Oncological ultrasound is a non-invasive imaging technique that uses sound waves to examine internal tissues and organs, aiming to detect early suspicious changes or tumors. This painless method does not expose the patient to radiation and can be repeated as often as needed to monitor the progression of an oncological condition or to evaluate the response to treatment.
Difference compared to standard ultrasound
Unlike a general ultrasound, oncological ultrasound is specifically focused on identifying imaging features of suspicious lesions, using protocols and settings optimized for early cancer detection. Modern equipment enables detailed visualization of tissue structure, assessment of vascular changes, and precise measurement of lesion dimensions.
What types of cancer can be detected by ultrasound?
Oncological ultrasound can detect or raise suspicion for several types of cancer, contributing to early diagnosis and improving treatment outcomes.
Breast cancer
Breast ultrasound can identify nodules, cysts, or suspicious masses that require further investigations, such as mammography or biopsy.
Thyroid cancer
Thyroid ultrasound allows the visualization of thyroid nodules and assessment of their characteristics to evaluate malignancy risk.
Liver cancer
With specialized abdominal ultrasound, suspicious liver lesions can be detected, including primary tumors or metastases.
Kidney cancer
Renal ultrasound can reveal tumor masses, structural changes, or abnormalities that may require further evaluation with CT or MRI.
When is ultrasound recommended in oncological evaluation?
Oncological ultrasound is recommended in a variety of situations, including:
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Early detection of suspicious tumors in high-risk patients.
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Follow-up of known lesions to monitor their evolution.
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Assessment of treatment effectiveness in cancer patients.
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Screening in people with family history of certain cancers.
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Guidance for biopsies or minimally invasive procedures.
This method is often part of a multidisciplinary diagnostic process, complementing other imaging techniques such as CT, MRI, or PET-CT.
Remarkable advantages of the ultrasound system with integrated AI technology
Modern oncological ultrasound equipment with integrated Artificial Intelligence (AI) brings significant benefits for both doctors and patients:
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Enhanced image accuracy – AI helps highlight suspicious areas with high precision.
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Faster interpretation – automated analysis reduces waiting time for results.
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Improved lesion detection – even small or hard-to-see tumors are more easily identified.
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Personalized monitoring – AI can compare current images with previous scans to track changes over time.
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Greater patient comfort – non-invasive, painless, and safe procedure without radiation exposure.
VINNO R700 (Vinnio 700) Ultrasound – Performance, AI, and Ergonomics in a Single System
The VINNO R700 stands out with advanced imaging, integrated artificial intelligence, and a modern ergonomic design. It is ideal for complex applications in obstetrics, cardiology, and general imaging.
1. VLucid / VLucid+ Platform and Superior Image Quality
The VINNO R700 uses proprietary RF technology that provides high contrast and advanced spatial resolution. The system reduces speckle noise and optimizes anatomical details. It includes features such as Real-time Adaptive De-noising (RAD) for real-time noise reduction, Dynamic Signal Enhancement (DSE) for dynamic signal amplification, and Doppler Vector Projection (DVP) for 3D visualization of blood flow in 2D format.
2. High Resolution and Deep Penetration
The device supports frequencies up to 25 MHz, offering superior detailed resolution compared to similar systems. Penetration is excellent thanks to high-performance hardware. The use of PureWave and XCen probes provides increased sensitivity and clarity, even for deep-seated structures.
3. Advanced Functions for Specialized Diagnostics
The system includes shear wave elastography (VShear) for assessing tissue elasticity in organs such as the liver, breast, or thyroid. Contrast Bubble Imaging (CBI / CEUS) enables microvascular perfusion evaluation and lesion characterization. Integrated AI packages include VAid Thyroid / Liver / Breast for automatic lesion detection and TI-RADS / BI-RADS classification with automatic report generation. The VMind OB / VAim OB / VAim Follicle / Pelvic functions provide automated fetal biometry, standard planes, and ovarian volume measurement. The AMAS / Auto IMT / Auto EF / Strain Imaging / Multi Doppler module performs automated measurements for arterial stiffness, ejection fraction, and myocardial strain.
4. Intelligent Workflow and Automated Reporting
The VReport function automates report generation, significantly reducing examination time. The finger-draw mode allows quick annotations and freehand drawing directly on the screen, useful for remote diagnostics or training sessions. The interface is customizable, featuring a smart touchscreen, adjustable console, integrated gel warmer, and support for endocavitary probes.
5. Ergonomic Design and Mobility
The device is equipped with a 23.8-inch LED monitor and a 15.6-inch tilting touchscreen. The console is height- and direction-adjustable for optimal comfort. The built-in battery allows 60–90 minutes of continuous scanning, facilitating use in multiple locations. Five active ports enable simultaneous connection of multiple probes, reducing switching time between applications.
When it comes to image clarity, the VINNO R700 uses RF technology with RAD, DSE, and DVP for high-quality imaging. For specialized diagnostics, it includes elastography, CEUS, and AI packages for thyroid, liver, breast, and obstetrics. Automation is ensured through VMind, VAid, and VAim functions with instant detection and report generation. Ergonomics and mobility are guaranteed by the built-in battery, multiple ports, large touchscreens, and an adjustable design.
Bibliography
https://www.cancer.org/cancer/diagnosis-staging/tests/imaging-tests/ultrasound-for-cancer.html Accesed on 25.08.2025
https://www.cancerresearchuk.org/about-cancer/tests-and-scans/ultrasound-scan Accesed on 25.08.2025
https://www.ncbi.nlm.nih.gov/books/NBK12872/ Accesed on 25.08.2025
Frequently asked questions for ONCOLOGICAL ULTRASOUND
Breast ultrasound is a very useful tool, but it is usually used in combination with mammography for a complete evaluation. It is especially recommended for women with dense breast tissue or for investigating formations discovered through palpation or mammography.
Although ultrasound is highly effective, there are cases where some formations can be difficult to visualize, especially very small ones or those located in hard-to-reach areas. That’s why physicians often combine ultrasound with other imaging methods for the most accurate diagnosis.