Liver Malignancy? Advanced Imaging for Better Treatment
As the body's most sizable internal organ, the liver is indispensable for overall health. It functions in nutrient metabolism, eliminating toxins and regulating numerous metabolic activities. Regrettably, liver diseases, including malignancies, are rising and substantially impacting global health. Timely detection and precise diagnosis are vital for effective treatment and enhanced prognosis.
Recently, diagnostic imaging advancements have transformed the methods used for diagnosing and treating liver malignancies. Let’s explore the benefits of MRI imaging for evaluating metabolic activity and anatomical details, delve into ablation methods for liver tumors and examine transarterial treatments for liver malignancies.
Liver Cancer Detection: Harnessing MRI for Comprehensive Metabolic and Structural Insights
Magnetic Resonance Imaging (MRI) has become a valuable tool in diagnosing and managing liver malignancies. MRI provides functional and anatomical information in a single imaging session, offering a more comprehensive assessment of the tumor's metabolic activity and precise location within the liver.
The MRI imaging for diagnosis offers detailed anatomical information, revealing the tumor's exact size, location and potential involvement of adjacent structures.
Innovative Ablation Approaches: Targeted Treatment for Liver Tumors with the Help of Diagnostic Imaging
Ablation techniques have emerged as a minimally invasive alternative to surgical resection for treating liver tumors. These techniques involve the direct application of energy, such as heat or cold, to the tumor, causing cell destruction and tumor shrinkage. Some common ablation techniques include radiofrequency ablation (RFA), microwave ablation (MWA) and cryoablation.
Advanced imaging plays a crucial role in guiding these ablation procedures, ensuring accurate tumor targeting and minimizing damage to healthy liver tissue. Real-time diagnostic imaging with ultrasound or MRI is used to guide the placement of the ablation probe, monitor the treatment progress and assess the procedure's success.
Pioneering Transarterial Interventions: Minimally Invasive Solutions for Liver Cancer Management
Transarterial therapies are another minimally invasive option for treating liver malignancies, particularly in patients who are not suitable candidates for surgery or ablation techniques.
These therapies deliver chemotherapeutic agents or radiation-emitting particles directly to the tumor via the hepatic artery, sparing healthy liver tissue from potential damage.
Transarterial chemoembolization (TACE) and transarterial radioembolization (TARE) are two commonly used transarterial therapies for liver malignancies. TACE involves injecting a chemotherapeutic agent mixed with embolic material into the hepatic artery, blocking blood flow to the tumor and causing cell death.
TARE, on the other hand, uses radioactive microspheres to deliver targeted radiation to the tumor while preserving the surrounding healthy liver tissue.
Diagnostic imaging is essential in planning, guiding and monitoring the response to transarterial therapies. Pre-treatment imaging, including MRI, maps the tumor's blood supply and plans the treatment strategy.
Post-treatment imaging helps assess the tumor's response to therapy and identify any potential complications.
Experience Advanced Liver Malignancy Diagnosis at Evolution Imaging
Looking for advanced diagnostic imaging in OKC? Discover Evolution Imaging, where state-of-the-art technology meets unparalleled expertise in the heart of Oklahoma City. Benefit from our comprehensive and accurate liver malignancy diagnosis through the latest and innovative imaging techniques like MRI or ultrasound. Take charge of your health and make informed decisions with confidence. Schedule your appointment with Evolution Imaging today and experience the difference that cutting-edge technology can make.