Description:
Visualase MRI-Guided Laser Ablation System (SW 3.4) by Medtronic Navigation Inc.
The Visualase MRI-Guided Laser Ablation System (SW 3.4) is a state-of-the-art medical device developed by Medtronic Navigation Inc. This system's primary function is to perform minimally invasive neurosurgical procedures using laser-induced thermal therapy. The technology involves using Magnetic Resonance Imaging (MRI) to guide laser energy to the desired anatomical location within the brain, offering precision and minimal tissue disruption.
The key benefits of the Visualase MRI-Guided Laser Ablation System include its real-time monitoring capabilities and precision-based therapy. Due to its real-time MRI guidance, physicians can continuously monitor treatment progress and make real-time adjustment as necessary. This ensures a higher degree of precision in delivering the treatment, leading to potentially improved patient outcomes.
Additionally, the system's minimally invasive approach means that it requires a smaller skull opening compared to traditional neurosurgery, which could lead to faster recovery times. This makes the system a key advancement in the field of neurosurgery and a valuable therapeutic option for patients.
How It Works:
Understanding the Visualase MRI-Guided Laser Ablation System (SW 3.4)
The
Visualase MRI-Guided Laser Ablation System (SW 3.4) is an advanced piece of medical technology found under the category of
Surgical Instruments.
How Does it Work?
The system features a remarkable convergence of MRI (Magnetic Resonance Imaging) imaging and laser energy delivery. At its core, it's a thermotherapy delivery system designed to destroy soft tissue in neurosurgical applications.
The main steps involved in its usage are:
1. Placement of a laser applicator into the planned soft tissue target.
2. MRI implementation for visualizing and planning the therapy, including the determination of thermal therapy parameters.
3. Activation of the laser to transfer energy to the target tissue.
4. Monitoring the progression of tissue damage using real-time MRI thermal imaging data.
Key Features:
The MRI component of the system provides
real-time imaging of the operating area, ensuring that the most precise and effective therapy plan is devised. This allows physicians to maintain a high degree of control and predictability during procedures.
Moreover, the system's design promotes
minimally invasive techniques, leading to less patient trauma, a shorter recovery time, and a reduced likelihood of complications.
This superlative piece of medical equipment is indisputably pivotal in the world of
Neurosurgery, transforming the way neurosurgeons approach soft tissue abnormalities.
It's important to remember that user training and understanding of MRI safety considerations are essential for effectively operating the Visualase MRI-Guided Laser Ablation System (SW 3.4).
Only with the correct application and appropriate setting selection, can physicians fully harness the sophistication and precision that this system has to offer.