Laser Ablation Surgery (LITT)
Epilepsy Care
Laser Ablation Surgery (LITT) in Hyderabad
Laser Ablation Surgery, also known as Laser Interstitial Thermal Therapy (LITT), is an advanced minimally invasive neurosurgical technique used to treat brain tumors and epilepsy. It uses controlled laser energy to precisely destroy abnormal tissue while preserving surrounding healthy brain structures.
At Dr. Dhanunjaya Neuro, located in Jubilee Hills, Hyderabad, we offer state-of-the-art LITT procedures to ensure safe, effective, and faster recovery for patients with complex neurological conditions.
What is Laser Ablation Surgery (LITT)?
LITT involves inserting a thin laser probe into the brain through a small incision. Guided by real-time MRI imaging, heat energy is delivered to target and eliminate abnormal tissue with high precision.
This approach helps:
- Precisely target affected brain areas
- Minimize damage to surrounding tissue
- Reduce surgical risks
- Improve treatment outcomes
Conditions Treated with LITT
Laser ablation surgery is used for:
Types of LITT Procedures
LITT procedures use MRI-guided laser technology to precisely target and treat abnormal brain tissue. These minimally invasive techniques ensure accurate heat delivery, reduced damage to healthy areas, and effective outcomes for epilepsy and brain tumors.
Benefits of Laser Ablation Surgery
Laser ablation surgery offers a minimally invasive approach with high precision targeting of abnormal brain tissue. It reduces pain, complications, and hospital stay while enabling faster recovery and better outcomes, making it an effective option for epilepsy and brain tumor treatment.
Why Choose Dr. Dhanunjaya Neuro?
At Dr. Dhanunjaya Neuro, we combine advanced laser technology with expert neurosurgical care to deliver safe and effective outcomes for complex brain conditions.
- Specialist in LITT & Functional Neurosurgery
- Advanced MRI-Guided Laser Technology
- Personalized Patient Care Approach
Frequently Asked Questions
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LITT uses a thin laser probe inserted into the brain through a small incision. With real-time MRI guidance, controlled heat is delivered to precisely destroy abnormal tissue while protecting surrounding healthy areas.