DEEP BRAIN STIMULATION COST IN INDIA
Deep Brain Stimulation (DBS) is a surgical procedure used to treat various neurological conditions, particularly movement disorders such as Parkinson's disease, essential tremor, and dystonia. DBS involves implanting electrodes within specific areas of the brain. These electrodes produce electrical impulses that regulate abnormal brain activity or stimulate the production of brain chemicals.
How much does Deep Brain Stimulation Surgery (DBS) Cost in India?
Looking for Deep Brain Stimulation Surgery Cost in India or Best Neurosurgeon at an affordable cost in different cities like Delhi, Mumbai, Chennai, Kolkata, and Bangalore? Here, we answer the question and explain how to choose the best neuro hospital list for better results.
We have also shortlisted the list of best top Hospitals and Surgeons on the basis of Hospital accreditations, experience & qualification of surgeons, success rates of procedures, and patient testimonials.
- Deep Brain Stimulation Surgery Cost in India : Starting from 22,000 to 28,000 USD
- Hotel Cost Near Hospital - starting from 18 to 50 USD ( as per hotel services)
- Food Cost - starting from 20 to 30 USD (per day )
- Miscellaneous cost - 20 USD (per day)
- It's an only rough estimate, final treatment will plan after the fresh evaluation reports.
- In India, Deep Brain Stimulation Surgery Cost can vary as per the diagnosis, patient conditions, surgeon experience, Implant quality, hospital facilities, and city.
- To make an appointment, learn more about brian, read below information, or call / WhatsApp/ Viber - our experts to answer at +91-9871167092.
Conditions Treated by DBS
- Parkinson's Disease: Helps reduce motor symptoms such as tremor, rigidity, stiffness, slowed movement, and walking problems.
- Essential Tremor: Reduces severe tremors not controlled by medication.
- Dystonia: Alleviates muscle contractions and spasms.
- Epilepsy: Reduces the frequency and severity of seizures.
- Obsessive-Compulsive Disorder (OCD): For severe cases resistant to other treatments.
- Depression: Investigational use for treatment-resistant depression.
How DBS Works
DBS involves three main components:
- Leads (Electrodes): Thin, insulated wires inserted into specific brain areas.
- Implantable Pulse Generator (IPG): A device similar to a pacemaker, placed under the skin in the chest, which generates electrical impulses.
- Extension Wires: Connect the electrodes to the IPG.
Procedure
Preoperative Assessment
- Medical Evaluation: Thorough assessment of the patient's condition, including neurological and psychological evaluations.
- Imaging: MRI or CT scans to map the brain and determine precise electrode placement.
Surgery
- Implanting Electrodes:
- Performed under local anesthesia with the patient awake to monitor responses.
- Electrodes are inserted through small openings in the skull and placed in the target brain areas (e.g., the subthalamic nucleus for Parkinson's disease).
- Placing the IPG:
- Performed under general anesthesia.
- The IPG is implanted under the skin near the collarbone and connected to the electrodes via extension wires.
Postoperative Care
- Programming the IPG: Tailoring the electrical stimulation settings to the patient's needs. This may take several visits to optimize.
- Monitoring and Adjustments: Regular follow-ups to adjust settings, manage side effects, and monitor symptom control.
Benefits of DBS
- Symptom Reduction: Significant improvement in motor symptoms for Parkinson's disease and essential tremor.
- Medication Reduction: Decrease in the need for medication, leading to fewer side effects.
- Improved Quality of Life: Enhanced ability to perform daily activities.
Risks and Side Effects
- Surgical Risks: Infection, bleeding, stroke, or complications from anesthesia.
- Device-Related Issues: Hardware malfunctions, lead displacement, or battery depletion.
- Stimulation Side Effects: Tingling sensations, muscle contractions, speech problems, or mood changes.
- Neuropsychiatric Effects: Changes in mood, cognition, or behavior.
Considerations
- Patient Selection: Not all patients are suitable candidates. Selection is based on medical history, symptom severity, and response to other treatments.
- Non-Curative: DBS does not cure underlying conditions but helps manage symptoms.
- Regular Maintenance: The IPG battery may need to be replaced every few years, and ongoing adjustments may be necessary.
Future Directions
Research is ongoing to expand the applications of DBS and improve techniques, including:
- Closed-Loop Systems: Automatically adjust stimulation based on real-time brain activity.
- Enhanced Targeting: Improved imaging and navigation to increase precision.
- New Indications: Investigating DBS for conditions like chronic pain, Tourette syndrome, and traumatic brain injury.
Deep Brain Stimulation is a promising treatment for several debilitating neurological conditions. If you have specific questions or need more detailed information on any aspect of DBS, please let me know!