Biology:Responsive neurostimulation device

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Short description: Category of medical devices that respond to signals in a patient's body to treat disease
A device sitting on top of an illustration of a brain with wires and electrical leads.
The NeuroPace RNS System used in the treatment of epileptic seizures

Responsive neurostimulation device is a medical device that senses changes in a person's body and uses neurostimulation to respond in the treatment of disease. The FDA has approved devices for use in the United States in the treatment of epileptic seizures[1] and chronic pain[2] conditions. Devices are being studied for use in the treatment of essential tremor,[3] Parkinson's disease,[4] Tourette's syndrome,[5] depression,[6] obesity,[7] and post-traumatic stress disorder.[8]

Medical uses

Epilepsy

The use of neurostimulation to treat epileptic seizures is only recommended in those who have failed multiple medications for the treatment of their seizures. The NeuroPace RNS system was approved for use by the FDA in 2013 and is the only medical device for epilepsy that uses responsive neurostimulation.[1] The device is surgically implanted into the patient's head with electrical leads placed near the site in the brain that is believed to be the origin of the patient's seizures. These leads record electrical activity in the brain and deliver electrical stimulation when a seizure is detected.[9] The device keeps a record of abnormal electrical activity that is reviewed by a neurologist to improve the detection and treatment of seizures. The patient is able to record when they are having symptoms with the device to see if their symptoms are correlating with seizures.[1] The use of responsive stimulation has found to be effective for seizure reduction. Some patient's are able to achieve complete seizure freedom with responsive and non-responsive neurostimulation.[10]

Chronic pain

An x-ray showing a spinal cord stimulator implanted into the thoracic spine.
A spinal cord stimulator implanted into the thoracic spine

Neurostimulation for chronic pain is primarily through the use of spinal cord stimulators.[11] These devices deliver electrical stimulation to different areas of the spine based on where they are implanted. Since 2012, Medtronic has produced spinal cord stimulators with accelerometers that can predict the patient's position. The device can be programmed to give additional electrical stimulation if the patient is thought to be in a more painful position.[12]

Research

Reponsive neurostimulation is an active area of research with multiple clinical trials underway. Continuous, or non-responsive, neurostimulation has been FDA approved since 2002 with the introduction of deep brain stimulators for Parkinson's disease.[13] As medical technology has improved, so has our understanding of neural networks and their role in human disease. Adding sensing capabilities to these devices has provided new targets to stimulate and feedback into how to more effectively stimulate the brain.[14] At this time, there are clinical trials for reponsive neurostimulation devices in the treatment of essential tremor,[3] Parkinson's disease,[4] Tourette's syndrome,[5] depression,[6] obesity,[7] and post-traumatic stress disorder.

See also


References

  1. 1.0 1.1 1.2 Geller, Eric B. (2018-11-01). "Responsive neurostimulation: Review of clinical trials and insights into focal epilepsy" (in English). Epilepsy & Behavior 88: 11–20. doi:10.1016/j.yebeh.2018.06.042. ISSN 1525-5050. PMID 30243756. https://www.epilepsybehavior.com/article/S1525-5050(18)30499-2/abstract. 
  2. Kim, Eun kyoung; Lee, Chang-soon; Yoo, Yongjae; Park, Jin-Woo; Kim, Jung Soo; Kim, Youngwon; Moon, Jee Youn; Kim, Yong-Chul (2020-03-13). "The Long-term Effectiveness of the Automatic Position-Adaptive System in Spinal Cord Stimulation: A Retrospective Comparative Study with a Two-Year Follow-up". Pain Medicine 21 (10): 2288–2297. doi:10.1093/pm/pnaa121. ISSN 1526-2375. PMID 32443142. https://doi.org/10.1093/pm/pnaa121. 
  3. 3.0 3.1 Castaño-Candamil, Sebastián; Ferleger, Benjamin I.; Haddock, Andrew; Cooper, Sarah S.; Herron, Jeffrey; Ko, Andrew; Chizeck, Howard J.; Tangermann, Michael (2020). "A Pilot Study on Data-Driven Adaptive Deep Brain Stimulation in Chronically Implanted Essential Tremor Patients". Frontiers in Human Neuroscience 14: 541625. doi:10.3389/fnhum.2020.541625. ISSN 1662-5161. PMID 33250727. 
  4. 4.0 4.1 Arlotti, Mattia; Colombo, Matteo; Bonfanti, Andrea; Mandat, Tomasz; Lanotte, Michele Maria; Pirola, Elena; Borellini, Linda; Rampini, Paolo et al. (2021-12-07). "A New Implantable Closed-Loop Clinical Neural Interface: First Application in Parkinson's Disease". Frontiers in Neuroscience 15: 763235. doi:10.3389/fnins.2021.763235. ISSN 1662-4548. PMID 34949982. 
  5. 5.0 5.1 Molina, Rene; Okun, Michael S.; Shute, Jonathan B.; Opri, Enrico; Rossi, P. Justin; Martinez-Ramirez, Daniel; Foote, Kelly D.; Gunduz, Aysegul (2017-09-17). "Report of a patient undergoing chronic responsive deep brain stimulation for Tourette syndrome: proof of concept". Journal of Neurosurgery 129 (2): 308–314. doi:10.3171/2017.6.JNS17626. ISSN 0022-3085. PMID 28960154. 
  6. 6.0 6.1 Scangos, Katherine W.; Makhoul, Ghassan S.; Sugrue, Leo P.; Chang, Edward F.; Krystal, Andrew D. (2021-01-18). "State-dependent responses to intracranial brain stimulation in a patient with depression" (in en). Nature Medicine 27 (2): 229–231. doi:10.1038/s41591-020-01175-8. ISSN 1546-170X. PMID 33462446. 
  7. 7.0 7.1 Formolo, Douglas A.; Gaspar, Joana M.; Melo, Hiago M.; Eichwald, Tuany; Zepeda, Ramiro Javier; Latini, Alexandra; Okun, Michael S.; Walz, Roger (2019). "Deep Brain Stimulation for Obesity: A Review and Future Directions". Frontiers in Neuroscience 13: 323. doi:10.3389/fnins.2019.00323. ISSN 1662-453X. PMID 31057350. 
  8. Bina, Robert W.; Langevin, Jean-Phillipe (2018). "Closed Loop Deep Brain Stimulation for PTSD, Addiction, and Disorders of Affective Facial Interpretation: Review and Discussion of Potential Biomarkers and Stimulation Paradigms". Frontiers in Neuroscience 12: 300. doi:10.3389/fnins.2018.00300. ISSN 1662-453X. PMID 29780303. 
  9. Nair, Dileep R.; Laxer, Kenneth D.; Weber, Peter B.; Murro, Anthony M.; Park, Yong D.; Barkley, Gregory L.; Smith, Brien J.; Gwinn, Ryder P. et al. (2020-09-01). "Nine-year prospective efficacy and safety of brain-responsive neurostimulation for focal epilepsy" (in en). Neurology 95 (9): e1244–e1256. doi:10.1212/WNL.0000000000010154. ISSN 0028-3878. PMID 32690786. 
  10. Touma, Lahoud; Dansereau, Bénédicte; Chan, Alvin Y.; Jetté, Nathalie; Kwon, Churl‐Su; Braun, Kees P. J.; Friedman, Daniel; Jehi, Lara et al. (2022-03-22). "Neurostimulation in people with drug‐resistant epilepsy: Systematic review and meta‐analysis from the ILAE Surgical Therapies Commission" (in en). Epilepsia 63 (6): 1314–1329. doi:10.1111/epi.17243. ISSN 0013-9580. PMID 35352349. https://onlinelibrary.wiley.com/doi/10.1111/epi.17243. 
  11. Knotkova, Helena; Hamani, Clement; Sivanesan, Eellan; Le Beuffe, María Francisca Elgueta; Moon, Jee Youn; Cohen, Steven P; Huntoon, Marc A (2021-05-29). "Neuromodulation for chronic pain" (in en). The Lancet 397 (10289): 2111–2124. doi:10.1016/S0140-6736(21)00794-7. PMID 34062145. https://linkinghub.elsevier.com/retrieve/pii/S0140673621007947. 
  12. Schultz, David M.; Webster, Lynn; Kosek, Peter; Dar, Urfan; Tan, Ye; Sun, Mark (January 2012). "Sensor-driven position-adaptive spinal cord stimulation for chronic pain". Pain Physician 15 (1): 1–12. doi:10.36076/ppj.2012/15/1. ISSN 2150-1149. PMID 22270733. 
  13. Gardner, John (2013-05-13). "A history of deep brain stimulation: Technological innovation and the role of clinical assessment tools" (in en). Social Studies of Science 43 (5): 707–728. doi:10.1177/0306312713483678. ISSN 0306-3127. 
  14. Denison, Tim; Morrell, Martha J. (2022-01-11). "Neuromodulation in 2035: The Neurology Future Forecasting Series" (in en). Neurology 98 (2): 65–72. doi:10.1212/WNL.0000000000013061. ISSN 0028-3878. PMID 35263267. PMC 8762584. https://n.neurology.org/content/98/2/65. 



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