Preci Hamilton1, Imad Soryal2, Prince Dhahri3, Welege Wimalachandra4, Anna Leat5, Denise Hughes6, Nicole Toghill7, James Hodson8, Vijay Sawlani9, Tom Hayton10, Shanika Samarasekera11, Manny Bagary12, Dougall McCorry13, Ramesh Chelvarajah14. 1. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: preci.hamilton@lthtr.nhs.uk. 2. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: imad.soryal@nhs.net. 3. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: prince.dhahr@nhs.net. 4. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: ibuddhika.wimalachandra@uhb.nhs.uk. 5. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: anna.leat@uhb.nhs.uk. 6. Regional Complex Epilepsy Service, The Barberry, Birmingham, United Kingdom. Electronic address: denise.hughes@uhb.nhs.uk. 7. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: nicole.toghill@uhb.nhs.uk. 8. Statistics Department, Institute of Translational Medicine, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: james.hodson@uhb.nhs.uk. 9. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom; Regional Complex Epilepsy Service, The Barberry, Birmingham, United Kingdom. Electronic address: vijay.sawlani@uhb.nhs.uk. 10. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: tom.hayton@nhs.net. 11. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom. Electronic address: shanika.samarasekera@uhb.nhs.uk. 12. Regional Complex Epilepsy Service, The Barberry, Birmingham, United Kingdom. Electronic address: m.bagary@nhs.net. 13. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom; Regional Complex Epilepsy Service, The Barberry, Birmingham, United Kingdom. Electronic address: Dougall.Mccorry@uhb.nhs.uk. 14. Complex Epilepsy and Surgery Service, Queen Elizabeth Hospital Birmingham, United Kingdom; Regional Complex Epilepsy Service, The Barberry, Birmingham, United Kingdom.
Abstract
PURPOSE: To compare the efficacy of AspireSR® to preceding VNS battery models for battery replacements, and to determine the efficacy of the AspireSR® for new implants. METHODS: Data were collected retrospectively from patients with epilepsy who had VNS AspireSR® implanted over a three-year period between June 2014 and June 2017 by a single surgeon. Cases were divided into two cohorts, those in whom the VNS was a new insertion, and those in whom the VNS battery was changed from a previous model to AspireSR®. Within each group, the seizure burden was compared between the periods before and after insertion of AspireSR®. RESULTS: Fifty-one patients with a newly inserted AspireSR® VNS model had a significant reduction in seizure frequency (p < 0.001), with 59% (n = 30) reporting ≥50% reduction. Of the 62 patients who had an existing VNS, 53% (n = 33) reported ≥50% reduction in seizure burden when the original VNS was inserted. After the battery was changed to the AspireSR®, 71% (n = 44) reported a further reduction of ≥50% in their seizure burden. The size of this reduction was at least as large as that resulting from the insertion of their existing VNS in 98% (61/62) of patients. CONCLUSION: The results suggest that approximately 70% of patients with existing VNS insertions could have significant additional benefit from cardiac based seizure detection and closed loop stimulation from the AspireSR® device. For new insertions, the AspireSR® device has efficacy in 59% of patients. The 'rule of thirds' used in counseling patients may need to be modified accordingly. Crown
PURPOSE: To compare the efficacy of AspireSR® to preceding VNS battery models for battery replacements, and to determine the efficacy of the AspireSR® for new implants. METHODS: Data were collected retrospectively from patients with epilepsy who had VNS AspireSR® implanted over a three-year period between June 2014 and June 2017 by a single surgeon. Cases were divided into two cohorts, those in whom the VNS was a new insertion, and those in whom the VNS battery was changed from a previous model to AspireSR®. Within each group, the seizure burden was compared between the periods before and after insertion of AspireSR®. RESULTS: Fifty-one patients with a newly inserted AspireSR® VNS model had a significant reduction in seizure frequency (p < 0.001), with 59% (n = 30) reporting ≥50% reduction. Of the 62 patients who had an existing VNS, 53% (n = 33) reported ≥50% reduction in seizure burden when the original VNS was inserted. After the battery was changed to the AspireSR®, 71% (n = 44) reported a further reduction of ≥50% in their seizure burden. The size of this reduction was at least as large as that resulting from the insertion of their existing VNS in 98% (61/62) of patients. CONCLUSION: The results suggest that approximately 70% of patients with existing VNS insertions could have significant additional benefit from cardiac based seizure detection and closed loop stimulation from the AspireSR® device. For new insertions, the AspireSR® device has efficacy in 59% of patients. The 'rule of thirds' used in counseling patients may need to be modified accordingly. Crown
Authors: Charles F Yates; Kate Riney; Stephen Malone; Ubaid Shah; Liam G Coulthard; Robert Campbell; Geoff Wallace; Martin Wood Journal: Acta Neurochir (Wien) Date: 2021-11-10 Impact factor: 2.216
Authors: Morgan B Lee; Daniel R Kramer; Terrance Peng; Michael F Barbaro; Charles Y Liu; Spencer Kellis; Brian Lee Journal: J Clin Neurosci Date: 2019-07-30 Impact factor: 1.961
Authors: Christian Dorfer; Bertil Rydenhag; Gordon Baltuch; Vivek Buch; Jeffrey Blount; Robert Bollo; Jason Gerrard; Daniel Nilsson; Karl Roessler; James Rutka; Ashwini Sharan; Dennis Spencer; Arthur Cukiert Journal: Epilepsia Date: 2020-03-29 Impact factor: 6.740