Neuromodulation Strategies to Reduce Inflammation and Improve Lung Complications in COVID-19 Patients

doi:10.3389/fneur.2022.897124

Review

. 2022 Jul 14:13:897124.

doi: 10.3389/fneur.2022.897124. eCollection 2022.

Neuromodulation Strategies to Reduce Inflammation and Improve Lung Complications in COVID-19 Patients

Christopher J Czura¹, Marom Bikson², Leigh Charvet³, Jiande D Z Chen⁴, Manfred Franke⁵, Marat Fudim⁶, Eric Grigsby⁷, Sam Hamner⁸, Jared M Huston⁹, Navid Khodaparast¹⁰, Elliot Krames¹¹, Bruce J Simon¹², Peter Staats¹³, Kristl Vonck¹⁴

Affiliations

¹ Convergent Medical Technologies, Inc., Oyster Bay, NY, United States.
² Department of Biomedical Engineering, The City College of New York, New York, NY, United States.
³ Department of Neurology, NYU Grossman School of Medicine, New York, NY, United States.
⁴ Division of Gastroenterology and Hepatology, University of Michigan School of Medicine, Ann Arbor, MI, United States.
⁵ NeuronOff, Inc., Cleveland, OH, United States.
⁶ Division of Cardiology, Duke Clinical Research Institute, Duke University, Durham, NC, United States.
⁷ Neurovations, Napa, CA, United States.
⁸ Cala Health, Burlingame, CA, United States.
⁹ Departments of Surgery and Science Education, Zucker School of Medicine at Hofstra/Northwell, Institute of Bioelectronic Medicine, Feinstein Institutes for Medical Research, Manhasset, NY, United States.
¹⁰ Spark Biomedical, Inc., Dallas, TX, United States.
¹¹ Pacific Pain Treatment Center, Napa, CA, United States.
¹² ElectroCore, Inc., Basking Ridge, NJ, United States.
¹³ National Spine and Pain, ElectroCore, Inc., Jacksonville, FL, United States.
¹⁴ Department of Neurology, Ghent University Hospital, Ghent, Belgium.

PMID: 35911909
PMCID: PMC9329660
DOI: 10.3389/fneur.2022.897124

Review

Neuromodulation Strategies to Reduce Inflammation and Improve Lung Complications in COVID-19 Patients

Christopher J Czura et al. Front Neurol. 2022.

. 2022 Jul 14:13:897124.

doi: 10.3389/fneur.2022.897124. eCollection 2022.

Authors

Affiliations

¹ Convergent Medical Technologies, Inc., Oyster Bay, NY, United States.
² Department of Biomedical Engineering, The City College of New York, New York, NY, United States.
³ Department of Neurology, NYU Grossman School of Medicine, New York, NY, United States.
⁴ Division of Gastroenterology and Hepatology, University of Michigan School of Medicine, Ann Arbor, MI, United States.
⁵ NeuronOff, Inc., Cleveland, OH, United States.
⁶ Division of Cardiology, Duke Clinical Research Institute, Duke University, Durham, NC, United States.
⁷ Neurovations, Napa, CA, United States.
⁸ Cala Health, Burlingame, CA, United States.
⁹ Departments of Surgery and Science Education, Zucker School of Medicine at Hofstra/Northwell, Institute of Bioelectronic Medicine, Feinstein Institutes for Medical Research, Manhasset, NY, United States.
¹⁰ Spark Biomedical, Inc., Dallas, TX, United States.
¹¹ Pacific Pain Treatment Center, Napa, CA, United States.
¹² ElectroCore, Inc., Basking Ridge, NJ, United States.
¹³ National Spine and Pain, ElectroCore, Inc., Jacksonville, FL, United States.
¹⁴ Department of Neurology, Ghent University Hospital, Ghent, Belgium.

PMID: 35911909
PMCID: PMC9329660
DOI: 10.3389/fneur.2022.897124

Abstract

Since the outbreak of the COVID-19 pandemic, races across academia and industry have been initiated to identify and develop disease modifying or preventative therapeutic strategies has been initiated. The primary focus has been on pharmacological treatment of the immune and respiratory system and the development of a vaccine. The hyperinflammatory state ("cytokine storm") observed in many cases of COVID-19 indicates a prognostically negative disease progression that may lead to respiratory distress, multiple organ failure, shock, and death. Many critically ill patients continue to be at risk for significant, long-lasting morbidity or mortality. The human immune and respiratory systems are heavily regulated by the central nervous system, and intervention in the signaling of these neural pathways may permit targeted therapeutic control of excessive inflammation and pulmonary bronchoconstriction. Several technologies, both invasive and non-invasive, are available and approved for clinical use, but have not been extensively studied in treatment of the cytokine storm in COVID-19 patients. This manuscript provides an overview of the role of the nervous system in inflammation and respiration, the current understanding of neuromodulatory techniques from preclinical and clinical studies and provides a rationale for testing non-invasive neuromodulation to modulate acute systemic inflammation and respiratory dysfunction caused by SARS-CoV-2 and potentially other pathogens. The authors of this manuscript have co-founded the International Consortium on Neuromodulation for COVID-19 to advocate for and support studies of these technologies in the current coronavirus pandemic.

Keywords: COVID-19; acute respiratory distress (ARDS); cranial nerve stimulation; cytokine storm; non-invasive; sacral nerve electrical stimulation; vagus nerve (VN) stimulation.

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Conflict of interest statement

CC is an equity holder of Convergent Medical Technologies, Inc., reports personal fees from electroCore Inc., and Spark Biomedical, and has issued and pending patents related to vagus nerve stimulation to control bleeding and inflammation. MB reports personal fees from Soterix Medical, grants from Google X, personal fees from Halo Neuroscience, outside the submitted work; in addition, he has a patent Brain Stimulation issued. MFr reports pending patent applications describing injectable electrode structures for Neuronoff, Inc., and is an employee and equity holder of Neuronoff, Inc. He further reports issued patents for selective Vagus nerve stimulation and selective electrical vagal block for regulation of autonomic functions such as heart rate and blood pressure for Boston Scientific. MFu reports personal fees from Axon Therapies, CVRx, Daxor, Edwards Life Sciences, Galvani, and Respicardia, outside the submitted work. SH is an employee and equity holder of Cala Health. NK reports a patent devices and methods for reducing inflammation using electrical stimulation pending. BS reports personal fees from electroCore, and reports patents issued and pending related to transcutaneous cervical vagus nerve stimulation. PS is an employee and equity holder of electroCore, and reports patents issued and pending related to transcutaneous cervical vagus nerve stimulation. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

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References

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1. Merad M, Martin JC. Pathological inflammation in patients with COVID-19: a key role for monocytes and macrophages. Nat Rev Immunol Nat Res. (2020) 20:355–62. 10.1038/s41577-020-0331-4 - DOI - PMC - PubMed
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[1] Ader F, Bouscambert-Duchamp M, Hites M, Peiffer-Smadja N, Poissy J, Belhadi D, et al. . Remdesivir plus standard of care versus standard of care alone for the treatment of patients admitted to hospital with COVID-19 (DisCoVeRy): a phase 3, randomised, controlled, open-label trial. Lancet Infect Dis. (2022) 22:209–21. 10.1016/S1473-3099(21)00485-0 - DOI - PMC - PubMed

[2] Ader F, Bouscambert-Duchamp M, Hites M, Peiffer-Smadja N, Poissy J, Belhadi D, et al. . Remdesivir plus standard of care versus standard of care alone for the treatment of patients admitted to hospital with COVID-19 (DisCoVeRy): a phase 3, randomised, controlled, open-label trial. Lancet Infect Dis. (2022) 22:209–21. 10.1016/S1473-3099(21)00485-0 - DOI - PMC - PubMed

[3] Tay MZ, Poh CM, Rénia L, MacAry PA, Ng LFP. The trinity of COVID-19: immunity, inflammation and intervention. Nat Rev Immunol. (2020) 20:363–74. 10.1038/s41577-020-0311-8 - DOI - PMC - PubMed

[4] Tay MZ, Poh CM, Rénia L, MacAry PA, Ng LFP. The trinity of COVID-19: immunity, inflammation and intervention. Nat Rev Immunol. (2020) 20:363–74. 10.1038/s41577-020-0311-8 - DOI - PMC - PubMed

[5] Gustine JN, Jones D. Immunopathology of Hyperinflammation in COVID-19. Am J Pathol. (2020). 10.1016/j.ajpath.2020.08.009 - DOI - PMC - PubMed

[6] Gustine JN, Jones D. Immunopathology of Hyperinflammation in COVID-19. Am J Pathol. (2020). 10.1016/j.ajpath.2020.08.009 - DOI - PMC - PubMed

[7] Merad M, Martin JC. Pathological inflammation in patients with COVID-19: a key role for monocytes and macrophages. Nat Rev Immunol Nat Res. (2020) 20:355–62. 10.1038/s41577-020-0331-4 - DOI - PMC - PubMed

[8] Merad M, Martin JC. Pathological inflammation in patients with COVID-19: a key role for monocytes and macrophages. Nat Rev Immunol Nat Res. (2020) 20:355–62. 10.1038/s41577-020-0331-4 - DOI - PMC - PubMed

[9] Del Valle DM, Kim-Schulze S, Huang HH, Beckmann ND, Nirenberg S, Wang B, et al. . An inflammatory cytokine signature predicts COVID-19 severity and survival. Nat Med. (2020) 26:1636–43. 10.1038/s41591-020-1051-9 - DOI - PMC - PubMed

[10] Del Valle DM, Kim-Schulze S, Huang HH, Beckmann ND, Nirenberg S, Wang B, et al. . An inflammatory cytokine signature predicts COVID-19 severity and survival. Nat Med. (2020) 26:1636–43. 10.1038/s41591-020-1051-9 - DOI - PMC - PubMed

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Neuromodulation Strategies to Reduce Inflammation and Improve Lung Complications in COVID-19 Patients

Affiliations

Neuromodulation Strategies to Reduce Inflammation and Improve Lung Complications in COVID-19 Patients

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