血流动力学
脊髓损伤
医学
脊髓
生活质量(医疗保健)
临床试验
血压
麻醉
刺激
腰骶关节
重症监护医学
铅(地质)
功能性电刺激
物理医学与康复
并发症
外科
脊髓刺激
保守治疗
作者
Aaron A. Phillips,Aasta P. Gandhi,Nicolas Hankov,Sergio Daniel Hernandez‐Charpak,Julien Rimok,Anthony V. Incognito,Anouk E.J. Nijland,Marina D’Ercole,Anne Watrin,Maxime Berney,Aikaterini Damianaki,Grégory Dumont,Nicolò Macellari,Laura De Herde,Nadine Intering,Donovan Smith,Ryan Miller,M. Smith,Jordan B. Lee,Edeny Baaklini
出处
期刊:Nature Medicine
[Nature Portfolio]
日期:2025-09-01
卷期号:31 (9): 2946-2957
被引量:7
标识
DOI:10.1038/s41591-025-03614-w
摘要
A spinal cord injury (SCI) causes immediate and sustained hemodynamic instability that threatens neurological recovery and impacts quality of life. Here we establish the clinical burden of chronic hypotensive complications due to SCI in 1,479 participants and expose the ineffective treatment of these complications with conservative measures. To address this clinical burden, we developed a purpose-built implantable system based on biomimetic epidural electrical stimulation (EES) of the spinal cord that immediately triggered robust pressor responses. The system durably reduced the severity of hypotensive complications in people with SCI, removed the necessity for conservative treatments, improved quality of life and enabled superior engagement in activities of daily living. Central to the development of this therapy was the head-to-head demonstration in the same participants that EES must target the last three thoracic segments, and not the lumbosacral segments, to achieve the safe and effective regulation of blood pressure in people with SCI. These findings in 14 participants establish the path to designing a pivotal device trial that will evaluate the safety and efficacy of EES to treat the underappreciated, treatment-resistant hypotensive complications due to SCI.
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