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使用敏捷方法论加速神经技术的发展.

Anil Kumar Thota1, Ranu Jung1,2

  • 1Adaptive Neural Systems Group, The Institute for Integrative and Innovative Research, University of Arkansas, Fayetteville, AR, United States.

Frontiers in neuroscience
|March 4, 2024
PubMed
概括
此摘要是机器生成的。

这项研究倡导敏捷方法在开发医疗器械新型神经技术. 采用敏捷可以加速为慢性免疫和自主性疾病提供创新的治疗方法.

关键词:
敏捷的敏捷是一种敏捷的行为.设计控制的设计控制.医疗器械开发 医疗器械开发神经技术的神经技术外围神经接口 (PIN) 是一个神经接口.验证和验证的验证和验证.布中的布是水.

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科学领域:

  • 生物电子医疗器械 生物电子医疗器械
  • 神经技术的神经技术
  • 医疗器械开发 医疗器械开发

背景情况:

  • 针对内脏器官和炎症通路的神经控制的新型生物电子设备代表了创新的III类医疗设备.
  • 目前的开发经常使用布方法,由于其刚性,这可能会导致延迟和增加成本.
  • 敏捷方法论在软件开发方面取得了成功,但由于监管障碍,在基于硬件的医疗设备方面面临挑战.

研究的目的:

  • 为了比较布和敏捷的方法来开发医疗设备与物理组件.
  • 倡导在神经技术的开发中采用敏捷方法.
  • 为了说明敏捷方法的应用,使用外围神经接口的例子.

主要方法:

  • 在医疗器械开发中对布和敏捷方法的比较分析.
  • 对基于硬件的医疗设备中敏捷实施的监管考虑的讨论.
  • 使用外围神经接口来展示敏捷方法的案例研究.

主要成果:

  • 布方法在适应变化的局限性可能导致设备开发的重大延迟和成本增加.
  • 敏捷方法提供了灵活性和效率,有可能克服医疗器械开发布的缺点.
  • 该研究强调了将敏捷原则应用于神经技术开发的可行性和好处.

结论:

  • 采用敏捷方法可以加速拯救生命和维持生命的医疗器械进入市场.
  • 与布相比,敏捷提供了一种更适应和更有效的方法,用于开发复杂的医疗设备.
  • 对神经技术的敏捷实施可以通过更早地获得创新的治疗方法,使患有自主性和慢性免疫疾病的患者受益.