低能量调幅射频电磁场作为癌症的一种全身治疗方法:回顾和拟议的作用机制。

Frontiers in Medical Technology Pub Date : 2022-09-08 eCollection Date: 2022-01-01 DOI:10.3389/fmedt.2022.869155
Jack A Tuszynski, Frederico Costa
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引用次数: 0

摘要

暴露于低能量振幅调制射频电磁场(LEAMRFEMF)是晚期肝细胞癌(AHCC)患者的一种新的治疗选择。我们重点研究了两款医疗设备,它们通过调节 27.12 MHz 载波的振幅来产生低 Hz 至 kHz 范围内的包络波。每种设备都通过口腔内天线提供全身暴露于 LEAMRFEMF 的机会。这项技术不同于所谓的肿瘤治疗场,因为它使用的频率范围不同,使用的是电磁场而不是电场,而且提供的是系统能量而不是局部能量。AutemDev 还部署了针对患者的特定频率。LEAMRFEMF 设备的耗电量比移动电话低 100 倍,而且不会对组织产生热效应。通过测量暴露于 LEAMRFEMF 时所引起的血流动力学变化,可以得出针对特定肿瘤类型或特定患者的治疗频率。这些特定频率可抑制体外和小鼠异种移植模型中人类癌细胞的生长。在针对 AHCC 患者的无对照前瞻性临床试验中,少数患者出现了完全或部分肿瘤反应。汇总比较显示,与历史对照组相比,接受治疗的患者的总生存率有所提高。轻微的短暂嗜睡是唯一明显的治疗相关不良反应。我们假设细胞内带电大分子的振荡和离子流与 LEAMRFEMF 发生共振耦合。这种共振耦合似乎会破坏细胞分裂和线粒体的亚细胞贩运。我们通过计算输送到细胞的功率,以及由于电磁场沿微管诱导离子流而通过细胞耗散的能量,估算出电磁效应对暴露细胞整体能量平衡的贡献。然后,我们将其与细胞新陈代谢产生的总能量进行比较,得出结论认为,LEAMRFEMF 提供的能量可使癌细胞新陈代谢从异常糖酵解中转移出来,从而带来益处。进一步的临床研究可能会证实 LEAMRFEMF 对 AHCC 具有治疗价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Low-energy amplitude-modulated radiofrequency electromagnetic fields as a systemic treatment for cancer: Review and proposed mechanisms of action.

Low-energy amplitude-modulated radiofrequency electromagnetic fields as a systemic treatment for cancer: Review and proposed mechanisms of action.

Low-energy amplitude-modulated radiofrequency electromagnetic fields as a systemic treatment for cancer: Review and proposed mechanisms of action.

Low-energy amplitude-modulated radiofrequency electromagnetic fields as a systemic treatment for cancer: Review and proposed mechanisms of action.

Exposure to Low-Energy Amplitude-Modulated Radiofrequency Electromagnetic Fields (LEAMRFEMF) represents a new treatment option for patients with advanced hepatocellular carcinoma (AHCC). We focus on two medical devices that modulate the amplitude of a 27.12 MHz carrier wave to generate envelope waves in the low Hz to kHz range. Each provides systemic exposure to LEAMRFEMF via an intrabuccal antenna. This technology differs from so-called Tumour Treating Fields because it uses different frequency ranges, uses electromagnetic rather than electric fields, and delivers energy systemically rather than locally. The AutemDev also deploys patient-specific frequencies. LEAMRFEMF devices use 100-fold less power than mobile phones and have no thermal effects on tissue. Tumour type-specific or patient-specific treatment frequencies can be derived by measuring haemodynamic changes induced by exposure to LEAMRFEMF. These specific frequencies inhibited growth of human cancer cell lines in vitro and in mouse xenograft models. In uncontrolled prospective clinical trials in patients with AHCC, minorities of patients experienced complete or partial tumour responses. Pooled comparisons showed enhanced overall survival in treated patients compared to historical controls. Mild transient somnolence was the only notable treatment-related adverse event. We hypothesize that intracellular oscillations of charged macromolecules and ion flows couple resonantly with LEAMRFEMF. This resonant coupling appears to disrupt cell division and subcellular trafficking of mitochondria. We provide an estimate of the contribution of the electromagnetic effects to the overall energy balance of an exposed cell by calculating the power delivered to the cell, and the energy dissipated through the cell due to EMF induction of ionic flows along microtubules. We then compare this with total cellular metabolic energy production and conclude that energy delivered by LEAMRFEMF may provide a beneficial shift in cancer cell metabolism away from aberrant glycolysis. Further clinical research may confirm that LEAMRFEMF has therapeutic value in AHCC.

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