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Effects of Pulsed Electromagnetic Fields (PEMFS) On Cerebral Haemodynamics — EPOCH

Cognitive Change Clinical Trial

Official title:
Effects of Pulsed Electromagnetic Fields (PEMFS) On Cerebral Haemodynamics - EPOCH Study

Clinical Trial Summary

The investigators are looking to determine the effects of PEMFs device on cerebral blood flow and cognition in healthy volunteers. Through in vitro tests and in vivo animal studies, the investigators have shown that at an extremely low flux density (strength) of 1 millitesla (mT) and with short exposures of 10 minutes a week, PEMFs can recapitulate many of the healthful benefits of exercise without imparting a mechanical stress on the tissues and cells. In the first-in-man study, 10 healthy volunteers were exposed to PEMFs for 6 weeks with 10 minutes of field exposure per week, and experienced an average increase of 30% in leg strength. No side effects were reported. In this study, the investigators aim to understand the cerebral effects of an exercise mimetic (PEMFs) via the muscle milieu.

Clinical Trial Description

Human and animal studies have reported the beneficial influence of exercise on cognitive and brain functions. Accordingly, exercise is drawing increasing research attention as a possible lifestyle factor for improving neurocognitive functions. Low frequency and low amplitude Pulsed Electromagnetic Fields (PEMFs) recapitulate many of the benefits of exercise by activating many of the same cellular second messenger cascades activated by mechanical input (exercise) yet, without imparting a physical stress on the cells. Through a series of in vitro and in vivo experiments the investigators have shown that at field strengths of 1-2 mT amplitude, the PEMF system stimulates muscle without physically stressing the tissues and delivers the following benefits: 1) slows muscle loss, 2) improves muscle strength and, 3) releases important regenerative and metabolism-enhancing agents. Functional near-infrared spectroscopy (fNIRS) is a relatively new optical imaging technology that uses light in the near-infrared spectrum to non-invasively monitor the haemodynamic responses evoked by neural activity through measuring the changes in oxyhaemoglobin (HbO) and deoxyhaemoglobin (HbR) concentrations in the cerebral cortex. The increased blood supply to the area of neural activation typically results in an increase in HbO concentration while a decrease is observed in HbR due to the blood's washout effect. The HbO and HbR responses from fNIRS measurements have been shown to be spatially and temporally correlated with the blood oxygen level-dependent signal obtained by fMRI. The advantage of fNIRS over other imaging modalities is that it is inexpensive, non-invasive, non-ionising and portable, making it a highly popular modality for implementing brain-computer interfaces. OBELAB NIRSIT is a commercially available, high-density fNIRS device that optically measures haemodynamic variations in the pre-frontal cortex (PFC). Low-frequency and low amplitude pulsed electromagnetic fields (PEMFs) recapitulate many of the healthful benefits of exercise by activating many of the same cellular second messenger cascades activated by mechanical input (exercise) yet, without imparting a physical stress on the cells. Response windows are a largely unrecognised rule in mechanobiological systems, whereby cells are most responsive to a given strain, duration and frequency of stimulation; greater strain of higher frequency and duration of stimulation is too much of a stress for cells and results in null responses. The investigators have shown that PEMFs likewise obey an electromagnetic window of efficacy with temporal and frequency dependencies of similar scale as those required for mechanical stimulation, further supporting the conclusion that PEMFs are activating cellular mechanotransduction pathways. At field strengths of 1-2 mT amplitude, the PEMF system stimulates muscle without physically stressing the tissues and aims to deliver the following benefits: 1) slows muscle loss; 2) improves muscle strength and; 3) releases important regenerative and metabolism-enhancing agents. Accordingly, this study will investigate the exercise mimetic effects of PEMFs on cerebral haemodynamics and cognitive performance via targeting muscle. The results of this study will support future work with patients with memory deficits, such as mild cognitive impairment, to possibly mitigate disease progression. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT03944993
Study type Interventional
Source National University Hospital, Singapore
Contact
Status Terminated
Phase N/A
Start date October 22, 2019
Completion date February 19, 2021
View Details
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