The goal of this clinical trial is to determine if low-level laser therapy (LLLT) and LED-based low-level light therapy (LLLT) are effective in inducing relaxation and improving sleep quality and anxiety levels in individuals with insomnia. It aims to evaluate the potential of both light sources to elicit comparable physiological changes in relation to acupoint stimulation. The main questions this trial aims to answer are: Does exposure to low-level laser or LED light therapy on specific acupoints associated with insomnia result in similar changes in heart rate variability and meridian energy? How does skin pigmentation affect the penetration of different wavelength light sources used in LLLT? Primary hypothesis 1: Low-level LED light therapy is comparable to laser therapy in terms of effectiveness. Primary hypothesis 2: With proper design, both treatments will elicit similar changes in meridian energy and heart rate variability. Researchers will compare the effects of low-level laser and LED light therapy on 60 participants, divided into two groups: 30 healthy participants receiving either low-level laser/sham laser or low-level LED/sham LED light exposure and 30 participants with brown to black skin tones receiving different LED and laser specifications. Participants will: Undergo either low-level laser/sham laser or low-level LED/sham LED light exposure on specific acupoints. Have their heart rate variability and meridian energy levels measured before and after the intervention. Have their skin pigmentation measured to assess light penetration with various wavelengths. This study seeks to establish a stronger link between acupoint stimulation, light therapy, and sleep neuroscience, potentially offering an alternative therapeutic approach for insomnia that complements existing pharmacological interventions.
Research Background: In recent years, acupuncture has emerged as a promising therapeutic approach for improving sleep quality in menopausal women, particularly in addressing the challenging aspect of deepening sleep. This has led to an increased focus on acupunctural treatments, including acupoint stimulation, as a potential solution for insomnia. However, with increasingly stringent medical regulations, even non-invasive low-level laser therapy, despite its significantly safer profile compared to traditional acupuncture needles, faces substantial regulatory hurdles. Meanwhile, novel LED technology presents a compelling alternative to lasers. Compared to lasers of equivalent power, LEDs boast lower costs, energy consumption, and operating temperatures without compromising therapeutic efficacy. This makes LED-based low-level light therapy (LLLT) a highly promising approach, especially for applications where diverse medical needs are present, such as in organizations like NASA. This study is a preliminary investigation into the application of acupoint light therapy within the realm of Traditional Chinese Medicine (TCM) for managing insomnia and anxiety. The objective is to evaluate the potential of both low-level laser therapy and low-level LED light therapy, under similar power and wavelength conditions, to induce comparable physiological changes and consequently improve sleep quality and alleviate anxiety. Specifically, this research will examine whether exposure to either light source results in similar relaxation effects by analyzing relevant physiological indicators like heart rate variability parameters and conductive meridian (Jingluo) parameters - a measure of electrical resistance along meridians. Furthermore, this study will address the understudied influence of skin pigmentation on LLLT by conducting optical experiments to determine the penetration depth of light sources with varying wavelengths through different skin types. This will contribute to a more comprehensive understanding of the application of LLLT in acupoint stimulation. Research Objectives: Investigate the effects of low-level laser and LED light therapy on acupoints associated with insomnia in the hands, using heart rate variability parameters and conductive meridian resistance (Jingluo) measurements as assessment tools. Clarify the influence of skin pigmentation on the propagation of low-level laser and LED light by using a light power meter to quantify the difference in light transmission through darker and lighter skin types for various wavelengths. Hypothesis: Low-level LED light therapy is comparable to laser therapy in terms of its effectiveness. With proper design, both treatments will elicit similar changes in meridian energy and heart rate variability. Data and Methods: A total of 90 participants will be recruited for this study, divided into two groups: Group 1: Consists of 30 healthy participants who will undergo either low-level laser/sham laser or low-level LED/sham LED light exposure. Changes in meridian energy and heart rate variability will be assessed after the intervention. Participants in this group will also be required to undergo pre- and post-light exposure measurements using different LED and laser specifications. Group 2: Includes 30 participants with skin tones ranging from brown to black, categorized using the Fitzpatrick skin type scale. They will also undergo pre- and post-light exposure measurements using different LED and laser specifications. Expected Results: This study anticipates observing changes in meridian resistance and heart rate variability parameters following the application of low-level light stimulation to acupoints. By evaluating the penetration of light sources of various wavelengths through different human tissues, the study aims to establish a stronger link between LLLT and physiological indicators related to relaxation. Significance: This research aims to create a stronger connection between the practices of TCM acupoint stimulation, light therapy, and sleep neuroscience. The findings have the potential to provide an alternative therapeutic option for individuals suffering from insomnia, complementing existing pharmacologic interventions.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
120
Experiment 1:Measure the heart rate parameters before, during, and after laser acupuncture or LED light therapy within a 25-minute experimental period, and observe the changes in the subjects' meridian energy before and after the treatment, followed by analysis. Acupoint selections mainly include Daling, Neiguan, and Shenmen. Experiment 2:randomly assigns subjects to wear either a low-energy LED device or a sham device. The indicators, duty cycles, and sounds of the low-energy LED device and the sham device are all the same. Experiment 3:Place light sources of different wavelengths on the earlobes or auricles of subjects with different skin tones. By observing the changes in light power before and after, the investigators can infer the effects of skin tone on light attenuation and transmission of light sources with different wavelengths.
Institute of Brain Science
Taipei, Taiwan
Heart rate variability of Healthy Participant during Low-Energy LED Therapy
Heart rate variability is measured by using Wegene Electrocardiogram Recorder (Medical Device License No. 004896 of the Ministry of Health): Developed by National Yang-Ming University and in cooperation with Wegene Technology, this handheld heart rate measurement system allows users to measure heart rate variability parameters in a relaxed manner and reflect the main parameters on the dashboard in real time. The primary unit of measure for heart rate variability (HRV). HRV reflects the variation in time between consecutive heartbeats(bpm), and this variation is typically very small, measured in milliseconds. HRV parameters includes Total Power, TP \[ln(ms²)\], Standard deviation of Normal to Normal R Wave, SDNN(ms²), High Frequency, HF \[ln(ms²)\], Low Frequency, LF \[ln(ms²)\], Very Low Frequency, VLF \[ln(ms²)\], percentage of HF(%), percentage of LF(%), LF/HF ratio.
Time frame: Measure three times: before, during, and after, each lasting 5 minutes
Meridian Energy Measurement of Healthy Participant during Low-Energy LED Therapy.
A spring-loaded probe, is moistened with 5% saline and, after sterilization, applied sequentially to the 24 Yuan acupoints. After 2-3 seconds of 12 g/cm2 pressure for each point, the device is automatically interrupted, and the average value is recorded on a computerized system. In Meridian Energy Analysis (MEA), the primary unit of measure is electrical conductance, typically expressed in microamperes (μA). This measurement reflects the flow of electrical current through the meridian pathways, which can measure the vital energy (Qi) in traditional Chinese medicine. The MEA device used in the investigation is the Meridian Energy Analysis Device (MEAD). It uses a small electrical current (200 μA) to measure the Qi of the 24 pathways and their associated energy levels.
Time frame: Measure two times: before and after, each lasting for 6 minutes
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