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LiHe NeoSyn

The Operating Principals and Scientific-Technical Framework Behind the Platform

Microwaves simulate the physiological effects of traditional acupuncture through multiple principles such as electromagnetic stimulation, power regulation, neurotransmitter regulation, and microcirculation improvement. Lixinghe’s products utilize the thermal and non-thermal effects of microwaves, with acupoint stimulation as the pathway, to support the body’s natural regulatory functions and promote general well-being.

Theoretical and Biological Operating Principles

Meridian and Acupuncture Basis (TCM Foundation)

From the perspective of traditional Chinese medicine, the human body possesses a meridian system through which qi (vital energy) and blood circulate. Acupuncture stimulates specific acupoints to influence the flow of qi and blood, support the regulatory functions of the zang‑fu organs, and assist the body in maintaining a state of balance. Microwave therapy is designed to simulate certain aspects of traditional acupuncture by applying energy to acupoints, thereby inheriting a similar conceptual mechanism for meridian‑based modulation.

Thermal and Non‑Thermal Effects of Microwave Energy

Thermal effect

Microwave energy penetrates tissues and is absorbed by acupoints and surrounding areas, generating a mild warming sensation comparable to traditional moxibustion. This effect is associated with promoting local blood flow, supporting metabolic processes, and helping to ease muscle tension and discomfort.

Non‑thermal effect

Microwaves may influence physiological and biochemical activities at the cellular level, such as modulating neurotransmitter release and altering cell membrane permeability. These effects complement acupoint stimulation and may support local circulation, metabolic activity, and natural immune responses.

Electromagnetic Stimulation Principle

As an electromagnetic wave, microwave energy penetrates human tissues to reach deeper acupoint regions. The electromagnetic field produces a stimulation effect conceptually similar to the mechanical action of a traditional acupuncture needle. For example, just as a needle may trigger nerve impulses at an acupoint, the electromagnetic influence of microwaves may interact with nerve endings and cells to generate comparable bioelectrical signaling.

Power Regulation Principle

Microwaves induce localized, microscopic power variations at acupoint sites. These variations are thought to influence cellular metabolism and physiological functions. Analogous to traditional acupuncture’s goal of regulating qi and blood flow, microwave energy may affect cellular energy dynamics and support processes related to cell maintenance and natural repair mechanisms.

Neurotransmitter Regulation Principle

When applied to acupoints, microwaves may affect the release and transmission of certain neurotransmitters. This mirrors the way traditional acupuncture is understood to influence neurochemical balance—for example, by promoting the release of endorphins or other signaling molecules involved in the body’s natural pain modulation pathways. Such effects provide a scientific basis for how acupoint stimulation may influence nervous system function.

Microcirculation Improvement Principle

Microwave energy can induce dilation of small blood vessels (microvessels) near acupoints, thereby supporting local blood flow and nutrient delivery to tissues. Traditional acupuncture aims to improve qi and blood circulation by clearing meridian pathways. Microwave therapy offers a complementary physical approach to achieving similar microcirculatory changes, potentially creating a more favorable local environment for tissue maintenance and recovery.

Core Technology – Technical Principles & Engineering Advantages

Non‑Contact Focusing Technology

Mechanism

The platform uses proprietary electromagnetic radiator designs integrated with localized focusing probes. By controlling the phase and direction of high‑frequency waves, the emitter projects a cohesive energy field through atmospheric space without physical medium attachment.

Engineering Advantage

This configuration directly targets specified sub‑surface tissue layers, overcoming typical air‑medium dispersion. By maintaining a strict non‑contact barrier, the platform eliminates transmission friction, surface skin abrasions, cross‑contamination vector pathways, and infection risks inherent in traditional contact‑based or invasive clinical physical modalities.

Real‑Time Dual‑Layer Thermometry

Mechanism

The technology platform embeds a continuous multi‑channel sensor loop that intercepts return signals to evaluate energy attenuation and localized thermal dynamics.

Engineering Advantage

The system provides simultaneous, real‑time tracking of both superficial skin surface temperatures and deep subcutaneous tissue layers. This structural feedback loop prevents excessive energy pooling, monitors patient safety thresholds, and dynamically stabilizes microwave power delivery across complex atmospheric conditions or fluctuating tissue dielectric constants.

Thermal & Non‑Thermal Bio‑Physics

Thermal Dynamics

High‑frequency 2450 MHz electromagnetic waves interact with polar molecules (primarily water dipoles) within localized structural tissues, inducing high‑speed rotational friction. This produces a deep‑seated, controllable thermal distribution that dilates local microvessels, accelerates regional cellular metabolism, and relaxes deep‑tissue muscle tension.

Non‑Thermal Field Effects

Operating independently of heat generation, low‑intensity electromagnetic fields manipulate underlying biophysical properties. This field interaction affects cellular membrane potential, alters permeability characteristics, and modulates local microvascular fluid dynamics, providing structural conditioning at a microscopic cellular level.

Multi‑Dimensional Array Synergy

Mechanism

Driven by an advanced multi‑probe orchestration processor, the hardware manages up to ten individual microwave channels concurrently through a centralized software interface.

Engineering Advantage

This multi‑channel design allows complex spatial superposition of electromagnetic energy vectors, enabling simultaneous processing of expansive anatomical areas or multi‑site synchronized stimulation without regional energy accumulation or overlapping channel interference.

Intelligent Data Integration & Standardization

Mechanism

Powered by an automated rules architecture and advanced data modeling engines, the hardware captures precise performance variables from every operation—including exact duration, multi‑channel power logs, and deep‑tissue thermal profiles.

Engineering Advantage

This systemic digitization replaces subjective, operator‑dependent empirical procedures with verifiable, uniform operational parameters. The resulting high data replicability supports strict corporate data governance, meets compliance criteria for cross‑border analytics, and satisfies international technical standardization requirements.

Regulatory and Commercial Status Disclosure

The statements presented on this website and the associated product have not been evaluated by the U.S. Food and Drug Administration. This product is not intended to diagnose, treat, cure, or prevent any disease.

All technological principles, scientific research outcomes, and medical device products (including but not limited to Models LXH-WB101D and LXH-WB105X), as well as related therapeutic descriptions displayed on this website (specifically within the Technology and Product sections), are owned and exclusively controlled by our parent company, Henan Lixinghe Medical Technology Co., Ltd., located in China. The parent company retains all intellectual property rights and proprietary interests in these materials.

These technologies and products are being evaluated for regulatory compliance, clinical use, and U.S. market entry. The U.S. office and subsidiary, LiHe NeoSyn BioMeridian Technology Inc., do not engage in commercial sales, distribution, marketing, or clinical therapeutic services in the United States at this time.

All content on this website is for academic exchange, technical communication, and representing our parent company's background. Nothing here is an offer for sale or lease in the U.S. market.