OlyLife THz Tera-P90 is a device designed to harness the power of bioelectromagnetic therapy to support cellular functions and promote general wellness.
The OlyLife THz Tera-P90 stands out due to its unique combination of bioelectromagnetic and terahertz energy, each offering distinct yet complementary health benefits.
Bioelectromagnetic Energy: Operating at 1 MHz, this high-intensity energy transfer acts on various parts of the body, heating tissues from the inside out to promote metabolism.
This mode facilitates cell-to-cell interaction and supports cellular functions, essentially functioning as a cellular charger that boosts energy. By mimicking the Earth’s natural pulse magnetism, bioelectromagnetic therapy helps maintain the body’s electromagnetic field and revitalizes cellular activity.
Terahertz Energy: Utilizing a focused band of 3-3000μm, known as the “light of life,” terahertz energy resonates synergistically with body molecules to improve microcirculation.
Its impressive penetrating power reaches 4-5 cm under the skin, enhancing cellular interaction and improving overall tissue health.
FunctionsActivates – cells, energyPromotes – microcirculation and metabolismDredges – meridiansRemoves – cold & dampness, waste from the bodyBurns – fat and sculptingRelieves – inflammation, pain, fatigueProduct Features•1 Hz Electromagnetic Energy: This high-frequency energy provides stronger penetrating power, delivering more energy for better effects.•Bioelectromagnetic Energy: Through the energy plate, magnetic energy is efficiently transmitted throughout the body, ensuring a comprehensive experience.•Safe and Secure: Designed with user safety in mind, the device ensures a secure treatment experience without adverse effects.•Effective: The dual energy modes work synergistically to maximize health benefits, promoting effective and sustained improvements in cellular health and overall well-being.
Functions
Activates – cells, energy
Promotes – microcirculation and metabolism
Dredges – meridians
Removes – cold & dampness, waste from the body
Burns – fat and sculpting
Relieves – inflammation, pain, fatigue
Product Features
•1 Hz Electromagnetic Energy: This high-frequency energy provides stronger penetrating power, delivering more energy for better effects.
•Bioelectromagnetic Energy: Through the energy plate, magnetic energy is efficiently transmitted throughout the body, ensuring a comprehensive experience.
•Safe and Secure: Designed with user safety in mind, the device ensures a secure treatment experience without adverse effects.
•Effective: The dual energy modes work synergistically to maximize health benefits, promoting effective and sustained improvements in cellular health and overall well-being.
Scientific Research on Pulsed Electromagnetic Field (PEMF) Therapy
PEMF promotes the repair and regeneration of tissue trauma
PEMF treats osteoporosis
PEMF treats neurological diseases (e.g., stroke, Parkinson’s)
PEMF treats ocular diseases (repairing eye tissue damage)
PEMF treats osteoarthritis
PEMF repairs bone defects (promoting bone cell regeneration and integration)
PEMF treats alopecia (promoting hair follicle cell regeneration)
PEMF treats diabetes and its complications
PEMF improves microcirculation (dilating micro-arteries)
PEMF promotes vascular regeneration
PEMF treats and prevents cardiovascular and cerebrovascular diseases
PEMF induces inactivation and necrosis of cancer cells
A Detailed Scientific Introduction to Pulsed Electromagnetic Field (PEMF) Therapy
This is a detailed scientific introduction to Pulsed Electromagnetic Field (PEMF) Therapy. We will explain its principles, applications, and existing scientific evidence point by point based on the information you provided.
What is Pulsed Electromagnetic Field (PEMF) Therapy?
PEMF is a non-invasive physical treatment method. It utilizes pulsed electromagnetic fields of specific intensities (typically low-intensity) and specific frequencies to penetrate body tissues and produce biological effects at the cellular level. It does not use electrical current to directly stimulate tissues; instead, it uses electromagnetic fields to provide “energy” or “signals” to cells, aiming to optimize cellular function and promote self-repair and regeneration.
Its core concept is: healthy cells have a specific electrical potential difference. When cells are damaged, sick, or aging, this potential difference weakens. PEMF is believed to help cells restore their normal electrophysiological activity.
Detailed Introduction and Scientific Basis for Various Applications
- PEMF Promotes Repair and Regeneration of Tissue Trauma
· Mechanism of Action: PEMF has been proven to:
· Increase blood circulation and oxygenation: Improve blood flow in the injured area, bringing more oxygen and nutrients.
· Stimulate growth factor secretion: Promote the production of factors such as “Fibroblast Growth Factor,” accelerating collagen synthesis and tissue remodeling.
· Reduce inflammation: Regulate inflammatory cytokines (such as TNF-α, IL-1β), alleviating excessive inflammatory responses.
· Enhance cellular energy (ATP) production: Mitochondria are the powerhouses of cells. PEMF is believed to optimize mitochondrial function, producing more energy for repair purposes.
· Scientific Evidence: Numerous in vitro and animal experiments support this effect. It is commonly used clinically to treat chronic wounds (e.g., diabetic foot ulcers), pressure sores, and post-surgical healing.
- PEMF Treats Osteoporosis
· Mechanism of Action: Bone is a dynamic tissue, constantly being broken down by “osteoclasts” and generated by “osteoblasts.” Osteoporosis occurs when the rate of breakdown exceeds the rate of formation.
· PEMF can inhibit osteoclast activity, reducing bone loss.
· Simultaneously, it stimulates the proliferation and differentiation of osteoblasts, promoting bone formation.
· It improves the efficiency of calcium ion utilization in bones.
· Scientific Evidence: The US FDA approved specific PEMF devices for treating “non-union fractures” as early as 1979. Many studies show that PEMF can effectively increase bone density, especially in the lumbar spine and femoral neck of postmenopausal women, making it an auxiliary option alongside drug therapy.
- PEMF Treats Neurological Diseases (Stroke, Parkinson’s, etc.)
· Mechanism of Action:
· Stroke: Primarily targets the recovery period after a stroke. PEMF is believed to promote “neuroplasticity”—the brain’s ability to remodel and establish new connections. It can stimulate the secretion of nerve growth factors, protect neurons from further death (anti-apoptosis), and improve cerebral blood circulation.
· Parkinson’s Disease: Parkinson’s disease is associated with the death of dopamine neurons in the substantia nigra region of the brain. Animal studies show that PEMF may have a neuroprotective effect, slowing the degeneration of dopamine neurons and improving mitochondrial function. It may also help improve motor symptoms like tremors and rigidity.
· Scientific Evidence: This is a cutting-edge and promising field. Currently, most high-quality evidence comes from animal models. Human clinical trials are relatively small-scale, but the results are encouraging. It is regarded as a potential adjunctive therapy.
- PEMF for the Treatment of Ocular Diseases (Repairing Eye Tissue Damage)
· Mechanism of Action: Targets conditions like retinal ganglion cell death (e.g., glaucoma) or retinal ischemia (insufficient blood flow).
· Anti-apoptosis: Protects retinal nerve cells from death.
· Improves ocular microcirculation: Increases blood flow in the retina and choroid.
· Reduces oxidative stress: Ocular tissues are susceptible to oxidative damage; PEMF may enhance their antioxidant capacity.
· Scientific Evidence: Current research is mainly focused on animal experiments, showing that PEMF has protective effects in models of glaucoma, retinopathy, etc. Human clinical application is still in the early stages of research.
- PEMF Treats Osteoarthritis
· Mechanism of Action: Osteoarthritis is characterized by cartilage wear, inflammation, and pain.
· Inhibits inflammation: Reduces inflammatory factors (such as IL-6) in the synovial fluid.
· Stimulates chondrocytes: Promotes chondrocytes to synthesize collagen and proteoglycans, aiding cartilage repair.
· Reduces pain and edema: Achieves analgesic and anti-edema effects through the above mechanisms and potentially by modulating nerve signals.
· Scientific Evidence: This is one of the most established areas of PEMF application. Multiple randomized controlled trials and meta-analyses indicate that PEMF can effectively reduce pain, improve joint function, and enhance the quality of life in osteoarthritis patients. Europe and some other countries have approved its use for treating knee arthritis.
- PEMF Repairs Bone Defects & PEMF Treats Hair Loss
· Bone Defects: The mechanism is similar to treating osteoporosis but focuses more on promoting bone healing. For complex fractures or non-union fractures, PEMF is a standard auxiliary treatment option.
· Hair Loss:
· Mechanism of Action: It is believed that PEMF can stimulate hair follicles in the telogen (resting) phase to re-enter the anagen (growth) phase. It works by improving microcirculation around the hair follicles, increasing energy (ATP) supply, and potentially regulating signaling pathways that affect hair growth.
· Scientific Evidence: A small number of positive clinical studies show that groups using PEMF devices (e.g., laser combs or helmets) had better hair density and thickness compared to control groups. It is considered a safe auxiliary means for treating androgenetic alopecia and telogen effluvium.
- PEMF Treats Diabetes and Its Complications
· Mechanism of Action:
· Improves insulin sensitivity: Animal studies suggest PEMF may improve the response of peripheral tissues to insulin.
· Promotes wound healing: This is one of the most important applications for diabetic patients. Diabetic foot ulcers are difficult to heal; PEMF, through the aforementioned tissue repair mechanisms, becomes an effective tool for treating chronic wounds.
· Treats peripheral neuropathy: Improves blood supply to nerves and may promote the regeneration of nerve fibers, thereby alleviating symptoms like numbness and tingling.
· Scientific Evidence: The evidence is stronger for wound healing. Regarding direct blood glucose regulation, human evidence is still limited, and more research is needed.
- PEMF Improves Microcirculation & Promotes Angiogenesis
· Mechanism of Action:
· Dilates micro-arteries: PEMF is thought to stimulate vascular endothelial cells to release more nitric oxide (NO), a potent vasodilator.
· Promotes angiogenesis: Upregulates the expression of “Vascular Endothelial Growth Factor,” stimulating the generation of new microvessels.
· Scientific Evidence: There is ample basic research supporting this mechanism. This is the foundation for all subsequent benefits (e.g., wound healing, tissue repair).
- PEMF Treats and Prevents Cardiovascular and Cerebrovascular Diseases
· Mechanism of Action:
· Improves endothelial function: Healthy vascular endothelium is key to preventing atherosclerosis. PEMF improves endothelial function by promoting NO release, making blood vessels healthier and more elastic.
· Anti-inflammatory and antioxidant: Reduces inflammation and oxidative stress in the vascular system, which are core drivers of arteriosclerosis.
· May lower blood pressure: Through vasodilation, it may have an auxiliary effect on mild hypertension.
· Scientific Evidence: Currently, most evidence comes from laboratory and animal studies. Clinical application in humans for the prevention and treatment of cardiovascular and cerebrovascular diseases is still in the exploratory stage, but the theoretical foundation is solid.
- PEMF Promotes Cancer Cell Inactivation and Necrosis
(Please note: This is a highly experimental and controversial area and must NOT be used as a standard cancer treatment method)
· Mechanism of Action (Theoretical and Experimental Stage):
· Induces apoptosis: Research attempts to find specific PEMF frequencies that can selectively induce programmed cell death in cancer cells without affecting normal cells.
· Affects cancer cell metabolism: Cancer cell metabolism differs from normal cells (Warburg effect); PEMF may interfere with their energy acquisition.
· Increases chemotherapy/radiotherapy sensitivity: Some studies explore PEMF as an adjuvant to make cancer cells more sensitive to conventional treatments.
· Scientific Evidence: Almost entirely remains at the stage of in vitro cell experiments and animal models. Although some results are exciting, showing that specific PEMF frequencies/intensities can inhibit the growth of certain cancer cells, there is a very long way to go before it becomes a mature and reliable human cancer therapy. Patients should absolutely NOT abandon conventional cancer treatments and rely on PEMF.
Summary
PEMF is an adjunctive and alternative therapy with a solid scientific foundation and broad application prospects. It has the strongest evidence support and clinical application in the fields of orthopedics (fracture healing, arthritis) and soft tissue repair (wound healing).
For other areas such as neurological diseases and metabolic diseases, although mechanistic research is encouraging, the quality and quantity of human clinical evidence still need further improvement. When considering the use of PEMF, it should be regarded as an adjunct to conventional medical treatment and used under the guidance of professional doctors.
Disclaimer: This content is for informational purposes only and is not a substitute for professional medical advice, diagnosis, or treatment. Before starting any new treatment plan, be sure to consult a qualified healthcare provider.
这是一个关于脉冲电磁场疗法 (PEMF) 的详细科学介绍。我们将根据您提供的要点,逐一深入解释其原理、应用和现有的科学证据。
什么是脉冲电磁场疗法 (PEMF)?
PEMF 是一种非侵入性的物理治疗方法。它利用特定强度(通常是低强度)和特定频率的脉冲式电磁场,穿透身体组织,对细胞层面产生生物效应。它不是用电流直接刺激组织,而是透过电磁场为细胞提供”能量”或”信号”,旨在优化细胞功能,促进自我修复与再生。
其核心概念是:健康的细胞具有特定的电位差,当细胞受损、生病或老化时,这个电位差会减弱。PEMF 被认为可以帮助细胞恢复其正常的电生理活动。
各项应用的详细介绍与科学依据
- PEMF 促进组织创伤的修复和再生
· 作用机制: PEMF 被证明可以:
· 增加血液循环与氧合作用: 改善受伤区域的血液流动,带来更多氧气和营养物质。
· 刺激生长因子分泌: 促进如”成纤维细胞生长因子”等的产生,加速胶原蛋白的合成与组织重塑。
· 减少炎症: 调节炎症性细胞因子(如 TNF-α, IL-1β),减轻过度炎症反应。
· 增强细胞能量(ATP)生产: 线粒体是细胞的发电厂,PEMF 被认为能优化线粒体的功能,产生更多能量以供修复之用。
· 科学证据: 大量体外和动物实验支持此效果。临床上常用于治疗慢性伤口(如糖尿病足溃疡)、压疮和手术后的愈合。
- PEMF 治疗骨质疏松症
· 作用机制: 骨骼是一个动态组织,不断由”破骨细胞”分解和”成骨细胞”生成。骨质疏松是分解速度大于生成速度。
· PEMF 能够抑制破骨细胞的活性,减少骨質流失。
· 同时刺激成骨细胞的增殖与分化,促进骨質生成。
· 提高骨骼对钙离子的利用效率。
· 科学证据: 美国FDA早在1979年就批准了特定PEMF设备用于治疗”骨折愈合不良”。许多研究显示,PEMF 能有效增加骨密度,特别是在停经后妇女的腰椎和股骨颈部位,成为药物治疗之外的辅助选项。
- PEMF 治疗神经系统疾病 (脑中风、帕金森等)
· 作用机制:
· 脑中风: 主要针对中风后的恢复期。PEMF 被认为可以促进”神经可塑性”— 即大脑重塑和建立新连接的能力。它能刺激神经生长因子的分泌,保护神经元免于进一步死亡(抗细胞凋亡),并改善脑部血液循环。
· 帕金森病: 帕金森病与大脑黑质区多巴胺神经元的死亡有关。动物研究显示,PEMF 可能具有神经保护作用,减缓多巴胺神经元的退化,并改善线粒体功能。它也可能有助于改善震颤、僵硬等运动症状。
· 科学证据: 这是一个前沿且充满潜力的领域。目前多数高质量的证据来自动物模型,人体临床试验规模较小,但结果令人鼓舞。被视为一种有潜力的辅助治疗方法。
- PEMF 对眼部疾病的治疗 (修复眼组织损伤)
· 作用机制: 针对视网膜神经节细胞死亡(如青光眼)或视网膜缺血(血流不足)等情况。
· 抗细胞凋亡: 保护视网膜神经细胞免于死亡。
· 改善眼部微循环: 增加视网膜和脉络膜的血流。
· 减少氧化压力: 眼部组织容易受到氧化损伤,PEMF 可能增强其抗氧化能力。
· 科学证据: 目前主要研究集中在动物实验,显示PEMF对青光眼、视网膜病变等模型有保护效果。人体临床应用仍处于早期研究阶段。
- PEMF 治疗骨关节炎
· 作用机制: 骨关节炎的特征是软骨磨损、炎症和疼痛。
· 抑制炎症: 减少关节滑液中的炎症因子(如 IL-6)。
· 刺激软骨细胞: 促进软骨细胞合成胶原蛋白和蛋白聚糖,帮助软骨修复。
· 减轻疼痛与水肿: 透过上述机制以及可能对神经信号的调节,达到止痛和消肿的效果。
· 科学证据: 这是PEMF应用最成熟的领域之一。多项随机对照试验和荟萃分析(Meta-analysis)表明,PEMF能有效减轻骨关节炎患者的疼痛、改善关节功能和生活质量。欧洲和一些国家已批准其用于治疗膝关节炎。
- PEMF 修复骨缺损 & PEMF 治疗脱发
· 骨缺损: 机制与治疗骨质疏松类似,但更侧重于促进骨愈合。对于复杂性骨折或骨不愈合,PEMF是标准的辅助治疗选项之一。
· 脱发:
· 作用机制: 认为PEMF能刺激处于休止期的毛囊,重新进入生长期。它通过改善毛囊周围的微循环、增加能量(ATP)供应,并可能调节影响毛囊生长的信号通路来发挥作用。
· 科学证据: 有少量但积极的临床研究显示,使用PEMF设备(如激光梳或头盔)的组别,在头发密度和厚度上优于对照组。被认为是治疗雄激素性脱发和休止期脱发的安全辅助手段。
- PEMF 治疗糖尿病及其并发症
· 作用机制:
· 改善胰岛素敏感性: 动物研究显示PEMF可能改善外周组织对胰岛素的反应。
· 促进伤口愈合: 这是对糖尿病患者最重要的应用之一。糖尿病足溃疡难以愈合,PEMF通过前述的促进组织修复机制,成为治疗慢性伤口的有效工具。
· 治疗外周神经病变: 改善神经的血液供应,可能促进神经纤维的再生,从而缓解麻木、刺痛等症状。
· 科学证据: 在伤口愈合方面证据较强。在直接调节血糖方面,人体证据仍有限,需要更多研究。
- PEMF 改善微循环 & 促进血管再生
· 作用机制:
· 扩张微小动脉: PEMF被认为可以刺激血管内皮细胞释放更多的一氧化氮(NO),NO是强效的血管扩张剂。
· 促进血管新生: 通过上调”血管内皮生长因子”的表达,刺激新的微血管生成。
· 科学证据: 有充分的基础研究支持这一机制。这是一切后续益处(如伤口愈合、组织修复)的基础。
- PEMF 治疗和预防心脑血管疾病
· 作用机制:
· 改善内皮功能: 健康的血管内皮是预防动脉粥样硬化的关键。PEMF通过促进NO释放,改善内皮功能,使血管更健康、更有弹性。
· 抗炎与抗氧化: 减轻血管系统的炎症和氧化压力,这是动脉硬化的核心驱动因素。
· 可能降低血压: 通过血管扩张作用,对轻度高血压可能有辅助效果。
· 科学证据: 目前多数证据来自实验室和动物研究。人体临床应用于心脑血管疾病的预防和治疗仍处于探索阶段,但理论基础坚实。
- PEMF 促进癌细胞失活和坏死
(请注意:这是一个极具实验性且高度争议的领域,绝不能作为标准癌症治疗方法)
· 作用机制(理论与实验阶段):
· 诱导细胞凋亡: 研究试图找出能选择性促使癌细胞进入程序性死亡,而不影响正常细胞的特定PEMF频率。
· 影响癌细胞代谢: 癌细胞的代谢方式与正常细胞不同(瓦博格效应),PEMF可能干扰其能量获取。
· 增加化疗/放疗敏感性: 一些研究探讨PEMF作为辅助手段,使癌细胞对传统治疗更敏感。
· 科学证据: 几乎全部停留在体外细胞实验和动物模型阶段。虽然有些结果令人振奋,显示特定频率/强度的PEMF能抑制某些癌细胞生长,但距离成为成熟、可靠的人类癌症疗法还有非常漫长的路。患者绝对不应放弃常规癌症治疗而依赖PEMF。
总结
PEMF 是一种具有坚实科学基础和广阔应用前景的辅助与替代疗法。它在骨科(骨折愈合、关节炎) 和软组织修复(伤口愈合) 领域有最强烈的证据支持和临床应用。
对于神经系统疾病、代谢疾病等其他领域,虽然机制研究令人鼓舞,但人体临床证据的质量和数量仍需进一步提升。在考虑使用PEMF时,应将其视为正规医疗的辅助手段,并在专业医生的指导下进行。
online buying address
https://worldhub.com.cn/goods_detail/6372
Leave a Reply
You must be logged in to post a comment.