What is the Mito Red Light Bed?
Introducing the Mito Red Light Bed—a revolution in the world of red light therapy beds. While many options on the market can cost between $70,000 and $140,000, be burdensome to move, and require specialized electrical setups, the Mito Red Light Bed brings efficiency, accessibility, and affordability to the table.
Engineered for ease and versatility, this advanced bed doesn't require any specialized electrical setup; it operates effortlessly on a standard 120V, 15A outlet. The bed consists of two strategically designed LED panels—a top and a bottom panel—that can be used either separately or together.
The top panel boasts an array of 1,000 high-intensity LEDs, positioned at a 60-degree beam angle, for effective treatment from a distance of 12 to 18 inches. With an irradiance of less than 150mw/cm2 at 6 inches away, it's optimized for performance. The panel's motorized stand is designed for ultimate convenience, offering easy vertical and horizontal adjustments.
In contrast, the bottom panel is intended for direct skin contact. To ensure even light distribution, the LED chip size has been reduced, but the number of chips has more than tripled. Additionally, the bottom panel employs a 120-degree beam angle, with an irradiance of less than 70mw/cm2 at the bed's surface.
And if portability is a concern, worry no more. Both the top and bottom panels are on wheels and weigh approximately 200 pounds, making it easy to relocate the bed without requiring a professional moving crew.
In summary, the Mito Red Light Bed is a masterpiece of design and functionality, providing a cost-effective yet high-quality red light therapy experience.
Mito Red Light Bed: How Does It Rate?
- Affordability: Compared to other red light therapy beds that can cost up to $140,000, the Mito Red Light Bed offers exceptional value.
- Ease of Use: Designed for user-friendly operation, this bed doesn't require any special electrical setup—just plug it into a standard 120V, 15A outlet.
- Versatility: The bed features two LED panels that can be used independently or together, catering to a variety of treatment needs.
- Portability: Both panels are equipped with wheels and weigh around 200 pounds, making it relatively simple to move the bed to different locations without needing a moving crew.
- Optimized Design: The top panel has 1,000 high-powered LEDs for effective treatment, while the bottom panel is designed for direct skin contact with even light distribution.
- Adjustable: The top panel includes a motorized stand, allowing you to easily adjust the height and orientation (horizontal or vertical) according to your needs.
- Wide Treatment Area: Both top and bottom panels cover a substantial area, offering comprehensive treatment.
- Energy Efficiency: Despite its high performance, the bed is energy-efficient, operating on a standard electrical outlet.
- High Irradiance: Both panels are designed to provide high levels of irradiance for effective treatment, without exceeding safe limits.
- Convenient Beam Angles: The top panel uses a 60-degree beam angle, while the bottom panel employs a 120-degree angle for more even skin coverage.
- Safety: Designed according to strict safety standards, the Mito Red Light Bed presents minimal risks when used as directed.
- Flexible Treatment Options: Whether you're looking to boost collagen production, ease inflammation, or achieve other skincare goals, the Mito Red Light Bed offers a range of treatment possibilities.
- Weight: Although portable, each panel weighs around 200 pounds, which may still be cumbersome for some users to move.
- Electrical Requirements: While it operates on a standard outlet, the bed's power needs could still be a concern for households with limited electrical capacity.
- Size: The bed's large dimensions might make it unsuitable for smaller spaces.
- Initial Cost: Despite being more affordable compared to competitors, the upfront investment is still significant.
About the Brand
Mito Red Light Inc stands as a vanguard in the realm of light therapy, relentlessly pursuing excellence through continuous improvement. Their Patent Pending MitoADAPT Series, innovative RLT belts featuring high-quality tri-chip LED diodes, and groundbreaking helmets exemplify the brand's commitment to superior design, quality, value, and service. This dedication is further showcased in their personalized data tracking mobile app, designed to augment the user experience.
High-performing athletes around the globe, including the NHL's Arizona Coyotes, trust Mito Red Light for their performance and recovery needs. The brand seamlessly combines scientific rigor with user-centric design, making their advanced light therapy solutions both effective and accessible. From skin rejuvenation and muscle recovery to holistic wellness, Mito Red Light is engineered for optimal therapeutic impact.
Mito Red Light Bed: What Are the Benefits and How Does it Work?
According to dermatological expert Dr. Dendy Engleman, red light therapy harnesses low-wavelength light to energize cellular functions, thereby aiding cells in repair and rejuvenation processes. Studies published in esteemed journals like the Aesthetic Surgery Journal by Graeme Ewan Glass and Brazilian Society of Dermatology by by Maria Emília de Abreu Chaves, Angélica Rodrigues de Araújo André Costa Cruz Piancastelli, and Marcos Pinotti support the therapeutic benefits of red light therapy for applications ranging from skincare to wound healing.
The Mito Red Light Bed provides a comprehensive light spectrum, including red and infrared wavelengths at 633, 660, 810, and 850 nm. These specific wavelengths serve different therapeutic purposes. Red light wavelengths target surface-level skin issues, such as improving skin tone and aiding in wound recovery. On the other hand, infrared wavelengths above 750 nm penetrate deeper into the body, offering benefits that include pain reduction and enhanced mood and mental health.
The importance of adenosine triphosphate (ATP) in this therapy cannot be overstated. Light photons stimulate cellular mitochondria to produce more ATP, the energy fuel for all body cells. An increase in ATP can result in broad health improvements such as reduced pain and faster healing, as documented in the article published in the Journal of Functional Foods by by Ralf Jäger and Martin Purpura, et al.
Health Benefits of Mito Red Light Bed
Accelerates Muscle Recovery
The production of additional ATP translates into enhanced cell repair mechanisms, leading to quicker recovery times post-exercise. Research published in the American Journal of Physical and Medical Rehabilitation by Cleber Ferraresi, PhD, PT, Danilo Bertucci, MSc, et al supports these claims, suggesting that LED light therapy can benefit athletes and individuals with muscle damage.
Alleviates Pain and Reduces Inflammation
An increased ATP synthesis offers anti-inflammatory effects that ease discomfort in muscles and joints. Infrared light also has the potential to numb key nerve receptors, contributing to pain reduction, as confirmed in a review published in the European Journal of Investigation in Health, Psychology, and Education by Christos Tsagkaris and Andreas S. Papazoglou, et al.
The therapy is renowned for its ability to stimulate collagen and elastin production, vital for maintaining skin elasticity and texture. Studies, such as one published by Alexander Wunsch and Karsten Matuschka in Photomedicine and Laser Therapy, indicate that red and infrared light therapy can significantly reduce aging signs like wrinkles and fine lines.
In summary, the Mito Red Light Bed is a multi-faceted therapeutic device that offers skin rejuvenation, muscle repair, and a range of other health benefits, all backed by solid scientific evidence. With its low-risk profile and absence of harmful side effects, it emerges as a reliable choice for those looking to leverage the powers of light therapy for better health.
Quick Facts & Features
|Brand||Mito Red Light|
|Product||Mito Red Light Bed|
|Form||Red Light Therapy Bed|
|Wavelength||630nm (Red) – 660nm (Red) – 810nm (NIR) – 850nm (NIR)|
|Specification||Bottom Panel: 3,200 LEDs, 22mil – Beam 120 degrees – Size: 75L x 27W x 8 H|
|Specification 2||Top Panel: 1,000 LEDs,42mm size – 60 degrees – Size 76 x 25 x 4|
|Age||Adults, children and animals with medical approval|
|Skin Type||All types|
|Benefit||Reducing pain and inflammation, relaxing muscles, repairing wounds and tissue, rejuvenating the skin, boosting mood and brain health, improving exercise performance, etc.|
|Price||Complete Bed :$22,995.00, Top or Bottom panel only: $11,995.00|
|Warranty||3 Year Warranty|
How to Use It?
For comprehensive guidelines on operating the Mito Red Light Bed, please refer to the detailed user manual provided. Additionally, the company extends specialized customer support through Zoom video conferencing for those requiring assistance with installation, operation, or inquiries related to the bed's functionalities.
Engineered to meet stringent safety criteria and FDA-cleared, the Mito Red Light Bed employs medical-grade LED lights specifically designed to deliver effective, risk-free treatment. The technology's safety profile is further underscored by its widespread adoption among high-performing athletes and respected medical professionals, attesting to both its efficacy and safety.
Any Side Effects?
While red light therapy is generally considered safe, especially when FDA-cleared devices like the Mito Red Light Bed are used, some potential side effects may include mild irritation, redness, and warmth at the treatment site. These are usually temporary and subside shortly after treatment. Always follow the manufacturer's guidelines and consult a healthcare professional for a comprehensive understanding of how red light therapy may interact with your specific health conditions.
Reviews From Users
We went through reviews posted online by users and it is clear that they overwhelmingly expressed satisfaction with the effectiveness of the product. Below is a selection:
— Michelle V.-
— Michael N.-
— Samantha B. –
— Scott K, –
Frequently Asked Questions
How do I set up the Mito Red Light Bed?
The Mito Red Light Bed comes with a detailed user's guide for easy setup. Additionally, the company offers Zoom support for customers who need assistance with setup and usage.
How often should I use the Mito Red Light Bed?
Frequency of use may vary depending on your specific needs. It is recommended to consult the user’s guide or speak with a healthcare professional for personalized guidance.
Can I use only the top or bottom panels independently?
Certainly, acquiring or using a single panel is a viable option for benefiting from red light therapy. However, utilizing both panels offers more extensive coverage for the entire body, resulting in a quicker and more comprehensive treatment.
What is the safety profile of the Mito Red Light Bed?
The bed is designed to rigorous safety standards and is FDA-cleared. It uses medical-grade LED lights engineered to provide effective treatment without harmful side effects.
Is the bed portable?
Yes, the top and bottom lights are on wheels and the unit weighs approximately 200 pounds, making it relatively easy to move without requiring a specialized moving crew.
Can I use the bed for skin rejuvenation and muscle recovery simultaneously?
Yes, the Mito Red Light Bed employs red light technology which has been proven to provide multiple therapeutic effects including skin rejuvenation, muscle recovery, and overall wellness.
Are there any potential side effects?
While red light therapy is generally considered safe, mild irritation or redness at the treatment site may occasionally occur. These effects are typically temporary.
How do I clean and maintain the bed?
For cleaning and maintenance, consult the user's guide however regular cleaning with a soft, damp cloth is generally recommended.
Is Mito Red Light Bed suitable for professional athletes?
Absolutely. The NHL's Arizona Coyotes, among other high-performing athletes, use Mito Red Light panels for performance and recovery.
Can I use the Mito Red Light Bed if I am pregnant or breastfeeding?
If you are pregnant or breastfeeding, it is crucial to consult your healthcare provider before using the bed or any form of light therapy. While red light therapy is often considered to be safe, its effects on a developing fetus or a breastfeeding infant have not been thoroughly studied.
In conclusion, the Mito Red Light Bed stands as a paragon of innovation and efficiency in the field of light therapy. Designed to meet rigorous safety standards and FDA cleared, and built to exacting standards this bed incorporates medical-grade LED lights to provide effective yet safe treatment.
Its flexible design features, such as the dual panels that can be used independently or together, provide a customizable and comprehensive therapy experience. Further, the bed's design enhances the comfort level of the treatment experience, setting it apart from other options that may induce feelings of claustrophobia for some.
This makes it not just an ideal choice for high-performing athletes, but also for anyone looking to improve their overall well-being, be it through skin rejuvenation, muscle recovery, pain reduction or or general health. With its solid safety profile and ease of use, the Mito Red Light Bed is clearly a front-runner in delivering the many benefits of red and infrared light therapy.
Red light therapy is a type of therapy that uses red or near-infrared light to treat a variety of conditions. During a red light therapy session, a person is exposed to a specific wavelength of red or near-infrared light that is delivered through a light-emitting device. The light penetrates the skin and reaches the cells within the body with a range of therapeutic effects.
Red light is a type of visible light, Its wavelength falls between approximately 630 and 700 nanometers (nm) on the electromagnetic spectrum. Red light is often used in light therapy treatments for the skin, as it has been shown to have the most beneficial effects on skin cells and collagen production.
Near-infrared (NIR) light, on the other hand, has a longer wavelength than visible red light and falls between approximately 700 and 1200 nm on the electromagnetic spectrum. NIR light is not visible to the human eye, but it can penetrate deeper into the skin and other tissues than visible light, making it useful for a variety of therapeutic applications ranging from wound healing to inflammation reduction or improved circulation, among other benefits.
Different Red Light Therapy devices usually deliver slightly different wavelength ranges that research has shown to be the most effective for the concern they are being recommended for.
Red Light Therapy (RLT) strengthens the mitochondria, the cell’s powerhouse, where cell energy is created. Adenosine Triphosphate (ATP) is the critical energy-carrying molecule that is found in all living organisms. By optimizing the function of the mitochondria, more ATP is produced and with increased energy cells can function optimally.
This scientific breakthrough resulted in scientists discovering Red Light Therapy’s ability to stimulate and speed up tissue repair and growth. Red Light Therapy is now widely used for maintaining a healthy complexion, speeding up muscle recovery, reducing inflammation, improving sleep, treating neurological conditions, balancing hormones, treating pain, and even losing weight.
Research has also indicated that Red Light Therapy can help to restore cellular balance and alleviate the negative impact of blue light exposure. The prevalence of blue light in our society has become a growing concern as many individuals spend prolonged periods of time looking at screens on a daily basis.
Red Light Therapy (RLT) is also called:
Low-Level Light Therapy (LLLT), Photobiomodulation (PBM), Cold Laser Therapy, Photonic Stimulation, Low-Power Laser Therapy (LPLT), Phototherapy
A Brief History of Red Light Therapy
The journey of Red Light Therapy (RLT) has been both fascinating and impactful, starting from its humble origins in the late 19th century. Dr. Niels Ryberg Finsen, the pioneer in light therapy, made a groundbreaking discovery in 1896 that light could be harnessed to treat Lupus Vulgaris, a form of tuberculosis affecting the skin. His work, which led to the tangible healing of skin lesions, was so revolutionary that he received the Nobel Prize in Physiology in 1903.
Fast forward to 1960, Theodore H. Maiman invented the first operational laser, fulfilling Albert Einstein's theories on the principles of lasers laid out in 1917. This invention opened new avenues for RLT, allowing more precise applications.
NASA took an interest in Red Light Therapy in 1987, conducting experiments to examine its effects on plant growth in space missions. These studies hinted at RLT's potential to benefit not just human health but also broader ecological systems.
In the same vein, Endre Mester's work in 1967 set the stage for modern RLT applications.
His experimentation with low-level laser therapy on skin cancer effects demonstrated the technique's efficacy and led to FDA approval for wound healing in 2002.
The advent of LED technology in the 1990s was a game-changer, offering an efficient and cost-effective alternative to traditional light bulbs. This technological leap made light therapy more accessible to the general public, including its use in sports medicine where physical therapists reported quicker recovery times for sports-related injuries.
One of the most recent and exciting developments in RLT is its potential role in weight management. Studies indicate that Red Light Therapy can influence hormones like Leptin and Ghrelin, which play key roles in regulating appetite and metabolism. This makes RLT a promising avenue for non-invasive weight loss treatments.
As RLT continues to evolve, its applications keep expanding, crossing multiple disciplines from medicine to ecology. Researchers are continuously probing its potential, finding new ways to apply this age-old yet ever-advancing technology.
Our articles exclusively rely on primary sources of information, encompassing peer-reviewed medical journals and esteemed academic institutions.
- Effects Of Low-Power Light Therapy On Wound Healing: LASER X LED: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4148276/
- Health And Ergogenic Potential Of Oral Adenosine-5′-Triphosphate (ATP) Supplementation: https://www.sciencedirect.com/science/article/pii/S1756464621000062
- Does Red Light Therapy Work? Dermatologists Explain The Benefits (womenshealthmag.com) https://www.womenshealthmag.com/beauty/a41409429/red-light-therapy/
- Photobiomodulation: The Clinical Applications of Low-Level Light Therapy: https://pubmed.ncbi.nlm.nih.gov/33471046/
- Effects of Light-Emitting Diode Therapy on Muscle Hypertrophy, Gene Expression, Performance, Damage, and Delayed-Onset Muscle Soreness: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5026559/
- Infrared Radiation in the Management of Musculoskeletal Conditions and Chronic Pain: A Systematic Review: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8946909/
- A Controlled Trial to Determine the Efficacy of Red and Near-Infrared Light Treatment in Patient Satisfaction, Reduction of Fine Lines, Wrinkles, Skin Roughness, and Intradermal Collagen Density Increase: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3926176/
- Light Therapy: The Effectiveness of Light Therapy on Pain and Swelling of Acute Lower Extremity Sprains and Strains of Collegiate Athletes: https://digitalcommons.cedarville.edu/cgi/viewcontent.cgi?article=1013&context=education_theses
- Photodynamic And Photobiological Effects Of Light-Emitting Diode (LED) Therapy In Dermatological Disease: An Update: https://link.springer.com/article/10.1007/s10103-018-2584-8
- Photobiomodulation or Low-Level Laser Therapy – PMC (nih.gov) https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5215795/
- Biological Effects And Medical Applications Of Infrared Radiation: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5505738/
- Photobiomodulation, Depression, Anxiety, And Cognition: https://openaccesspub.org/jarh/article/1688