Our Formulations
A Legacy of Therapeutic Innovation
A Legacy of Therapeutic Innovation
SOMA Methylene Blue
SOMA Methylene Blue merges historical medical knowledge with modern science, offering a versatile solution for enhancing mitochondrial efficiency, neurological protection, and mental health.
This innovative formulation, rooted in the rich pharmacological history of methylene blue since its synthesis in 1876, addresses aging and modern life’s stresses by improving energy levels and cognitive function.
Its application spans from treating neurodegenerative diseases and psychiatric disorders to boosting cellular health, making it a comprehensive anti-aging and energizing solution. SOMA’s commitment to purity and efficacy in this product supports individuals in achieving optimal health and vitality in today’s fast-paced world.
A Zero-Preservative Formulation for Hormonal Balance
SOMA Progesterone Oil
- SOMA's zero-preservative progesterone oil, blended with Medium Chain Triglyceride (MCT) oil, offers a natural and effective approach to hormonal balance.
- Progesterone, essential for regulating the menstrual cycle, supporting pregnancy, and maintaining mood, bone density, and cardiovascular health, can be compromised by stress, aging, and lifestyle factors. Our product aims to restore this balance, leveraging scientific support for progesterone's benefits in addressing PMS, menopause symptoms, and hormone replacement therapy. It also plays a role in neuroprotection, mood regulation, and sleep improvement.
- The formulation's use of MCT oil enhances progesterone's bioavailability without preservatives, ensuring safety and efficacy. This innovative solution supports hormonal harmony, contributing to overall well-being and health.
SOMA Pregnenolone Oil
A Pure, Topical Solution for Stress and Aging
SOMA’s pregnenolone oil, infused in MCT oil for superior absorption and metabolic advantage, is designed to effectively deliver pregnenolone, aiding those facing stress and age-related hormonal declines.
This product is backed by research highlighting its benefits for cognitive enhancement, mood elevation, and depression alleviation. As a hormone precursor, optimal pregnenolone levels promote overall hormonal health, stress resilience, and anti-aging benefits.
Our dedication to purity means our pregnenolone oil is completely free from preservatives, providing a safe and natural option for hormonal support. Experience the transformative impact of SOMA pregnenolone oil on your wellness journey.
SOMA Pregnenolone drops
An advanced stressbuster formula
For those who dislike putting an oil preparation on skin, we have SOMA’s pregnenolone sublingual drops, expertly crafted for rapid absorption, targeting stress relief and anti-aging, ideal for those in high-pressure jobs, extreme environments, or experiencing life changes like menopause and andropause.
Our formula bypasses liver metabolism, preserving pregnenolone’s potency to combat chronic exhaustion, boost libido, and enhance overall vitality. With a focus on quality and efficacy, these pleasant-tasting drops are free from preservatives, ensuring a pure and effective solution to rejuvenate your body and mind with marvelous effects. Trust SOMA to naturally support your well-being and resilience.
SOMA 7% Glycolic Acid Serum with Aloe Vera: A Fusion of Science and Nature for Skin Renewal
- SOMA's 7% Glycolic Acid Serum, infused with Aloe Vera, marries scientific excellence with nature's healing touch, aiming to rejuvenate skin through effective exfoliation while preserving its hydration and balance.
- This serum embodies our commitment to holistic skin care, combining the exfoliating prowess of glycolic acid—a celebrated alpha-hydroxy acid derived from sugar cane, known for its ability to gently remove dead skin cells and reveal brighter, smoother skin—with the soothing and hydrating benefits of Aloe Vera.
- Designed for efficacy and safety, the serum's optimal glycolic acid concentration ensures thorough exfoliation without irritation, suitable for various skin types, including sensitive ones. Embrace SOMA's glycolic acid serum for a revitalized, radiant complexion that reflects a perfect blend of innovation and nature.
Revolutionizing Treatment for Chronic Conditions
SOMA Low Dose Naltrexone
- SOMA's Low Dose Naltrexone (LDN) therapy offers a groundbreaking approach to treating chronic conditions by modulating the immune system, reducing inflammation, and enhancing natural pain relief.
- This innovative treatment, grounded in scientific research, is tailored to meet the individual needs of patients, potentially improving their quality of life significantly. LDN, traditionally used for addiction treatment in higher doses, shows remarkable benefits at low doses (1.5 to 4.5 mg) for autoimmune diseases, chronic pain, and mood disorders by increasing the body's production of natural painkillers and mood enhancers.
- SOMA's commitment to precision, purity, and personalized care ensures our LDN formulation is preservative-free and optimized for each patient's specific health goals. LDN therapy has demonstrated efficacy in managing conditions like multiple sclerosis, rheumatoid arthritis, Crohn's disease, fibromyalgia, and mood disorders, offering a new hope for enhanced wellness and recovery. Explore the potential of LDN therapy with SOMA for a holistic and effective treatment plan.
Revolutionizing Treatment for Skin Conditions
SOMA Ozone oil
- SOMA clinic's ozone oil is a revolutionary blend of natural oils like olive or coconut, enhanced with aloe vera, utilizing ozonides for diverse skin benefits.
- This product effectively soothes psoriasis, reduces aging signs, and alleviates dermatitis, eczema, acne, and dandruff. It's also beneficial for general skin care, wound healing, and preventing bed sores. The science behind its efficacy lies in the formation of ozonides when ozone interacts with the oils, creating stable complexes that offer antimicrobial, anti-inflammatory, and healing properties.
- These ozonides deliver ozone's therapeutic benefits directly to the skin, making ozone oil a potent, natural solution for various skin conditions and an integral part of skincare routines.
Refrences
- 1. Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29. Article ArticleCas PubMed Google Scholar
- 1. Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29. Article ArticleCas PubMed Google Scholar
- 1. Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29. Article Article Cas PubMed Google Scholar
- 1. Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29. Article Article Cas PubMed Google Scholar
- 1. Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29. Article Article Cas PubMed Google Scholar
Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29.
Article
Cas
PubMed
Google Scholar
Tian WF, Zeng S, Sheng Q, Chen JL, Weng P, Zhang XT, et al. Methylene Blue Protects the Isolated Rat Lungs from Ischemia-Reperfusion Injury by Attenuating Mitochondrial Oxidative Damage. Lung. 2018;196:73–82.
Article
Cas
PubMed
Google Scholar
Szarka N, Pabbidi MR, Amrein K, Czeiter E, Berta G, Pohoczky K, et al. Traumatic Brain Injury Impairs Myogenic Constriction of Cerebral Arteries: Role of Mitochondria-Derived H2O2 and TRPV4-Dependent Activation of BKca Channels. J Neurotrauma. 2018.
Yang L, Tucker D, Dong Y, Wu C, Lu Y, Li Y, et al. Photobiomodulation therapy promotes neurogenesis by improving post-stroke local microenvironment and stimulating neuroprogenitor cells. Exp Neurol. 2018;299:86–96.
Article
Cas
PubMed
Google Scholar
Niizuma K, Yoshioka H, Chen H, Kim GS, Jung JE, Katsu M, et al. Mitochondrial and apoptotic neuronal death signaling pathways in cerebral ischemia. Biochim Biophys Acta. 2010;1802:92–9.
Article
Cas
PubMed
Google Scholar
Akbar M, Essa MM, Daradkeh G, Abdelmegeed MA, Choi Y, Mahmood L, et al. Mitochondrial dysfunction and cell death in neurodegenerative diseases through nitroxidative stress. Brain Res. 2016;1637:34–55.
Article
Cas
PubMed
PubMed Central
Google Scholar
Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29.
Article
Cas
PubMed
Google Scholar
Tian WF, Zeng S, Sheng Q, Chen JL, Weng P, Zhang XT, et al. Methylene Blue Protects the Isolated Rat Lungs from Ischemia-Reperfusion Injury by Attenuating Mitochondrial Oxidative Damage. Lung. 2018;196:73–82.
Article
Cas
PubMed
Google Scholar
Szarka N, Pabbidi MR, Amrein K, Czeiter E, Berta G, Pohoczky K, et al. Traumatic Brain Injury Impairs Myogenic Constriction of Cerebral Arteries: Role of Mitochondria-Derived H2O2 and TRPV4-Dependent Activation of BKca Channels. J Neurotrauma. 2018.
Yang L, Tucker D, Dong Y, Wu C, Lu Y, Li Y, et al. Photobiomodulation therapy promotes neurogenesis by improving post-stroke local microenvironment and stimulating neuroprogenitor cells. Exp Neurol. 2018;299:86–96.
Article
Cas
PubMed
Google Scholar
Niizuma K, Yoshioka H, Chen H, Kim GS, Jung JE, Katsu M, et al. Mitochondrial and apoptotic neuronal death signaling pathways in cerebral ischemia. Biochim Biophys Acta. 2010;1802:92–9.
Article
Cas
PubMed
Google Scholar
Akbar M, Essa MM, Daradkeh G, Abdelmegeed MA, Choi Y, Mahmood L, et al. Mitochondrial dysfunction and cell death in neurodegenerative diseases through nitroxidative stress. Brain Res. 2016;1637:34–55.
Article
Cas
PubMed
PubMed Central
Google Scholar
Refrences
Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29.
Article
Cas
PubMed
Google Scholar
Tian WF, Zeng S, Sheng Q, Chen JL, Weng P, Zhang XT, et al. Methylene Blue Protects the Isolated Rat Lungs from Ischemia-Reperfusion Injury by Attenuating Mitochondrial Oxidative Damage. Lung. 2018;196:73–82.
Article
Cas
PubMed
Google Scholar
Szarka N, Pabbidi MR, Amrein K, Czeiter E, Berta G, Pohoczky K, et al. Traumatic Brain Injury Impairs Myogenic Constriction of Cerebral Arteries: Role of Mitochondria-Derived H2O2 and TRPV4-Dependent Activation of BKca Channels. J Neurotrauma. 2018.
Yang L, Tucker D, Dong Y, Wu C, Lu Y, Li Y, et al. Photobiomodulation therapy promotes neurogenesis by improving post-stroke local microenvironment and stimulating neuroprogenitor cells. Exp Neurol. 2018;299:86–96.
Article
Cas
PubMed
Google Scholar
Niizuma K, Yoshioka H, Chen H, Kim GS, Jung JE, Katsu M, et al. Mitochondrial and apoptotic neuronal death signaling pathways in cerebral ischemia. Biochim Biophys Acta. 2010;1802:92–9.
Article
Cas
PubMed
Google Scholar
Akbar M, Essa MM, Daradkeh G, Abdelmegeed MA, Choi Y, Mahmood L, et al. Mitochondrial dysfunction and cell death in neurodegenerative diseases through nitroxidative stress. Brain Res. 2016;1637:34–55.
Article
Cas
PubMed
PubMed Central
Google Scholar
Chaturvedi RK, Flint BM. Mitochondrial diseases of the brain. Free Rad Biol Med. 2013;63:1–29.
Article
Cas
PubMed
Google Scholar
Tian WF, Zeng S, Sheng Q, Chen JL, Weng P, Zhang XT, et al. Methylene Blue Protects the Isolated Rat Lungs from Ischemia-Reperfusion Injury by Attenuating Mitochondrial Oxidative Damage. Lung. 2018;196:73–82.
Article
Cas
PubMed
Google Scholar
Szarka N, Pabbidi MR, Amrein K, Czeiter E, Berta G, Pohoczky K, et al. Traumatic Brain Injury Impairs Myogenic Constriction of Cerebral Arteries: Role of Mitochondria-Derived H2O2 and TRPV4-Dependent Activation of BKca Channels. J Neurotrauma. 2018.
Yang L, Tucker D, Dong Y, Wu C, Lu Y, Li Y, et al. Photobiomodulation therapy promotes neurogenesis by improving post-stroke local microenvironment and stimulating neuroprogenitor cells. Exp Neurol. 2018;299:86–96.
Article
Cas
PubMed
Google Scholar
Niizuma K, Yoshioka H, Chen H, Kim GS, Jung JE, Katsu M, et al. Mitochondrial and apoptotic neuronal death signaling pathways in cerebral ischemia. Biochim Biophys Acta. 2010;1802:92–9.
Article
Cas
PubMed
Google Scholar
Akbar M, Essa MM, Daradkeh G, Abdelmegeed MA, Choi Y, Mahmood L, et al. Mitochondrial dysfunction and cell death in neurodegenerative diseases through nitroxidative stress. Brain Res. 2016;1637:34–55.
Article
Cas
PubMed
PubMed Central
Google Scholar