RevGenetics: Carbon 60 RazorOil: C60 with Avocodo Rosehip and Wheat Germ Oils
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SKU: C60OIL-10ML

Carbon 60 RazorOil: C60 with Avocodo Rosehip and Wheat Germ Oils

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Only $10, It is the most affordable and powerful Razor Oil complex that uses Carbon C60 dissolved in 3 different oils. We believe this helps keep your razors stay sharp longer. If you use it for research, the oils used are carrier oils and penetrate better for your research application. Travel Sized: The small travel sized 10ml pump bottle can fit into almost any pocket, purse, or back pack. What is the difference between C60 Olive Oil and Carbon60 RazorOil?: C60 Olive Oil uses C60 Fullerenes dissolved in Olive Oil. Carbon60 RazorOil uses C60 Fullerenes dissolved in a combination of Avocado Oil, Wheat Germ Oil and Rosehip Oil (Rose hip seed oil). Why not use Olive Oil?: Olive Oil is good for cooking and Mediterranean meals but it is a thick oil compared to others. Because of this it is not the best oil for our application. The multiple blade razor, for example, has build up and clogs with every use. This clogging and buildup then causes you to have a bad shave. Using RazorOil in this application will allow you to have more good shaves and simply makes the razors easier to clean. Other than razors, many people have different tools they use after their morning shower, and we didn't want a thick olive oil to have any chance of producing issues or decreasing the longevity of their tools. Below we describe the other lighter oils, they way they have been used in the past and why we use them for this application: Avocado oil is a very light and edible oil pressed from avocados. Avocado oil was originally, and still is, extracted for cosmetic use because of its very high skin penetration and rapid absorption while Olive Oil is thicker and not absorbed. These attributes of the lighter oil allows it to better to permeate and enter every nook and cranny of any razor or tool at your disposal. Wheat germ oil is edible and has the highest content of vitamin E of any food that has not undergone prior preparation or vitamin fortification, so it is a very natural oil that we like. In current cosmetic applications, Wheat germ oil was used to promote the diminishing appearance of scars according to Leslie Baumann, MD in her book (Link). We at RevGenetics use it in our RazorOil to prevent any breakouts that can occur should someone accidentally use it on their skin without the razor. Some people have seen that the thicker heavier oils like Olive Oil could produce breakouts. Rosehip oil (Rose hip seed oil) is edible and another carrier oil that is shown to quickly absorb and replenish skin hydration as well as creates a barrier to prevent dehydration. We didn't just throw it in because a lot of celebrities swear by it (Miranda Kerr, Victoria Beckham, Kate Middleton, Gwyneth Paltrow, Rose Byrne) but because we wanted to make sure the best light weight carrier oils where used on such delicate tools that can get clogged easily with thick oils. Ingredients: Avocado Oil, Wheat Germ Oil, Rosehip Oil, C60 Fullerenes Why add C60 to oil and call it RazorOil? The applications of C60 on metal surfaces allows us to believe that the Van Der Waals force between C60 and metal surfaces would be a positive, and may help your blades stay sharp longer. More on this is available here (Survey of structure and electronic properties of C60 on close packed metal surfaces) (This is distributed under permission of the creative commons licensing from springerlink.com) How much C60 is in the 10ml of oil? Approximately 7.15mg of Ultra Pure (99.95%) Carbon 60 is dissolved in the proprietary combination of Avocado Oil, Wheat Germ Oil and Rosehip Oil. Can I use Carbon 60 RazorOil instead of C60 Olive Oil for my longevity experiments? This RazorOil was made to research specifications and to exclusively to treat your razors and tools. RevGenetics can only recommend it for Razors and research at this time. In regards to research, we believe that the dissolved C60 fullerenes in the edible oils can be used for your experiments in longevity if you are a researcher, and only for investigational purposes. If you represent a University and would like samples, please contact us by email.

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Nicotinamide Mononucleotide NAD+ And Other Study References:

  1. Detection and pharmacological modulation of nicotinamide mononucleotide (NMN) in vitro and in vivo - (Formentini, 2009)
  2. AMPK regulates energy expenditure by modulating NAD+ metabolism and SIRT1 activity - (Cato, 2009)
  3. A possibility of nutriceuticals as an anti-aging intervention: activation of sirtuins by promoting mammalian NAD biosynthesis - (Imai, 2010)
  4. NAD blocks high glucose induced mesangial hypertrophy via activation of the sirtuins-AMPK-mTOR pathway - (Zhuo, 2011)
  5. Nicotinamide Mononucleotide, a Key NAD+ Intermediate, Treats the Pathophysiology of Diet- and Age-Induced Diabetes in Mice - (Yoshino, 2011)
  6. The NAD (+) precursor nicotinamide riboside enhances oxidative metabolism and protects against high-fat diet-induced obesity - (Canto, 2012 )
  7. NAD⁺ repletion improves mitochondrial and stem cell function and enhances life span in mice. - (Zhang, 2016)
  8. Declining NAD+ Induces a Pseudohypoxic State Disrupting Nuclear-Mitochondrial Communication during Aging - (Gomes, Sinclair,2013)
  9. Nicotinamide mononucleotide, an intermediate of NAD+ synthesis, protects the heart from ischemia and repercussion - (Yamamoto, 2014)
  10. NAD+ and sirtuins in aging and disease - (Imai, 2014)
  11. Effective treatment of mitochondrial myopathy by nicotinamide riboside, a vitamin B3 - (Khan, 2014)
  12. Effect of nicotinamide mononucleotide on brain mitochondrial respiratory deficits in an Alzheimer’s disease-relevant murine model - (Long, 2015)
  13. NAD+ metabolism and the control of energy homeostasis – a balancing act between mitochondria and the nucleus - (Canto, 2015)
  14. NAD+ metabolism: Bioenergetics, signaling and manipulation for therapy  - (Yang, 2016)
  15. NAD+ replenishment improves lifespan and healthspan in ataxia telangiectasia models via mitophagy and DNA repair - (Fang, 2016)
  16. Nicotinamide riboside is uniquely and orally bioavailable in mice and humans - (Trammell, 2016)
  17. Nicotinamide riboside opposes type 2 diabetes and neuropathy in mice - (Trammell, 2016)
  18. β-Nicotinamide Mononucleotide, an Anti-Aging Candidate Compound, Is Retained in the Body for Longer than Nicotinamide in Rats - (Kawamura, 2016)
  19. The first human clinical study for NMN has started in Japan - (Tsubota, 2016)
  20. Nicotinamide mononucleotide protects against β-amyloid oligomer-induced cognitive impairment and neuronal death - (Wang, 2016)
  21. Head to Head Comparison of Short-Term Treatment with the NAD(+) Precursor Nicotinamide Mononucleotide (NMN) and 6 Weeks of Exercise in Obese Female Mice - (Uddin, 2016)
  22. Long-Term Administration of Nicotinamide Mononucleotide Mitigates Age-Associated Physiological Decline in Mice - (Mills, 2016)
  23. Nicotinamide mononucleotide supplementation reverses vascular dysfunction and oxidative stress with aging in mice - (de Picciotto, 2016)
  24. Nicotinamide mononucleotide inhibits JNK activation to reverse Alzheimer disease - (Yao, 2017)
  25. Nicotinamide mononucleotide requires SIRT3 to improve cardiac function and bioenergetics in a Friedreich’s ataxia cardiomyopathy model - (Martin, 2017)
  26. Nicotinamide Mononucleotide, an NAD+ Precursor, Rescues Age-Associated Susceptibility to AKI in a Sirtuin 1-Dependent Manner - (Guan, 2017)
  27. Nicotinamide mononucleotide attenuates brain injury after intracerebral hemorrhage by activating Nrf2/HO-1 signaling pathway - (Wei, 2017)
  28. Short-term administration of Nicotinamide Mononucleotide preserves cardiac mitochondrial homeostasis and prevents heart failure - (Zhang, 2017)
  29. Modulating NAD+ metabolism, from bench to bedside - (Auwerx, 2017)
  30. Aspects of Tryptophan and Nicotinamide Adenine Dinucleotide in Immunity: A New Twist in an Old Tale. - (Rodriguez, 2017)
  31. Vitamin B3 modulates mitochondrial vulnerability and prevents glaucoma in aged mice - (Williams, 2017)
  32. NAMPT-mediated NAD biosynthesis as the internal timing mechanism: In NAD+ World, time is running in its own way - (Poljsak, 2017)
  33. Effect of “Nicotinamide Mononucleotide” (NMN) on Cardiometabolic Function (NMN) - (Clinical In Process)
  34. The dynamic regulation of NAD metabolism in mitochondria - (Stein, 2012)
  35. Novel NAD+ metabolomic technologies and their applications to Nicotinamide Riboside interventions - (Trammel, 2016)
  36. Long-term moderate calorie restriction inhibits inflammation without impairing cell-mediated immunity: a randomized controlled trial in non-obese humans - (Meydayni, 2016)
  37. A high-fat, ketogenic diet induces a unique metabolic state in mice.  - (Kennedy, 2007)
  38. Ketone body metabolism and cardiovascular disease. - (Cotter, 2013)
  39. Ketone bodies as signaling metabolites - (Newman, 2014)
  40. The ketone metabolite β-hydroxybutyrate blocks NLRP3 inflammasome–mediated inflammatory disease - (Youm, 2015)
  41. The effect of the Spanish Ketogenic Mediterranean Diet on nonalcoholic fatty liver disease: a pilot study. - (Guisado, 2011)
  42. β-Hydroxybutyrate: A Signaling Metabolite in starvation response - (Morales, 2016)
  43. Physiological roles of ketone bodies as substrates and signals in mammalian tissues - (Robinson, 1980)
  44. Ketone bodies mimic the life span extending properties of caloric restriction  - (Veech, 2017)
  45. Novel ketone diet enhances physical and cognitive performance - (Murray, 2016)
  46. Mitochondrial biogenesis and increased uncoupling protein 1 in brown adipose tissue of mice fed a ketone ester diet. - (Study)
  47. Nutritional Ketosis Alters Fuel Preference and Thereby Endurance Performance in Athletes - (Cox, 2013)
  48. Neuroendocrine Factors in the Regulation of Inflammation: Excessive Adiposity and Calorie Restriction - (Fontana, 2009)
  49. Beta-adrenergic receptors are critical for weight loss but not for other metabolic adaptations to the consumption of a ketogenic diet in male mice - (August, 2017)
  50. A randomized trial of a low-carbohydrate diet for obesity - (Foster, 2003)
  51. β-Hydroxybutyrate suppresses inflammasome formation by ameliorating endoplasmic reticulum stress via AMPK activation - (Bae, 2016)
  52. The neuroprotective properties of calorie restriction, the ketogenic diet, and ketone bodies.  - (Maalouf, 2009)
  53. AMPK activation protects cells from oxidative stress‐induced senescence via autophagic flux restoration and intracellular NAD + elevation  - (Han, 2016)
  54. Regulation of AMP-activated protein kinase by natural and synthetic activators - (Hardie, 2015)
  55. Effects of Exhaustive Aerobic Exercise on Tryptophan-Kynurenine Metabolism in Trained Athletes  - (Strasser, 2016)
  56. PARP-1 inhibition increases mitochondrial metabolism through SIRT1 activation - (Bai, 2011)
  57. Carbohydrate restriction regulates the adaptive response to fasting - (Klein, 1992)
  58. Interventions to Slow Aging in Humans: Are We Ready? - (longo, 2015)
  59. Extending healthy life span–from yeast to humans - (longo, 2010)
  60. Dietary restriction with and without caloric restriction for healthy aging - (Lee, 2016)
  61. A Periodic Diet that Mimics Fasting Promotes Multi-System Regeneration, Enhanced Cognitive Performance, and Healthspan - (Longo, 2015)
  62. Diet mimicking fasting promotes regeneration and reduces autoimmunity and multiple sclerosis symptoms - (Longo, 2016)
  63. Resistance Exercise Training Alters Mitochondrial Function in Human Skeletal Muscle - (Porter, 2015)
  64. Ketogenic Diet Reduces Midlife Mortality and Improves Memory in Aging Mice  - (Newman, 2017)
  65. The NAD(+)/sirtuin pathway modulates longevity through activation of mitochondrial UPR and FOXO signaling - (Mouchiroud, 2013)
  66. NAMPT- mediated NAD(+) biosynthesis is essential for vision in mice - (Lin, 2016)
  67. NAD+ replenishment improves lifespan and healthspan in ataxia telangiectasia models via mitophagy and DNA repair - (Fang, 2016)
  68. Inhibiting poly ADP-ribosylation increases fatty acid oxidation and protects against fatty liver disease - (Gariani, 2017 )
  69. Interdependence of AMPK and SIRT1 for metabolic adaptation to fasting and exercise in skeletal muscle - (Canto, 2010)
  70. The NAD (+) precursor nicotinamide riboside enhances oxidative metabolism and protects against high-fat diet-induced obesity - (Canto, 2012)
  71. Nicotinamide riboside is uniquely and orally bioavailable in mice and humans - (Trammell, 2016)
  72. Nicotinamide riboside opposes type 2 diabetes and neuropathy in mice - (Trammell, 2016)
  73. Dietary leucine stimulates SIRT1 signaling through activation of AMPK - (Hongliang, 2012)
  74. Effective treatment of mitochondrial myopathy by nicotinamide riboside, a vitamin B3 - (Khan, 2014)
  75. NAD blocks high glucose induced mesangial hypertrophy via activation of the sirtuins-AMPK-mTOR pathway - (Zhuo, 2011)
  76. The effect of different exercise regimens on mitochondrial biogenesis and performance - (Philander, 2014)
  77. Dietary proanthocyanidins boost hepatic NAD+ metabolism and SIRT1 expression and activity in a dose-dependent manner in healthy rats - (Aragon’s, 2016)
  78. NAD+ Deficits in Age-Related Diseases and Cancer - (Garrido, 2017)
  79. Anti-diabetic and anti-lipidemic effects of chlorogenic acid are mediated by ampk activation - (Ong, 2013)
  80. Chlorogenic Acid Improves Late Diabetes through Adiponectin Receptor Signaling Pathways in db/db Mice - (Chang, 2015)
  81. Adenosine Monophosphate (AMP)-Activated Protein Kinase: A New Target for Nutraceutical Compounds - (Marin-Aguilar, 2017)
  82. The Effects of Ramadan Fasting on Body Composition, Blood Pressure, Glucose Metabolism, and Markers of Inflammation in NAFLD Patients: An Observational Trial - (Mazidi, 2014)
  83. Comparative effects of carbohydrate versus fat restriction on metabolic profiles, biomarkers of inflammation and oxidative stress in overweight patients with Type 2 diabetic and coronary heart disease: A randomized clinical trial. - (Raygan, 2016)
  84. Normal fasting plasma glucose and risk of type 2 diabetes diagnosis - (Nichols, 2008)
  85. Are We All Pre-Diabetic? - (Stokel,2016)
  86. Hepatic NAD+ deficiency as a therapeutic target for non-alcoholic fatty liver disease in aging - (Zhou, 2016)
  87. Effect of exercise intensity on post-exercise oxygen consumption and heart rate recovery - (Mann,2014)
  88. A 45-minute vigorous exercise bout increases metabolic rate for 14 hours - (Knab,2011)
  89. Effects of high-intensity resistance training on untrained older men. II. Muscle fiber characteristics and nuclei-cytoplasmic relationships - (Gerontol, 2000)
  90. Ketogenic Diet Reduces Midlife Mortality and Improves Memory in Aging Mice - (Newman, 2017)
  91. A Ketogenic Diet Extends Longevity and Healthspan in Adult Mice - (Roberts, 2017)
  92. NK cells link obesity-induced adipose stress to inflammation and insulin resistance - (Wensveen, 2015)
  93. The “Big Bang” in obese fat: Events initiating obesity-induced adipose tissue inflammation - (Wensveen, 2015)
  94. The impact of the Standard American Diet in rats: Effects on behavior, physiology and recovery from inflammatory injury - (Totsch, 2017)
  95. Bioenergetic state regulates innate inflammatory responses through the transcriptional co-repressor CtBP - (Shen, 2017)
  96. The Ketogenic Diet as a Treatment Paradigm for Diverse Neurological Disorders - (Stafstrom, 2012)
  97. Loss of NAD Homeostasis Leads to Progressive and Reversible Degeneration of Skeletal Muscle - (Fredrick 2016)
  98. Digestion and absorption of NAD by the small intestine of the rat - (Henderson, 1983)
  99. Effects of a wide range of dietary nicotinamide riboside (NR) concentrations on metabolic flexibility and white adipose tissue (WAT) of mice fed a mildly obesogenic diet - (Shi, 2017)
  100. Discoveries of nicotinamide riboside as a nutrient and conserved NRK genes establish a Preiss-Handler independent route to NAD+ in fungi and humans  - (Brenner, 2004)
  101. Nampt Expression Decreases Age-Related Senescence in Rat Bone Marrow Mesenchymal Stem Cells by Targeting Sirt1 - (Ma, 2017)

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