1. Lever. Effects of powdered Montmorency tart cherry supplement on acute endurance exercise performance in aerobically trained individuals. J. of Int Soc of Sports Nut. 2016; 13:22.
  2. Bell. The effects of Montmorency tart cherry concentrate supplementation on recovery following prolonged, intermittent exercise. Nutrients. 2016; 8:441
  3. Dimitriou. Influence of Montmorency cherry juice blend on indices of exercise-induced stress and upper respiratory tract symptoms following marathon running -a pilot investigation. J of International Soc of Sports Nutrition.2015; 12:22
  4. Howatson. Effects of tart cherry juice on melatonin levels and enhance sleep quality. Eur J Nutr. 2011 Oct.
  5. Monteiro. Structure-bioactivity relationships of methylxanthines: Trying to make sense of all the promises and drawbacks. Molecules. 2016; 21:974.
  6. Morgan. Montmorency cherry supplementation improves 15-km cycling time-trial performance. Eur J of Applied Physiology. 2019 online.
  7. Seeram. Cyclooxygenase inhibitory and antioxidant cyanidin glycoside in cherries and berries. Phytomedicine. 2001; 8:362.
  8. Kuel. Cherry juice targets antioxidant potential and pain relief. Med Sport Sci.2013; 59:86.
  9. Gao. Effects of tart cherry concentrate on endurance exercise performance: a meta-analysis. J. of the Am College of Nut.2020; Jan online.
  10. Wang. Antioxidant polyphenols from tart cherries. J. Agric Food Chem. 1999; 47:840.
  11. Kirakosyan. Interaction of antioxidants isolated from tart cherry fruits. Food Chemistry.2010; 2:17.
  12. S Warber. Tart cherry ingestions by healthy volunteers: pharmacokinetics and antioxidant capacity. ICCMR Abstract book May 2010,19-21.
  13. Keane. Effects of Montmorency tart cherry consumption on vascular functions in men with early hypertension. Am J. Clin Nutr. 2016.doi10.3945/ajcn.115.123869.
  14. Chai. Effects of tart cherry juice on biomarkers of inflammation and oxidative stress in older adults. Nutrients. 2019; 11:228.
  15. Traustadottir. Tart cherry juice decreases oxidative stress in healthy men and women. J.Nutr.2009; 139:1896.
  16. Tiernan. Tart cherry in Amelioration of pain and the elderly. Nutrition & Aging. 2015; 3:203.
  17. Bell. The role of cherries and exercise and health. Scand J. Med Sci Sports.2013.doi:10.111/sims.12085.
  18. Kuehl. Effects of tart cherry juice in reducing muscle pain after strenuous exercise. American College of Sports Medicine Annual Meeting, Seattle, May 28, 2009.
  19. Howatson. Influence of tart cherry juice on indices of recovery following marathon running. Scan J. Med Sci Sports 2009.doi: 10.1111/j.1600-0838.2009.01005.x.
  20. Bell. Montmorency cherries reduce the oxidative stress and inflammatory responses to repeated days of high intensity stochastic cycling. Nutrients. 2014; 6:829.
  21. Cassidy. Higher dietary anthocyanin and flavonoid intakes are associated with anti-inflammatory effects in a population of US adults. Am J. Clin Nutr. 2015. Doi:10,3945/ajcn.115.108555.
  22. Schumacher. Randomized double-blind crossover study on the effects of tart cherry juice blend and treatment of osteoarthritis of the knee. Osteoarthritis & Cartilage. 2013; 21:1035.
  23. Collins. Is there a role for cherries in the management of gout?  Ther Adv Musculoskel Dis. 2019; 11:1-16.
  24. Cuzzocrea. Pharmacological action of melatonin in shock, inflammation and ischemia- reperfusion injury. Eur J. of Pharmacology. 2001; 426:1-10.
  25. Losso. Pilot study of the tart cherry juice for the treatment of insomnia and investigation of mechanisms. Am. J. of Therapeutics. 2017; 0:1-8.
  26. Kimble. Dietary intake of anthocyanins and risk of cardiovascular disease: a systematic review and meta-analysis of prospective cohort studies. Critical Reviews in Food Science & Nutrition. 2018.
  27. Nemes. The effects of anthocyanin rich tart cherry extract on inflammatory mediators and Adipokines involved in type two diabetes in a high fat diet induced mouse model. Nutrients. 2019; 11:1966.
  28. Jafari. Effects of sour cherry juice and blood glucose and cardiovascular risk factors improvements in diabetic women, a pilot study. Nutrition & Food Science. 2008; 39:355.
  29. Chai. Effects of Montmorency tart cherry juice on cognitive performance in older adults in a random controlled trial. Food & Function. 2019; 10:4423.
  30. Matchynski, Dunbar. Combinatorial treatment of tart cherry extract and essential fatty acid reduces cognitive impairment and inflammation in MU-P75 Saporin- induced mouse model of Alzheimer’s disease. J. Med Food. 2013; 16(4):288-295.
  31. Pillard. Preventative effects of regular physical exercise against cognitive decline and risk of dementia with age advancement. Sports Med open.2015 Dec; 1:20.
  32. Lui. The beneficial effects of physical exercise in the brain and related pathophysiologic mechanisms in Neuro degenerative diseases. Laboratory Investigation. 2019; 99:943.
  33. Morland. Exercise induces cerebral VEGF and angiogenesis via the lactate receptor HCAR1. Nat Commun. 2017; 8:15557.
  34. Lagha. Tart cherry fractions inhibit  biofilm formation and adhesion properties of oral pathogen’s and enhances oral epithelial barrier function. Phytotherapy Research. 2019; 1-10.
  35. Dinkova-Kostova. Phytochemicals as protectors against ultraviolet radiation: versatility effects and mechanisms. Planta Medica. 2008; 74(13):1548.
  36. Seymour. Altered hyperlipidemia, hepatic steatosis, and hepatic peroxisome proliferator-activated receptors in rats with intake of tart cherry. J. of Med Food.2008; 11(2):252.
  37. Seymour. Cherry-Enriched diets reduce metabolic syndrome and oxidative stress and lean Dahl-SS rats. The FASEB Journal.2007; 21:225.
  38. Kirkakosyan. The inhibitory potential of Montmorency tart cherry on key enzymes related to type 2 diabetes and cardiovascular disease. Food Chemistry .2018; 252:142.
  39. Macrothink Institute. J. of Food Studies. 2012; 1:1.
  40. Kuel. Cherry juice targets antioxidant potential and pain relief. Med Sport Sci. 2013;59:86.
  41. Brown. Montmorency tart cherry supplementation  accelerates recovery from exercise induced muscle damage in females. Euro J of Sports Sci. 2018.
  42. Pandey. Plant polyphenols as dietary antioxidants in human health and disease. Oxidative Medicine & Cellular Longevity. 2009;2:270.
  44. Li,L. Maple syrup phytochemical including ligand, coumarin, stilbene,  and other previously unreported antioxidant phenolic compounds. J Agric. Food Chem. 2010;58:11673-11679.
  45. Theirault, M. Antioxidant, anti radical and anti mutagenic activities of phenolic compounds present in maple products. Food Chem. 2006; 98: 490-501.
  46. Phytochemical profiles and classification of Agave syrups using H-NMR and chemometrics. Rios. Food Sci. Nutr. 2018; Jan 7(1):3-13.
  47. Tea Association of USA.
  48. Canadian Academy of Sports Nutrition.
  49. Clifford T, Howatson G. The potential benefits of red beets in health and disease. Nutrients. 2015; April 7(4):2801.
  50. Clifford T. The plasma bioavailability of Nitrate and Betanin from Beta vulgaris rubra in humans. Our. J. Nutrients. 2017;56(3) :1245-54.
  51. Lidder S,Webb AJ. Vascular effects of dietary nitrate as found in Green leafy vegetables and beet root by the Nitrate-nitrite-nitricoxide pathway. Br. J. Clin. Pharmacol. 2013 Mar; 75(3):677-96.
  52. Joris R. Beet root juice improves in overweight and slightly obese men post prandial endothelial function after consumption of a next meal. Atherosclerosis. 2013 Nov; 23(1):78-83.
  53. Weinberg E. Novel aspects of dietary nitrate and human health. Am. Rev. Nutr. 2013; 33:129-59.
  54. Wylie L, Kelly J.Beet Juice and exercise: Pharmacodynamics and Dose responce relationships. J.Appl. Physiol. 2013; 115(3):325-336.
  55. Presley TD. Acute effects of high nitrate diet on Brain perfusion in older adults. Nitricoxide. 2011 Jan 1; 24:34-42.
  56. Elaheh Madadi. Therapeutic Applications of Betalains: A Review. Plants. 2020 Sep; 9:1219.
  57. DeRosa G, Maffioli. A role for quercetin in coronavirus disease, 2019 (COVID-19). Phytother. Res. 2021 Mar; 35:1230.
  58. Netzer M. Total Renal excretion of antioxidative constituents from red beet in humans. Food Res. Yet. 2005; 38:1051-1058.
  59. Sindra Rehman. Biological Activities of Beta vulgaris leaves and root extracts. Saudi J Bio. Sci. 2020; 10:48.
  60. Clifford T, Berntzen. Effects of Beet root juice in the Recovery of Muscle Function and performance. Nutrients. 2016 Aug; 8:506.
  61. Lauert, Heiss. Age dependent endothelial dysfunction in associated to exercise. Basic Res. Cadiol. 2008;103:291-7.
  62. Larsen FJ. Dietary Nitrate on oxygen cost during exercise. Acta Physio. 2007;191:59-66.
  63. Webb AJ, Patel N. Acute blood pressure lowering and vasoprotective and antiplatelet properties of dietary Nitrate via conversion to Nitrites. Hypertension. 2008;51:784-90.
  64. Flueck J, Bogdanova A. The effects of equimolar nitrate dosages of nitrate rich beet root juice and sodium nitrate on oxygen consumption during exercise. Nutrients. Metab. 2016 Apr; 41(4):421-9.
  65. Shannon O, McGawley K. "Beeting" the mountain: a review of the physiological and performance effects of dietary nitrate supplementation at simulated and terrestrial altitudes. Sports Med. 2017; 47(1):2155-2169.
  66. Nobre. L-theanine, a natural constituent in tea & its effects on Mental State. Asia Pac J Clin Nutr. 2008;17 Suppl1:167-8.