I purchased wheat sprout extract and started giving it to my dog that has cataracts. Today my wife excitedly commented that the cloudiness in the dogs eyes was gone - no white/grey milkiness was visible. My wife was surprised since I hadn't told her that I had started giving the dog the wheat sprout extract. I looked at the dog's eyes and two dark eyes looked back at me. I hadn't even bothered to check the dogs eyes since I had only given her the wheat sprout extract for 6 days. I was hoping that maybe at the end of 30 days, that there might be some visible improvement. What an amazing change in so short of time.
Since the wheat sprout extract is 4:1, I gave only 1/4 teaspoon once a day.
Wheat Grass Reverses Cataract-Associated Cloudy Lenses
It also restores the thymus gland. Here is the abstract for the wheat sprout study:
Neonatal thymus graft and thymus calf extract (TME) in vivo treatment exert similar corrective actions on different mouse age-related alterations. The aim of the present paper is to investigate whether a vegetal extract, wheat sprout extract (WESPRE), could mimic the thymus action on recovering age-related alterations and if this extract can cure an age-associated pathology, the cataract in dogs. Present experiments were carried out by using WESPRE and TME in vivo in old mice to check their ability to recover the altered DNA synthesis in hepatocyte primary cultures. Old mice treated with WESPRE and TME showed a recovery of hepatocyte DNA synthesis levels when compared with the old untreated ones. The increase of DNA and protein contents observed in aged animals is reduced by WESPRE treatments to levels observed in young mice hepatocytes. We measured also WESPRE phosphorylation activity by endogenous kinase: it was from 10 to 40 times higher with respect to wheat seeds. Old dogs were orally treated for a month and the lens opacity analysed before and after the treatment. Results showed a reduction from 25 to 40% of lens opacity. The efficacy of wheat sprouts in the recovery of age-related alterations and in treating age-associated pathologies could be due to the contemporary presence of small regulatory acid peptides, a remarkable level of highly energetic phosphoric radicals and antioxidant molecules, peculiarities that may be, to some extent, related to the aging process regulation.