@paulsaladinomd Odd you don’t show the counter research to of your claims. Anti nutrients have plenty of positive impact per the research. Can’t just cherry pick your research, can you? I can drop one for every one that you do. Hmmm….. https://t.co
@dittrich_lars und hier https://t.co/blZ4Du8XXz. Nährstoffphysiologie in Pflanzen ist mega spannend, weil sehr komplex und vieles nicht verstanden. Gibt viele Feedbacks, Trade-Offs und unerwartete Effekte. Hier ein Paper zu Kultivar mit weniger Phytat http
第121天的事实: 杏仁皮包含植酸,植物抗营养素会损害锌,钙,铁的吸收。去皮的杏仁“变白”,植酸少得多。因此,变白杏仁粉更好?
RT @nicknorwitz: Fact of day 121: #Almond skins contain #phytic acid, plant anti-nutrient impairs absorpof zinc, calcium, iron. Skinless al…
Fact of day 121: #Almond skins contain #phytic acid, plant anti-nutrient impairs absorpof zinc, calcium, iron. Skinless almonds, “blanched”, far less phytic acid. Therefore, blanched almond flour better? https://t.co/LwC5ykmLP7 https://t.co/I55raHsOEC http
Dude, get on my level https://t.co/roApXKqCCB https://t.co/6FKwvYKMKy https://t.co/Pw4VkKBaiF https://t.co/eakuB1JJF4 https://t.co/DKFHG2RqbX https://t.co/z4gFIMdOE5 --phytates inhibit calcium oxalate formation
@theveganparent Plants. Humans cannot absorb the same nutrientsfrom plants due to phytic acid content. https://t.co/UBvtmkAGYl basic nutritonal science here.
@MarioCa20428059 @GeorgiaEdeMD @davidludwigmd @LDLSkeptic @GrassBased @KetoCarnivore @SBakerMD @TuitNutrition @ahhite @ProfTimNoakes @FructoseNo @DrEades @timhammerich @bigfatsurprise @MarikaSboros @zoeharcombe But it binds FREE iron making phytate (PA or
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
RT @AnnChildersMD: Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T…
Phytate “strongly binds to metallic cations of Ca, Fe, K, Mg, Mn and Zn making them ...unavailable” https://t.co/V1oeH2T9lA @drjamesdinic
Phytate: impact on environment and human nutrition. A challenge for molecular breeding https://t.co/q13VQ6Dh7J @NCBI #PhyticAcid