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| Itt írjon a(z) koffein-ról/ről | == Előfordulás == [KÍSÉRLET LEÍRÁSA] == Fogyasztási szokások == [KÖZVÉLEMÉNYKUTATÁS LEÍRÁSA] ||<tablebgcolor="#eeeeee" tablestyle="float:center;font-size:0.85em;margin:0 0 0 0; "> {{attachment:kávé.jpg|kávé.jpg}} |<<BR>>'''Ábra 2/1.'''<<BR>>''A kérdezettek kávéfogyasztási szokásai.'' || ||<tablebgcolor="#eeeeee" tablestyle="float:center;font-size:0.85em;margin:0 0 0 0; "> {{attachment:feketetea.jpg}} |<<BR>>'''Ábra 2/2.'''<<BR>>''A kérdezettek fekete tea fogyasztási szokásai.'' || ||<tablebgcolor="#eeeeee" tablestyle="float:center;font-size:0.85em;margin:0 0 0 0; "> {{attachment:energiaital.jpg}} |<<BR>>'''Ábra 2/3.'''<<BR>>''A kérdezettek energiaital fogyasztási szokásai.'' || == Hatása a szervezetre == === Koffein és bőrrák === === Koffein és agyi keringés === === Koffein és terhesség === === Koffein és 2-es típusú diabetes === === Koffein és glaucoma === === Koffein és súlyvesztés === === Koffein és dehidratáció === == Irodalomjegyzék == [[#anchorname|Author et al, 2011]] 1. <<Anchor(anchorname)>> '''Fengju Song et al''' (2012): Increased Caffeine Intake Is Associated with Reduced Risk of Basal Cell Carcinoma of the Skin. Journal of Cancer Research 73(13), 3282-3289 2. <<Anchor(anchorname)>> '''Rishma Vidyasagar et al''' (2013): The effect of black tea and caffeine on regional cerebral blood flow measured with arterial spin labeling. Journal of Cerebral Blood Flow & Metabolism 33, 963–968 1. <<Anchor(anchorname)>> '''Timothy P. Heffernan et al''' (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815 1. <<Anchor(anchorname)>> '''Timothy P. Heffernan et al''' (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815 1. <<Anchor(anchorname)>> '''Timothy P. Heffernan et al''' (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815 1. <<Anchor(anchorname)>> '''Timothy P. Heffernan et al''' (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815 1. <<Anchor(anchorname)>> '''Timothy P. Heffernan et al''' (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815 1. <<Anchor(anchorname)>> '''Timothy P. Heffernan et al''' (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815 |
Koffein előfordulása, fogyasztási szokások, hatása a szervezetre
Contents
Előfordulás
[KÍSÉRLET LEÍRÁSA]
Fogyasztási szokások
[KÖZVÉLEMÉNYKUTATÁS LEÍRÁSA]
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Hatása a szervezetre
Koffein és bőrrák
Koffein és agyi keringés
Koffein és terhesség
Koffein és 2-es típusú diabetes
Koffein és glaucoma
Koffein és súlyvesztés
Koffein és dehidratáció
Irodalomjegyzék
1. Fengju Song et al (2012): Increased Caffeine Intake Is Associated with Reduced Risk of Basal Cell Carcinoma of the Skin. Journal of Cancer Research 73(13), 3282-3289
2. Rishma Vidyasagar et al (2013): The effect of black tea and caffeine on regional cerebral blood flow measured with arterial spin labeling. Journal of Cerebral Blood Flow & Metabolism 33, 963–968
1. Timothy P. Heffernan et al (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815
1. Timothy P. Heffernan et al (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815
1. Timothy P. Heffernan et al (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815
1. Timothy P. Heffernan et al (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815
1. Timothy P. Heffernan et al (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815
1. Timothy P. Heffernan et al (2009): ATR–Chk1 Pathway Inhibition Promotes Apoptosis after UV Treatment in Primary Human Keratinocytes: Potential Basis for the UV Protective Effects of Caffeine. Journal of Investigative Dermatology 129, 1805-1815