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Butyrate {ref}
Artemisinin + Butyrate "A combination of low concentrations of sodium butyrate (1 mM) and DHA (20 ÌM) kills all leukemia cells in culture within 24 hours, suggesting that the combination of short chain fatty acids and artemisinin or its analogs may be an effective treatment for cancers" {ref}
Magnolol {ref}
Ellagic acid + Quercetin {ref}
Ceproheptadine {ref}
Hesperidin {ref}
I3C {ref}
Niacin "Improvement of niacin status in rats significantly decreased nitrosourea-induced leukemia incidence. The data from our rat model suggest that niacin supplementation of cancer patients may decrease the severity of short- and long-term side effects of chemotherapy, and could improve tumor cell killing through activation of poly(ADP-ribose)-dependent apoptosis pathways."{ref}
Nettle tea {ref}
Curcumin/Cannabidiol/Quercetin {ref}
Pharmacologic inhibition of fatty acid oxidation sensitizes human leukemia cells to apoptosis induction {ref}
Plasma ammonia in patients with acute leukemia.{ref}
Formononetin and Dihydroartemisinin Act Synergistically to Induce Apoptosis in Human Acute Myeloid Leukemia Cell Lines {ref}
Metformin and Thymoquinone Synergistically Inhibit Proliferation of Imatinib-Resistant Human Leukemic Cells {ref}
Antitumor effects of sodium selenite on acute lymphocytic leukemia {case report}
Anti-Leukemic Effect of Carvacrol and Thymol Combination through Synergistic Induction of Different Cell Death Pathways {study}
Bioactive Chemicals from Carrot ( Daucus carota) Juice Extracts for the Treatment of Leukemia {study}
Epigallocatechin gallate, ellagic acid, and rosmarinic acid perturb dNTP pools and inhibit de novo DNA synthesis and proliferation of human HL-60 promyelocytic leukemia cells {study}
Regulating TKT activity inhibits proliferation of human acute lymphoblastic leukemia cells {ref}
Vitamin B6, leukemia’s deadly addiction {ref} "Zhang cautions that his research on how cancer cells use the B6 vitamin to proliferate does not mean that cancer patients would necessarily benefit from reduced intake of B6 vitamin as part of their diet. The B6 vitamin is necessary for the survival of healthy cells. Zhang’s research shows that cancer cells take advantage of the PDXK enzyme to increase B6 vitamin activity. This increased activity fuels AML growth."
Bridging the Gap in Cancer Research: Sulfur Metabolism of Leukemic Cells with a Focus on L-Cysteine Metabolism and Hydrogen Sulfide-Producing Enzymes {ref}
SEARCH STRINGS
leukemia
acute lymphoblastic leukemia (ALL)
acute myeloid leukemia (AML)
chronic lymphocytic leukemia (CLL)
chronic myeloid leukemia (CML)
natural substances leukemia treatment (Bing / Google / Consensus / PubMed / ScienceDirect)
natural substances leukemia treatment synergy (Bing / Google / Consensus / PubMed / ScienceDirect)
Artemisinin + leukemia (Bing / Google / Consensus / PubMed / ScienceDirect)
Honokiol + leukemia
Orlistat + leukemia
Aspirin + leukemia
Modified Citrus Pectin + leukemia
Ursolic acid + leukemia
Luteolin + leukemia
Magnolol + leukemia
Piperine + leukemia
Celecoxib + leukemia
Indole-3-Carbinol + leukemia
Melatonin + leukemia
Curcumin + leukemia
Berberine + leukemia
Graviola + leukemia
Ellagic acid + leukemia
Quercetin + leukemia {ref | ref | ref | ref | ref | ref
Butyrate + leukemia {ref | ref | ref | ref | ref
Vitamin D + leukemia {ref | ref | ref | ref |
Vitamin K2 + leukemia
EGCG + leukemia
Aloe Vera + leukemia
Allicin + leukemia
Ginger + leukemia
6-Shogaol + leukemia
Anthocyanin + leukemia
Curcumin + leukemia
Emodin + leukemia
Apigenin + leukemia
Salvia miltiorrhiza + leukemia
Astragalus + leukemia
Garcinol + leukemia
DHA docosahexaenoic acid + leukemia
Citric acid + leukemia
Andrographis + leukemia
D-limonene + leukemia
Salvia miltiorrhiza + leukemia
Shikonin + leukemia
Boswellia + leukemia
Grapeseed extract + leukemia
Phellinus linteus + leukemia
Naringin + leukemia
IP6 + leukemia
Inositol + leukemia
Pterostilbene + leukemia
Licoric + leukemia
Boswellia + leukemia
Chlorogenic acid + leukemia
Theobromine + leukemia
Lipoic acid + leukemia
Hydroxycitrate + leukemia
methylene blue + leukemia
Milk Thistle + leukemia
Baicalein + leukemia
Salvia miltiorrhiza + leukemia
Nigella Sativa + leukemia
Thymoquinone + leukemia
Lycopene + leukemia
Sulforaphane + leukemia
Dihydrocaffeic Acid + leukemia
Vitamin C + leukemia
Phosphatidylcholine + leukemia
Magnesium + leukemia
Vitamin B6 + leukemia
Juglone + leukemia
Riboflavin + leukemia
Ashwagandha + leukemia
Bicarbonate + leukemia
Piperlongumine + leukemia
Sanguinarine + leukemia
Berberine + leukemia
Caffeine + leukemia
Galangal + leukemia
Tulsi + leukemia
Piper nigrum + leukemia
Oligomeric proanthocyanidins + leukemia
Taurine + leukemia
AHCC + leukemia
Fucoidan + leukemia
Carnosic acid + leukemia
Fisetin + leukemia
Caffeic acid + leukemia
Mistletoe + leukemia
Chaga + leukemia
Rosmarinic acid + leukemia {ref}
Cinnamon + leukemia
Subversion of Systemic Glucose Metabolism As a Mechanism to Support the Growth of Leukemia Cells "Restoration of normal glucose regulation may be a feasible strategy to suppress systemic growth of malignant cell types."
References
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