eff Cancer Research Results

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4101- MF,    Benign Effect of Extremely Low-Frequency Electromagnetic Field on Brain Plasticity Assessed by Nitric Oxide Metabolism during Poststroke Rehabilitation
- Human, Stroke, NA
*motorD↑, *cognitive↑, *eff↑, *NO↑, *other↝, *neuroP↑,
3741- MF,    Promising application of Pulsed Electromagnetic Fields (PEMFs) in musculoskeletal disorders
- Review, NA, NA
*eff↑, *BMD↑, *Inflam↓, *PGE2↓, *IL6↓, *IL8↓, *NF-kB↓, *mTOR↝,
3457- MF,    Cellular stress response to extremely low‐frequency electromagnetic fields (ELF‐EMF): An explanation for controversial effects of ELF‐EMF on apoptosis
- Review, Var, NA
Apoptosis↑, H2O2↑, ROS↑, eff↑, eff↑, Ca+2↑, MAPK↑, *Catalase↑, *SOD1↑, *GPx1↑, *GPx4↑, *NRF2↑, TumAuto↑, ER Stress↑, HSPs↑, SIRT3↑, ChemoSen↑, UPR↑, other↑, PI3K↓, JNK↑, p38↑, eff↓, *toxicity?,
3568- MF,    The Efficacy of Pulsed Electromagnetic Fields on Pain, Stiffness, and Physical Function in Osteoarthritis: A Systematic Review and Meta-Analysis
- Review, Arthritis, NA
*eff↑, *Pain↓, *motorD↑,
3481- MF,    No effects of pulsed electromagnetic fields on expression of cell adhesion molecules (integrin, CD44) and matrix metalloproteinase-2/9 in osteosarcoma cell lines
- in-vitro, OS, MG63 - in-vitro, OS, SaOS2
ITGA1∅, ITGB1∅, ITGA5∅, ITGB3∅, ITGB4∅, MMP2∅, MMP9∅, eff↑,
3479- MF,    Evaluation of Pulsed Electromagnetic Field Effects: A Systematic Review and Meta-Analysis on Highlights of Two Decades of Research In Vitro Studies
- Review, NA, NA
*eff↓, eff↝, *Hif1a↑, *VEGF↑, *TIMP1↑, *E2Fs↑, *MMP2↑, *MMP9↑, Apoptosis↑,
3477- MF,    Electromagnetic fields regulate calcium-mediated cell fate of stem cells: osteogenesis, chondrogenesis and apoptosis
- Review, NA, NA
*Ca+2↑, *VEGF↑, *angioG↑, Ca+2↑, ROS↑, Necroptosis↑, TumCCA↑, Apoptosis↑, *ATP↑, *FAK↑, *Wnt↑, *β-catenin/ZEB1↑, *ROS↑, p38↑, MAPK↑, β-catenin/ZEB1↓, CSCs↓, TumCP↓, ROS↑, RadioS↑, Ca+2↑, eff↓, NO↑,
3476- MF,    Pulsed Electromagnetic Fields Stimulate HIF-1α-Independent VEGF Release in 1321N1 Human Astrocytes Protecting Neuron-like SH-SY5Y Cells from Oxygen-Glucose Deprivation
- in-vitro, Stroke, 1321N1 - in-vitro, Park, NA
*VEGF↑, *eff↑, *neuroP↑, *other↑, *eff↑, *Inflam↓, *Hif1a∅,
3469- MF,    Pulsed Electromagnetic Fields (PEMF)—Physiological Response and Its Potential in Trauma Treatment
- Review, NA, NA
*eff↑, *eff↝, *other↑, Ca+2↑, ROS↑, HSP70/HSPA5↑, *NOTCH↑, *HEY1↑, *p38↑, *MAPK↑,
3468- MF,    An integrative review of pulsed electromagnetic field therapy (PEMF) and wound healing
- Review, NA, NA
*other↑, *necrosis↓, *IL6↑, *TGF-β↑, *iNOS↑, *MMP2↑, *MCP1↑, *HO-1↑, *Inflam↓, *IL1β↓, *IL6↓, *TNF-α↓, *BioAv↑, eff⇅, DNAdam↑, Apoptosis↑, ROS↑, TumCP↓, *ROS↓, *FGF↑,
3486- MF,    Pulsed electromagnetic field potentiates etoposide-induced MCF-7 cell death
- in-vitro, NA, NA
ChemoSen↑, tumCV↓, cl‑PARP↑, Casp7↑, Casp9↑, survivin↓, BAX↑, DNAdam↑, ROS↑, eff↓,
528- MF,  Caff,    Pulsed electromagnetic fields affect the intracellular calcium concentrations in human astrocytoma cells
- in-vitro, GBM, U373MG
Ca+2↑, TumCP∅, TumCD∅, eff↑,
532- MF,    A 50 Hz magnetic field influences the viability of breast cancer cells 96 h after exposure
- in-vitro, BC, MDA-MB-231 - in-vitro, BC, MCF-7 - in-vitro, Nor, MCF10
TumCP↓, MMP↓, ROS↑, eff↝, selectivity↑,
534- MF,    Effect of extremely low frequency electromagnetic field parameters on the proliferation of human breast cancer
- in-vitro, BC, MCF-7 - in-vitro, BC, MDA-MB-231 - in-vivo, Nor, MCF10
Ca+2↑, Apoptosis↑, eff↝, eff↑, selectivity↑, eff↝, eff↝,
535- MF,    Electromagnetic Fields Trigger Cell Death in Glioblastoma Cells through Increasing miR-126-5p and Intracellular Ca2+ Levels
- in-vitro, Pca, PC3 - in-vitro, GBM, A172 - in-vitro, Pca, HeLa
Apoptosis↑, miR-129-5p↑, Ca+2↑, eff↝,
537- MF,  immuno,    Integrating electromagnetic cancer stress with immunotherapy: a therapeutic paradigm
- Review, Var, NA
Apoptosis↑, ROS↑, TumAuto↑, Ca+2↑, ATP↓, eff↑, eff↑,
539- MF,    Pulsed Magnetic Field Improves the Transport of Iron Oxide Nanoparticles through Cell Barriers
- in-vitro, NA, NA
eff↑,
496- MF,    Low-Frequency Magnetic Fields (LF-MFs) Inhibit Proliferation by Triggering Apoptosis and Altering Cell Cycle Distribution in Breast Cancer Cells
- in-vitro, BC, MCF-7 - in-vitro, BC, ZR-75-1 - in-vitro, BC, T47D - in-vitro, BC, MDA-MB-231
ROS↑, PI3K↓, Akt↓, GSK‐3β↑, Apoptosis↑, cl‑PARP↑, cl‑Casp3↑, BAX↑, Bcl-2↓, CycB/CCNB1↓, TumCCA↑, p‑Akt↓, TumCP↓, selectivity↑, eff↓,
520- MF,    Exposure to a 50-Hz magnetic field induced mitochondrial permeability transition through the ROS/GSK-3β signaling pathway
- in-vitro, Nor, NA
*MPT↑, *Cyt‑c↑, *ROS↑, *p‑GSK‐3β↑, *eff↓, *MMP∅, *BAX↓, *Bcl-2∅,
523- MF,  MTX,    Extremely low-frequency magnetic fields significantly enhance the cytotoxicity of methotrexate and can reduce migration of cancer cell lines via transiently induced plasma membrane damage
- in-vitro, AML, THP1 - in-vitro, NA, PC12 - in-vivo, Cerv, HeLa
H2O2↑, TumCD↑, CellMemb↑, eff↑,
5534- MF,    Targeted Osmotic Lysis of Highly Invasive Breast Carcinomas Using Pulsed Magnetic Field Stimulation of Voltage-Gated Sodium Channels and Pharmacological Blockade of Sodium Pumps
- vitro+vivo, BC, MDA-MB-231 - in-vitro, Nor, MCF10
TumVol↓, VGSC↑, OS↑, selectivity↑, eff↑,
5532- MF,    Magnetoporation: New Method for Permeabilization of Cancerous Cells to Hydrophilic Drugs
- in-vivo, BC, NA
Dose↑, CellMemb↑, eff↝, other↝, TumCG↓,
4355- MF,    Ambient and supplemental magnetic fields promote myogenesis via a TRPC1-mitochondrial axis: evidence of a magnetic mitohormetic mechanism
- in-vitro, Nor, C2C12
*mt-OCR↑, *mt-ROS↑, *ECAR↑, *Dose↝, *Ca+2↑, *ATP↑, *other↑, *eff↓, *eff↝,
4354- MF,  doxoR,    Modulated TRPC1 Expression Predicts Sensitivity of Breast Cancer to Doxorubicin and Magnetic Field Therapy: Segue Towards a Precision Medicine Approach
- in-vivo, BC, MDA-MB-231 - in-vivo, BC, MCF-7
selectivity↑, Apoptosis↑, TumCI↓, tumCV↓, TumVol↓, eff↓, eff↑, ROS↑, Ca+2↑, TumCMig↓,
4353- MF,  Chemo,    Pulsed Electromagnetic Field Enhances Doxorubicin-induced Reduction in the Viability of MCF-7 Breast Cancer Cells
- in-vitro, BC, MCF-7
TumCCA↑, Apoptosis↑, eff↑, TumCCA↑, Casp↝, p‑CDK2↓, cycE/CCNE↓, Fas↑, BAX↑, survivin↓, Mcl-1↓, cl‑PARP↑, cl‑Casp7↑, cl‑Casp8↑, cl‑Casp9↑,
4352- MF,    Differences in lethality between cancer cells and human lymphocytes caused by LF-electromagnetic fields
- in-vitro, lymphoma, K562 - NA, NA, U937 - NA, NA, HL-60
Apoptosis↑, eff↑,
3535- MFrot,  MF,    Pulsed Electromagnetic Field Stimulation in Osteogenesis and Chondrogenesis: Signaling Pathways and Therapeutic Implications
- Review, Nor, NA
*eff↑, *COL2A1↑, *SOX9↑, *Ca+2↑, *FAK↑, *F-actin↑, *Inflam↓, *other↑, *Diff↑, *BMD↑,
3567- MFrot,  MF,    The Effect of Extremely Low-Frequency Magnetic Field on Stroke Patients: A Systematic Review
- Review, Stroke, NA
*eff↑, *ROS↓, *Inflam↓, *cognitive↑, *Catalase↑, *SOD↑, *SOD1↑, *SOD2↑, *GPx1↑, *GPx4↑, *IL1β↑, *neuroP↑, *toxicity∅,
3492- MFrot,  Chemo,  MF,    Synergistic Effect of Chemotherapy and Magnetomechanical Actuation of Fe-Cr-Nb-B Magnetic Particles on Cancer Cells
eff↑, TumCD↑,
3494- MFrot,  MF,    Magnetically switchable mechano-chemotherapy for enhancing the death of tumour cells by overcoming drug-resistance
- in-vitro, Var, NA
eff↑, TumCD↑,
3496- MFrot,  GoldNP,  MF,    Enhancement of chemotherapy effects by non-lethal magneto-mechanical actuation of gold-coated magnetic nanoparticles
- in-vitro, Cerv, HeLa
eff↑, tumCV↓,
2262- MFrot,  MF,    Effects of 0.4 T Rotating Magnetic Field Exposure on Density, Strength, Calcium and Metabolism of Rat Thigh Bones
- in-vivo, ostP, NA
*BMD↑, *eff↓, *ALP↑, *other↑,
2259- MFrot,  MF,    Method and apparatus for oncomagnetic treatment
- in-vitro, GBM, NA
MMP↓, Bcl-2↓, BAX↑, Bak↑, Cyt‑c↑, Casp3↑, Casp9↑, DNAdam↑, ROS↑, lactateProd↑, Apoptosis↑, MPT↑, *selectivity↑, eff↑, MMP↓, selectivity↑, TCA?, H2O2↑, eff↑, *antiOx↑, H2O2↑, eff↓, GSH/GSSG↓, *toxicity∅, OS↑,
2258- MFrot,  MF,    EXTH-68. ONCOMAGNETIC TREATMENT SELECTIVELY KILLS GLIOMA CANCER CELLS BY INDUCING OXIDATIVE STRESS AND DNA DAMAGE
- in-vitro, GBM, GBM - in-vitro, Nor, SVGp12
TumVol↓, OS↑, γH2AX↑, DNAdam↑, selectivity↑, ROS↑, TumCD↑, eff↑, eff↓,
5243- MFrot,    The assessment of the efficacy of the effect of a rotational magnetic field on the course of the tumor process in patients with generalized breast cancer
- Human, BC, NA
OS↑, eff↑,
186- MFrot,  MF,    Selective induction of rapid cytotoxic effect in glioblastoma cells by oscillating magnetic fields
- in-vitro, GBM, GBM - in-vitro, Lung, NA
mt-ROS↑, Casp3↑, selectivity↑, TumCD↑, ETC↓, H2O2↑, eff↓, GSH↑, MMP↓,
229- MFrot,  MF,    Molecular mechanism of effect of rotating constant magnetic field on organisms
- in-vivo, Nor, NA
*NO↑, *5HT↓, *eff↝, *eff↝, *β-Endo↑, *other↓,
188- MFrot,  MF,    Spinning magnetic field patterns that cause oncolysis by oxidative stress in glioma cells
- in-vitro, GBM, GBM115 - in-vitro, GBM, DIPG
ROS↑, SDH↓, eff↓, RPM↑, eff↓, eff↑, eff↝, eff↝, Casp3↑, eff↝, SOD↓, ETC↓,
184- MFrot,  MF,    Rotating Magnetic Fields Inhibit Mitochondrial Respiration, Promote Oxidative Stress and Produce Loss of Mitochondrial Integrity in Cancer Cells
- in-vitro, GBM, GBM
ROS↑, mitResp↓, mtDam↑, Dose↝, MMP?, OCR↓, mt-H2O2↑, eff↓, SDH↓, Thiols↓, GSH↓, TumCD↑, Casp3↑, Casp7↑, MPT↑, Cyt‑c↑, selectivity↑, GSH/GSSG↓, ETC↓,
226- MFrot,  MF,    Involvement of midkine expression in the inhibitory effects of low-frequency magnetic fields on cancer cells
- in-vitro, NA, A549 - in-vitro, NA, LoVo
TumCP↓, eff↝,
215- MFrot,  MF,    Magneto-mechanical destruction of cancer-associated fibroblasts using ultra-small iron oxide nanoparticles and low frequency rotating magnetic fields
- in-vitro, PC, CAF
TumVol↓, lysoMP↑, CAFs/TAFs↓, eff↑,
203- MFrot,  MF,    Rotating Magnetic Field Induced Oscillation of Magnetic Particles for in vivo Mechanical Destruction of Malignant Glioma
- vitro+vivo, GBM, U87MG
lysoMP↓, TumVol↓, eff↑, Apoptosis↑, Ca+2↑,
595- MFrot,  VitC,  MF,    The Effect of Alternating Magnetic Field Exposure and Vitamin C on Cancer Cells
- in-vitro, PC, MIA PaCa-2 - in-vitro, CRC, SW-620 - in-vitro, NA, HT1080 - in-vitro, Pca, PC3 - in-vitro, OS, U2OS - in-vitro, BC, MCF-7 - in-vitro, Nor, CCD-18Co
TumCD↑, eff↑, *TumCG∅,
516- MFrot,  immuno,  MF,    Anti-tumor effect of innovative tumor treatment device OM-100 through enhancing anti-PD-1 immunotherapy in glioblastoma growth
- vitro+vivo, GBM, U87MG
TumCP↓, Apoptosis↑, TumCMig↓, ROS↑, PD-L1↑, TumVol↓, eff↑, *toxicity∅, eff↑, *toxicity∅, Dose↝, tumCV↓, TumCI↓,
786- Mg,  VitC,    A narrative review on the role of magnesium in immune regulation, inflammation, infectious diseases, and cancer
Risk↓, *VitD↑, *pH↝, *ROS↓, TumCG↓, eff↑,
1890- MGO,    The Dual-Role of Methylglyoxal in Tumor Progression – Novel Therapeutic Approaches
- Review, Var, NA
AntiCan?, TumCG↓, GAPDH↓, Apoptosis↑, TumCCA↑, MAPK↑, Bcl-2↓, MMP9↓, eff↑,
3838- Moringa,    Characterization, Large-Scale HSCCC Separation and Neuroprotective Effects of Polyphenols from Moringa oleifera Leaves
- in-vitro, AD, PC12 - Review, Stroke, NA
*Inflam↓, *neuroP↑, *antiOx↑, *ROS↓, *memory↑, *MDA↓, *AChE↓, *SOD↑, *Catalase↑, *eff↑,
3839- Moringa,    Nutritional Value of Moringa oleifera Lam. Leaf Powder Extracts and Their Neuroprotective Effects via Antioxidative and Mitochondrial Regulation
*eff↑, *ROS↓, *lipid-P↓, *GSH↑, *antiOx↑, *Ca+2↓, *MMP↑, *neuroP↑, *BBB↑, *Catalase↑, *SOD↑, GPx↑,
3841- Moringa,    Cerebroprotective effect of Moringa oleifera against focal ischemic stroke induced by middle cerebral artery occlusion
- in-vivo, Stroke, NA
*MDA↓, *SOD↑, *neuroP↑, *ROS↓, *Inflam↓, *eff↝,
3844- Moringa,    Review of the Safety and Efficacy of Moringa oleifera
- Review, NA, NA
*antiOx↑, *RenoP↑, *hepatoP↑, *radioP↑, *eff↑, *toxicity↓, *ROS↓, *lipid-P↓, *DNAdam↓, *Catalase↑, *SOD↑, *GPx↑, *GSR↑, *GSTs↑, *AST↓, *ALAT↓, *ALP↓, *Bil↓,

Showing Research Papers: 801 to 850 of 1283
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* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 1283

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

GPx↑, 1,   GSH↓, 1,   GSH↑, 1,   GSH/GSSG↓, 2,   H2O2↑, 5,   mt-H2O2↑, 1,   ROS↑, 15,   mt-ROS↑, 1,   RPM↑, 1,   SIRT3↑, 1,   SOD↓, 1,   Thiols↓, 1,  

Mitochondria & Bioenergetics

ATP↓, 1,   ETC↓, 3,   mitResp↓, 1,   MMP?, 1,   MMP↓, 4,   MPT↑, 2,   mtDam↑, 1,   OCR↓, 1,   SDH↓, 2,  

Core Metabolism/Glycolysis

GAPDH↓, 1,   lactateProd↑, 1,   TCA?, 1,  

Cell Death

Akt↓, 1,   p‑Akt↓, 1,   Apoptosis↑, 15,   Bak↑, 1,   BAX↑, 4,   Bcl-2↓, 3,   Casp↝, 1,   Casp3↑, 4,   cl‑Casp3↑, 1,   Casp7↑, 2,   cl‑Casp7↑, 1,   cl‑Casp8↑, 1,   Casp9↑, 2,   cl‑Casp9↑, 1,   Cyt‑c↑, 2,   Fas↑, 1,   JNK↑, 1,   lysoMP↓, 1,   lysoMP↑, 1,   MAPK↑, 3,   Mcl-1↓, 1,   Necroptosis↑, 1,   p38↑, 2,   survivin↓, 2,   TumCD↑, 7,   TumCD∅, 1,  

Transcription & Epigenetics

miR-129-5p↑, 1,   other↑, 1,   other↝, 1,   tumCV↓, 4,  

Protein Folding & ER Stress

ER Stress↑, 1,   HSP70/HSPA5↑, 1,   HSPs↑, 1,   UPR↑, 1,  

Autophagy & Lysosomes

TumAuto↑, 2,  

DNA Damage & Repair

DNAdam↑, 4,   cl‑PARP↑, 3,   γH2AX↑, 1,  

Cell Cycle & Senescence

p‑CDK2↓, 1,   CycB/CCNB1↓, 1,   cycE/CCNE↓, 1,   TumCCA↑, 5,  

Proliferation, Differentiation & Cell State

CSCs↓, 1,   GSK‐3β↑, 1,   PI3K↓, 2,   TumCG↓, 3,   VGSC↑, 1,  

Migration

Ca+2↑, 10,   CAFs/TAFs↓, 1,   ITGA1∅, 1,   ITGA5∅, 1,   ITGB1∅, 1,   ITGB3∅, 1,   ITGB4∅, 1,   MMP2∅, 1,   MMP9↓, 1,   MMP9∅, 1,   TumCI↓, 2,   TumCMig↓, 2,   TumCP↓, 6,   TumCP∅, 1,   β-catenin/ZEB1↓, 1,  

Angiogenesis & Vasculature

NO↑, 1,  

Barriers & Transport

CellMemb↑, 2,  

Immune & Inflammatory Signaling

PD-L1↑, 1,  

Drug Metabolism & Resistance

ChemoSen↑, 2,   Dose↑, 1,   Dose↝, 2,   eff↓, 11,   eff↑, 28,   eff⇅, 1,   eff↝, 11,   RadioS↑, 1,   selectivity↑, 9,  

Clinical Biomarkers

PD-L1↑, 1,  

Functional Outcomes

AntiCan?, 1,   OS↑, 4,   Risk↓, 1,   TumVol↓, 6,  
Total Targets: 103

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

antiOx↑, 4,   Bil↓, 1,   Catalase↑, 5,   GPx↑, 1,   GPx1↑, 2,   GPx4↑, 2,   GSH↑, 1,   GSR↑, 1,   GSTs↑, 1,   HO-1↑, 1,   lipid-P↓, 2,   MDA↓, 2,   NRF2↑, 1,   ROS↓, 7,   ROS↑, 2,   mt-ROS↑, 1,   SOD↑, 5,   SOD1↑, 2,   SOD2↑, 1,  

Mitochondria & Bioenergetics

ATP↑, 2,   MMP↑, 1,   MMP∅, 1,   MPT↑, 1,   mt-OCR↑, 1,  

Core Metabolism/Glycolysis

ALAT↓, 1,   ECAR↑, 1,  

Cell Death

BAX↓, 1,   Bcl-2∅, 1,   Cyt‑c↑, 1,   HEY1↑, 1,   iNOS↑, 1,   MAPK↑, 1,   necrosis↓, 1,   p38↑, 1,  

Kinase & Signal Transduction

SOX9↑, 1,  

Transcription & Epigenetics

other↓, 1,   other↑, 6,   other↝, 1,  

DNA Damage & Repair

DNAdam↓, 1,  

Cell Cycle & Senescence

E2Fs↑, 1,  

Proliferation, Differentiation & Cell State

Diff↑, 1,   FGF↑, 1,   p‑GSK‐3β↑, 1,   mTOR↝, 1,   NOTCH↑, 1,   TumCG∅, 1,   Wnt↑, 1,  

Migration

Ca+2↓, 1,   Ca+2↑, 3,   COL2A1↑, 1,   F-actin↑, 1,   FAK↑, 2,   MMP2↑, 2,   MMP9↑, 1,   TGF-β↑, 1,   TIMP1↑, 1,   β-catenin/ZEB1↑, 1,   β-Endo↑, 1,  

Angiogenesis & Vasculature

angioG↑, 1,   Hif1a↑, 1,   Hif1a∅, 1,   NO↑, 2,   VEGF↑, 3,  

Barriers & Transport

BBB↑, 1,  

Immune & Inflammatory Signaling

IL1β↓, 1,   IL1β↑, 1,   IL6↓, 2,   IL6↑, 1,   IL8↓, 1,   Inflam↓, 7,   MCP1↑, 1,   NF-kB↓, 1,   PGE2↓, 1,   TNF-α↓, 1,   VitD↑, 1,  

Cellular Microenvironment

pH↝, 1,  

Synaptic & Neurotransmission

5HT↓, 1,   AChE↓, 1,  

Drug Metabolism & Resistance

BioAv↑, 1,   Dose↝, 1,   eff↓, 4,   eff↑, 11,   eff↝, 5,   selectivity↑, 1,  

Clinical Biomarkers

ALAT↓, 1,   ALP↓, 1,   ALP↑, 1,   AST↓, 1,   Bil↓, 1,   BMD↑, 3,   IL6↓, 2,   IL6↑, 1,   VitD↑, 1,  

Functional Outcomes

cognitive↑, 2,   hepatoP↑, 1,   memory↑, 1,   motorD↑, 2,   neuroP↑, 6,   Pain↓, 1,   radioP↑, 1,   RenoP↑, 1,   toxicity?, 1,   toxicity↓, 1,   toxicity∅, 4,  
Total Targets: 104

Scientific Paper Hit Count for: eff, efficacy
69 Silver-NanoParticles
58 Magnetic Fields
43 Sulforaphane (mainly Broccoli)
40 Curcumin
35 Vitamin C (Ascorbic Acid)
32 Thymoquinone
31 Chemotherapy
28 Shikonin
27 immunotherapy
26 chitosan
25 Piperlongumine
24 Artemisinin
24 EGCG (Epigallocatechin Gallate)
23 Selenium NanoParticles
23 Selenite (Sodium)
22 Resveratrol
22 Baicalein
22 Quercetin
20 Copper and Cu NanoParticles
20 Ashwagandha(Withaferin A)
20 Berberine
19 Radiotherapy/Radiation
18 Capsaicin
18 Magnetic Field Rotating
17 Apigenin (mainly Parsley)
17 Phenylbutyrate
17 Chlorogenic acid
17 Dichloroacetate
16 diet FMD Fasting Mimicking Diet
16 Gambogic Acid
16 Bicarbonate(Sodium)
15 Selenium
15 Lycopene
14 Propolis -bee glue
14 Exercise
14 Phenethyl isothiocyanate
13 3-bromopyruvate
13 Metformin
13 Caffeic acid
12 Citric Acid
12 Betulinic acid
12 Fisetin
11 Folic Acid, Vit B9
11 Auranofin
11 borneol
11 salinomycin
11 Rosmarinic acid
10 Alpha-Lipoic-Acid
10 Melatonin
10 Luteolin
10 Atorvastatin
10 Vitamin K2
10 Silymarin (Milk Thistle) silibinin
10 diet Methionine-Restricted Diet
10 doxorubicin
10 Honokiol
10 VitK3,menadione
9 Gold NanoParticles
9 SonoDynamic Therapy UltraSound
9 Cisplatin
9 Boron
9 Vitamin D3
9 Ellagic acid
9 Carvacrol
9 Disulfiram
9 Hydrogen Gas
9 Urolithin
8 Photodynamic Therapy
8 Hyperthermia
8 Chlorophyllin
8 Chrysin
8 Plumbagin
8 Parthenolide
7 Carnosic acid
7 Piperine
7 Electrical Pulses
6 5-fluorouracil
6 Coenzyme Q10
6 Vitamin B12
6 Fenbendazole
6 Allicin (mainly Garlic)
6 Docetaxel
6 beta-glucans
6 Bifidobacterium
6 Celastrol
6 Choline
6 HydroxyCitric Acid
6 Spermidine
6 Juglone
5 Astragalus
5 chemodynamic therapy
5 Akkermansia
5 Bevacizumab (brand Avastin)
5 Ascorbyl Palmitate
5 Astaxanthin
5 Berbamine
5 beta-carotene(VitA)
5 Bortezomib
5 Boswellia (frankincense)
5 Thymol-Thymus vulgaris
5 diet Plant based
5 MCToil
5 Magnolol
5 Moringa oleifera
4 2-DeoxyGlucose
4 almonertinib
4 Andrographis
4 Gemcitabine (Gemzar)
4 Aspirin -acetylsalicylic acid
4 Dipyridamole
4 Butyrate
4 capecitabine
4 Cat’s Claw
4 Cannabidiol
4 diet Short Term Fasting
4 Propyl gallate
4 Pterostilbene
4 Sulfasalazine
4 Whole Body Vibration
3 cetuximab
3 Anthocyanins
3 Anti-oxidants
3 Aloe anthraquinones
3 Biochanin A
3 bempedoic acid
3 Lutein
3 Zeaxanthin
3 Bufalin/Huachansu
3 temozolomide
3 hydroxychloroquine
3 Chocolate
3 Calorie Restriction Mimetics
3 erastin
3 Ginseng
3 Lecithin
3 nicotinamide adenine dinucleotide
3 Naringin
3 Radio Frequency
3 Taurine
3 Vitamin B1/Thiamine
2 5-Aminolevulinic acid
2 Glucose
2 Zinc
2 Aromatherapy
2 Sorafenib (brand name Nexavar)
2 Arsenic trioxide
2 Baicalin
2 brusatol
2 Caffeic Acid Phenethyl Ester (CAPE)
2 Caffeine
2 Calcium
2 carboplatin
2 Celecoxib
2 Oxygen, Hyperbaric
2 Emodin
2 ferumoxytol
2 Kaempferol
2 Genistein (soy isoflavone)
2 γ-linolenic acid (Borage Oil)
2 Orlistat
2 Potassium
2 Methylene blue
2 metronomic chemo
2 Methylsulfonylmethane
2 Mushroom Lion’s Mane
2 Niclosamide (Niclocide)
2 Nimbolide
2 Phosphatidylserine
2 Aflavin-3,3′-digallate
1 Serotonin, 5-hydroxytryptamine
1 dietMediterranean
1 EMF
1 Anzaroot, Astragalus fasciculifolius Bioss
1 Trichostatin A
1 wortmannin
1 Resiquimod
1 Ajoene (compound of Garlic)
1 Acetyl-l-carnitine
1 Amodiaquine
1 Vitamin A, Retinoic Acid
1 Trastuzumab
1 D-limonene
1 Huperzine A/Huperzia serrata
1 probiotics
1 Brucea javanica
1 Bacopa monnieri
1 Bromelain
1 Bruteridin(bergamot juice)
1 Rutin
1 urea
1 Carnosine
1 Cannabichromene
1 Beta‐Lapachone
1 Cinnamon
1 Camptothecin
1 irinotecan
1 Black phosphorus
1 Dichloroacetophenone(2,2-)
1 Date Fruit Extract
1 diet Fermented Foods
1 diet Ketogenic
1 PXD, phenoxodiol
1 Ferulic acid
1 Vitamin E
1 flavonoids
1 Flickering Light Stimulation
1 verapamil
1 Garcinol
1 tamoxifen
1 Hydroxycinnamic-acid
1 HydroxyTyrosol
1 itraconazole
1 Laetrile B17 Amygdalin
1 lambertianic acid
1 Docosahexaenoic Acid
1 Matrine
1 Methyl Jasmonate
1 methotrexate
1 Magnesium
1 Methylglyoxal
1 Mushroom Reishi
1 Myricetin
1 Oleocanthal
1 Peppermint
1 sericin
1 Paclitaxel
1 Psoralidin
1 enzalutamide
1 Oxaliplatin
1 Scoulerine
1 polyethylene glycol
1 acetaminophen
1 Formononetin
1 acetazolamide
1 Iron
1 Squalene
1 Glutathione
1 statins
1 Sutherlandioside D
1 triptolide
1 Tumor Treating Fields
1 Ursolic acid
1 Vitamin B3,Niacin
1 Vitamin B5,Pantothenic Acid
1 Vitamin B6,pyridoxine
1 Wogonin
Query results interpretion may depend on "conditions" listed in the research papers.
Such Conditions may include : 
  -low or high Dose
  -format for product, such as nano of lipid formations
  -different cell line effects
  -synergies with other products 
  -if effect was for normal or cancerous cells

Filter Conditions: Pro/AntiFlg:%  IllCat:%  CanType:%  Cells:%  prod#:%  Target#:961  State#:%  Dir#:%
  wNotes=0  sortOrder:rid,rpid

 

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