tumCV Cancer Research Results

tumCV, Cell Viability: Click to Expand ⟱
Source:
Type:
Cell Viability
Scientific Papers found: Click to Expand⟱
1533- Ba,    Baicalein, as a Prooxidant, Triggers Mitochondrial Apoptosis in MCF-7 Human Breast Cancer Cells Through Mobilization of Intracellular Copper and Reactive Oxygen Species Generation
- in-vitro, BrCC, MCF-7 - in-vitro, Nor, MCF10
tumCV↓, i-ROS↑, MMP↓, Bcl-2↓, BAX↑, Cyt‑c↑, Casp9↑, Casp3↑, eff↓, selectivity↑, *toxicity∅, Apoptosis↑, Fenton↑,
2475- Ba,    Baicalein triggers ferroptosis in colorectal cancer cells via blocking the JAK2/STAT3/GPX4 axis
- in-vitro, CRC, HCT116 - in-vitro, CRC, DLD1 - in-vivo, NA, NA
tumCV↓, GPx4↓, STAT3↓, Ferroptosis↑,
5539- BBM,    Berbamine suppresses cell viability and induces apoptosis in colorectal cancer via activating p53-dependent apoptotic signaling pathway
- vitro+vivo, CRC, SW480
tumCV↓, TumCCA↑, MMP↓, P53↑, Casp3↑, Casp9↑, BAX↑, PARP↑, Bcl-2↓, TumVol↑,
5547- BBM,    Berbamine exerts anticancer effects on human colon cancer cells via induction of autophagy and apoptosis, inhibition of cell migration and MEK/ERK signalling pathway
- in-vitro, CRC, HT29
tumCV↓, selectivity↑, Casp3↑, Casp9↑, Bax:Bcl2↑, ATG5↑, Beclin-1↑, TumCP↓, MEK↓, ERK↓,
5549- BBM,    Synergistic Anticancer Effect of a Combination of Berbamine and Arcyriaflavin A against Glioblastoma Stem-like Cells
- in-vitro, GBM, NA
eff?, tumCV↓, TumCG↓, ROS↑, P53↑, CSCs↓, CD133↓, ALDH1A1↓, Nanog↓, SOX2↓, OCT4↓, CDK1↓, CaMKII ↓, STAT3↓, Akt↓, ERK↓,
5551- BBM,    Berbamine Suppresses the Progression of Bladder Cancer by Modulating the ROS/NF-κB Axis
- vitro+vivo, Bladder, NA
tumCV↓, TumCP↓, TumCCA↑, P21↑, p27↑, cycD1/CCND1↓, cycA1/CCNA1↓, CDK2↓, EMT↓, TumMeta↓, p65↓, p‑p65↓, IKKα↓, NF-kB↑, ROS↑, NRF2↓, HO-1↓, SOD2↓, GPx1↓, Bax:Bcl2↑, TumVol↓,
1386- BBR,    Berberine-induced apoptosis in human breast cancer cells is mediated by reactive oxygen species generation and mitochondrial-related apoptotic pathway
- in-vitro, BC, MCF-7 - in-vitro, BC, MDA-MB-231
tumCV↓, ROS↑, JNK↑, MMP↓, Bcl-2↓, BAX↑, Cyt‑c↑, AIF↝,
1396- BBR,    Berberine induced down-regulation of matrix metalloproteinase-1, -2 and -9 in human gastric cancer cells (SNU-5) in vitro
- in-vitro, GC, SNU1041 - in-vitro, GC, SNU5
tumCV↓, ROS↑, MMP1↓, MMP2↓, MMP9↓, MMP7∅,
1402- BBR,    Berberine-induced apoptosis in human glioblastoma T98G cells is mediated by endoplasmic reticulum stress accompanying reactive oxygen species and mitochondrial dysfunction
- in-vitro, GBM, T98G
tumCV↓, ROS↑, Ca+2↑, ER Stress↑, eff↓, Bax:Bcl2↑, MMP↓, Casp9↑, Casp3↑, cl‑PARP↑,
2691- BBR,    Berberine induces FasL-related apoptosis through p38 activation in KB human oral cancer cells
- in-vitro, Oral, KB
tumCV↓, DNAdam↑, Casp3↑, Casp7↑, FasL↑, Casp8↑, Casp9↑, PARP↑, BAX↑, BAD↑, APAF1↑, MMP2↓, MMP9↓, p‑p38↑, ERK↑, MAPK↑,
2715- BBR,  Rad,    Berberine Can Amplify Cytotoxic Effect of Radiotherapy by Targeting Cancer Stem Cells
- in-vitro, BC, MCF-7
tumCV↓, OCT4↓, SOX2↓, RadioS↑, CSCs↓,
5181- BBR,  Cisplatin,    Berberine Improves Chemo-Sensitivity to Cisplatin by Enhancing Cell Apoptosis and Repressing PI3K/AKT/mTOR Signaling Pathway in Gastric Cancer
- in-vitro, GC, SGC-7901 - in-vitro, GC, BGC-823
tumCV↓, MDR1↓, ChemoSen↑, PI3K↓, Akt↓, mTOR↓,
5634- BCA,    Molecular Mechanisms of Biochanin A in AML Cells: Apoptosis Induction and Pathway-Specific Regulation in U937 and THP-1
- in-vitro, AML, U937 - in-vitro, AML, THP1
Apoptosis↑, Casp7↑, PARP1↑, Bcl-2↓, Myc↓, CHOP↑, P21↑, p62↑, TumCCA↑, TXNIP↑, ROS↑, *antiOx↑, *Inflam↓, *neuroP↑, AntiCan↑, TumCP↓, angioG↓, TumMeta↓, VEGF↓, MMPs↓, tumCV↓, DNAdam↑, CHOP↑, cMyc↓, BioAv↓, Half-Life↓, BioAv↑,
5636- BCA,    Biochanin A Induces S Phase Arrest and Apoptosis in Lung Cancer Cells
- vitro+vivo, Lung, A549
tumCV↓, TumCCA↑, Apoptosis↑, MMP↓, TumCG↓, P21↑, Casp3↑, Bcl-2↑,
5638- BCA,    Investigating the Anticancer Potential of Biochanin A in KB Oral Cancer Cells Through the NFκB Pathway
- in-vitro, Oral, NA
tumCV↓, ROS↑, MMP↓, TumCMig↓, TAC↓, lipid-P↓, NF-kB↓, Apoptosis↑,
5639- BCA,    Biochanin A Induces Apoptosis in MCF-7 Breast Cancer Cells through Mitochondrial Pathway and Pi3K/AKT Inhibition
- in-vitro, BC, NA
TumCP↓, ROS↑, Apoptosis↑, Bcl-2↓, p‑PI3K↓, p‑Akt↓, BAX↑, Casp3↑, Casp9↑, Cyt‑c↑, CycD3↓, CycB/CCNB1↓, CDK1↓, CDK2↓, CDK4↓, P21↑, p27↑, P53↑, tumCV↓, PI3K↓, Akt↓,
2723- BetA,    Betulinic acid and oleanolic acid modulate CD81 expression and induce apoptosis in triple-negative breast cancer cells through ROS generation
- in-vitro, BC, MDA-MB-231
Apoptosis↑, tumCV↓, ROS↑,
2734- BetA,    Betulinic Acid Modulates the Expression of HSPA and Activates Apoptosis in Two Cell Lines of Human Colorectal Cancer
- in-vitro, CRC, HCT116 - in-vitro, CRC, SW480
tumCV↓, HSP70/HSPA5⇅, ROS↑, cl‑Casp3↑, mt-Apoptosis↑, Dose↝,
2726- BetA,    Betulinic acid induces DNA damage and apoptosis in SiHa cells
- in-vitro, Cerv, SiHa
tumCV↓, DNAdam↑, MMP↓, ROS↑, TumCCA↑, TOP1↓,
2730- BetA,    Betulinic acid induces autophagy-dependent apoptosis via Bmi-1/ROS/AMPK-mTOR-ULK1 axis in human bladder cancer cells
- in-vitro, Bladder, T24/HTB-9
tumCV↓, TumCP↓, TumCMig↓, Casp↑, TumAuto↑, LC3B-II↑, p‑AMPK↑, mTOR↓, BMI1↓, ROS↑, eff↓,
2757- BetA,    Betulinic Acid Inhibits Glioma Progression by Inducing Ferroptosis Through the PI3K/Akt and NRF2/HO-1 Pathways
- in-vitro, GBM, U251
tumCV↓, TumCMig↓, TumCI↓, Apoptosis↑, p‑PI3K↓, p‑Akt↓, Ferroptosis↑, HO-1↑, NRF2↑,
2742- BetA,    Betulinic acid impairs metastasis and reduces immunosuppressive cells in breast cancer models
- in-vitro, BC, MDA-MB-231 - in-vivo, BC, 4T1 - in-vitro, BC, MCF-7
tumCV↓, TumCMig↓, TumCI↓, STAT3↑, FAK↓, MMPs↓, MMP2↓, MMP9↓, TIMP2↑,
2750- BetA,  GEM,    Betulinic acid, a major therapeutic triterpene of Celastrus orbiculatus Thunb., acts as a chemosensitizer of gemcitabine by promoting Chk1 degradation
- in-vitro, PC, Bxpc-3 - in-vitro, Lung, H1299
CHK1↓, ChemoSen↑, tumCV↓, Apoptosis↑, DNAdam↑,
2751- BetA,    Betulinic acid inhibits proliferation and triggers apoptosis in human breast cancer cells by modulating ER (α/β) and p53
- in-vitro, BC, MDA-MB-231 - in-vitro, BC, MCF-7
tumCV↓, ER-α36↓,
5515- BEV,    Biological activity of bevacizumab, a humanized anti-VEGF antibody in vitro.
- Review, Var, NA
VEGF↓, TumCP↓, tumCV↓, TumCMig↓,
5481- BM,    Therapeutic potential of Bacopa monnieri extracts against hepatocellular carcinoma through in-vitro and computational studies
- in-vitro, HCC, HepG2
tumCV↓, Apoptosis↑, TumCP↓, TumCMig↓, TumCI↓, MMP2↓, MMP9↓, lipid-P↓,
5477- BM,    The Aquaporin 1 Inhibitor Bacopaside II Reduces Endothelial Cell Migration and Tubulogenesis and Induces Apoptosis.
- in-vitro, Var, NA
AQPs↓, tumCV↓, Apoptosis↑, TumCMig↓,
5651- BNL,  Cisplatin,    Natural borneol sensitizes human glioma cells to cisplatin-induced apoptosis by triggering ROS-mediated oxidative damage and regulation of MAPKs and PI3K/AKT pathway
- in-vitro, GBM, U251 - in-vitro, GBM, U87MG
ChemoSen↑, tumCV↓, TumCCA↑, Apoptosis↑, ROS↑, DNAdam↑, ATR↑, ATM↑, P53↑, Histones↑, eff↓, Casp3↑, Casp7↑, Casp9↑,
725- Bor,    Boric acid exert anti-cancer effect in poorly differentiated hepatocellular carcinoma cells via inhibition of AKT signaling pathway
- in-vitro, HCC, NA
tumCV↓, Apoptosis↑, TumAuto↑, p‑Akt↓,
1424- Bos,    Boswellia sacra essential oil induces tumor cell-specific apoptosis and suppresses tumor aggressiveness in cultured human breast cancer cells
- in-vitro, BC, T47D - in-vitro, BC, MCF-7 - in-vitro, BC, MDA-MB-231
tumCV↓, Apoptosis↑, cl‑Casp8↑, cl‑Casp9↑, cl‑PARP↑,
1447- Bos,    Boswellia carterii n-hexane extract suppresses breast cancer growth via induction of ferroptosis by downregulated GPX4 and upregulated transferrin
- in-vitro, BC, MDA-MB-231 - in-vitro, BC, MCF-7 - in-vivo, BC, 4T1 - in-vitro, Nor, MCF10
tumCV↓, AntiCan↑, *toxicity↓, Ferroptosis↑, i-Iron↑, GPx4↓, ROS↑, lipid-P↑, Tf↑, TumCG↓,
5696- BRU,    The Nrf2 inhibitor brusatol is a potent antitumour agent in an orthotopic mouse model of colorectal cancer
- in-vitro, CRC, HCT116
NRF2↓, tumCV↓, ChemoSen↑,
5697- BRU,    Brusatol, a Nrf2 Inhibitor Targets STAT3 Signaling Cascade in Head and Neck Squamous Cell Carcinoma
- in-vitro, HNSCC, NA
NRF2↓, STAT3↓, proCasp3↑, cl‑PARP↑, Bcl-2↓, Bcl-xL↓, survivin↓, Hif1a↓, cMyc↓, JNK↑, MAPK↑, tumCV↓, ROS∅,
5746- CA,    Caffeic acid hinders the proliferation and migration through inhibition of IL-6 mediated JAK-STAT-3 signaling axis in human prostate cancer
- in-vitro, Pca, PC3 - in-vitro, Pca, LNCaP
tumCV↓, ROS↑, TumCCA↑, Apoptosis↑, p‑MAPK↓, ERK↓, JNK↓, p38↓, IL6↓, JAK1↓, p‑STAT3↓, cycD1/CCND1↓, CDK1↓, BAX↑, Casp3↑, Bcl-2↓, TumCD↑,
5877- CA,    Carnosol induces apoptosis through generation of ROS and inactivation of STAT3 signaling in human colon cancer HCT116 cells
- in-vitro, CRC, HCT116
tumCV↓, Apoptosis↑, Casp9↑, Casp3↑, cl‑PARP↑, BAX↑, Bcl-2↓, Bcl-xL↓, P53↓, MDM2↓, ROS↑, eff↓, STAT3↓, survivin↓, cycD1/CCND1↓,
5866- CA,    Carnosic acid inhibits STAT3 signaling and induces apoptosis through generation of ROS in human colon cancer HCT116 cells
- in-vitro, CRC, HCT116 - in-vitro, Colon, SW480 - in-vitro, Colon, HT29
tumCV↓, Apoptosis↑, P53↑, BAX↑, MDM2↓, Bcl-2↓, Bcl-xL↓, Casp9↑, Casp3↑, cl‑PARP↑, STAT3↓, survivin↓, cycD1/CCND1↓, CycD3↓, ROS↑, eff↓, eff↑,
5876- CA,    Carnosic acid, a rosemary phenolic compound, induces apoptosis through reactive oxygen species-mediated p38 activation in human neuroblastoma IMR-32 cells
- in-vitro, neuroblastoma, NA
tumCV↓, Apoptosis↑, Casp3↑, Casp9↑, PARP↑, Bcl-2↓, ROS↑, eff↓,
5774- CA,  CAPE,    Caffeic Acid Versus Caffeic Acid Phenethyl Ester in the Treatment of Breast Cancer MCF-7 Cells: Migration Rate Inhibition
- NA, BC, MCF-7
TumCMig↓, Wound Healing↑, eff↑, tumCV↓,
5841- CAP,    The red pepper’s spicy ingredient capsaicin activates AMPK in HepG2 cells through CaMKKβ
- in-vitro, HCC, HepG2
AMPK↑, CaMKII ↑, tumCV↓, Akt↓, mTOR↓, ROS↑,
5836- CAP,    In vitro and in vivo induction of apoptosis by capsaicin in pancreatic cancer cells is mediated through ROS generation and mitochondrial death pathway
- vitro+vivo, PC, AsPC-1 - in-vitro, PC, Bxpc-3
tumCV↓, Apoptosis↑, ROS↑, MMP↓, eff↓, BAX↑, Bcl-2↓, survivin↓, Cyt‑c↑, AIF↑, selectivity↑, JNK↑, TumCG↓,
5835- CAP,    Capsaicin and dihydrocapsaicin induce apoptosis in human glioma cells via ROS and Ca2+-mediated mitochondrial pathway
- in-vitro, GBM, U251
tumCV↓, Apoptosis↑, selectivity↑, ROS↑, Ca+2↑, MMP↓, Cyt‑c↑, Casp↑, eff↑, MPT↑, ETC↓, Casp3↑, Casp9↑,
5832- CAP,    Capsaicin induces cell cycle arrest and apoptosis in human KB cancer cells
- in-vitro, Oral, KB
TumCP↓, tumCV↓, TumCCA↑, Apoptosis↑, MMP↓, Casp9↑, Casp3↑, PARP↑, Inflam↓, Pain↓,
5826- CAP,    Capsaicin induces mitochondrial dysfunction and apoptosis in anaplastic thyroid carcinoma cells via TRPV1-mediated mitochondrial calcium overload
- in-vitro, Thyroid, NA
TRPV1↑, tumCV↓, Ca+2↑, mtDam↑, ROS↑, MMP↓, MPT↑, Cyt‑c↑, Casp↑, Apoptosis↑,
5203- CAP,    Capsaicin Promotes Apoptosis and Inhibits Cell Migration via the Tumor Necrosis Factor-Alpha (TNFα) and Nuclear Factor Kappa B (NFκB) Signaling Pathway in Oral Cancer Cells
- in-vitro, OS, KB
tumCV↓, TNF-α↓, NF-kB↓, selectivity↑, Apoptosis↑, TumCMig↓,
5198- CAP,    Capsaicin induces apoptosis by generating reactive oxygen species and disrupting mitochondrial transmembrane potential in human colon cancer cell lines
- in-vitro, CRC, LoVo - in-vitro, CRC, Colo320
tumCV↓, DNAdam↑, Apoptosis↑, ROS↑, MMP↑, Casp3↑, chemoPv↑,
5769- CAPE,    Caffeic Acid Phenethyl Ester Inhibits the Proliferation of HEp2 Cells by Regulating Stat3/Plk1 Pathway and Inducing S Phase Arrest
- in-vitro, Laryn, HEp2
tumCV↓, STAT3↓, TumCCA↑,
5767- CAPE,    Caffeic Acid Phenethyl Ester Is a Potential Therapeutic Agent for Oral Cancer
- Review, Oral, NA
TumCP↓, tumCV↓, TumMeta↓, Akt↓, NF-kB↓, MMPs↓, EGFR↓, COX2↓, TumCCA?,
5754- CAPE,  Rad,    The radiosensitizing effect of Caffeic Acid Phenethyl Ester in breast cancer is dependent on p53 status
- in-vivo, BC, MDA-MB-231
tumCV↓, eff⇅, RadioS↑, OS↑,
5885- CAR,    Inhibition of TRPM7 by carvacrol suppresses glioblastoma cell proliferation, migration and invasion
- in-vitro, GBM, U87MG - in-vitro, Nor, HEK293
TRPM7↓, tumCV↓, TumCMig↓, TumCI↓, MMP2↓, toxicity↓, *Inflam↓, AntiDiabetic↑, cardioP↑, neuroP↑, selectivity↑, Apoptosis↑, p‑Cofilin↑, F-actin↓, PI3K↓, Akt↓, MEK↓, MAPK↓,
5884- CAR,    Carvacrol affects breast cancer cells through TRPM7 mediated cell cycle regulation
- in-vitro, BC, BT474 - in-vitro, BC, MCF-7 - in-vitro, BC, MDA-MB-231 - in-vitro, BC, MDA-MB-453
TRPM7↓, tumCV↓, TumCCA↑,

Showing Research Papers: 51 to 100 of 329
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* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 329

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

Fenton↑, 1,   Ferroptosis↑, 3,   GPx1↓, 1,   GPx4↓, 2,   HO-1↓, 1,   HO-1↑, 1,   i-Iron↑, 1,   lipid-P↓, 2,   lipid-P↑, 1,   NRF2↓, 3,   NRF2↑, 1,   ROS↑, 23,   ROS∅, 1,   i-ROS↑, 1,   SOD2↓, 1,   TAC↓, 1,  

Metal & Cofactor Biology

Tf↑, 1,  

Mitochondria & Bioenergetics

AIF↑, 1,   AIF↝, 1,   ETC↓, 1,   MEK↓, 2,   MMP↓, 11,   MMP↑, 1,   MPT↑, 2,   mtDam↑, 1,  

Core Metabolism/Glycolysis

AMPK↑, 1,   p‑AMPK↑, 1,   cMyc↓, 2,   Histones↑, 1,  

Cell Death

Akt↓, 6,   p‑Akt↓, 3,   APAF1↑, 1,   Apoptosis↑, 24,   mt-Apoptosis↑, 1,   BAD↑, 1,   BAX↑, 9,   Bax:Bcl2↑, 3,   Bcl-2↓, 11,   Bcl-2↑, 1,   Bcl-xL↓, 3,   Casp↑, 3,   Casp3↑, 15,   cl‑Casp3↑, 1,   proCasp3↑, 1,   Casp7↑, 3,   Casp8↑, 1,   cl‑Casp8↑, 1,   Casp9↑, 12,   cl‑Casp9↑, 1,   Cyt‑c↑, 6,   FasL↑, 1,   Ferroptosis↑, 3,   JNK↓, 1,   JNK↑, 3,   MAPK↓, 1,   MAPK↑, 2,   p‑MAPK↓, 1,   MDM2↓, 2,   Myc↓, 1,   p27↑, 2,   p38↓, 1,   p‑p38↑, 1,   survivin↓, 4,   TRPV1↑, 1,   TumCD↑, 1,  

Kinase & Signal Transduction

CaMKII ↓, 1,   CaMKII ↑, 1,  

Transcription & Epigenetics

tumCV↓, 50,  

Protein Folding & ER Stress

CHOP↑, 2,   ER Stress↑, 1,   HSP70/HSPA5⇅, 1,  

Autophagy & Lysosomes

ATG5↑, 1,   Beclin-1↑, 1,   LC3B-II↑, 1,   p62↑, 1,   TumAuto↑, 2,  

DNA Damage & Repair

ATM↑, 1,   ATR↑, 1,   CHK1↓, 1,   DNAdam↑, 6,   P53↓, 1,   P53↑, 5,   PARP↑, 4,   cl‑PARP↑, 5,   PARP1↑, 1,  

Cell Cycle & Senescence

CDK1↓, 3,   CDK2↓, 2,   CDK4↓, 1,   cycA1/CCNA1↓, 1,   CycB/CCNB1↓, 1,   cycD1/CCND1↓, 4,   CycD3↓, 2,   P21↑, 4,   TumCCA?, 1,   TumCCA↑, 10,  

Proliferation, Differentiation & Cell State

ALDH1A1↓, 1,   BMI1↓, 1,   CD133↓, 1,   CSCs↓, 2,   EMT↓, 1,   ERK↓, 3,   ERK↑, 1,   mTOR↓, 3,   Nanog↓, 1,   OCT4↓, 2,   PI3K↓, 3,   p‑PI3K↓, 2,   SOX2↓, 2,   STAT3↓, 6,   STAT3↑, 1,   p‑STAT3↓, 1,   TOP1↓, 1,   TRPM7↓, 2,   TumCG↓, 4,  

Migration

Ca+2↑, 3,   p‑Cofilin↑, 1,   ER-α36↓, 1,   F-actin↓, 1,   FAK↓, 1,   MMP1↓, 1,   MMP2↓, 5,   MMP7∅, 1,   MMP9↓, 4,   MMPs↓, 3,   TIMP2↑, 1,   TumCI↓, 4,   TumCMig↓, 10,   TumCP↓, 9,   TumMeta↓, 3,   TXNIP↑, 1,  

Angiogenesis & Vasculature

angioG↓, 1,   EGFR↓, 1,   Hif1a↓, 1,   VEGF↓, 2,  

Barriers & Transport

AQPs↓, 1,  

Immune & Inflammatory Signaling

COX2↓, 1,   IKKα↓, 1,   IL6↓, 1,   Inflam↓, 1,   JAK1↓, 1,   NF-kB↓, 3,   NF-kB↑, 1,   p65↓, 1,   p‑p65↓, 1,   TNF-α↓, 1,  

Drug Metabolism & Resistance

BioAv↓, 1,   BioAv↑, 1,   ChemoSen↑, 4,   Dose↝, 1,   eff?, 1,   eff↓, 8,   eff↑, 3,   eff⇅, 1,   Half-Life↓, 1,   MDR1↓, 1,   RadioS↑, 2,   selectivity↑, 6,  

Clinical Biomarkers

EGFR↓, 1,   IL6↓, 1,   Myc↓, 1,  

Functional Outcomes

AntiCan↑, 2,   AntiDiabetic↑, 1,   cardioP↑, 1,   chemoPv↑, 1,   neuroP↑, 1,   OS↑, 1,   Pain↓, 1,   toxicity↓, 1,   TumVol↓, 1,   TumVol↑, 1,   Wound Healing↑, 1,  
Total Targets: 171

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

antiOx↑, 1,  

Immune & Inflammatory Signaling

Inflam↓, 2,  

Functional Outcomes

neuroP↑, 1,   toxicity↓, 1,   toxicity∅, 1,  
Total Targets: 5

Scientific Paper Hit Count for: tumCV, Cell Viability
21 Silver-NanoParticles
15 Quercetin
14 Thymoquinone
12 Curcumin
12 Sulforaphane (mainly Broccoli)
10 Cisplatin
9 Honokiol
9 Phenethyl isothiocyanate
8 Betulinic acid
7 SonoDynamic Therapy UltraSound
7 Berberine
7 Capsaicin
7 Carvacrol
7 Magnetic Fields
7 Shikonin
6 Allicin (mainly Garlic)
6 Resveratrol
6 Fisetin
5 Radiotherapy/Radiation
5 Rosmarinic acid
4 Apigenin (mainly Parsley)
4 Metformin
4 Artemisinin
4 Baicalein
4 Berbamine
4 Biochanin A
4 Gemcitabine (Gemzar)
4 Caffeic Acid Phenethyl Ester (CAPE)
4 Emodin
4 Shilajit/Fulvic Acid
4 Graviola
4 Propolis -bee glue
4 Silymarin (Milk Thistle) silibinin
4 Vitamin C (Ascorbic Acid)
3 Ashwagandha(Withaferin A)
3 Astaxanthin
3 Carnosic acid
3 5-fluorouracil
3 chitosan
3 Selenium
3 Chrysin
3 Citric Acid
3 Gallic acid
3 Gambogic Acid
3 Magnolol
3 Hyperthermia
3 doxorubicin
3 Juglone
3 Lycopene
3 Methylene blue
3 Magnetic Field Rotating
3 Piperlongumine
3 Plumbagin
3 Parthenolide
3 Selenite (Sodium)
3 Urolithin
2 Alpha-Lipoic-Acid
2 Aloe anthraquinones
2 Bacopa monnieri
2 Boswellia (frankincense)
2 brusatol
2 Caffeic acid
2 Chlorogenic acid
2 Coenzyme Q10
2 Copper and Cu NanoParticles
2 Hydroxycinnamic-acid
2 Dichloroacetate
2 EGCG (Epigallocatechin Gallate)
2 Garcinol
2 Luteolin
2 Iron
2 Gold NanoParticles
2 Methylsulfonylmethane
2 Naringin
2 Nimbolide
2 Piperine
2 salinomycin
2 polyethylene glycol
2 Selenium NanoParticles
2 Chemotherapy
2 Photodynamic Therapy
2 Aflavin-3,3′-digallate
2 Ursolic acid
2 VitK3,menadione
2 Zerumbone
1 3-bromopyruvate
1 Resiquimod
1 Andrographis
1 Ascorbyl Palmitate
1 Trastuzumab
1 Melatonin
1 Atorvastatin
1 Bevacizumab (brand Avastin)
1 borneol
1 Boron
1 hydroxychloroquine
1 Catechins
1 Cannabidiol
1 Selenate
1 Vitamin E
1 Disulfiram
1 Ellagic acid
1 Electrical Pulses
1 Estrogen
1 Fucoidan
1 Ferulic acid
1 Ginkgo biloba
1 γ-linolenic acid (Borage Oil)
1 HydroxyCitric Acid
1 tamoxifen
1 HydroxyTyrosol
1 itraconazole
1 Folic Acid, Vit B9
1 immunotherapy
1 Mushroom Chaga
1 Bicarbonate(Sodium)
1 Niclosamide (Niclocide)
1 Oleuropein
1 Phenylbutyrate
1 Propyl gallate
1 Pterostilbene
1 Hyperoside
1 Perilla
1 Rutin
1 Scoulerine
1 acetazolamide
1 Vitamin D3
1 Vitamin K2
1 Whole Body Vibration
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#:897  State#:%  Dir#:%
  wNotes=0  sortOrder:rid,rpid

 

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