Magnetic Field Rotating / TumVol Cancer Research Results

MFrot, Magnetic Field Rotating: Click to Expand ⟱
Features:
Rotary Magnetic field can be generated by a spinning magnet or magnets. Or it can be implemented with 2 or more coils, power with a phase shift between them (90 deg for 2 coil implementation) (60deg for 3 coil implementation)
Targets affected are mostly the same as for Magnet fields
Main differences
- may enhance the EPR effect allowing targeting of drugs to cancer cells
- acts as wireless stirrer, especially on magnetic particles(inducing eddy currents in water media)
- research for use in nano surgery, and mechanical destruction of cancer cells
- continue to highlight ability to raise ROS in cancer cell and lower ROS in normal cells
- RMF may be responsible for Ca2+ distribution to pass across the plasma membrane(differental affected for cancer and normal cells)

Pathways:
- induce ROS production in cancer cells, while decreasing ROS in normal cells. Ca2+ is critical and the Ca2+ balance is increased in cancer cells while decreased in normal cells (example for wound healing)
- ROS↑ related: MMP↓(ΔΨm), Ca+2↑, Cyt‑c↑, Caspases↑, DNA damage↑, cl-PARP↑, HSP↓, Prx,
- Raises AntiOxidant defense in Normal Cells: ROS↓, NRF2↑, SOD↑, GSH↑, Catalase↑,
- lowers Inflammation : NF-kB↓, COX2↓, p38↓, Pro-Inflammatory Cytokines : TNF-α↓, IL-6↓,
- inhibit Growth/Metastases : TumMeta↓, TumCG↓, MMPs↓, MMP2↓, MMP9↓, IGF-1↓, RhoA↓, NF-κB↓, TGF-β↓, ERK↓
- cause Cell cycle arrest : TumCCA↑,
- inhibits Migration/Invasion : TumCMig↓, TumCI↓, TNF-α↓, ERK↓,
- Others: PI3K↓, AKT↓, Wnt↓, AMPK, ERK↓, JNK,
- Synergies: < Others(review target notes), Neuroprotective, Cognitive,

- Selectivity: Cancer Cells vs Normal Cells

Rotating Magnetic Fields
Rank Pathway / Axis Cancer Cells Normal Cells TSF Primary Effect Notes / Interpretation
1 ROS (tumor-selective oxidative stress) ↑ ROS (P→R); sustained to cytotoxicity (G) ↔ minimal change or transient ↑ without injury (P→R) P, R, G Primary stress amplifier Oncomagnetic reports emphasize selective tumor ROS increase with normal-cell sparing in comparable exposure conditions
2 Mitochondrial ETC inhibition (Complex I/NADH:ubiquinone) ↓ Complex I / respiration (P→R) ↔ limited effect (P→R) P, R Bioenergetic collapse trigger Rotating/spinning fields are proposed to disrupt mitochondrial electron flow, driving ROS elevation upstream of ΔΨm loss
3 Ca²⁺ signaling (ER–mitochondria Ca²⁺ transfer / mitochondrial Ca²⁺ load) ↑ Ca²⁺ dysregulation (P→R) contributing to mitochondrial failure (G) ↔ buffered Ca²⁺ homeostasis (P→R) P, R, G Amplifies ETC/ROS-driven toxicity RMF-driven mitochondrial stress can propagate via Ca²⁺ transfer to accelerate ΔΨm loss and pro-death ER stress in tumor cells while sparing normal cells
4 Mitochondrial permeability transition pore (MPTP) ↑ sustained MPTP opening (R→G) ↔ resistant to opening P, R, G Mitochondrial point-of-no-return RMF-enhanced ROS and Ca²⁺ loading promote persistent MPTP opening in tumor mitochondria, driving energetic collapse and apoptosis while normal cells remain below the opening threshold
5 ΔΨm / mitochondrial membrane integrity ↓ ΔΨm (R); progresses (G) ↔ preserved R, G Mitochondrial failure threshold Matches the “energy factory” targeting concept described in Oncomagnetic mechanism narratives
6 GSH depletion ↓ GSH (R→G) ↔ maintained R, G Loss of redox buffering Cancer-selective inability to restore GSH is a key discriminator vs normal cells
7 NRF2 response (selectivity gate) ↔ delayed/insufficient NRF2 (R→G) ↑ NRF2 (R→G) R, G Adaptive protection Normal-cell sparing is consistent with competent NRF2-driven antioxidant defense
8 ER stress / UPR (CHOP commitment) ↑ ER stress (R); CHOP/apoptotic UPR (G) ↑ adaptive UPR (R); resolves (G) R, G Proteostasis failure ETC/ROS stress propagates to ER; commitment vs resolution diverges by cell robustness
9 DNA damage (oxidative; checkpoint markers) ↑ DNA damage (R→G) ↔ or repaired (G) R, G Checkpoint stress Interpreted as ROS-mediated consequence; reported as increased damage markers in some translational datasets
10 LDH / glycolytic vulnerability ↓ LDH performance / ↓ glycolytic flux (R→G) ↔ metabolic flexibility R, G Metabolic choke Cancer glycolysis becomes unstable when NADH/NAD+ and redox buffering are stressed
11 TrxR / thioredoxin system overload ↓ reserve (R→G) ↔ preserved R, G Parallel antioxidant collapse Useful when GSH data are mixed; TrxR can be the limiting system under sustained ROS 
Time-Scale Flag: TSF = P / R / G
  P: 0–30 min (physical / electron / radical effects)
  R: 30 min–3 hr (redox signaling & stress response)
  G: >3 hr (gene-regulatory adaptation)
MPTP: opening represents a mitochondrial commitment event integrating ROS and Ca²⁺ stress; sustained opening indicates irreversible bioenergetic failure.
TumVol, Tumor Volume: Click to Expand ⟱
Source:
Type:
Tumor Volume
Scientific Papers found: Click to Expand⟱
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↓,
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↓,
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↑,
200- MFrot,  MF,    Moderate intensity low frequency rotating magnetic field inhibits breast cancer growth in mice
- in-vivo, BC, MDA-MB-231 - in-vivo, BC, MCF-7
ALAT↓, TumVol↓, TumCCA↑, TumCG↓, TumMeta↓, Imm↑, P53↑, ALAT↓, AST↓,
187- MFrot,  MF,    Method for noninvasive whole-body stimulation with spinning oscillating magnetic fields and its safety in mice
- in-vivo, GBM, NA
selectivity↑, ROS↑, *ROS∅, *toxicity∅, ETC↓, TumVol↓, Dose↝,
185- MFrot,  MF,    Case Report: End-Stage Recurrent Glioblastoma Treated With a New Noninvasive Non-Contact Oncomagnetic Device
- Human, GBM, NA
TumVol↓, Dose↝, cognitive↑,
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↑,

Showing Research Papers: 1 to 7 of 7

* indicates research on normal cells as opposed to diseased cells
Total Research Paper Matches: 7

Pathway results for Effect on Cancer / Diseased Cells:


Redox & Oxidative Stress

ROS↑, 3,  

Mitochondria & Bioenergetics

ETC↓, 1,  

Core Metabolism/Glycolysis

ALAT↓, 2,  

Cell Death

Apoptosis↑, 2,   lysoMP↓, 1,   lysoMP↑, 1,   TumCD↑, 1,  

Transcription & Epigenetics

tumCV↓, 1,  

DNA Damage & Repair

DNAdam↑, 1,   P53↑, 1,   γH2AX↑, 1,  

Cell Cycle & Senescence

TumCCA↑, 1,  

Proliferation, Differentiation & Cell State

TumCG↓, 1,  

Migration

Ca+2↑, 1,   CAFs/TAFs↓, 1,   TumCI↓, 1,   TumCMig↓, 1,   TumCP↓, 1,   TumMeta↓, 1,  

Immune & Inflammatory Signaling

Imm↑, 1,   PD-L1↑, 1,  

Drug Metabolism & Resistance

Dose↝, 3,   eff↓, 1,   eff↑, 5,   selectivity↑, 2,  

Clinical Biomarkers

ALAT↓, 2,   AST↓, 1,   PD-L1↑, 1,  

Functional Outcomes

cognitive↑, 1,   OS↑, 1,   TumVol↓, 7,  
Total Targets: 31

Pathway results for Effect on Normal Cells:


Redox & Oxidative Stress

ROS∅, 1,  

Functional Outcomes

toxicity∅, 3,  
Total Targets: 2

Scientific Paper Hit Count for: TumVol, Tumor Volume
7 Magnetic Field Rotating
7 Magnetic Fields
1 immunotherapy
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#:192  Target#:530  State#:%  Dir#:1
  wNotes=0  sortOrder:rid,rpid

 

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