November 2024

CCL2 and IL18 expressions may associate with the anti-proliferative effect of noncontact electro capacitive cancer therapy in vivo

ECCT, by potentially reducing the activity of specific genes within breast tumor cells, holds promise in slowing down their growth. This implication positions ECCT as a potentially groundbreaking approach in the treatment of breast cancer, offering a new avenue for combating this disease. Key Findings Effective Tumor Inhibition: The IT group showed significantly lower tumor […]

CCL2 and IL18 expressions may associate with the anti-proliferative effect of noncontact electro capacitive cancer therapy in vivo Read More »

Cytotoxic T cells response with decreased CD4/CD8 ratio during mammary tumors inhibition in rats induced by non-contact electric fields

This approach isn’t just about slowing tumor growth; it also plays a significant role in bolstering the body’s natural immune response against the tumor. By leveraging this method, there’s a dual benefit—restraining the tumor’s expansion while empowering the body’s defense mechanisms to better combat and potentially suppress the cancerous growth. Key Findings Effective Tumor Inhibition:

Cytotoxic T cells response with decreased CD4/CD8 ratio during mammary tumors inhibition in rats induced by non-contact electric fields Read More »

Effects of Non-Contact Electric Fields on Kidney and Liver Histology in Tumour-Induced Rats

Scientists conducted trials testing a new non-contact method of treating cancer using weak electric fields. These fields, harmless to normal cells, possess the ability to impede the growth and division of cancer cells by affecting their internal structures. In their study, rats with chemically induced breast cancer were exposed to varying strengths of these electric

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Numerical Analysis of Electric Force Distribution on Tumor Mass

Researchers have explored a pioneering approach to cancer treatment involving continuous, one-directional electric fields. These steady electric fields exert pressures on tumor cells, either propelling or retracting them. Using a computer model, scientists measured the electric force acting on tumor cells within breast cancer tissue. They evaluated two scenarios: one with a uniform distribution of

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Relative Expression of IL-10 and TNF-α mRNA of Kidney and Spleen Tissues of Rat with and without Mammary Tumor after Exposure to Alternating Current Electric Field

Researchers have investigated a groundbreaking cancer treatment approach employing electric fields with varying direction and strength. These low-intensity electric fields, harmless to normal cells, disrupt the growth and division of cancer cells by influencing their internal structures. In a study involving rats with chemically induced breast cancer, the subjects were exposed to different electric field

Relative Expression of IL-10 and TNF-α mRNA of Kidney and Spleen Tissues of Rat with and without Mammary Tumor after Exposure to Alternating Current Electric Field Read More »

Non-Contact Electric Field May Induced Higher CD4, CD8, Caspase-8, and Caspase-9 Protein Expression in Breast Tumor Tissue of Rats

Imagine a cancer treatment that’s not only effective but also gentle on the body. That’s what researchers found when they tested a new method called non-contact electric field therapy on rats with breast tumors. This therapy uses low-intensity electric fields to slow down tumor growth, making the tumor cells less harmful. It also boosts the

Non-Contact Electric Field May Induced Higher CD4, CD8, Caspase-8, and Caspase-9 Protein Expression in Breast Tumor Tissue of Rats Read More »

Electric Field Distribution Analysis of Blood Cancer as a Potential Blood Cancer Therapy

The paper presents electric fields as a novel and effective treatment for blood cancer, a serious condition arising from the abnormal growth of white blood cells. The authors highlighted the impact of various factors—electrode size, shape, material, and voltage—on the electric field distribution in blood. Their suggestion is to use electrodes with high voltage and

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Non-contact Electric Field Exposure Provides Potential Cancer Therapy through p53-Independent Proliferation Arrest and Intrinsic Pathway Apoptosis Induction in MG-63 Cell Lines

Osteosarcoma, a highly malignant bone tumor primarily affecting children and young adults, poses significant challenges in treatment due to its aggressive nature and propensity for metastasis. Traditional therapies, including chemotherapy and surgery, often come with severe side effects and may not effectively halt the progression of the disease. This study explores a novel, non-invasive approach

Non-contact Electric Field Exposure Provides Potential Cancer Therapy through p53-Independent Proliferation Arrest and Intrinsic Pathway Apoptosis Induction in MG-63 Cell Lines Read More »

Electric Fields Regulate In Vitro Surface Phosphatidylserine Exposure of Cancer Cells via a Calcium-Dependent Pathway

The study provides evidence that non-contact electric field (EF) stimulation can differentially modulate surface phosphatidylserine (PS) exposure in cancer cells through a calcium-dependent pathway, involving actin polymerization and p38 MAPK activation. These findings open new avenues for enhancing targeted cancer therapies by manipulating PS exposure using EF stimulation. EXPERIMENT: The key components of the EF

Electric Fields Regulate In Vitro Surface Phosphatidylserine Exposure of Cancer Cells via a Calcium-Dependent Pathway Read More »

Cox Model Survival Analysis to Evaluate Treatment of Electro-Capacitive Cancer Therapy (ECCT) For Cancer Patients

The research highlights the significance of monitoring frequency in ECCT’s impact on the lifespan of patients with breast, brain, and lung cancers. It suggests that each extra monitoring session can potentially reduce the risk of death by 10-20%. In essence, this study underscores ECCT’s potential effectiveness as a treatment option for cancer patients.

Cox Model Survival Analysis to Evaluate Treatment of Electro-Capacitive Cancer Therapy (ECCT) For Cancer Patients Read More »