Wednesday, November 20, 2024
Wednesday, November 20, 2024
HomeINB EnglishGLIA Integrated Healthcare Offers a Gentler, Non-Invasive Approach to Cancer Care

GLIA Integrated Healthcare Offers a Gentler, Non-Invasive Approach to Cancer Care

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  Cancer. The word itself evokes fear and endless struggle with treatments. But what if there was a treatment that was gentler and focused on stopping the growth rather than an all-out war on the disease? Glia Integrated Healthcare has introduced Cytotron therapy, that claims to be a new ray of hope for cancer patients seeking a gentler, non-invasive approach to Cancer care.

In the relentless battle against cancer, the quest for more effective and less invasive treatments has led to significant scientific breakthroughs. Among the most promising innovations in this domain is Cytotron therapy, a non-invasive technology that has opened new frontiers in cancer care. This groundbreaking approach, leveraging Rotational Field Quantum Magnetic Resonance (RFQMR) to produce modulated Fast Radio Bursts (FRB), the therapeutic signal to regulate the behavior of proteins in the cancer cells, offers a beacon of hope for those navigating the challenging journey of cancer treatment.

THE ADVENT OF CYTOTRON THERAPY: A PARADIGM SHIFT

Cytotron therapy emerges as a revolutionary approach, marking a paradigm shift from traditional cancer treatments. This technology targets cancerous cells directly, aiming to inhibit their growth and reduce metastasis, all while preserving the integrity of surrounding healthy tissues.

In the pursuit of innovative solutions for cancer treatment, Cytotron has emerged as a groundbreaking technology with the potential to reshape the landscape of oncology. The Centre for Devices and Radiological Health (CDRH), United States Food and Drug Administration (US-FDA), recognized the Cytotron as a Breakthrough Device for the treatment of Breast, Pancreas and Liver Cancers, for conducting a clinical trial to establish that it is better than existing standards of care for these indications. The Breakthrough Device designation allows to Fast-track the path to market authorization for use in the USA.

Cytotron is invented in India by Dr. Rajah Vijaya Kumar, Group Chairman of Organization de Scalene, Director and Chief Scientific officer of the Centre for Advanced Research and Development (CARD), Bengaluru India. He holds the world-wide patent for the device.

Cytotron’s designation as a Breakthrough Device signifies its transformative impact on Cancer Care.

CYTOTRON THERAPY – REENGINEERING THE BODY’S TUMOR SUPPRESSION MECHANISM

Cytotron has evolved using Magnetic Resonance Imaging (MRI) based on intrinsic proton density (PD) measurements of target tissue to manipulate biophysical cellular signaling. Highly complex Fast Radio Bursts (FRB) in the safe radio frequency range, in the presence of controlled, high, instantaneous Magnetic Resonance, is precisely focused on target tissues to alter the Transmembrane potential (TMP) of cells which triggers apoptosis (programmed cell death) and stops growth of solid tumors.

The science behind Cytotron therapy is as fascinating as it is hopeful. Cytotron is intended to non-invasively re-activate the body’s tumor suppression mechanism by targeting high precision and calibrated doses of fast radio bursts (FRB) – non-ionising, non-thermal electromagnetic FRBs at the tumor site. This triggers the production of new tumor suppressing nucleoproteins, predominantly upregulating p53, which determines and flags that the cell is old enough to die.

Metastasis is a major challenge in cancer treatment, as it makes the disease more difficult to manage and reduces the effectiveness of localized therapies such as surgery or radiation.

Depending on which stage of cancer is being treated, Cytotron therapy is intended to stop the cancer cells from spreading (Metastasis) from that stage. If Cytotron therapy is used at an early stage, the cancer gets arrested at that point. Once we stop the tumor from growing and spreading, there are other modalities and standard of care that can manage the disease further.

Cytotron acts on the mitochondrial membrane and interfere with communication between the gene transcription machinery and the protoplasmic glycoproteinic complexes involved in the promotion of cellular mitosis. Based on the outcomes reported in treating malignant lesions, the Cytotron induces such alterations of the TMP in a controlled manner, to modify cellular command and control and alter cellular activity to stabilize and arrest tumor progression.

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