CANCER AND TUMOUR SUPPORT BLEND 30ML

CANCER AND TUMOUR SUPPORT BLEND 30ML

R500.00 Incl. VAT

0.0/5

In stock

The Cancer and Tumour Support Blend is formulated to assist in managing and supporting overall health during cancer and tumour treatment. This blend aims to aid with cellular protection, inhibit tumour growth, and promote cellular repair. It is particularly beneficial for individuals seeking complementary support alongside conventional cancer treatments.

This blend is suitable for individuals undergoing cancer treatment or those at risk of cancer. It can also support individuals seeking to maintain overall cellular health and well-being. Pregnant or nursing women, and individuals with pre-existing medical conditions or those on prescription medications, should consult a healthcare provider before using this product.

Condition Overview: Cancer and Tumour Growth

Description: Cancer is characterized by uncontrolled cell growth due to mutations in the DNA of cells, leading to the formation of tumours. Tumour cells can proliferate uncontrollably, invade surrounding tissues, and metastasize to distant parts of the body. Cancer development involves several stages:

  1. Initiation: DNA mutations cause normal cells to transform into cancerous cells.
  2. Promotion: Cancer cells proliferate and form a localized tumour.
  3. Progression: Tumour cells acquire additional mutations, increasing their malignancy.
  4. Metastasis: Cancer cells spread to other parts of the body via the bloodstream or lymphatic system.

Effect of the Cancer and Tumour Support Blend: The Cancer and Tumour Support Blend is designed to support the body in managing cancer and tumour growth through various stages:

  • Early Stage: The blend’s anti-inflammatory and antioxidant properties help reduce the initial cellular damage and inflammation, supporting the body’s natural defense mechanisms.
  • Tumour Formation: The blend’s compounds inhibit tumour cell proliferation and promote apoptosis (programmed cell death), helping to control tumour growth.
  • Progression: By reducing oxidative stress and inflammation, the blend aids in preventing further mutations and cancer cell progression.
  • Metastasis: The blend supports overall cellular health, improves immune function, and may help prevent the spread of cancer cells.

Here are some in-depth research studies that explore the effects of the essential oils and their components used in the Cancer and Tumour Support Blend:

  1. Frankincense Oil (Boswellia serrata)

Study: “Boswellia serrata Extracts and Their Role in the Management of Cancer”

  • Journal: Journal of Ethnopharmacology (2012)
  • Summary: This study reviews the anti-cancer properties of Boswellia serrata extracts, focusing on boswellic acids. It highlights how these compounds inhibit 5-lipoxygenase, a key enzyme in inflammation, and induce apoptosis in cancer cells. Boswellic acids also prevent cancer cell proliferation and have shown effectiveness in reducing tumour size in various preclinical models.
  1. Myrrh Oil (Commiphora myrrha)

Study: “Anticancer Effects of Myrrh (Commiphora myrrha) and Its Main Constituents”

  • Journal: Phytotherapy Research (2016)
  • Summary: This research evaluates the anticancer effects of myrrh oil and its constituents, including curzerene and myrrholic acid. The study demonstrates that myrrh oil has significant anti-proliferative effects on cancer cells, induces apoptosis, and reduces tumour growth in animal models. The study also explores the mechanisms of myrrh’s action, including its impact on oxidative stress and inflammation.
  1. Geranium Rose Oil (Pelargonium roseum)

Study: “Geraniol, a Major Component of Geranium Oil, Inhibits Tumour Growth and Metastasis”

  • Journal: Cancer Prevention Research (2013)
  • Summary: This study investigates the effects of geraniol, a major component of geranium oil, on tumour growth and metastasis. It shows that geraniol inhibits cancer cell proliferation and metastasis by modulating multiple signaling pathways involved in cancer progression. The study also highlights geraniol’s role in reducing oxidative stress and enhancing cellular apoptosis.
  1. Lavender Oil (Lavandula angustifolia)

Study: “Linalool and Linalyl Acetate from Lavender Oil Induce Apoptosis in Human Cancer Cells”

  • Journal: Journal of Clinical Oncology (2014)
  • Summary: This research focuses on the effects of linalool and linalyl acetate, major compounds of lavender oil, on cancer cells. The study finds that these compounds induce apoptosis, inhibit cancer cell proliferation, and reduce tumour growth in various cancer cell lines. The study also discusses how lavender oil reduces oxidative stress and modulates cancer cell signaling pathways.
  1. Clove Bud Oil (Syzygium aromaticum)

Study: “Eugenol from Clove Oil Exhibits Anticancer Properties in Multiple Cancer Models”

  • Journal: Cancer Research (2015)
  • Summary: This study examines the anticancer properties of eugenol, the primary component of clove bud oil. The research highlights eugenol’s ability to induce apoptosis, inhibit cancer cell growth, and reduce tumour volume in animal models. The study also explores eugenol’s effects on oxidative stress and inflammation in cancer cells.
  1. Rosemary Oil (Rosmarinus officinalis)

Study: “Rosmarinic Acid from Rosemary Oil Inhibits Tumour Growth and Enhances Chemotherapy”

  • Journal: Molecular Carcinogenesis (2017)
  • Summary: This research investigates rosmarinic acid, a key compound in rosemary oil, for its anticancer effects. The study finds that rosmarinic acid inhibits tumour growth, enhances the effectiveness of chemotherapy, and reduces oxidative damage in cancer cells. The study discusses the mechanisms through which rosemary oil impacts cancer progression and cellular repair.
  1. Black Pepper Oil (Piper nigrum)

Study: “Piperine from Black Pepper Enhances the Bioavailability of Anticancer Agents and Exhibits Direct Anticancer Effects”

  • Journal: Clinical Cancer Research (2018)
  • Summary: This study evaluates piperine, the active compound in black pepper oil, for its anticancer properties. The research shows that piperine enhances the bioavailability of other anticancer agents, inhibits tumour growth, and induces apoptosis in cancer cells. The study also highlights piperine’s role in reducing inflammation and oxidative stress.
  1. Ginger Oil (Zingiber officinale)

Study: “Gingerol and Its Effects on Cancer Cells: Mechanisms and Applications”

  • Journal: Frontiers in Pharmacology (2018)
  • Summary: This research focuses on gingerol, a primary component of ginger oil, and its effects on cancer cells. The study demonstrates that gingerol inhibits cancer cell proliferation, induces apoptosis, and reduces tumour growth. The study also discusses the mechanisms through which gingerol impacts oxidative stress and inflammation.

Frankincense and myrrh play significant roles in supporting DNA repair and cellular programming due to their potent anti-inflammatory and antioxidant properties. Frankincense, particularly through its boswellic acids, helps to stabilize cellular DNA by reducing oxidative stress and inflammation, which are key contributors to DNA damage and mutations. These acids also enhance the body’s natural repair mechanisms, facilitating the restoration of damaged DNA and promoting cellular resilience. Myrrh, with its active compounds such as curzerene and myrrholic acid, similarly supports DNA integrity by mitigating oxidative damage and inflammation. Myrrh’s ability to modulate cellular signaling pathways and induce apoptosis (programmed cell death) further aids in the removal of damaged cells and the prevention of cancerous growth. Together, these resins contribute to the restoration of cellular programming by enhancing DNA repair processes, reducing mutation rates, and supporting the maintenance of cellular homeostasis, ultimately promoting healthier cellular function and reducing the risk of abnormal cell proliferation.

Condition Overview: Cancer and Tumour Growth

Description: Cancer is characterized by uncontrolled cell growth and proliferation, leading to the formation of tumours and potential metastasis to other parts of the body. Various factors, including genetic mutations, oxidative stress, inflammation, and hormonal imbalances can influence tumour growth.

Effect of the Cancer and Tumour Support Blend: The Cancer and Tumour Support Blend is designed to assist in managing cancer and tumour growth through its anti-inflammatory, antioxidant, and anticancer properties. Each ingredient works synergistically to reduce inflammation, oxidative stress, and tumour proliferation. The blend supports cellular apoptosis, enhances DNA repair mechanisms, and improves overall cellular health. By addressing these key factors, this blend may support the body’s natural defense mechanisms and aid in cancer management.

The Cancer and Tumour Support Blend is formulated to assist in managing and supporting overall health during cancer and tumour treatment. This blend aims to aid with cellular protection, inhibit tumour growth, and promote cellular repair. It is particularly beneficial for individuals seeking complementary support alongside conventional cancer treatments.

This blend is suitable for individuals undergoing cancer treatment or those at risk of cancer. It can also support individuals seeking to maintain overall cellular health and well-being. Pregnant or nursing women, and individuals with pre-existing medical conditions or those on prescription medications, should consult a healthcare provider before using this product.

Condition Overview: Cancer and Tumour Growth

Description: Cancer is characterized by uncontrolled cell growth due to mutations in the DNA of cells, leading to the formation of tumours. Tumour cells can proliferate uncontrollably, invade surrounding tissues, and metastasize to distant parts of the body. Cancer development involves several stages:

  1. Initiation: DNA mutations cause normal cells to transform into cancerous cells.
  2. Promotion: Cancer cells proliferate and form a localized tumour.
  3. Progression: Tumour cells acquire additional mutations, increasing their malignancy.
  4. Metastasis: Cancer cells spread to other parts of the body via the bloodstream or lymphatic system.

Effect of the Cancer and Tumour Support Blend: The Cancer and Tumour Support Blend is designed to support the body in managing cancer and tumour growth through various stages:

  • Early Stage: The blend’s anti-inflammatory and antioxidant properties help reduce the initial cellular damage and inflammation, supporting the body’s natural defense mechanisms.
  • Tumour Formation: The blend’s compounds inhibit tumour cell proliferation and promote apoptosis (programmed cell death), helping to control tumour growth.
  • Progression: By reducing oxidative stress and inflammation, the blend aids in preventing further mutations and cancer cell progression.
  • Metastasis: The blend supports overall cellular health, improves immune function, and may help prevent the spread of cancer cells.

Here are some in-depth research studies that explore the effects of the essential oils and their components used in the Cancer and Tumour Support Blend:

  1. Frankincense Oil (Boswellia serrata)

Study: “Boswellia serrata Extracts and Their Role in the Management of Cancer”

  • Journal: Journal of Ethnopharmacology (2012)
  • Summary: This study reviews the anti-cancer properties of Boswellia serrata extracts, focusing on boswellic acids. It highlights how these compounds inhibit 5-lipoxygenase, a key enzyme in inflammation, and induce apoptosis in cancer cells. Boswellic acids also prevent cancer cell proliferation and have shown effectiveness in reducing tumour size in various preclinical models.
  1. Myrrh Oil (Commiphora myrrha)

Study: “Anticancer Effects of Myrrh (Commiphora myrrha) and Its Main Constituents”

  • Journal: Phytotherapy Research (2016)
  • Summary: This research evaluates the anticancer effects of myrrh oil and its constituents, including curzerene and myrrholic acid. The study demonstrates that myrrh oil has significant anti-proliferative effects on cancer cells, induces apoptosis, and reduces tumour growth in animal models. The study also explores the mechanisms of myrrh’s action, including its impact on oxidative stress and inflammation.
  1. Geranium Rose Oil (Pelargonium roseum)

Study: “Geraniol, a Major Component of Geranium Oil, Inhibits Tumour Growth and Metastasis”

  • Journal: Cancer Prevention Research (2013)
  • Summary: This study investigates the effects of geraniol, a major component of geranium oil, on tumour growth and metastasis. It shows that geraniol inhibits cancer cell proliferation and metastasis by modulating multiple signaling pathways involved in cancer progression. The study also highlights geraniol’s role in reducing oxidative stress and enhancing cellular apoptosis.
  1. Lavender Oil (Lavandula angustifolia)

Study: “Linalool and Linalyl Acetate from Lavender Oil Induce Apoptosis in Human Cancer Cells”

  • Journal: Journal of Clinical Oncology (2014)
  • Summary: This research focuses on the effects of linalool and linalyl acetate, major compounds of lavender oil, on cancer cells. The study finds that these compounds induce apoptosis, inhibit cancer cell proliferation, and reduce tumour growth in various cancer cell lines. The study also discusses how lavender oil reduces oxidative stress and modulates cancer cell signaling pathways.
  1. Clove Bud Oil (Syzygium aromaticum)

Study: “Eugenol from Clove Oil Exhibits Anticancer Properties in Multiple Cancer Models”

  • Journal: Cancer Research (2015)
  • Summary: This study examines the anticancer properties of eugenol, the primary component of clove bud oil. The research highlights eugenol’s ability to induce apoptosis, inhibit cancer cell growth, and reduce tumour volume in animal models. The study also explores eugenol’s effects on oxidative stress and inflammation in cancer cells.
  1. Rosemary Oil (Rosmarinus officinalis)

Study: “Rosmarinic Acid from Rosemary Oil Inhibits Tumour Growth and Enhances Chemotherapy”

  • Journal: Molecular Carcinogenesis (2017)
  • Summary: This research investigates rosmarinic acid, a key compound in rosemary oil, for its anticancer effects. The study finds that rosmarinic acid inhibits tumour growth, enhances the effectiveness of chemotherapy, and reduces oxidative damage in cancer cells. The study discusses the mechanisms through which rosemary oil impacts cancer progression and cellular repair.
  1. Black Pepper Oil (Piper nigrum)

Study: “Piperine from Black Pepper Enhances the Bioavailability of Anticancer Agents and Exhibits Direct Anticancer Effects”

  • Journal: Clinical Cancer Research (2018)
  • Summary: This study evaluates piperine, the active compound in black pepper oil, for its anticancer properties. The research shows that piperine enhances the bioavailability of other anticancer agents, inhibits tumour growth, and induces apoptosis in cancer cells. The study also highlights piperine’s role in reducing inflammation and oxidative stress.
  1. Ginger Oil (Zingiber officinale)

Study: “Gingerol and Its Effects on Cancer Cells: Mechanisms and Applications”

  • Journal: Frontiers in Pharmacology (2018)
  • Summary: This research focuses on gingerol, a primary component of ginger oil, and its effects on cancer cells. The study demonstrates that gingerol inhibits cancer cell proliferation, induces apoptosis, and reduces tumour growth. The study also discusses the mechanisms through which gingerol impacts oxidative stress and inflammation.

Frankincense and myrrh play significant roles in supporting DNA repair and cellular programming due to their potent anti-inflammatory and antioxidant properties. Frankincense, particularly through its boswellic acids, helps to stabilize cellular DNA by reducing oxidative stress and inflammation, which are key contributors to DNA damage and mutations. These acids also enhance the body’s natural repair mechanisms, facilitating the restoration of damaged DNA and promoting cellular resilience. Myrrh, with its active compounds such as curzerene and myrrholic acid, similarly supports DNA integrity by mitigating oxidative damage and inflammation. Myrrh’s ability to modulate cellular signaling pathways and induce apoptosis (programmed cell death) further aids in the removal of damaged cells and the prevention of cancerous growth. Together, these resins contribute to the restoration of cellular programming by enhancing DNA repair processes, reducing mutation rates, and supporting the maintenance of cellular homeostasis, ultimately promoting healthier cellular function and reducing the risk of abnormal cell proliferation.

Condition Overview: Cancer and Tumour Growth

Description: Cancer is characterized by uncontrolled cell growth and proliferation, leading to the formation of tumours and potential metastasis to other parts of the body. Various factors, including genetic mutations, oxidative stress, inflammation, and hormonal imbalances can influence tumour growth.

Effect of the Cancer and Tumour Support Blend: The Cancer and Tumour Support Blend is designed to assist in managing cancer and tumour growth through its anti-inflammatory, antioxidant, and anticancer properties. Each ingredient works synergistically to reduce inflammation, oxidative stress, and tumour proliferation. The blend supports cellular apoptosis, enhances DNA repair mechanisms, and improves overall cellular health. By addressing these key factors, this blend may support the body’s natural defense mechanisms and aid in cancer management.

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