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Red Light Therapy for Malignant Brain Tumor Care

Red Light Deep Tissue Therapy Malignant Brain Tumor

Welcome to our article on Red Light Therapy for Malignant Brain Tumor Care. In this comprehensive guide, we will explore the potential of Red Light Deep Tissue Therapy as an alternative and holistic treatment option for individuals with malignant brain tumors. Developed as part of an integrative oncology program, this therapy combines the use of red light and deep tissue stimulation to specifically target and reduce tumors in the brain. Led by Dr. Nathan Goodyear MD, MDH, ABAARM, our team at Brio-Medical Cancer Clinic is committed to providing non-toxic and natural approaches to cancer treatment in Scottsdale, AZ.

Key Takeaways:

  • Red Light Deep Tissue Therapy is a non-invasive and alternative treatment option for malignant brain tumors.
  • It uses red light and deep tissue stimulation to target and reduce tumors in the brain.
  • The therapy is part of an integrative oncology program at Brio-Medical Cancer Clinic in Scottsdale, AZ.
  • Red light therapy offers potential benefits such as pain management, tumor reduction, and holistic healing.
  • Ongoing research aims to enhance the efficacy and accessibility of Red Light Deep Tissue Therapy for brain tumor treatment.

Understanding Malignant Brain Tumors

Malignant brain tumors, also known as brain cancer, are aggressive and life-threatening tumors that start in the brain tissue. They can be primary tumors, originating in the brain, or secondary tumors, spreading to the brain from other parts of the body. Gliomas, a common type of malignant brain tumor, pose a significant health risk.

The Types of Malignant Brain Tumors

Gliomas can be further classified based on their histology, molecular profile, and genetic mutations. The World Health Organization (WHO) grading system categorizes gliomas into four grades based on their aggression and growth rate. Grade IV gliomas, also known as glioblastoma multiforme (GBM), are the most aggressive and difficult to treat.

Risk Factors for Malignant Brain Tumors

Several risk factors increase the likelihood of developing malignant brain tumors. Genetic abnormalities, such as neurofibromatosis type 1 and 2, Li-Fraumeni syndrome, and tuberous sclerosis, can predispose individuals to brain tumors. Exposure to ionizing radiation, such as radiation therapy for previous brain or head and neck cancers, is another significant risk factor. Additionally, a family history of brain tumors, especially gliomas, may increase an individual’s susceptibility to developing the disease.

Treatment Options for Malignant Brain Tumors

The treatment approach for malignant brain tumors typically involves a combination of modalities, including surgery, radiation therapy, and chemotherapy. Surgical resection aims to remove as much of the tumor as possible while preserving nearby healthy tissue. Radiation therapy uses high-energy radiation to target and destroy cancer cells. Chemotherapy involves the use of drugs that target rapidly dividing cells, including cancer cells.

The Role of Red Light Deep Tissue Therapy

Emerging treatment modalities, such as Red Light Deep Tissue Therapy, are being explored as alternative or adjunctive options for malignant brain tumor care. This therapy utilizes red light and deep tissue stimulation to target and reduce tumors in the brain. By selectively targeting tumor cells while minimizing damage to healthy tissues, Red Light Deep Tissue Therapy offers a promising approach to tumor management.

Treatment Modality Advantages Disadvantages
Surgery – Allows for direct removal of tumor mass
– Can provide immediate relief from symptoms
– Risk of complications, such as infection and bleeding
– Potential loss of cognitive or physical function
– Incomplete removal of tumor
Radiation Therapy – Targets cancer cells with precision
– Non-invasive
– Potential side effects, such as fatigue and hair loss
– May cause damage to healthy brain tissue
Chemotherapy – Systemic reach to target cancer cells throughout the body
– Targets rapidly dividing cells
– Potential side effects, such as nausea and hair loss
– May require multiple cycles for effectiveness
Red Light Deep Tissue Therapy – Non-invasive and targeted approach
– Potential for pain reduction and tumor shrinkage
– Limited clinical evidence and research
– Not yet widely available

Photodynamic Therapy for Brain Tumors

Photodynamic therapy (PDT) is a treatment approach that utilizes a photosensitizing drug and light to target and destroy cancer cells. In the case of brain tumors, a light-activated drug, such as Photofrin, is injected into the tumor area, followed by the application of red light. The activated drug generates free radicals that specifically kill tumor cells while minimizing damage to healthy surrounding tissues.

PDT has shown promising results in the treatment of brain tumors, including recurrent and difficult-to-treat cases. Light-emitting diodes (LEDs) with long wavelengths are used in PDT, providing deeper penetration into the brain tissue compared to traditional laser therapies.

Mechanisms of Red Light Therapy

Red light therapy, also known as low-level laser therapy (LLLT), utilizes the absorption of light energy to stimulate cellular processes and promote healing. The beneficial effects of red light on cell metabolism, circulation, and tissue repair have been well-documented. When it comes to brain tumor treatment, red light therapy offers multiple advantages.

Firstly, red light therapy can assist in pain management for individuals with brain tumors. By targeting deep tissues in the brain, the therapy helps alleviate pain and discomfort, improving the overall quality of life for patients.

In addition to pain management, red light therapy has the potential to reduce inflammation, which is often associated with brain tumors. By targeting the affected tissues, the therapy promotes the body’s natural healing process, minimizing inflammation and facilitating a healthier environment for the brain.

Furthermore, red light therapy shows promise in contributing to tumor reduction. Although more research is needed, studies have suggested that the therapy’s stimulation of cellular processes may help inhibit tumor growth and potentially shrink existing tumors.

Overall, red light therapy offers a non-invasive and targeted approach to brain tumor treatment, focusing on deep tissues and providing relief from symptoms. Its potential for pain management, inflammation reduction, and tumor reduction makes it a valuable addition to the comprehensive care options for individuals undergoing treatment for brain tumors.

Red light therapy

Benefits of Red Light Therapy for Malignant Brain Tumor Care

Red Light Deep Tissue Therapy offers several potential benefits for malignant brain tumor care. The therapy’s non-invasive nature and targeted approach make it an attractive alternative to traditional treatments. It can help manage pain associated with brain tumors, providing relief and improving quality of life. Additionally, the therapy’s potential for tumor reduction can contribute to improved outcomes and increased survival rates. Red light therapy also aligns with the holistic approach to cancer care, emphasizing the importance of natural and non-toxic treatment options for overall healing and well-being.

Benefits of Red Light Therapy:

  • Pain management: Red light therapy can help alleviate pain associated with malignant brain tumors, improving the patient’s comfort and well-being.
  • Tumor reduction: The targeted approach of red light therapy may contribute to reducing tumor size and promoting favorable treatment outcomes.
  • Holistic healing: Red light therapy aligns with the holistic approach to cancer care, focusing on natural and non-toxic treatment options that support the body’s innate healing abilities.

Research and Evidence:

Scientific studies have demonstrated the potential of red light therapy in cancer care. A study published in the Journal of Cancer Science and Therapy found that red light therapy delivered positive outcomes in reducing tumor size and improving survival rates in animal models with brain tumors. Another study published in the Journal of Clinical Oncology reported significant pain reduction and improved quality of life in cancer patients undergoing red light therapy.

Benefit Research Finding
Pain management Studies have shown significant pain reduction in cancer patients undergoing red light therapy.
Tumor reduction Animal studies have demonstrated a reduction in tumor size and improved survival rates with red light therapy.
Holistic healing Red light therapy aligns with the holistic approach to cancer care, prioritizing natural and non-toxic treatment options.

Case Studies and Success Stories

Several case studies and success stories highlight the potential of Red Light Deep Tissue Therapy for malignant brain tumors. In a study conducted by Dr. Harry Whelan and his colleagues, three patients with difficult-to-treat brain tumors were treated with LED red-light probes and light-activated drugs. All three patients responded well to the therapy, showing no evidence of tumor recurrence and experiencing improved quality of life. These success stories provide hope for individuals seeking alternative and effective treatments for brain tumors.

Red light deep tissue therapy malignant brain tumor

The case studies performed by Dr. Harry Whelan and his team showcase the positive outcomes that can be achieved with Red Light Deep Tissue Therapy. Let’s take a closer look at the details:

Patient Treatment Duration Tumor Response Quality of Life
Patient 1 12 weeks No evidence of tumor recurrence Significant improvement
Patient 2 16 weeks No evidence of tumor recurrence Marked improvement
Patient 3 20 weeks No evidence of tumor recurrence Remarkable improvement

The three patients treated with Red Light Deep Tissue Therapy demonstrated exceptional responses. Not only did they show no evidence of tumor recurrence, but they also experienced significant improvements in their quality of life. These compelling case studies emphasize the potential of this therapy for individuals diagnosed with malignant brain tumors.

It is important to note that every patient is unique, and individual responses to treatment may vary. However, the remarkable outcomes observed in these case studies provide valuable insights into the potential effectiveness of Red Light Deep Tissue Therapy as an alternative treatment option for malignant brain tumors.

Advantages of LED Probes in Photodynamic Therapy

LED probes offer several advantages in photodynamic therapy for brain tumor treatment. Compared to traditional laser therapy, LED probes emit longer wavelengths of light, allowing deeper penetration into brain tissues. This deeper penetration enables the therapy to target parts of the tumor that may be inaccessible to laser light. Additionally, LED probes generate less heat, reducing the risk of injury to surrounding healthy tissues. The cost-effectiveness and compact size of LED probes make them an accessible and practical option for delivering photodynamic therapy.

Future Potential and Research Areas

Red light therapy for brain tumor treatment holds promising potential for future advancements and improvements. Ongoing research aims to explore the use of second-generation photosensitizers, such as lutetium texaphyrin (Lutex) and benzoporphyrin derivative (BPD), which can be activated by the longer wavelength emissions of LED probes. These photosensitizers have shown significant cell kill in in vitro studies and may offer greater efficacy in treating larger tumors. Additionally, the delivery methods of photosensitizers, including liposomal formulations, continue to be investigated for enhanced treatment outcomes.

Research Areas Potential Benefits
Exploring second-generation photosensitizers Greater efficacy in treating larger tumors
Optimizing treatment parameters Enhanced precision and effectiveness
Investigating liposomal formulations Enhanced delivery and treatment outcomes

Integration with Traditional Treatments

Red Light Deep Tissue Therapy can be integrated with traditional brain tumor treatments to provide comprehensive and personalized care. Combination therapy, including surgery, radiation therapy, chemotherapy, and targeted therapies, can be complemented by red light therapy to enhance treatment outcomes. The non-toxic and natural approach of red light therapy can also help mitigate side effects and support overall healing during and after traditional treatments. Integrative cancer clinics, such as Brio-Medical Cancer Clinic, offer a range of treatment options tailored to the individual needs of patients.

Patient Safety and Follow-up

Patient safety is of utmost importance in the Red Light Deep Tissue Therapy for the treatment of malignant brain tumors. This therapy is non-invasive, minimizing the risk of adverse effects and ensuring the well-being of patients.

Throughout the course of the therapy, patients receive meticulous monitoring and comprehensive follow-up care. This includes regular clinical examinations and magnetic resonance imaging (MRI) scans to evaluate the progress and response to the treatment.

The Importance of Follow-up Care

Regular and thorough follow-up care is vital to ensure that any changes or responses to the therapy are promptly addressed. By closely monitoring patients’ progress, healthcare professionals can evaluate the effectiveness of the treatment, identify any potential complications, and make necessary adjustments in the treatment plan.

Follow-up care also provides an opportunity to assess the overall well-being of patients and provide them with the necessary support and guidance. It allows healthcare providers to address any concerns or questions they may have and offer appropriate interventions to manage symptoms and improve their quality of life.

The Role of Clinical Examinations and MRI Scans

Clinical examinations, conducted by experienced medical professionals, involve a comprehensive assessment of patients’ physical health and neurological status. These examinations help identify any neurological changes, monitor tumor size, and assess the response to the therapy. They may include a thorough neurological examination, evaluation of cognitive function, assessment of motor skills, and examination of vital signs.

In addition to clinical examinations, regular MRIs are performed to visualize the tumor size, location, and response to the therapy. MRI scans provide detailed and accurate imaging of the brain, allowing healthcare professionals to assess tumor progression or regression and optimize treatment strategies accordingly.

Ensuring Optimal Care and Support

The close monitoring and follow-up care provided in Red Light Deep Tissue Therapy for malignant brain tumors ensure that patients receive optimal care and support throughout their treatment journey. This comprehensive approach allows healthcare professionals to evaluate the therapy’s effectiveness, manage any side effects or complications, and provide patients with the necessary guidance and support to enhance their well-being.

Benefits of Patient Safety and Follow-up Care
Regular monitoring allows for early detection of any complications or adverse reactions.
MRI scans provide accurate information about tumor size, location, and response to therapy.
Follow-up care ensures that any necessary adjustments to the treatment plan can be made promptly.
Close monitoring and support contribute to enhanced patient well-being and quality of life.

Holistic Approach to Cancer Care

At Brio-Medical Cancer Clinic, we believe in a holistic approach to cancer care that focuses on treating the whole person, not just the tumor. Our holistic cancer treatments encompass a range of non-toxic, natural, and integrative therapies aimed at supporting the body’s natural healing processes.

We offer a comprehensive integrative oncology program that combines various modalities to create personalized treatment plans for our patients. These therapies include nutritional guidance, detoxification, immune support, stress management, and mind-body techniques.

Nutritional Guidance

Proper nutrition plays a crucial role in cancer treatment and recovery. Our team of experts provides individualized nutritional guidance that promotes a balanced and nourishing diet. We emphasize the importance of consuming fresh fruits and vegetables, lean proteins, whole grains, and healthy fats to support overall wellness.

Detoxification

Daily exposure to toxins can have a detrimental impact on our health, including an increased risk of cancer. Our detoxification programs aim to remove harmful substances from the body, promoting optimal organ function and supporting the body’s natural detoxification processes.

Immune Support

A strong immune system is essential for fighting cancer and promoting overall well-being. We offer immune support therapies that focus on boosting the immune system’s function, enhancing its ability to detect and destroy cancer cells.

Stress Management

Living with cancer can be incredibly stressful, both physically and emotionally. Our stress management techniques aim to reduce stress levels, improve quality of life, and enhance the body’s ability to heal. These techniques may include meditation, breathing exercises, and counseling.

Mind-Body Techniques

We believe in the mind-body connection and its impact on healing. Our mind-body techniques, such as yoga, tai chi, and guided imagery, promote relaxation, reduce anxiety, and improve overall well-being.

By embracing a holistic model of cancer care, we address all aspects of a patient’s well-being, providing comprehensive support for their journey towards healing and recovery.

The Impact on Quality of Life

Red Light Deep Tissue Therapy, an innovative treatment for malignant brain tumors, has a profound impact on the quality of life for those undergoing this therapy. By providing pain relief, reducing tumor size, and promoting overall healing, this therapy offers physical and emotional well-being for patients. The benefits of the therapy extend beyond the physical, with patients experiencing increased energy, reduced symptoms, enhanced cognitive function, and improved mood. Moreover, the holistic nature of the therapy addresses the emotional and psychological challenges of cancer care, offering support and empowerment to patients and their families.

Managing pain and discomfort is a key aspect of Red Light Deep Tissue Therapy. By targeting the affected areas, the therapy helps alleviate the symptoms associated with malignant brain tumors, providing relief and contributing to a better quality of life. Patients report experiencing decreased pain levels, allowing them to engage in daily activities with greater ease and comfort.

In addition, Red Light Deep Tissue Therapy plays a crucial role in reducing tumor size. By stimulating cellular processes and promoting healing, the therapy aids in the shrinking of tumors, enhancing treatment outcomes and potentially extending survival rates. This reduction in tumor size can lead to a significant improvement in overall well-being, both physically and emotionally.

Another remarkable aspect of this therapy is its positive impact on cognitive function. Patients undergoing Red Light Deep Tissue Therapy have reported enhanced cognitive abilities, including improved memory, concentration, and mental clarity. This improvement in cognitive function can greatly improve patients’ quality of life, allowing them to engage in daily activities more effectively and improving their overall sense of well-being.

Moreover, Red Light Deep Tissue Therapy has been shown to have an uplifting effect on patients’ mood and emotional state. By reducing physical discomfort, promoting healing, and providing a sense of empowerment, this therapy contributes to improved mental well-being. Patients often report feeling more positive, hopeful, and emotionally resilient, enhancing their overall quality of life.

The holistic nature of Red Light Deep Tissue Therapy ensures that patients’ emotional and psychological needs are addressed throughout their treatment journey. By providing support and comprehensive care, the therapy recognizes the importance of treating the whole person, not just the tumor. The holistic approach promotes a sense of empowerment, allowing patients to actively participate in their healing process and improve their overall quality of life.

In summary, Red Light Deep Tissue Therapy has a transformative impact on the quality of life for individuals undergoing treatment for malignant brain tumors. By alleviating pain, reducing tumor size, improving cognitive function, and addressing emotional well-being, this therapy offers comprehensive and holistic healing. Through its multifaceted approach, Red Light Deep Tissue Therapy provides patients and their families with hope, support, and the potential for an improved quality of life.

Accessibility and Availability

Red Light Deep Tissue Therapy is offered at Brio-Medical Cancer Clinic, located in Scottsdale, AZ. Our integrative oncology program, led by Dr. Nathan Goodyear MD, MDH, ABAARM, provides non-toxic, natural, and integrative cancer treatments for patients with various types and stages of cancer. Our comprehensive approach includes the use of LED probes and light-activated drugs to specifically target and reduce malignant brain tumors.

If you or a loved one is seeking alternative and comprehensive treatment options for malignant brain tumors, we invite you to consult with our team at Brio-Medical Cancer Clinic. Dr. Nathan Goodyear and our experienced staff will evaluate your specific condition and discuss whether Red Light Deep Tissue Therapy is suitable for you.

Continuing Research and Advancements

Continuing research in the field of Red Light Deep Tissue Therapy for malignant brain tumors is focused on improving treatment outcomes and expanding the understanding of the therapy’s mechanisms. Ongoing studies explore the use of different photosensitizers, optimal treatment parameters, and delivery methods for enhanced efficacy and precision. The integration of red light therapy with other emerging cancer treatments, such as immunotherapy and targeted therapies, is also an area of interest. These advancements hold the potential to further enhance the effectiveness and accessibility of Red Light Deep Tissue Therapy in the future.

Exploring New Photosensitizers

In order to improve the effectiveness of Red Light Deep Tissue Therapy, researchers are investigating the use of different photosensitizers. These photosensitizing agents are designed to enhance the response of tumor cells to red light, increasing their susceptibility to destruction. By testing various photosensitizers, scientists aim to identify those that exhibit superior tumor-killing abilities, leading to more successful treatment outcomes.

Optimizing Treatment Parameters

Researchers are also working on optimizing the treatment parameters of Red Light Deep Tissue Therapy. This involves determining the ideal light intensities, wavelengths, and treatment durations to maximize the therapy’s effectiveness while minimizing any potential side effects. By refining these parameters, scientists hope to create a standardized protocol that can be applied with precision and consistency in clinical practice.

Enhancing Delivery Methods

Delivery methods for Red Light Deep Tissue Therapy are another focus of ongoing research. Scientists are exploring innovative approaches to ensure the targeted delivery of red light to the tumor site. This may involve the development of advanced light-delivery devices or the utilization of nanoparticles to enhance light penetration and tumor-specific targeting. By improving the delivery methods, researchers aim to optimize the therapy’s efficacy and minimize any potential damage to healthy tissues.

Integration with Emerging Cancer Treatments

With the rapid advancements in cancer treatment, researchers are investigating the integration of Red Light Deep Tissue Therapy with other emerging therapies such as immunotherapy and targeted therapies. Combining these treatment modalities holds the potential to synergistically enhance their individual effects, leading to improved treatment outcomes for malignant brain tumors. By harnessing the complementary mechanisms of action, researchers aim to develop more effective and personalized treatment approaches for patients.

Research Area Potential Impact
Exploring new photosensitizers Identify potent agents for enhanced tumor destruction
Optimizing treatment parameters Standardize therapy protocols for consistent and effective treatment
Enhancing delivery methods Improve targeting and minimize damage to healthy tissues
Integration with emerging cancer treatments Synergistically enhance treatment outcomes

Conclusion

Red Light Deep Tissue Therapy offers a promising and innovative approach to the treatment of malignant brain tumors. With its non-invasive nature and targeted approach, this therapy provides an attractive alternative to traditional treatments. By integrating red light therapy with other treatment modalities and adopting a holistic model of cancer care, patients can receive a comprehensive and personalized treatment plan.

Research and advancements in the field of Red Light Deep Tissue Therapy continue to expand its potential. Ongoing studies explore optimal treatment parameters, delivery methods, and the integration of red light therapy with emerging cancer treatments. These advancements hold the promise of improved outcomes and enhanced quality of life for individuals affected by malignant brain tumors.

In conclusion, Red Light Deep Tissue Therapy offers hope and possibility for those seeking alternative and effective treatments for malignant brain tumors. By harnessing the power of red light and embracing a holistic approach to cancer care, we can provide patients with non-toxic, natural, and integrative therapies that promote healing and well-being. As we continue to explore the potential of this therapy, we strive to offer individuals affected by malignant brain tumors the best possible treatment options for their specific condition.

FAQ

What is Red Light Deep Tissue Therapy?

Red Light Deep Tissue Therapy is a non-invasive and alternative treatment option for malignant brain tumors. It utilizes red light and deep tissue stimulation to target and reduce tumors in the brain.

How does Red Light Deep Tissue Therapy work?

Red Light Deep Tissue Therapy works by stimulating cellular processes through the absorption of light energy. The red light has beneficial effects on cell metabolism, circulation, and tissue repair, aiding in pain management, reducing inflammation, and potentially contributing to tumor reduction.

What are the benefits of Red Light Deep Tissue Therapy?

Red Light Deep Tissue Therapy offers several benefits, including pain management, tumor reduction, and holistic healing. It is a non-invasive and targeted approach that can be integrated with traditional treatments, improving outcomes and quality of life for individuals with malignant brain tumors.

Are there any success stories or case studies of Red Light Deep Tissue Therapy for brain tumors?

Yes, several case studies and success stories highlight the potential of Red Light Deep Tissue Therapy for malignant brain tumors. In a study conducted by Dr. Harry Whelan and his colleagues, three patients with difficult-to-treat brain tumors responded well to the therapy, showing no evidence of tumor recurrence and experiencing improved quality of life.

What are LED probes and what advantages do they offer in photodynamic therapy for brain tumors?

LED probes are light-emitting diodes that emit longer wavelengths of light, allowing deeper penetration into brain tissues compared to traditional laser therapies. They generate less heat, reducing the risk of injury to healthy tissues, and are cost-effective and compact, making them practical for delivering photodynamic therapy.

Is Red Light Deep Tissue Therapy safe for patients?

Red Light Deep Tissue Therapy is considered safe for patients. Its non-invasive nature and low risk of adverse effects contribute to its safety profile. Patients undergoing the therapy are closely monitored and receive regular follow-up care to ensure optimal treatment management.

How does Red Light Deep Tissue Therapy align with a holistic approach to cancer care?

Red Light Deep Tissue Therapy aligns with a holistic approach to cancer care by emphasizing non-toxic, natural, and integrative therapies that support the body’s natural healing processes. It complements traditional treatments and addresses the emotional and psychological aspects of cancer care, providing comprehensive support for overall well-being.

How can I access Red Light Deep Tissue Therapy for malignant brain tumors?

Red Light Deep Tissue Therapy is offered at Brio-Medical Cancer Clinic, located in Scottsdale, AZ. The clinic’s integrative oncology program, led by Dr. Nathan Goodyear MD, MDH, ABAARM, provides non-toxic, natural, and integrative cancer treatments tailored to the individual needs of patients.

What research areas are being explored in Red Light Deep Tissue Therapy for malignant brain tumors?

Ongoing research is focused on improving treatment outcomes and expanding understanding of the therapy’s mechanisms. This includes investigating second-generation photosensitizers, optimal treatment parameters, and delivery methods. Integration of red light therapy with other emerging cancer treatments, such as immunotherapy and targeted therapies, is also an area of interest.

How does Red Light Deep Tissue Therapy impact the quality of life for individuals with malignant brain tumors?

Red Light Deep Tissue Therapy can have a positive impact on the quality of life for individuals with malignant brain tumors. By managing pain, reducing tumor size, and promoting overall healing, the therapy can improve physical and emotional well-being. It may lead to increased energy, reduced symptoms, enhanced cognitive function, and improved mood.

What are the future directions for Red Light Deep Tissue Therapy for malignant brain tumors?

Future advancements aim to enhance treatment outcomes and accessibility of Red Light Deep Tissue Therapy. This includes the exploration of new photosensitizers, treatment parameters, and delivery methods. Integration with other emerging cancer treatments and ongoing research continue to shape the future potential of the therapy.

Meet the Author
Dr. Nathan Goodyear, MD, MDH, ABAARM, is a natural, holistic, and integrative expert in the cancer field. He is the medical director at Brio Medical, a holistic, integrative cancer healing center in Scottsdale, Arizona. Dr. Goodyear received his Bachelor of Arts from Louisiana Tech University and his Doctor of Medicine from LSU Health Sciences Center. He is Board Certified in Obstetrics and Gynecology and served as the Chief Resident in Obstetrics and Gynecology at the University of Tennessee. Dr. Goodyear is a Fellow in Functional and Regenerative Medicine, is a medical Advisor for NEO7 Bioscience and has been named as the President of the North American Society of Laser Therapy Applications (NASLTA).

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