Computerized Vega Testing (EAV)
Basic Vega testing has been used in Europe and around the world for close to 80 years now. It is a diagnostic machine used by a skilled practitioner to determine individuals imbalances in Body and Organs Systems and for Sensitivity Testing.
Computerized Electrodermal Vega Testing Practitioners (CEDS/EAV)
Use Acupuncture Points (without piercing the skin). This enables them to utilize precise readings and diagnostics of the Body’s Systems, connected to these Acupuncture Meridians which connect to Organ and Body Systems.
Computerized Vega machines electronically measure bio electric energy flowing along the meridians, which are particular pathways within the body. This is much like a circuit board in a computer or electronics.
Meridians link internal organs and body systems with more than 100 acupuncture points throughout the body.
This method measures the body’s ability to conduct energy and it designed to indicate disruptions in the flow of the energy along these pathway meridians.
When a blockage occurs along these pathway meridians show less bio energetic energy or Chi is moving.
Eventually this lack of energy can result in illness whether it is in the form of inflammation for a newer imbalance or a more degenerative lower imbalance number, which can indicate problems which have been occurring over a longer period of time.
Bio energetic testing accurately helps the clinician identify illness in their pre-clinical or early stages of development.
This technology is excellent for detecting health disorders in the early stages so that disease can help be prevented.
It works at finding the cause of illness opposed to to just treating the symptoms
Individuals with Pre-existing Chronic or Degenerative diseases can see marked improvement with diagnostics, and with protocols.
Detects Deficient Energy or Inflammation in particular Organ or Body Systems.
Determining what Digestive Organ is not working properly causing Gas, Bloating, Indigestion, Irritable Bowel and Allergies.
It determine what component is causing the Allergies in the Body System from weakness in the Stomach, Lungs, Lymphatic, Sinuses or Digestion.
Identifying and Strengthen the Immune System & Organ Systems can reduce frequent Colds, Flu‘s and Allergies.
Identifying the weak Immune or Digestive Systems components and strengthening these and your body can protect against Allergens and Pathogens such as Bacteria and Viruses.
Identifying what Body or Glandular System is weak and matching remedies to help strengthen the body handle Stress, Mood & Sleep more efficiently
Identifying the Organ or Body Systems that are imbalanced help can determine why PMS, Menopause, and Hormonal and Mood imbalances are happening.
Evaluate and Strengthen Organ and Glandular Systems which are negatively effected by aging for women and men’s can result in more Vigour, Stamina and Energy.
Identify and Reduce Cellular Inflammation for Anti-Aging and Aches Pains and Athletic Optimization.
Increase Cognition and Memory by determining Food Allergens, Inflammatory components and Nutritional Deficiencies.
Reduce Cellular Inflammation and Autoimmune Allergies & Strengthen Organ Systems for improved Fertility and Reproductive Health.
Auto Immune disorders can improve considerably with optimizing Organ Systems and Identifying and eliminating Food and Airborne Allergic Reactions.
Help Identify components which may be affecting Weight Management such as Blood Sugar, Digestive function and Hormone and Endocrine imbalances.
Identify Food intolerances. These can negatively contribute to skin, digestive and respiratory problems.
Indicate what Phenolics, which are chemicals or aromatics found in food, nature, or your environment which is causing allergic reactions.
Identify and help eliminate AirBorne Allergens (Pets dander, dust, pollen, scents and chemicals).
Identify and help eliminate Food Sensitivities. (Foods, spices, beverages and food additives)
Identify stressors in Cardiovascular Health and Nutritional Deficiencies. Balance them out with proper herbs, supplements and essential fats.
Help distinguish root causes of Migraine, and Brain Fog, and Fatigue through Sensitivity and Organ Testing and Nutrition and Supplements.
Ensure the Detox Pathways are open in the body for Elimination of Toxins, Chemicals, Allergens, and Excessive Hormones to help prevent acute and degenerative conditions.
Determine Vitamin and Mineral Deficiencies
Mould or Fungal and Candida Sensitivity
Bacterial or Viral pathogens
Environmental & Chemical Sensitivity
It can give incite on what is the safest cleanse for your particular body.
Determines whether your present Supplements, Herbs or Homeopathic are effective for your body chemistry.
Test and add the most effective Remedy (Vitamin, Mineral, Herb or Homeopathic)for your Individual Bio Chemistry to optimize Health Energy and Vitality.
Optimize your Sports and Nutrition regime products.
Determines Health and Body Care products Compatibility and Allergies
Determine what Genes have been turned on. Add additional Diet, Nutrients and Lifestyle changes to improve these.
Let Our Top Naturopathic Doctors Find the Right Treatment for You!
Shockwave for ED
Medical Marijuana Certification
EV TEsting (Vega Testing)
Amyotrophic lateral sclerosis (ALS) is a disease that causes the fast breakdown of motor neurons in the brain and spinal cord. These motor neurons are essential for controlling muscle movement, and their loss leads to disability. There are few treatments for ALS, so new methods to prevent further damage to motor neurons are urgently needed. One way to protect motor neurons could be by fixing the barrier between the blood and the central nervous system (CNS). This barrier helps to prevent harmful substances in the blood from entering the CNS and causing damage. In ALS, this barrier is not working properly, which may lead to the motor neuron damage.Researchers have found that certain cells from human bone marrow, called endothelial progenitor cells (hBM-EPCs), may help repair this barrier. These cells can release factors that help heal damaged cells in the barrier. Additionally, they produce small particles called extracellular vesicles (EVs) that carry helpful substances, which can further assist in fixing the damaged cells. In a laboratory study, these EVs were taken up by mouse brain cells, and the damage to these cells was significantly reduced. However, when a molecule called β1 integrin was blocked, the EVs could not be taken up by the cells. This research suggests that hBM-EPCs, and specifically the EVs they produce, may have potential as a new treatment for ALS by repairing the damaged blood-CNS-barrier.
Amyotrophic lateral sclerosis (ALS) is a disease that causes the gradual breakdown of motor neurons, leading to high mortality. Currently, only two medications, Riluzole and Edaravone, are approved for ALS treatment, but they can cause serious side effects like liver and kidney damage. As of now, there is no effective treatment for ALS.Researchers are looking into using exosomes, mesenchymal stem cells, and neurotrophic factors to help treat ALS. In this analysis, we'll discuss how these elements could be combined to potentially create an effective treatment for the disease.Mesenchymal stem cells can help control the immune system, reduce oxidative stress, encourage nerve cell regeneration, and transform into nerve and glial cells. Exosomes from these stem cells also have positive effects, preventing the abnormal development of the stem cells.Neurotrophic factors, on the other hand, can help control inflammation, stimulate nerve repair, and aid in the recovery of nerve function. By combining exosomes from mesenchymal stem cells with neurotrophic factors, researchers believe this approach could potentially be an effective treatment for ALS.
Read More Here: https://pubmed.ncbi.nlm.nih.gov/35278658/
Many studies suggest that the positive effects of mesenchymal stromal cells (MSCs) come from the release of soluble substances, making them a possible option for repairing damaged tissue. MSC-derived exosomes, tiny particles released by these cells, have great potential for treating neurodegenerative diseases due to their unique immune and regenerative properties.Using exosomes instead of directly administering MSCs can avoid certain issues, such as tumor formation or limited movement to brain tissue. Importantly, these exosomes can pass through the blood-brain barrier and deliver their contents (like proteins, miRNAs, lipids, and mRNA) to damaged brain tissue. These substances can affect various processes in neurons, oligodendrocytes, and astrocytes.Research has shown that administering MSC-derived exosomes in animals with neurodegenerative diseases can lead to positive results by supporting the blood-brain barrier, promoting the growth of blood vessels, reducing inflammation, and encouraging the growth of new nerve cells. In this review, we will provide an overview of the therapeutic benefits of MSC-derived exosome therapy for acute and chronic neurodegenerative diseases and explain the mechanisms behind these positive effects.
In a study comparing treatments for tissue defects, exosomes combined with hyaluronic acid (HA) showed significant improvements in appearance and tissue quality at both 6 and 12 weeks compared to defects treated with just HA. Additionally, the defects treated with exosomes and HA showed better mechanical properties, with higher levels of stiffness and elasticity (Young's moduli) at both time points. By 12 weeks, the repaired tissue in defects treated with exosomes and HA was mostly made up of hyaline cartilage, which is mechanically and structurally superior to that of the HA-treated defects. The mechanical properties of the repaired tissue were similar to that of the surrounding healthy cartilage. In contrast, defects treated with HA alone showed some repair at 6 weeks, but this did not last, as shown by a decline in tissue quality and no improvement in mechanical properties from 6 to 12 weeks.
Read More Here: https://pubmed.ncbi.nlm.nih.gov/32302651/
Exosomes are tiny particles that occur naturally in the body and are released and taken in by nearly all cells. They can move between cells and carry various substances related to their origin and function, such as proteins, lipids, and RNAs. Exosomes play a crucial role in cell communication, making them useful for delivering different types of drugs throughout the body. They are widespread in the circulatory system and can reach injury or disease sites by passing through biological barriers.Due to their unique structure and rich content, exosomes can be used for diagnosing and treating diseases. Exosomes derived from mesenchymal stem cells (MSCs-Exo) have the same functions as MSCs, like repairing and regenerating tissues, reducing inflammation, and regulating the immune system. This makes MSCs-Exo a natural drug delivery carrier with therapeutic effects, and they are increasingly used in treating cardiovascular and neurodegenerative diseases. In this article, we review the research progress of MSCs-Exo as drug delivery vehicles and their use in various drug deliveries, offering ideas and references for the study of MSCs-Exo in recent years.
Read More Here: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8949563/.
Recently, mesenchymal stromal cell (MSC) therapy has become a highly regarded treatment option for neurodegenerative diseases. Many studies in animal models and some clinical trials have demonstrated the safety, feasibility, and effectiveness of MSC transplantation in conditions such as Alzheimer's disease (AD), Parkinson's disease (PD), Amyotrophic lateral sclerosis (ALS), and Huntington's disease (HD). The beneficial effects of MSC therapy are largely due to the secretion of immunomodulatory factors and various neurotrophic factors (NTFs), such as glial cell line-derived neurotrophic factor (GDNF) and brain-derived neurotrophic factor (BDNF). MSC therapy helps to degrade pathogenic protein aggregates, which are a hallmark of chronic neurodegenerative diseases, by secreting protein-degrading molecules. This process reduces neuroinflammation and provides neuroprotection, leading to cognitive and functional recovery and alleviation of disease symptoms. There is also evidence of MSC differentiation into neural-like cells in vivo. This article focuses on the therapeutic benefits of MSCs and their derivative exosomes as a cutting-edge, cell-free approach to treating AD, HD, PD, and ALS. Additionally, it highlights novel methods to enhance the therapeutic benefits of MSCs in these disorders, particularly through the administration of preconditioned MSCs.
Mesenchymal stem cells (MSCs) have garnered significant attention in the field of regenerative medicine due to their therapeutic potential and unique properties. The ongoing COVID-19 pandemic has further emphasized the need for cell therapy in infectious diseases. This review aims to summarize the current scientific data on the use of MSCs and MSC-derived extracellular vesicles (MSC-EVs) in the treatment of infectious diseases. MSCs and MSC-EVs have been found to have immunomodulatory, anti-inflammatory, and antibacterial effects, as well as the ability to promote tissue regeneration and restoration of the epithelium. The use of MSC-EVs as a cell-free treatment strategy offers a promising solution to the safety concerns associated with cell therapy and has shown increased effectiveness in preclinical studies. This review presents both experimental data and clinical trials that support the use of MSCs and MSC-EVs in the treatment of infectious diseases, particularly in combination with antiviral drugs. The use of MSC-derived EVs represents a more promising cell-free treatment option, with high therapeutic potential demonstrated in preclinical studies.
Read More Here: https://www.mdpi.com/2306-5354/9/11/662
Mesenchymal stem cells (MSCs) have gained attention as a potential tool for cell therapy and are currently being tested in FDA-approved clinical trials for a range of disorders, including myocardial infarction, stroke, meniscus injury, limb ischemia, graft-versus-host disease, and autoimmune disorders. Preclinical studies have shown MSCs to be effective in treating these and many other conditions. There is growing interest in using MSCs to treat neurodegenerative diseases, especially those that are fatal and difficult to treat, such as Huntington's disease and Amyotrophic lateral sclerosis. The regenerative approach for neurological diseases using MSCs involves cell therapies in which cells are delivered through intracerebral or intrathecal injection. Upon transplantation into the brain, MSCs can enhance endogenous neuronal growth, reduce apoptosis, limit free radical levels, enhance synaptic connections between damaged neurons, and regulate inflammation through paracrine actions. MSCs have been shown to promote functional recovery by producing trophic factors that support the survival and regeneration of host neurons. These therapies can either leverage the natural trophic support of MSCs or augment it through the delivery of growth factors, such as brain-derived neurotrophic factor or glial-derived neurotrophic factor, using genetically engineered MSCs as delivery vehicles. Clinical trials for MSC injection into the central nervous system to treat traumatic brain injury and stroke are ongoing. This article discusses the current data supporting the use of MSC-based cellular therapies for the treatment of neurodegenerative disorders.
Read more here: https://www.futuremedicine.com/doi/10.2217/rme.10.72?__hstc=21439780.9c49e44b73bd3bee6fa385653ecd7c96.1607299200073.1607299200074.1607299200075.1&__hssc=21439780.1.1607299200076&__hsfp=133729077
The novel coronavirus severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is responsible for the global pandemic of coronavirus disease 2019 (COVID-19). The spread of the virus has had far-reaching impacts, including activity restrictions, economic disruption, and a strain on healthcare systems. Severe SARS-CoV-2 infection can trigger a cytokine storm, leading to serious health conditions such as acute respiratory distress syndrome (ARDS) and multiple organ failure, which require prompt treatment. Mesenchymal stem cells (MSCs) and their exosomes have been shown to have anti-inflammatory effects on immune cells, such as inducing anti-inflammatory macrophages, regulatory T and B cells, and regulatory dendritic cells, and inactivating T cells. This makes them a promising candidate for treating severe cases of COVID-19. This review provides background on severe cases of COVID-19, an overview of the mechanisms of action of MSCs and their exosomes, and a discussion of basic and clinical studies on the use of MSCs and exosomes for influenza-induced ARDS. Finally, it highlights the potential of MSC and exosome therapy for severe cases of COVID-19, based on clinical trials of MSCs (33 trials) and exosomes (1 trial) registered in 13 countries on ClinicalTrials.gov.
In COVID-19 infections caused by the Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), there is a disruption of the immune system response that leads to cytokine storm syndrome. SARS-CoV-2 acts like a hijacker, sabotaging communication between cells so that the immune system, such as T-cells, attacks not only infected cells but also healthy cells. This disruption results in hyper-inflammation, causing damage to various organs and contributing to the high mortality rate among COVID-19 patients.Exosomes are small vesicles, measuring 30-100 nanometers, that originate from within cells and serve as a means of communication with other cells. They are transport containers that contain bioactive cargo, such as proteins, genetic material, and various other molecules. These containers move from the cells of origin and flow through blood vessels or other body fluids to reach target cells, where they penetrate the cell membrane and act on various organelles within the cell.All cell types can produce exosomes, but their contents differentiate them. The exosome produced by mesenchymal stem cells (MSCs) contains bioactive cargo derived from MSCs, such as anti-inflammatory cytokines, growth factors, messenger RNA (mRNA), and micro RNA (miRNA). The target cells are immune system cells, infected cells, and progenitor cells from infected organs. On immune cells, the anti-inflammatory cytokines function as immunomodulators to relieve hyper-inflammation. In infected cells, the miRNAs work to prevent viral replication by inhibiting the expression of SARS-CoV-2 virus RNA (viral mRNA silencing and degradation). In lung progenitor cells and other infected organs, the growth factors stimulate protein synthesis processes that support organ regeneration.This study is a multi-center, double-blind, randomized controlled trial (RCT) with two arms: an intervention arm and a control arm. The EXOSOME-MSC will be tested as an adjuvant on top of standard COVID-19 drugs. Participants will receive two intravenous injections, on day 1 and day 7, during the 14-day study period.
Read more here: https://clinicaltrials.gov/ct2/show/NCT05216562
In critically ill COVID-19 patients, hyperinflammation and progressive lung fibrosis may lead to lung failure and the need for extracorporeal oxygenation. This study will investigate the anti-inflammatory and immune-modulatory effects of mesenchymal stem cells through whole blood stimulation experiments using stem cell-derived exosomes. The preparations of exosomes have been characterized by their miRNA and protein expression patterns and have shown potential for tissue regeneration.The hypothesis of this study is that mesenchymal stem cell-derived exosomes will reduce inflammation and promote anti-fibrotic pathways.
Read more here: https://clinicaltrials.gov/ct2/show/NCT05191381
Novel coronavirus disease 2019 (COVID-19) is caused by the severe acute respiratory syndrome coronavirus-2 virus. COVID-19 triggers an excessive immune response, resulting in a cytokine storm and acute respiratory distress syndrome, which are the leading cause of COVID-19-related deaths and complications. Currently, there are no therapies that can effectively address the exacerbated immune response or cytokine storm associated with COVID-19. Mesenchymal stem cells (MSCs), through their immunomodulatory and regenerative properties, which are largely mediated through their paracrine effect and production of extracellular vesicles, show therapeutic potential in many autoimmune, inflammatory, and degenerative diseases. In this paper, we review clinical studies on the use of MSCs for COVID-19 treatment, including the positive effects of MSCs on the pathophysiology of COVID-19 and the modulation of the cytokine storm. We summarize ongoing clinical trial designs, cell sources, doses, administration methods, and populations, and discuss the paracrine mode of benefit. We also provide suggestions for enhancing MSC-based therapies, including genetic engineering, strategies for modifying cell surfaces, nanotechnology applications, and combination therapies.
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection has caused a global pandemic since late 2019 that resulted in more than 360 million population infection. Among them, less than 7% of infected individuals develop severe or critical illness. Mass vaccination has been carried out, but reinfection and vaccine breakthrough cases still occur. Besides supportive and antiviral medications, much attention has been paid in immunotherapies that aim at reducing pathological changes in the lungs. Mesenchymal stem cells (MSCs) is used as an option because of their immunomodulatory, anti-inflammatory, and regenerative properties. As of January 16, 2022, when ClinicalTrials.gov was searched for “Mesenchymal stem cells and COVID-19,” over 80 clinical trials were registered. MSC therapy was found to be safe and some effective in preclinical and clinical studies. Here, we summarize the major pathological characteristics of COVID-19 and provide scientific and rational evidence for the safety and possible effectiveness of MSCs in COVID-19 treatment.
Neurological disorders are big public health challenges that are afflicting hundreds of millions of people around the world. Although many conventional pharmacological therapies have been tested in patients, their therapeutic efficacies to alleviate their symptoms and slow down the course of the diseases are usually limited. Cell therapy has attracted the interest of many researchers in the last several decades and has brought new hope for treating neurological disorders. Moreover, numerous studies have shown promising results. However, none of the studies has led to a promising therapy for patients with neurological disorders, despite the ongoing and completed clinical trials. There are many factors that may affect the outcome of cell therapy for neurological disorders due to the complexity of the nervous system, especially cell types for transplantation and the specific disease for treatment. This paper provides a review of the various cell types from humans that may be clinically used for neurological disorders, based on their characteristics and current progress in related studies.
The ultimate goal of regenerative medicine is to regain or restore the damaged or lost function of tissues and organs. Several therapeutic strategies are currently being explored to achieve this goal. From the point of view of regenerative medicine, extracellular vesicles (EVs) are exceptionally attractive due to the fact that they can overcome the limitations faced by many cell therapies and can be engineered according to their purpose through various technical modifications. EVs are biological nanoscale vesicles naturally secreted by all forms of living organisms, including prokaryotes and eukaryotes, and act as vehicles of communication between cells and their surrounding environment. Over the past decade, EVs have emerged as a new therapeutic agent for various diseases and conditions owing to their multifaceted biological functions. This is reflected by the number of publications on this subject found in the Web of Science database, which currently exceeds 12,300, over 85% of which were published within the last decade, demonstrating the increasing global trends of this innovative field. The reviews collected in this special issue provide an overview of the different approaches being explored in the use of EVs for regenerative medicine.
Read more here: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8300067/
The best place to receive actual care! If you’re tired of doctors practicing on you, come to Chambers Clinic and get true care—both preventative and healing! Dr. Chambers is an incredible Doctor. Really listens and cares about his patients and comes up with the best treatment for your lifestyle. Awesome people, Awesome staff! Go here. The way a doctor should be.
A year ago I have suffered severe pain due to arthritis in my neck. I first tried a local chiropractor for 3 months with absolutely no results, just more pain. I made an appointment with Doctor Chambers finally, and he had me get an MRI. ...he discovered the inflamed nerve irritated by my degenerating bones, and recommended a treatment. I've had 2 treatments now (injecting platelets into the target area) and the pain and mobility is 80% better. The knowledge Doctor Chambers has and shared far exceeds anybody else I have talked to so far. His staff is visibly caring, and the facility gives off a feeling of gentle healing. It has a good energy. Chambers Clinic offers many services and based on what I've experienced and seen, it is well worth the visit for any number of ailments, or even just to boost your health. I cannot give 10 stars, so I'll have to settle with a five star review.
Chambers clinic is truly one of a kind one stop shopping for all of your health care needs! As an ICU nurse (retired), I have truly been returned to vibrant health and now cancer free thanks to the effective treatment (non-toxic) modalities implemented under the stellar guide and of Dr Jake Psenka
I was sick constantly for 20 years. Conventional medicine seemed to hurt more than help. I was referred to Chambers Clinic and began my journey to health. I’m now 75 and in the best health I’ve had in years. I recommend chambers to anyone that needs to be their best.
Phone: (480) 389-3265
Fax: (866) 869-0129
20801 N Scottsdale Rd., Suite 205
Scottsdale, AZ 85255