Toxic Fashion to ‘Dye’ For?
In 2018, Delta airlines unveiled new uniforms made of a synthetic-blend fabric. Soon after, flight attendants began to get sick. Alden Wicker explains how toxic chemicals get in clothes in To Dye For. Source: npr.org/Tonya_Mosley
The following excerpt is courtesy of cnbc.com – Delta Air Lines workers have filed a class-action lawsuit against Lands’ End, alleging that uniforms from the clothing manufacturer and retailer are making the airline’s employees sick.
The Endocrine System
The endocrine system is the collection of glands and organs that produce hormones and regulate vital bodily functions. Here’s an overview:
- Glands: The major glands of the endocrine system include the hypothalamus, pituitary, thyroid, adrenals, pancreas, ovaries, and testes.
- Hormones: These glands secrete hormones which act as chemical messengers in the body. Examples include insulin, cortisol, estrogens, testosterone, thyroxine, and oxytocin.
- Functions: The endocrine system regulates many critical bodily processes including growth, metabolism, reproduction, sleep, mood, sexual function, stress response, and more.
- Feedback loops: Hormone levels are controlled through feedback loops. For example, high blood glucose levels trigger release of insulin to lower glucose.
- Target tissues: Hormones travel through the bloodstream and bind to receptors on target tissues, triggering responses. Different tissues have receptors for specific hormones.
- Gland coordination: The hypothalamus and pituitary coordinate signals between the endocrine glands and also secrete their own hormones.
- Disorders: Endocrine disorders like diabetes, thyroid abnormalities, infertility, and growth disorders can occur if glands produce too much or too little hormone.
In summary, the endocrine system is vital for regulating bodily functions through the integrated release of hormones from various glands throughout the body. It works through complex feedback loops and signaling pathways between the glands, hormones, and tissues.
Endocrine Disruptors?
Endocrine disruptors are chemicals that can interfere with the endocrine (hormone) system in animals and humans. Some key facts about endocrine disruptors:
- Sources: They are found in many everyday products including plastics, pesticides, electronics, personal care products, and more. Bisphenol A (BPA) and phthalates are two common examples.
- Effects: Endocrine disruptors mimic naturally occurring hormones like estrogen and can block or overstimulate hormone receptors. This can lead to developmental, reproductive, neurological, and immune problems.
- Mechanisms: They mainly interfere with the body’s estrogen, androgen, thyroid, and other hormone systems, but can act through different mechanisms.
- Vulnerable populations: The developing fetus, infants, and children are most vulnerable as endocrine disruptors can severely affect development.
- Wildlife impact: Endocrine disruptors have adversely affected wildlife populations including marine animals, birds, fish, and mammals.
- Human impact: In humans, endocrine disruptors have been linked to declining fertility, increased cancers, birth defects, metabolic disorders, and other diseases. However, definitive causal links are still being established.
- Regulation: Evaluation and regulation of endocrine disruptors is complex because traditional toxicology tests don’t detect their hormonal effects at very low doses.
In summary, endocrine disruptors are substances that interfere with normal hormonal signaling and function, often at very low doses. Limiting exposure to endocrine disruptors and further research on their health effects are important public health priorities.
What is GcMAF?
What’s GcMAF?
When you get a cut, your body uses a special molecule called GcMAF to fix and heal itself. GcMAF is also know as the helper molecule. GcMAF travels through your body and tells your cells how to stay healthy and fight off sickness.
Our bodies actually make GcMAF naturally! We have an ingredient called vitamin D that helps make GcMAF when we need it. GcMAF is made up of proteins, which are tiny building blocks. Different proteins stick together to form GcMAF.
Some doctors think giving patients extra GcMAF from outside the body can help their immune systems work better. Our immune system is what fights off germs and viruses. Doctors are still learning if taking GcMAF medicine can help treat diseases. The key is it seems to boost our own natural healing powers!
So in summary, GcMAF is a protein your body makes to help heal itself. Scientists are studying if giving extra GcMAF can help people stay healthy. And that’s how this special molecule works! Let me know if you have any other questions.
Disclaimer: The contents of this website are not intended to substitute for professional medical advice, diagnosis or treatment.
Did Dr. Jeff Bradstreet reverse Autism with GcMAF?
In 2012 at the Treating Autism Conference, Dr. Jeff Bradstreet talked about autism, microbiological and treating 900 children with First Immune GcMAF (gcmaf.se).
The Holistic Doctor Conspiracy
Castor Oil Compresses
Castor oil is a type of oil that comes from the seeds of the castor plant. The castor plant grows in tropical areas around the world.
To make castor oil, the seeds of the castor plant are pressed to squeeze out the oil inside them. The oil is thick and clear in color.
Castor oil has been used for a very long time to help people when they are sick. In the olden days, people would take a spoonful of castor oil as medicine to help with constipation or other digestion problems.
Even though it tastes pretty bad, castor oil can also be used to help soothe skin problems like sunburns. It’s because castor oil contains special compounds that have anti-inflammatory properties to reduce swelling and irritation.
Nowadays, castor oil is still used as a natural remedy to help treat conditions like dry skin and hair. Scientists are also studying whether castor oil has other helpful health benefits.
So in summary, castor oil is a vegetable oil that has been used for hundreds of years to help treat all kinds of conditions, especially in the digestive system and skin. It has a thick, sticky texture and a strong taste.
Banana Fiber Sanitary Napkins
Sanitary napkins made with banana fiber are an eco-friendly alternative to conventional pads. Here is a general overview of how they can be made:
Fiber Extraction: The process begins with the extraction of fiber from banana stems. The stems are cut into smaller pieces and then scraped to remove the outer layers. The remaining inner portion is soaked in water to loosen the fibers.
Fiber Separation: After soaking, the fibers are separated manually or by using a mechanical decorticator. This process involves combing or scraping the stems to extract the individual fibers.
Fiber Treatment: The extracted fibers are then washed thoroughly to remove impurities and any remaining non-fibrous material. This step is essential to ensure clean and hygienic fibers.
Fiber Pulp Preparation: The cleaned banana fibers are beaten or pulped to create a fine and uniform pulp. This can be done using a blender or mechanical pulping machines. The pulp may also be bleached or treated with natural dyes, depending on the desired color and properties.
Pad Formation: The banana fiber pulp is then mixed with a small amount of absorbent material, such as wood pulp or superabsorbent polymers, to enhance its absorbency. The mixture is spread onto a mold or conveyor belt, forming a thin layer of the pad.
Drying: The formed pads are then dried either by air-drying or using drying chambers. Air-drying may take longer, while drying chambers provide a more controlled and faster drying process.
Finishing and Packaging: Once dry, the pads are inspected for quality control. They can be trimmed to the desired shape and size. The finished sanitary napkins are then individually wrapped and packaged for distribution.
It’s worth noting that the exact manufacturing process may vary depending on the specific manufacturing setup and the desired characteristics of the sanitary napkins. Manufacturers may also incorporate additional steps or materials to improve comfort, absorption, and hygiene.
Don’t Remove Your Uterus?!
Here are some key points about what causes fibroid tumors:
The exact cause is unknown, but they appear to be influenced by estrogen and progesterone. Fibroids tend to grow during the reproductive years when estrogen levels are higher and regress after menopause when hormone levels drop.
Genetics may play a role. There appears to be an increased risk if you have a mother, sister or daughter with fibroids.
Fibroids are more common in African American women. The reason for this is unclear but may be related to genetics.
Other possible factors include abnormalities in the blood vessel or muscle tissue growth, genetic changes (mutations), or a combination of hormone and genetic factors.
Certain lifestyle factors like obesity, eating a lot of red meat and drinking alcohol may increase risk but the links are not fully clear.
Fibroids are not cancerous and do not increase the risk of uterine cancer. They are almost always benign (non-cancerous) tumors.
The exact triggers that cause a single fibroid to develop and grow are still being researched. Hormones and genetics are likely involved, but other factors in the body’s tissues, blood vessels and biochemical environment may also play a role.
Disclaimer: The contents of this website are not intended to substitute for professional medical advice, diagnosis or treatment.
The speech that got Blocked…
What is the Endocannabinoid System?
The endocannabinoid system (ECS) is a biological system that helps regulate various functions in the body including sleep, appetite, pain sensation, and immune response. Here’s a brief overview:
- The ECS consists of endocannabinoids, cannabinoid receptors, and enzymes that synthesize and degrade endocannabinoids.
- Endocannabinoids are molecules produced naturally in the body that bind to cannabinoid receptors. The two main endocannabinoids are anandamide and 2-AG.
- There are two main cannabinoid receptors – CB1 and CB2. CB1 receptors are found primarily in the brain and nervous system. CB2 receptors are found primarily in immune cells and tissues.
- Endocannabinoids get synthesized on demand and get broken down quickly after use. They bind to CB1 and CB2 receptors to trigger various responses.
- Some effects of endocannabinoid signaling include regulating pain, appetite, mood, memory, reproduction, and more. The ECS helps bring homeostasis (balance) to the body.
- Phytocannabinoids like THC and CBD found in cannabis plants can also bind to cannabinoid receptors and influence the ECS. However, they may activate receptors more strongly and for longer than endocannabinoids.
In summary, the ECS is a crucial messaging system in the body that uses endocannabinoids, receptors, and enzymes to regulate many important functions and maintain homeostasis. Understanding this system has shed light on how cannabis compounds like THC and CBD work.
How to make Rick Simpson Oil
What are Phytocannabinoids?
Phytocannabinoids refers to cannabinoid compounds that occur naturally in plants (phyto meaning “plant” in Greek). The main source of phytocannabinoids is the cannabis plant.
The major phytocannabinoids found in cannabis include:
- THC (tetrahydrocannabinol) – the main psychoactive compound in cannabis responsible for the “high” feeling
- CBD (cannabidiol) – a major non-psychoactive compound known for its potential therapeutic effects
- CBN (cannabinol) – a cannabinoid formed from the degradation of THC
- CBG (cannabigerol) – the precursor from which other cannabinoids like THC and CBD are synthesized
- CBC (cannabichromene) – a cannabinoid thought to have anti-inflammatory and pain-relieving effects
There are over 100 different phytocannabinoids that have been identified in the cannabis plant. Different cannabis strains have varying compositions of these compounds, which accounts for the range of effects from different cannabis products.
While cannabis is the major natural source, phytocannabinoids can also be found in small amounts in other plants like cocoa, black pepper, and echinacea. However, cannabis contains these compounds in much higher concentrations than other plants.
In summary, “phytocannabinoids” refers specifically to the cannabinoid compounds produced in plants, with cannabis being the predominant source in nature. Understanding phytocannabinoids has helped uncover the diverse pharmacological potential of cannabis.
Dr. Jack’s BANNED TED Talk
Here are some potential benefits of far infrared therapy:
- Improved blood circulation and cardiovascular health – Far infrared exposure may cause dilation of blood vessels and improve blood flow and oxygen delivery throughout the body. This promotes overall cardiovascular health.
- Pain relief – The heat from far infrared may relieve pain and stiffness in joints and muscles by relaxing tissues and stimulating release of endorphins. It’s been used to ease low back pain, osteoarthritis pain, muscle spasms, etc.
- Detoxification – Sweating induced by far infrared may help flush out toxins, pollutants, and heavy metals from the body through the skin. However, research is still limited on its effectiveness.
- Skin health – It may aid skin conditions like eczema and acne by improving skin metabolism, regeneration, and tone. The warmth may also improve skin cell growth.
- Wound healing – Infrared therapy has shown promise in speeding up wound healing and reducing infections. It can stimulate skin cell regeneration and growth.
- Improved sleep – By relaxing muscles and soothing joints, far infrared can lead to deeper, more restful sleep for those with chronic pain conditions.
- Weight loss – Some research links far infrared with increased metabolic rate and calorie burn. However, more studies are needed to determine its effectiveness for weight loss.
- Reduced stress and fatigue – The soothing heat can lower stress hormones and relieve tension, while the detox effects can reduce fatigue.
However, it’s important to note that far infrared research is still emerging. While initial studies are promising, large scale studies on humans are still needed to verify many of these potential benefits.
Did Dr. Sebi cure HIV / AIDS?
What is Lymphalin?
Lymphalin is a proprietary blend of herbs and nutrients designed to support the lymphatic system. Some key details about Lymphalin:
- Ingredients: It contains a blend of herbs such as red root, astragalus, stillingia, poke root, and burdock as well as nutrients like vitamin E and selenium.
- Function: Lymphalin aims to stimulate drainage of the lymphatic system. The lymphatic system is a network of tissues and organs that help remove toxins, waste, and other unwanted materials from the body.
- Uses: Promoting lymphatic drainage is claimed to support detoxification, immune function, and general health. Lymphalin is said to specifically stimulate lymph flow in the neck, chest, abdomen, and hips.
- Form: It is available as a liquid herbal extract that can be taken orally. The recommended dosage is to take a number of drops (e.g. 10-20 drops) mixed with water or juice.
- Safety: The manufacturer claims Lymphalin is generally well tolerated, but it may cause mild detox symptoms in some people. As with any supplement, it’s best to consult a doctor before use.
So in summary, Lymphalin is a proprietary herbal extract intended to enhance lymphatic circulation and drainage, which in turn is claimed to have a range of benefits related to detoxification and general health. But specific research on Lymphalin itself appears limited.
Herbalist found not guilty in ‘fake’ healing case
Herbalist found not guilty in ‘fake’ healing case by HAROLD L. JAMISON In a historical decision in Brooklyn Supreme Court Monday, a jury of six men and six women found Alfredo Bowman not guilty on two counts of practicing medicine without a license.
Bowman, affectionately known as Dr. Sebi, director of USHA Herbal Research Institute, 616 Pacific St., Brooklyn, was arrested Feb. 10. 1987, by Attorney General Robert Abrams’ office because ads placed in the Village Voice and the “Amsterdam News, claimed a cure for AIDS.