Archive for February, 2021

DC Bill 23-171: Minor Consent to Vaccination Act Podcast

https://parentalrightspodcast.buzzsprout.com/799535/8013269-dc-bill-23-171-with-rolf-hazelhurst

EPPiC Broadcast

DC Bill 23-171 With Rolf Hazelhurst

Show Notes

Imagine if your 11-year-old child could receive medical procedures without your knowledge or approval. What exactly is DC Bill 23-171, the Minor Consent to Vaccination Act, and why are we so concerned with stopping this legislation?

Rolf Hazlehurst is a senior attorney with Children’s Health Defense and has been actively engaged in the practice of law since 1995. This week, Rolf gives us a history of vaccine law policy and explains why DC Bill 23-171 puts children at serious risk. Learn more about the details of this dangerous legislation, and what you can do to stop it from becoming law.

For more:  https://madisonarealymesupportgroup.com/2020/10/23/dc-council-would-discard-constitution-end-parents-rights-oppose-this-dangerous-bill-23-171/

Excerpt:

For nearly 100 years, consistent Supreme Court precedent has held that parents have both the duty and the right to direct the care, custody, and control of their minor children. But Bill 23-171, proposed by Councilman Cheh and cosponsored by a majority of the council, would defy that precedent, stripping parents not only of the authority to make a decision, but even to know about the decision being made.

Category:

Activism, vaccines

Back to the Lab: Dr. Wills From the G. Magnotta Research Lab

https://www.lookingatlyme.ca/2020/10/back-to-the-lab-with-dr-melanie-wills-from-the-g-magnotta-research-lab-at-the-university-of-guelph/

Sarah Cormode and Dr. Melanie Wills with Looking at Lyme, episode 13.

Back to the lab with Dr. Melanie Wills from the G. Magnotta Research Lab at the University of Guelph

EPISODES / BY

Post cast:  https://cdn.transistor.fm/file/transistor/m/shows/17123/595fdfc3b5c2a92230d6dd180b8379eb.mp3

In this episode Sarah talks research, Canadian research that is, with Dr. Melanie Wills. She is the Director of the G. Magnotta Lab at the University of Guelph, conducting research and studying the diagnosis, prognosis and treatment of Lyme disease. She became interested in researching Lyme disease while working on her PhD, when her own health history intersected with her research interests. When a doctor suggested she may have symptoms of Lyme disease, Dr. Wills agreed that her symptoms were similar, but she had been tested, and Lyme disease had been ruled out. At the doctor’s recommendation, she explored further into the disease and the testing for it. When she realized that the research around Lyme disease was inadequate, her career moved toward helping to fill that gap while at the same time incorporating her PhD and her lived experience with the disease. Dr. Wills recalls how conversations with fellow researcher Vett Lloyd, Jim Wilson (CanLyme President) and the G. Magnotta Foundation resulted in the collaboration behind the lab located at the University of Guelph.

Dr. Wills talks about their research examining the different forms that Borrelia (Lyme bacteria) can adopt, including round bodies and biofilms, and what role they have in the expression of the disease. She is also looking at how a person’s genetics and the genetics of the bacteria might play a role in how the disease is expressed. Dr. Wills points out that the body’s reaction to the bacteria can cause an excessive inflammatory response, and how that may differ from person to person. She also describes their research study which looks at peoples’ experiences with Lyme disease including their interactions with the medical system.

One of the other exciting areas of research in her lab is the development of a new diagnostic tool for Lyme disease. Dr. Wills takes us into the science and history behind the current Canadian testing protocol and explains some of the shortcomings of this protocol in terms of immune response and the inability to rule out ongoing infection using these tests.

People with chronic Lyme can’t help but notice the many similarities between Lyme disease and COVID-19. Dr. Wills has been working with researchers at Mount Allison University to study the chronic complications of COVID-19. Studying these symptoms and comparing them to Lyme disease may help to determine which systems in the body may be involved for both diseases. She tells us about other research happening now that may help us to understand what is going on with a certain population by looking at genomes.

Dr. Wills shares a vision for advances in research in Lyme disease, including more collaboration between researchers and points out that the political landscape is currently hampering such collaboration. She is also concerned that, because Lyme disease has been inaccurately framed as a disease that is easily treated, there has been little interest in funding better treatments and research. Despite all of the challenges Dr. Wills has had to manage both personally and professionally, she believes that we are up to the challenge of finding better solutions in the future. Thank you so much Dr. Wills for all the hard work you are doing to help improve the lives of people with Lyme disease!

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About The Author

CanLyme

Looking at Lyme is an educational podcast created by the Canadian Lyme Disease Foundation, designed to increase awareness and empower listeners with expert knowledge.
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Category:

Activism, Lyme

The Immortal Life of Your Microbiome

https://vitalplan.com/blog/the-immortal-life-of-your-microbiome?

The Immortal Life of Your Microbiome

By Dr. Bill Rawls Posted 08-28-2020

In the past several years, focusing on the microbiome as a ticket to lasting wellness has certainly become popular. There’s a lot of information out there, and some of it is good. But most of it is not entirely accurate, and following the wrong “facts” can have a significant impact on how you feel today and in the many years ahead.

Because of my personal experiences with restoring my own haywire microbiome to a healthy balance, and 15 years of following the science, I’m in a very different place with my understanding of these microscopic communities than are most physicians. And I’d like to share my knowledge in hopes that it helps you as much as it has me.

That knowledge has come a long way in the last 30 years ago, when I was in medical school. Back then, there was little and incomplete science about the microbiome, defined as the collection of microbes that inhabit the human body.

Microbes were believed to be isolated to the gut and the skin, and they were part of some basic tasks of the organs involved — consuming the leftover nutrients that the body didn’t readily use, for instance — but that was it. The presence of any microbes in the blood or deeper tissues was an indication of infection. Case closed.

Now that our thinking on microbiomes has evolved, we know that these systems of bacteria, viruses, protozoa, and fungi are more extensive in the human body than we could ever have imagined, and bacteria in particular are involved in an incredible amount of functions. I’ve also come to realize that the human microbiome plays a surprisingly important yet largely unrecognized role in how quickly and how well we age.

If you want to learn about just how pervasive and essential bacteria are in the function of human beings, we don’t just need to go back a few decades…we need to go all the way back.

The Immortal Life of Bacteria

A thought exercise, even if it is a little grim: What happens to your body when you die?For starters, without the lungs taking in air and oxygenating the blood, and without the heart bringing oxygen-rich blood to the body, your cells die.

But within all of the tissue decomposing after death are live bacteria — and lots of it. Bacteria don’t need oxygen to reproduce, like cells do. Instead, bacteria are hardwired to do one thing: Make more bacteria. So as long as there is an energy source (in this case, your deceased cells function as their fuel), the bacteria keep going. That’s how a body decomposes.

Even when you’re alive and healthy, you’re carrying around with you a ton of bacteria — ok, maybe more like 0.2 kg. There’s controversy within the scientific community around exactly how much bacteria the body contains. The common ratio that has been used is 10:1, meaning there are 10 times as much bacteria in a human than there are cells. But researchers from the Weizmann Institute of Science in Rehovot, Israel, and the University of Toronto in Canada revised that in 2016, estimating that there are an equal number of bacteria in the body as there are cells.

Microbiome - Microbiot - Microscopic Biodiversity - Abstract Illustration

Whatever the total count is, just know that whatever you’re doing — eating, sleeping, canoeing — a few trillion bacteria are along for the ride. And they reproduce on the regular: As soon as those two cells are mature, they must also divide in order to survive. Most bacteria divide every 2 to 12 hours. Some are especially fast movers: E. coli, for example, can divide every 20 minutes, which means after 7 hours, one bacterium can become 2.1 million, according to the Microbiology Society.

This pattern of unrestricted growth is true of any bacteria: As long as a food source and no other restrictions are present, they will continue to grow unimpeded. Because of their structural simplicity, microbes have incredibly low mutation rates, which means the new microbes they generate tend to be just as functional as the old ones. In this respect, bacterial cells don’t “age” — it’s akin to being immortal.

The tradeoff for that immortality is that bacteria have little capacity to evolve. Indeed, modern-day bacteria aren’t much different than the primitive bacteria that first populated Earth 3.5 to 4 billion years ago. But since then, as life progressed on Earth, bacteria flourished too, and they took up residence in all of the plants, animals, mushrooms — and us. It’s within that environment that modern humans emerged.

Microbes + Human Cells: Frenemies for Life

In stark contrast to bacteria’s M.O., which is basically “every man for himself,” human cells are team players. They work in close synchrony with their teammates for the good of all the other cells in the body.

There are about 200 different cell types, each with their own job. Muscle cells contract muscles. Brain cells transmit chemical and electrical signals. Thyroid cells secrete thyroid hormones. Cells in the digestive system make enzymes to digest food. You get the picture.

Based on its job description, a cell must work within the confines of an organ or tissue system, which can only accommodate a set number of cells — simply put, it’s restricted by real estate. The cell can divide, but only to replace worn out or damaged cells. If the growth of cells becomes unrestricted (as is the case with bacteria), the tissue or organ would quickly be overrun and destroyed. Another word for it is cancer.

virus cells in a green background, 3d illustration

With each division, human cells progressively lose the capacity to regenerate. They’re 10 to 100 times bigger than bacterial cells, and much more complex. And any damage to internal parts or glitches in genetic programming do carry over to the new human cells. In other words, unlike their microbial neighbors, human cells do age — sometimes faster than they should.

Despite their differences, our cells and the microbes we host have developed some ways to get along. Namely, in exchange for the nutrients and resources our cells provide, microbes give back in a few key ways.

For one, microbes help to digest food in the gastrointestinal tract, and in the process provide certain key vitamins such as B12 and K that our bodies can’t synthesize on their own. Microbes are also in constant competition with each other over the same resources, and their nonstop rivalry helps prevent the overgrowth of more threatening microbes and dangerous infections.

But that’s about as far as the friendship goes. Remember, after all, that microbes are opportunists. They’re there for the free food and shelter. And unlike human cells, microbes aren’t exactly bound by physical barriers like the walls of an organ or artery.

So, it stands to reason that microbes could travel just about anywhere in the body in their pursuit of the resources they desire, potentially wreaking havoc along the way. Turns out, the science is showing exactly that.

Lyme disease bacteria, Borrelia burgdorferi, 3D illustration

For instance, some microbes are able to live inside cells, remain dormant there for extended periods of time, and hitch a ride to other areas of the body to contribute to disease. Examples of these intracellular microbes — or as I call them, stealth microbes — include Borrelia burgdorferi (responsible for Lyme disease), Epstein-Barr virus (which can cause infectious mononucleosis), mycoplasma (which contributes to fibromyalgia), and chlamydia.

Two landmark studies, one from the U.K. and the other from Canada, showed that the brains of people who died with the degenerative diseases Alzheimer’s and multiple sclerosis unexpectedly had bacteria in their brains. These findings suggest that the blood-brain barrier that is supposed to keep the brain free of pathogens is more porous than previously thought.

A 2020 review of research in the journal Current Opinion in Rheumatology furthered the theory that there is a relationship between bacterial metabolites — basically how a microbe feeds itself — and joint degeneration, pointing to a link between an imbalance in the gut microbiome and osteoarthritis. While more research is needed, it’s a pressing question because there’s no cure for the disease and doctors can only treat symptoms, a temporary and unsatisfying solution at best.

Meanwhile, there’s a race to determine whether and which gut microbiota impact depression, while other researchers are wondering whether certain flourishing oral bacteria can predict heart disease. Still others are looking into whether babies born via C-section are more likely to develop obesity and diabetes later in life because they weren’t exposed to the mother’s vaginal microbiome. And some 20% of cancers have been directly linked with microbes.

If microbes sharing space with our cells is starting to sound like a recipe for disease and accelerated aging, you’re right on track. But that’s not to say you can’t grow older without aging-related symptoms and illness — you absolutely can. You just have to know what it takes to keep your microbiome on a tight leash. (Hint: It’s definitely not antibiotics, or even popping regular rounds of probiotics.)

Your Immune System: The Ultimate Peacekeeper

Over the millennia, the human body has developed a few ways to control its population of bacteria and other microbes, lest they take over. For the gastrointestinal tract, you can probably guess one of the ways the body keeps microbial counts in check: A quarter of the content of stool is made up of solids (the rest is water), and between about 25% and 54% of those solids is comprised of microbes, writes Vincent Ho, M.D., a senior lecturer and clinical academic gastroenterologist at Western Sydney University in Australia.[v]

Other parts of the human body have ways to control the bacteria population, too. For instance, the mouth contains bacteria that, when swallowed, gets absorbed by the GI tract and then flushed away. And skin sloughs off naturally all day, plus it gets exfoliated off in the shower or while in bed, taking bacteria with it.

But ultimately, the real hero is your immune system: Without it, the microbes that inhabit your body would quite literally consume you from the inside out.

The human immune system is extraordinarily sophisticated. It evolved from repetitive exposure to many thousands of microbes over millions of years, with each encounter recorded in your genes for future reference. The better your immune system “knows” a microbe, the better able it is to keep the natural aggressiveness of the microbe tamped down.

T-Cells of the immune System attacking growing Cancer cells

Your immune system knows the microbes defined as your normal flora better than any others. These are the ones in your microbiome that don’t cause disease, and your relationship with your normal flora is the most ancient thing about you. By containing their natural aggression and retaining a mutually beneficial relationship, your immune system can stay fighting strong should any real troublemakers come along.

Your job, then, if you want to stay healthy and resilient, is twofold: Take care of your immune system, and do everything else you can to keep your microbiome in balance. I learned how to do this the hard way — but I promise it doesn’t have to be hard for you.

How My Microbiome Changed My Life — For Worse, Then for Better

My interest in bacteria and other microbes isn’t primarily academic. I can credit the bacterium called Borrelia burgdorferi with my focus. Learning about Borrelia was a long and painful firsthand process.

Several years ago, I was living a very different — and admittedly more conventional — life. I was in my 30s, a doctor of obstetrics and gynecology, which I loved. But my life was totally imbalanced. Let’s just say I didn’t practice what I preached. I was under tremendous stress and suffered from sleep deprivation, though for a while I was young enough that I could muscle through it all.

man standing at the beach in front of amazing sea view at sunset

By my mid-40s, that started falling apart. I was energy deprived, achy, suffered from indigestion, and couldn’t focus. By age 47, I was truly sick. I woke up each morning with body aches, brain fog, and intestinal dysfunction. My knees and hips hurt so badly that I wasn’t able to walk around — assuming I had the energy to do so, which I did not. All of this forced me to leave my medical practice.

You’d think that doctors are able to access the best care in the world. And for the most part, that’s true. However, a battery of exams and tests couldn’t pinpoint what was wrong with me.

In order to ameliorate some of my symptoms, I began taking more and more prescriptions. Whether they were working was anyone’s guess. I was still feeling awful, but I reasoned that what was going on inside me was perhaps so devastating that all these pills were keeping the worst of it at bay. And that even if I still felt poorly, if I stopped taking the prescriptions, my health would implode entirely.

man taking prescribed antibiotics pills

Understandably, I wasn’t satisfied with living like that, so I delved into the research, and eventually landed on the aforementioned bacterium Borrelia, which scientists have concluded causes Lyme disease. This microbe has been identified in ticks trapped in amber for the last 15 to 20 million years, but it may be older than that. Blacklegged ticks remain the carriers today, and can infect mammals, birds, and sometimes reptiles.

Not everyone who’s bitten by a tick that carries Borrelia becomes sick. But my predilection toward running on empty had depleted my immune system. I was a sitting duck, and if it wasn’t Borrelia that took me down, it would’ve been some other microbe.

Once I realized how much I was contributing to my own illness, healing came much easier. I started by pinpointing everything I was doing to wear down my immune defenses, and was able to identify five key factors — which I’ve come to call my Essential Elements of Wellness — that needed immediate attention:

Poor diet: Did I mention that all my long hours of delivering babies had me living out of the hospital vending machine and constantly eating processed and fast foods on the run? All of those refined carbohydrateswere like Thanksgiving dinner for my microbes, plus they disrupt hormone levels and suppress immune system functions.

Chronic stress: I know I’m not alone here when I say that constant low-grade tension and stress had become the norm. Unfortunately, when the body exists in a constant state of alert, all of its systems, and especially immune function, become overly taxed.

Sedentary lifestyle: I truly love to exercise, but most days I felt too crappy to move much at all, so regular activity was put on hiatus. Prolonged inactivity is stressful to the body: It’s associated with decreased blood flow, retention of toxins, immune dysfunction, decreased endorphins, and low energy.

Toxic environment: The modern world is saturated with hidden toxins — plastics, pesticides, food additives, etc. — that act like free radicals and cause systemic inflammation, further compromising immune function. Without actively trying to avoid them, I was undoubtedly surrounded by them.

Microbes: Borrelia might have been at the top of my hit list, but by now I knew it wasn’t just one microbe I had to worry about. With my immune system down, the floodgates were open, and that strong prevalence of normal flora I needed to support my immune defenses was getting overrun by potential pathogens.

I started changing my lifestyle, bit by bit, as much as my energy levels would allow. I switched to a mostly plant-based diet, began practicing qigong to get moving and dial down my stress levels, and systematically weeded toxins out of my life. And I started to feel better — much better. But I wasn’t 100% there, and I knew I needed something more to tip my microbiome fully back into a place of balance.

Antibiotics were out — I’d already been there, done that, and not only did they not work (antibiotics can’t reach Borrelia when they’re hiding out inside cells), but they also wrecked my gut microbiome and caused endless GI issues. That’s when I discovered herbal therapy.

Herbal pills with healthy healing plant. Capsule pill with herbs.

As a physician, studying herbs and other natural remedies were simply not part of my medical school curriculum. So, to be honest, I didn’t put much faith in them at first. But I’d exhausted all of the conventional medical options, and my extensive research was revealing that herbs are loaded with phytochemicals (natural plant chemicals) that have innate antimicrobial abilities. Which makes sense, considering plants have their own microbiome, and they have to fend off problematic microbes, too.

What’s more, phytochemicals in herbs help regulate and bolster the immune system in a number of ways, including by increasing production of cytokines (key immune system proteins), stimulating NK (natural killer) cells and other key white blood cells of the immune system, and reducing damaging inflammation. Plus, herbs are safe — their potential for toxicity is extremely low — and I felt it would be safe to take them long term.

So, that’s what I did. Finally, after nearly a decade of struggling, I saw significant change within a few months, and in the following years, I got my health back completely. I still consistently take my herbs, and I’ve noticed that other symptoms I had just chalked up to getting older — achy joints, low energy, mood changes, lack of mental clarity — have also retreated.

Do I credit the herbs entirely with how I feel today? Of course not. I saw firsthand how all the hard work I put into changing my diet and lifestyle made a tangible difference. But I also experienced how the herbs helped restore my immune system’s ability to manage my microbes and push me to the next level of wellness, and I’ve come to deeply appreciate their natural defenses.

My Natural Solutions for Microbiome Balance + Immune Health

1. Take Daily Herbs with Immune-Bolstering Powers.

All herbs carry some antimicrobial, though some are admittedly stronger than others. Unless you’re actively dealing with a health crisis, you don’t need those on a daily basis. (If you are, I’d point you toward berberine, Japanese knotweed, and garlic.)

Instead, for everyday maintenance of the immune system so it can do its job of managing your microbes, I like adaptogens, which are best known for their restorative and normalizing properties, and for improving resilience to everyday stress. Definitions vary slightly, but I believe adaptogens share these three characteristics:

  • All adaptogens help modulate and/or enhance the immune system.
  • All adaptogens have antistress qualities that help provide stabilizing effects on the neuroendocrine system, especially the hypothalamic pituitary adrenal axis (HPA axis) and Sympathoadrenal System (SAS), which plays a crucial role in our response to external stimuli.
  • All adaptogens inhibit dysfunction in mitochondria (the power plants of cells) induced by the stress hormone cortisol.

My favorite adaptogens and adaptogenic companions — which have some, but not all of the same characteristics, plus they complement and enhance adaptogen’s powers — for ongoing, daily use include:

Rhodiola: One of the first herbs defined as an adaptogen and studied by modern scientists, rhodiola calms overactive portions of the immune system associated with destructive inflammation. Plus, it boosts depressed portions of the immune system to increase efficiency in managing the body’s microbes.

Reishi mushrooms: This mushroom’s main claim to fame is its ability to help regulate the immune system, improving how it works. Reishiessentially directs the immune system to reduce harmful inflammation while increasing action against threatening microbes and cells. The mushroom’s power is probably due in part to its beta-glucan, a polysaccharide found in fungi cell walls that’s well known for its immune-enhancing ability.

Shilajit: This isn’t technically an herb, but more like primordial ooze — a byproduct of plant materials that have been compressed into the earth in the Himalayas and seeps out of the rocks. Shilajit is rich in fulvic acid, which research suggests helps modulate the immune system, has antioxidant properties, and may improve gastrointestinal function.

Turmeric: This adaptogen companion has potent anti-inflammatory powers. The compounds in turmeric also act as antioxidants, and it has microbiome-balancing potential.

Gotu Kola: A calming, anti-inflammatory and antioxidant adaptogen companion that’s part of the parsley family, gotu kola has traditionally been used in India in ayurvedic medicine as a general tonic for increasing longevity. It’s an immune modulator, helping the immune system manage stress.

2. Eat a Mostly Plant-Based, Whole-Foods Diet.

When I talk to patients about caring for their microbiome, one of the first questions they ask is whether they should take a probiotic supplement. For the most part, no. Unless a person has gone through an illness that required them to take antibiotics or caused acute diarrhea, there’s limited evidence that probiotics are particularly helpful.

What is absolutely helpful and crucial to microbiome health is eating a good diet. In my expert opinion, that means a diet that is at least 50% vegetables. Always choose fresh foods over processed ones. And only eat the number of calories that you need to maintain yourself.

Rainbow colored vegetables. Healthy food concept. Top view

And anything you can do to increase the diversity of fresh foods that you eat will help, too. Because when you eat fresh produce, you get a fair number of microbes.

Along with that, stay away from toxins in food as much as you can. That can mean not charring your food on the grill, and eating organic produce if they show up on the Environmental Working Group’s “Dirty Dozen” list which identifies the fruits and vegetables most subjected to pesticides—including strawberries, spinach, kale, nectarines, and apples.

3. Minimize Your Exposure to Environmental Toxins.

Because of our dependence on petroleum and petroleum-based products (i.e. plastics) and coal, we are constantly battling a barrage of toxins that are poisonous to our immune systems. When we breathe in toxic air from a car’s exhaust pipe, a cigarette, or cooking over an open flame (which is the norm in much of the world), it puts a strain on the lungs to turn over cells, swapping out the damaged and ineffective ones for fresh cells.

It puts a huge strain on the immune system, too. If a body’s resources are being spent on fixing something, it creates a situation where other little problems that crop up can become big problems.

close-up hands holding air filter to be changed.

On average, people spend around half their days at home, so invest in a home air cleaner that will help remove toxins, and replace or upgrade filters in your heating and air conditioning systems to ensure they’re not pumping in dirty air. For those whose occupation exposes them to airborne toxins, such working at construction sites, wear an N-95 mask whenever possible.

4. Stress Less and Sleep More.

You can eat organic kale til the proverbial cows come home, but if you’re subjecting yourself to that toxic mix of chronic stress and regular sleep deprivation that so many of us are, expect your body’s systems to go out of whack. Here’s why.

When we’re stressed, we send signals to our body that disrupt cellular communications, and if your cells aren’t communicating, they can’t do their job properly. That means that not all of the cells in the body are working at full capacity.

Helper cells, for instance, whose job it is to clean up “garbage” in the body so that it gets excreted through urine, fall down on the job. As a result, cellular debris gets backed up, which can overwhelm your immune system, allow microbes to flourish, and here we go again.

The fix is straightforward, but not simple. Prioritize sleep, meaning getting at least 7 or 8 hours of quality shuteye. And adopt stress-reducing activities like meditation, yoga, or whatever it is that works for you to turn down the heat on your slow boil.

5. Make Time for Regular Movement.

When we exercise, our blood really gets pumping, bringing oxygen to cells and carrying off carbon dioxide in a process that is called the gas exchange. That helps a person feel more energized and allows all of the systems in the body — immune, gastrointestinal, cardiac, pulmonary, neurological — to work at a higher capacity.

Full length shot of a woman doing exercise at home

There are other ways physical activity boosts immunity, too. It triggers the release of anti-inflammatory cytokines from muscles and helps modulate metabolic signals related to immune function. Exercise helps flush toxins, viruses, and other garbage from the body. Plus, preliminary research has linked cardiovascular fitness with better diversity and balance in the gut microbiome.

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If you were to come to my house and open my medicine cabinet today, it would look vastly different than it did when I was in my late-40s. All of the orange bottles of prescription pills have been replaced by herbal supplements and tinctures. My refrigerator looks vastly different, too. It’s loaded with vegetables, fruits, and healthy fats. That makes up the majority of my diet.

Even with all of these changes, I know I may still harbor the Borrelia microbe — but I don’t worry about it. I have plenty of energy throughout the day. My brain is fog-free. My joints don’t hurt, and I can do whatever I want to do both physically and mentally.

Best of all, my body is no longer at war with the microbes it contains. They’re supposed to be there, after all. I’ve just brokered a peace treaty with my microbiome by developing a natural protocol that keeps us all in a state of healthy balance, and that allows my cells to continue to be the team players that will help me live a longer, healthier life. I hope you’ll feel inspired to do the same.

Amazing Microbe Facts
  • Bacteria are Earth’s earliest life forms. Fossil evidence suggests bacteria have been around for about 3.5 to 4 billion years.
  • Most bacteria divide every 2 to 12 hours. E. coli can divide every 20 minutes, which means after 7 hours, one bacterium can become 2.1 million.
  • Bacterial cells are 10 to 100 times smaller than human cells.
  • Microbes help us digest food, and in the process provide certain key vitamins such as B12 and K that our bodies can’t synthesize on their own.
  • Between 25% and 54% of the solids in human stool are microbes.
  • You would have to magnify the period at the end of this sentence to 1,000 times its actual size in order to make visible a nearby Pseudomonas aeruginosa bacterium (which causes hospital-acquired pneumonia).
  • Mitochondria, the “power­plants” of your cells, are the descendants of bacteria that were engulfed by larger microorganisms billions of years ago.

References
1. Ron Sender, et al. “Revised Estimates for the Number of Human and Bacteria Cells in the Body.” PLoS Biology. 2016 Aug; 14(8): e1002533. doi: 10.1371/journal.pbio.1002533
2. Lacey J. Favazzo, et al. “The gut microbiome-joint connection: implications in osteoarthritis.” Current Opinion in Rheumatology. 2020 Jan; 32(1): 92–101. doi: 10.1097/BOR.0000000000000681
3. “C-Section Birth Associated With Adulthood Obesity, Diabetes.” American Journal of Managed Care.
4. “5 Things To Know About Probiotics.” National Center for Complementary and Integrative Health.
5. S. Steve Zhou, et al. “Assessment of a respiratory face mask for capturing air pollutants and pathogens including human influenza and rhinoviruses.” Journal of Thoracic Disease. 2018 Mar; 10(3): 2059–2069. doi: 10.21037/jtd.2018.03.103
6. Stephen J. Carter, et al. “Gut microbiota diversity is associated with cardiorespiratory fitness in post‐primary treatment breast cancer survivors.” Experimental Physiology. 14 February 2019. https://doi.org/10.1113/EP087404
7. Vedham V, Verma M, Mahabir S. Early-life exposures to infectious agents and later cancer development. Cancer Med. 2015;4(12):1908-1922. doi: 10.1002/cam4.538
8. “What You Need to Know About Infectious Disease.” National Academies Press.

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**Comment**

For a great video on this:  https://madisonarealymesupportgroup.com/2018/01/03/the-invisible-universe-of-the-human-microbiome-msm/

A very practical article that points out what honest practitioners of health will tell you: you have far greater control over your health than you are being told.  You are not a helpless victim that has no power over microbes that come your way. The trick has always been and will always be balancing these microbes.  You will never get rid of them all – nor should you.  There is a complicated dance going on in our bodies at all times.  

I was told by a virologist that for every bacteria in the world, there is a virus that hosts upon it.  Ponder that.

Category:

Activism, diet and nutrition, Gut Health, Herbs, Lyme, Supplements, Treatment

16-Year-Old Boy With Lyme Disease Presenting as Depression

https://danielcameronmd.com/16-year-old-boy-lyme-disease-presenting-depression/

16-YEAR-OLD BOY WITH LYME DISEASE PRESENTING AS DEPRESSION

Adolescent with Lyme disease and depression holding his head

There has been increasing research linking COVID-19 with the development of neuropsychiatric symptoms, including depression and anxiety. But multiple studies have already found an association between other infections, such as Lyme disease, and the onset of depression.

By
 

One study found a high prevalence of depression in Lyme disease patients. Between January 2008 and December 2014, 1 in 5 patients treated at the Lyme Center Apeldoorn in the Netherlands was diagnosed with depression and Lyme disease. ¹

Meanwhile, Dr. Robert Bransfield, a psychiatrist specializing in the diagnosis and treatment of tick-borne illnesses, reports “In my database, depression is the most common psychiatric syndrome associated with late-stage Lyme dis­ease.

I estimate that there are at least 1,200 people per year who commit suicide as the result of Lyme disease,”  Bransfield writes in his article “Suicide, Lyme and Associated Diseases.” ²

Borrelia burgdorferi, the causative agent of Lyme disease, “may be diagnosed as a persistent infection with immune suppressant and evasive capabilities or there may be a postinfectious process,” Bransfield writes. “In either case, the psychiatric symptoms are associated with an immune-mediated process.

Brian Fallon, MD, director of the Lyme and Tick-Borne Diseases Research Center at Columbia University, describes the case of a 16-year-old adolescent who presented with long-standing depression, which suddenly worsened.³

Neuropsychiatric symptoms

He reported anger, frustration, insomnia, poor appetite, mild weight loss, and passive suicidal ideation. He would say, “I wish I could just die in my sleep.”

The boy complained of brain fog and had a steep decline in cognitive abilities. His symptoms were initially presumed to be caused by “either laziness or mild depression.” He suffered from ongoing knee pain and was forced to quit sports.

His grades dropped from “A’s” in 7th grade to nearly failing by 10th grade. He suffered from fatigue and forgetfulness. “He appeared lazy because he found it hard to get out of bed in the morning,” Fallon writes.

The boy’s symptoms were extensive and included:

• severe headaches
• facial fasciculations, myalgias
• stiff neck
• hyperacusis
• episodic paresthesias of his face and hands
• sudden sweating
• painful joints
• sore throats
• palpitations
• electric shock-like pains
• word-finding problems, such that it was hard to finish sentences
• semantic paraphasias
• short-term memory problems, such that he could not recall conversations
• testicular pain

Since he reported having embedded ticks in the past, Lyme disease was clinically diagnosed “given the suspicious clinical history.”

His Lyme ELISA results were negative twice in the prior 3 months, but his IgG Western blot revealed 4 of the 5 requisite CDC specific bands. A brain SPECT revealed findings consistent with encephalitis, vasculitis, and Lyme disease.

Treatment response

The boy was diagnosed with probable Lyme encephalopathy and treated with 12 weeks of intravenous ceftriaxone.

He improved on sleep, appetite, headaches, joint pains, numbness, distractibility, short-term memory, and emotional behavior. His depression cleared without the need for antidepressant medications. His IQ improved by 22 points, and his school performance markedly improved.

Related Articles:

Don’t confuse somatic symptoms with depression in early Lyme disease

Chronic neurological Lyme disease or co-morbid conditions?

Oppositional behavior in children with Lyme disease

References:
  1. Zomer, T.P., et al., Depressive Symptoms in Patients Referred to a Tertiary Lyme Center: High Prevalence in Those Without Evidence of Lyme Borreliosis. Clin Infect Dis, 2017. 65(10): p. 1689-1694.
  2. Bransfield RC. Suicide and Lyme and associated diseases. Neuropsychiatr Dis Treat. 2017;13:1575-1587. Published 2017 Jun 16. doi:10.2147/NDT.S136137.
  3. Fallon BA, Kochevar JM, Gaito A, Nields JA. The underdiagnosis of neuropsychiatric Lyme disease in children and adults. Psychiatr Clin North Am. 1998;21(3):693-703, viii.

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**Comment**

If there was ever a great example of the importance of Lyme/MSIDS being clinically diagnosed, this is it!

This poor teenager would have continued spiraling down until he might just have achieved his wish of dying.  

This study points out a number of things parents and doctors should be considering:

  1. The plethora of symptoms that suggest a systemic infection(s)
  2. The drop in grades
  3. The stiff neck (few things cause this – but it’s hallmark for Lyme)
  4. The fact antibiotics helped so many of the symptoms – including the depression – without any antidepressants
  5. He was seronegative – and so many are.  Doctors have to stop relying upon testing to diagnose this and must become more educated on tick-borne illness.
The CDC just upped numbers again from 300,000 to 476,000 new cases of Lyme diseases per year – highlighting the fact this plague is serious, isn’t going away, and something needs to be done about it.

For more:

We can be thankful he fell into the hands of Dr. Fallon or this young man would most probably not had a favorable outcome.

Category:

Lyme, Psychological Aspects, research, Ticks

Contain and Eliminate: The American Medical Association’s Conspiracy To Destroy Chiropractic

Lyme/MSIDS patients often benefit from Chiropractic care.  Chiropractors need to be educated on tick-borne illnesses as they are often the first health practitioners sought after as many patients will not attribute their joint pain & other physical ailments to tick-borne illness.

This case report  demonstrates this as a patient seeing a chiropractor with joint popping with each articulation and a continual joint subluxation issue, was found to be infected with two strains of Bartonella.  I also had these symptoms in my knee.

Many are unaware that the first two years of chiropractic education is exactly the same as medical doctor education.
Many are also unaware of the history of collusion within the American Medical Association in attempting to destroy the chiropractic profession.

This is important history to know as the AMA is an extremely powerful organization with a ongoing history of vilifying anything considered competition (compounding pharmacies, naturopaths, homeopathy, herbalists, etc).  The saying, “Those who do not learn from history are doomed to repeat it,” comes to mind.  

https://www.dynamicchiropractic.com/webcasts/20210218/archive_20210218.mp4  Webinar Here

https://www.dynamicchiropractic.com/mpacms/dc/o2.php?f_id=34  Book info here & to purchase

Finally – the Whole Truth about the AMA’s campaign to Contain and Eliminate Chiropractic
Contain and EliminateIn 1975, a whistleblower, who called himself “Sore Throat,” fed information about how the AMA’s Committee on Quackery was aiming to “contain and eliminate” a competing profession, chiropractic.
The new book, “Contain and Eliminate: The American Medical Association’s Conspiracy To Destroy Chiropractic,” answers previously unanswered questions about conspiracies within conspiracies involving the Church of Scientology v. the AMA and the AMA v. chiropractors in one of the longest antitrust cases in U.S. history.
 
This story has never been told in its entirety.
Louis Sportelli“CONTAIN AND ELIMINATE is a story that needs to be told not for revenge but for restoration and rehabilitation to the image of chiropractic which was disparaged and destroyed resulting in millions of patients who would never seek the services of a doctor of chiropractic because the image of the profession was so tarnished by the ACTIVITIES of the American Medical Association.” Who should get a copy of the book CONTAIN AND ELIMINATE? Everyone who has been either positively or negatively impacted by the decades of illegal activity of the American Medical Association.
From your interested patients, to your medical physician friends to your attorney and especially your library, this story needs to be shared with those who may never have understood the plight of the chiropractic profession and your struggle to survive.

Another book written by Wolinsky and worth checking out is The Serpent on the Staff: The Unhealthy Politics of the American Medical Association

Category:

Activism, Chiropractic Care for MSIDS