Archive for the ‘Treatment’ Category

Could Aspirin Have Cut COVID Deaths in Half?

The following is critical information especially for Lyme/MSIDS patients as these pathogens also cause hypercoagulation and metabolic issues.  Many patients have greatly benefitted from heparin as well as proteolytic enzymes as they both cut down fibrinogen, the proteins produced by the liver that help with blood clotting.  Unfortunately, too much fibrinogen causes “thick blood” making it even harder to treat pathogens.  Biofilm compounds this problem as well. The Japanese have demonstrated preventive antiviral effects against SARS-CoV-2 mutant strains and bovine herpes virus type 1 by using Nattokinase.  The mechanism appears to be proteolytic cleavage of viral proteins.

https://media.mercola.com/ImageServer/Public/2023/May/PDF/aspirin-for-covid-pdf.pdf

Could Aspirin Have Cut COVID Deaths in Half?

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Aspirin, Georgi Dinkov Clip

Analysis by Dr. Joseph MercolaFact Checked

May 15, 2023

STORY AT-A-GLANCE

  • There was a massive discrediting propaganda campaign hurled at aspirin by Big Pharma fifty years ago when it came out with expensive and dangerous non-steroidal anti-inflammatories (NSAIDs)
  • Aspirin is a staple medicine that is frequently recommended as a remedy to control inflammation and prevent blood clots. It could have helped limit the pandemic death toll, had it not been downplayed and ignored
  • According to research published in April 2021, aspirin reduced COVID-19 patients’ need for mechanical ventilation by 44%, ICU admission by 43% and mortality by 47%
  • Proteolytic enzymes like lumbrokinase, serrapeptase and nattokinase are safer and perhaps even superior choices to aspirin for its anticlot properties. These enzymes, when taken on an empty stomach, act as natural anticoagulants by breaking down fibrin
  • Proteolytic enzymes may also be helpful for long-COVID. Researchers have found that people who die from COVID have extensive lung damage caused by persistent virus-infected cells that cause scar formation. Proteolytic enzymes can help dissolve this scar tissue, as fibrin is a primary component

Aspirin (acetylsalicylic acid) was introduced in 1899 as an alternative to sodium salicylate,1 a pain reliever and anti-inflammatory known for its unpleasant side effects such as stomach cramps, heartburn, nausea and vomiting. It’s been a staple medicine in most households ever since and is frequently recommended as a remedy to control inflammation and prevent blood clots that can lead to stroke and heart attack.

Aspirin also has other health benefits. It helps increase the oxidation of glucose as fuel for your body while inhibiting the release of fatty acids from your fat cells, specifically linoleic acid (LA), an omega-6 fat which I suspect is a primary driver of chronic disease.

This is important because nearly everyone in the U.S. has excessive LA in their tissues, as it takes seven years of a low LA diet to get it down to healthy levels. So, the last thing you want to do is increase the release of LA into your body from fat stores. It is far better to release LA slowly and allow your liver to process it. It is water soluble, so you can urinate it out without it being metabolized into inflammatory prostaglandins.

Importantly, aspirin will also lower your baseline cortisol — indirectly by lowering inflammation, and directly by inhibiting the enzyme 11-beta-hydroxysteroid dehydrogenase Type 1. This enzyme synthesizes active cortisol from the inactive precursor cortisone.

Aspirin lowers the production of stressed induced aldosterone, which can help to lower blood pressure. Aspirin increases your levels of carbon dioxide and progesterone while inhibiting the major inflammatory pathway, NF kappa-B, which will help your body naturally increase the synthesis of two powerfully important hormones that your body needs, testosterone and progesterone.

Aspirin also uncouples mitochondria. Uncoupling of mitochondrial oxidative metabolism from ATP production can help to increase your metabolic rate and help you lose weight. Dinitrophenol (DNP) is a drug that, like aspirin, uncouples mitochondrial metabolism and produces incredible weight loss. Sadly, it has a very low therapeutic index, so its effective dose is close to its toxic dose and is widely considered too dangerous for clinical use and is no longer available in the U.S.

Aspirin Reduced COVID-Related Hospital Deaths by 47%

Aspirin could also have helped limit the pandemic death toll, had it not been downplayed and overlooked. Many news outlets and COVID-specific websites warned against the use of aspirin for COVID infection, saying it could cause serious bleeding.

While bleeding is a potential side effect, aspirin is no riskier than other anticoagulants, such as heparin,2,3,4 which was recommended by the National Institutes of Health.5

According to research6 published in April 2021, aspirin significantly reduced COVID-19 patients’ need for mechanical ventilation, ICU admission and subsequent mortality. The retrospective, observational cohort study included patients admitted for COVID infection at multiple hospitals across the U.S. between March and July 2020. As reported by General Surgery News:7

“The study’s principal investigator, Jonathan Chow, MD, an assistant professor of anesthesiology and critical care medicine at George Washington University, in Washington, D.C., said:

‘At the beginning of the pandemic, in March and April of 2020, my colleagues and I observed that all these COVID patients in the intensive care unit began to develop excess clot formation and complications related to blood clots and microclot formation throughout the body.’

Numerous autopsy studies from last spring showed these patients had activation of platelets throughout the body and an excessive number of precursors to platelets, according to Dr. Chow.

‘That got us thinking, ‘Why don’t we start using an antiplatelet medication, such as aspirin, to treat these patients?’ he said. ‘Aspirin has been studied extensively in cardiovascular disease to prevent clot formation, and it is widely available and inexpensive.’”

Chow and his team reviewed the charts of 412 patients, 23.7% of whom had either received aspirin within 24 hours of admission, or had taken aspirin for at least seven days prior to admission, and 76.3% who did not.

After adjusting for several confounding variables, including comorbidities, aspirin was independently associated with a:

  • 44% decreased risk for mechanical ventilation
  • 43% reduced risk for ICU admission
  • 47% decrease in hospital mortality

Based on this research, it appears COVID-19-related hospital deaths could have been cut nearly in half, had aspirin been routinely used. Chow commented on the results:8

“The results of the study do not really surprise us because we know that COVID causes excess clot formation and we know that aspirin is a very potent blood thinner. So, when you have a disease that causes clots and a medication that thins your blood, that may lead to the protective effects that we found.”

Aberrant Coagulation in Severe Influenza Pneumonia

As in COVID-19, pneumonia caused by influenza also involves microclotting in the lungs. According to research published in 2016, aberrant coagulation is what causes a hyperinflammatory response in severe influenza pneumonia:9

“Dysfunctional coagulation is a common complication in pathogenic influenza, manifested by lung endothelial activation, vascular leak, disseminated intravascular coagulation and pulmonary microembolism.

Importantly, emerging evidence shows that an uncontrolled coagulation system, including both the cellular (endothelial cells and platelets) and protein (coagulation factors, anticoagulants and fibrinolysis proteases) components, contributes to the pathogenesis of influenza by augmenting viral replication and immune pathogenesis.”

This paper also highlighted the benefits of aspirin, noting it:10

  • Protects mice from lethal influenza virus infection
  • Acts as an anti-influenza virus agent in vitro by inhibiting pro-inflammatory NF-κB activity
  • Improves influenza outcomes
  • Potentially inhibits platelet activation

Fibrinolytics May Be the Key

According to the 2016 paper above, “Fibrinolysis is involved in both lung inflammation and the influenza A virus life cycle.” Fibrinolysis is a process that prevents blood clots from forming and growing. This is part of your body’s normal processes, but sometimes the clotting becomes too excessive, requiring a fibrinolytic to help break down the clots that have already formed.

Fibrin is the material that blood clots are made of, and while aspirin can help break them down, I believe proteolytic enzymes like lumbrokinase, serrapeptase and nattokinase are superior choices.

These enzymes, when taken on an empty stomach, away from food, act as natural anticoagulants by breaking down fibrin. They must be taken at least one hour before or two hours after meals containing protein, though. Otherwise, they’ll be wasted in the digestion of the protein in your food and won’t be able to activate their fibrinolytic properties.

Fibrinolytic Enzymes for COVID-19

Another paper11 published in July 2020, this one a case series, also hints at the usefulness of fibrinolytic enzymes for COVID. It presented three case studies of patients with severe COVID‐19 respiratory failure who were treated with tissue plasminogen activator (TPA), a serine protease enzyme found on endothelial cells that is involved in the breakdown of blood clots.12

All three patients benefited from the treatment, with partial pressure of oxygen/FiO2 (P/F) ratios, a measure of lung function, improving from 38% to 100%.

Other research13 has shown that the thrombolytic activity of equivalent amounts of nattokinase and TPA are identical, so nattokinase could be a useful alternative. The benefit of nattokinase is that you can take it at home, without a prescription, while TPA is an emergency stroke treatment that is only given intravenously to patients suspected of having an ischemic stroke.

Considering fibrinolytic enzymes are thrombolytics comparable to both aspirin14 and TPA, it seems reasonable to conclude that they can be helpful in the treatment of COVID-19.

Fibrinolytic Enzymes May Be Useful in Long-COVID as Well

Another paper15 published in November 2020 highlighted that people who died from COVID-19 had extensive lung damage, including clotting and long-term persistence of virus cells in pneumocytes and endothelial cells.

The findings indicate that virus-infected cells may persist for long periods inside the lungs, contributing to scar tissue. In an interview with Reuters,16 study co-author Mauro Giacca, a professor at King’s College London, described “really vast destruction of the architecture of the lungs,” with healthy tissue “almost completely substituted by scar tissue.”

This scar tissue, Giacca said, may be responsible for so-called “long COVID,” in which symptoms persist for months after the infection has cleared up. “It could very well be envisaged that one of the reasons why there are cases of long COVID is because there is vast destruction of lung (tissue),” he told Reuters. “Even if someone recovers from COVID, the damage that is done could be massive.”

The good news is that proteolytic enzymes can help dissolve scar tissue as well, as fibrin is a primary component. I would alternate between lumbrokinase and serrapeptase, as you’ll need to take it for about three months and sensitivity can develop over time if you use any one of them daily without interruption.

A Breakdown of the Top Three Fibrinolytics

While lumbrokinase, nattokinase and serrapeptase are all effective thrombolytics, lumbrokinase is by far the most potent, which is why it’s my personal favorite. Lumbrokinase is 30 times more potent than nattokinase and 300 times more potent than serrapeptase.17,18,19

This means you need much higher doses if you’re taking nattokinase or serrapeptase, compared to lumbrokinase. That said, as just mentioned, if you intend to take a fibrinolytic enzyme daily, I recommend alternating them to prevent a sensitivity or allergy from developing. Also remember that they must be taken on an empty stomach.

Aside from potency, each enzyme also has its own set of benefits that might make one preferable over another:

1.Lumbrokinase — A highly effective antithrombotic agent that reduces blood viscosity and platelet aggregation20 while also degrading fibrin, which is a key factor in clot formation.

I recommend that everyone keep some high-quality lumbrokinase in your emergency kit. A while back I developed a significant bruise from a weight training injury. I took a high dose of lumbrokinase for a week, which cleared it up.

I also took lumbrokinase after being stung by three wasps on my forehead right before bed. The stings swelled to nearly the size of half a tennis ball. Wasp venom contains proteins that fibrinolytic enzymes can break down, so I took half a dozen pills and went to sleep.

The next morning, the swelling was nearly gone. If you are going to try this, the sooner you take it after you’re stung, the better it will likely work as it denatures the venom proteins before they inflict their damage.

2.Serrapeptase — Research has shown serrapeptase can help patients with chronic airway disease, lessening the viscosity of sputum and reducing coughing.21 Serrapeptase also breaks down fibrin and helps dissolve dead or damaged tissue without harming healthy tissue.22

3.Nattokinase — Nattokinase has been shown to break down blood clots and reduce the risk of serious clotting23 by dissolving excess fibrin in your blood vessels,24 improving circulation and decreasing blood viscosity.

Aspirin Has Benefits Similar to Fasting

I have long been a fan of fasting for many reasons, but primarily because it has been known to lower biomarkers of inflammation as well as increase autophagy. Interestingly, there was a study done that suggests that aspirin also does precisely this. The study was in mice and used 8 mg/kg which is the equivalent of about two 5 grain (325 mg) tablets a day.25

The study showed that aspirin, or its active metabolite salicylate, caused autophagy by inhibiting the acetyltransferase activity of EP300 which is a specific gene, also known as p300, which codes for proteins that regulate the activity of many genes in tissues throughout your body. It plays an essential role in controlling cell growth and division, prompting cells to mature and take on specialized functions.

Purchasing Guidelines for Aspirin

Getting back to aspirin, if you do decide to use aspirin, be sure to avoid coated extended-release aspirin. It’s not recommended due to the additives they put in it. Immediate-release aspirin is the preferred version and can be found on Amazon.

Look carefully at the list of inactive ingredients. The only one should be corn starch. I looked long and hard and found one that meets all those criteria. The recommended dose is one 325 milligram tablet per day with your largest meal.

Earlier this year I became convinced of the prophylactic value of aspirin, and I now take 325 mg per day. But I use a version that is not a tablet and is 99% pure USP aspirin. I find its prometabolic, antilipolytic, anti-inflammatory, anticortisol, and anti-estrogen effects very appealing, and its safety is well-established.

It is important to understand that there was a massive discrediting propaganda campaign hurled at it by Big Pharma when it came out with its panoply of expensive and dangerous non-steroidal anti-inflammatories (NSAIDs) fifty years ago. Many may not recall that I was the first person on the internet to warn the dangers of one of these NSAIDs, Vioxx, a year before it was released into the market and killed around 100,000 people.

If you are sensitive to aspirin, it would be best to use a salicylic acid or willow bark supplement. When you consume aspirin, the acetylsalicylic acid is metabolized in your body into salicylic acid, which is the compound responsible for the anti-inflammatory, pain-relieving and antithrombotic effects of aspirin. This can be found in willow bark.

To learn more about the risks and benefits of aspirin, and how it compares to fibrinolytic enzymes, see “Daily Aspirin — Healthy or Harmful?

+ Sources and References

Category:

research, Treatment, Viruses

Jessica Devine’s Journey With Lyme Disease

https://www.globallymealliance.org/blog/jessica-devines-journey-with-lyme-disease?

Jessica Devine’s Journey with Lyme Disease

by Jessica Devine on April 11, 2023

Hear directly from a patient advocate about all the strategies she used to recover from Lyme.

Many have asked what I have done in my journey to heal, and I have finally typed it up.

I am the first to say it is a wide combination of things and choices I have made throughout the years that has got me here. Some of which I believe have made a significant impact in moving me forward. Most of the things I believe in exist within the empowering Rise Above Lyme Support Group. I share everything I have tried or still use.  We also aim to share things we haven’t tried, as they may work for others. We are a group seeking solutions, first and foremost.

One of the biggest reasons this group was created was to provide hope by providing education, and most of all solutions, to those struggling.

241209This is just one of the few private pictures I have taken. Ones that I never intended on sharing, but I am learning that vulnerability is okay. It is a small glimpse into just a few moments of years of struggles. I have been to hell and back. But I feel that the things I chose moved me forward.  I regret nothing in what I have or have not chosen- I followed my instincts. I am not saying my way is the only way. I am not saying this will heal you. I am not saying other methods are better or worse. I am simply living as an open book, and if sharing what I did helps you then I am certainly not going to be quiet about it.

Am I in perfect health? NO. Do I have bad days? YES. But I have a life now. I am a mother again.  I am a wife again. I am a daughter again. I am a sister again. I am a friend to many. I do things in the world again. I laugh a lot. I am drastically better. I choose things that bring joy. And I protect myself.

Have I changed? For sure I have. I am extremely strong and I know it. Hell, I had to be strong enough to treat my child during my own battle. I had to be strong enough to set an example.

Now, I know I am resilient.

I know who I am without a hint of doubt.  I have Lyme disease, Rocky Mountain Spotted Fever,  Babesia, Bartonella, Erhlichia, TBRF and several more illnesses. I was once bedridden with the worst symptoms a human should ever have to experience.

But now, I wake everyday happy to enjoy my life. I am doing the treadmill consistently and don’t crash afterwards.  I no longer live in pain and my brain is fully recovered.  I have control over my health and I am grateful for each and every day.

Here is my list of each thing I chose along my healing journey:

(Join the Facebook page for posts on each subject)

1. I found a Lyme Literate Medical Professional 

2. I did 18 months of IV antibiotics (plus 6 months oral)

3. I took supplements and herbals throughout treatment and still take things (Here is the full list)

4. I removed root canals and metals

5. I went to all natural protocol as soon as stable

6. I addressed mold

7. I addressed parasites

8. I always work on viruses

9. I focused on gut health throughout

10. I consistently addressed immune system, detox and inflammation. Super important.

11. I added PEMF, an infrared photon mat

12. I added gentle exercise

13. I fixed my regularity 💩

14. I added a WAVE 1 frequency device

15. I established regular therapy sessions

Note:

💚 I let go of false friendships early on. I held on to the people that stood by me and let the rest go. I let go of anyone who judged me or didn’t believe me.

💚 I do not stay with dismissive doctors. They get fired. I will not let them dismiss me ever again.

💚 I did advocacy work to give me purpose and to fight back.

💚 I do not engage in negativity and avoid it at all costs.

💚 I am always seeking peace and joy wherever I can.

All of these things have contributed to my healing and improving my symptoms. Each thing I did moved me forward in some way. And I regret nothing.  🤜💚🤛

There is hope. You can Rise Above this disease.

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The above material is provided for information purposes only. The material (a) is not nor should be considered, or used as a substitute for, medical advice, diagnosis, or treatment, nor (b) does it necessarily represent endorsement by or an official position of Global Lyme Alliance, Inc. or any of its directors, officers, advisors or volunteers. Advice on the testing, treatment or care of an individual patient should be obtained through consultation with a physician who has examined that patient or is familiar with that patient’s medical history.
GLA Contributor

Jessica Devine

GLA Contributor

*Opinions expressed by contributors are their own. Jessica Devine, a lyme disease patient advocate, founded numerous support groups alongside a website, Rise Above Lyme, as a safe space to seek accurate information on any topic related to Lyme and co-infections. Now five years later, that group has expanded into the Rise Above Lyme of today. Her goal is to provide those suffering with hope, comfort, and, most of all, solutions to make each patient’s journey a little easier.

Email: Theriseabovelyme@gmail.com

Website: https://www.riseabovelyme.com

Category:

Activism, Lyme, Treatment

Tick Tock: CDC Takes Its Time Treating Chronic Lyme Disease

https://news.climate.columbia.edu/2023/03/10/tick-tock-cdc-takes-its-time-treating-chronic-lyme-disease/

Tick Tock: CDC Takes Its Time Treating Chronic Lyme Disease

BY GRACE BURNS |MARCH 10, 2023
a tick on a stalk of grass

Lyme disease is caused by a bacteria that’s spread through tick bites. If left untreated, the bacteria can affect a person’s joints, heart, and nervous system. Photo: Leroy Baptiste 

My knees buckled beneath the weight of my malnourished adolescent frame. Cold, dripping sweat met its match on the tile floor. Every ounce of strength I had cried out to my parents for help. I didn’t stay conscious long enough to realize they raced up the stairs at the sound of my fall, as if on command.

The year was 2018. Losing consciousness was among the everyday occurrences in my middle-class household in suburban West Hartford, Connecticut. Life had been this way since July 5, 2017, just days before my 17th birthday, when my legs went fully numb during a run.

Not until I was almost 20 years old was I diagnosed with chronic and neurological Lyme disease — 16 strains of it, to be precise.

I blame this delay in diagnosis on the Centers for Disease Control and Prevention (CDC)’s refusal to recognize and legitimize chronic Lyme disease. Whereas many patients with Lyme disease can recover after two to four weeks of antibiotics, others, like me, suffer long-term side effects, and no one knows why. This lack of understanding makes it difficult for any medical professional to treat me in a Lyme-specific manner. Doctors are often reluctant to acknowledge Lyme as a possible diagnosis, and are not sufficiently informed to identify symptoms.

Lyme disease is caused by a bacteria that’s spread through tick bites. If left untreated, the bacteria can affect a person’s joints, heart, and nervous system.

Tests for Lyme disease are unreliable, often producing negative results despite patients later discovering they carry upwards of 5, 10, or 16 strains of Lyme-causing bacteria. There is no proven “cure” or treatment plan for chronic Lyme disease. Stringent criteria are required by the CDC to be diagnosed with the disease, and patients are often passed off to other autoimmune or psychiatric diagnoses.  (See link for article)

_______________

**Comment**

Another harrowing story.  Fortunately, there’s a good ending as the patient got to an experienced Lyme literate doctor (LLMD) for appropriate treatment.  This really is key.  Unfortunately, insurance will typically not cover this kind of treatment due to polarity within the medical community so patients must pay out of pocket.  It’s important to understand the sordid backstory to this in order to understand that attempting to get help from mainstream medicine is like shouting at the mountain.  If you are able – GO AROUND THE MOUNTAIN.  It will save you a lot of time, money, and heart-ache in the end.

For more:

Category:

Activism, Lyme, Ticks, Treatment

California’s First CDC-Confirmed Case of Borrelia Miyamotoi

https://www.lymedisease.org/californias-first-cdc-confirmed-case-of-borrelia-miyamotoi/

California’s first CDC-confirmed case of Borrelia miyamotoi

By Lonnie Marcum

May 4, 2023

A recent case reminds us that Lyme disease isn’t the only tick-borne disease we need to worry about.

Last year, the CDC confirmed California’s first known case of Borrelia miyamotoi—a tick-borne pathogen that causes a relapsing-fever illness in humans.

This discovery highlights the need for increased awareness and surveillance of emerging tick-borne illnesses across the United States.

In this case, a man from Marin County, California, sought care at a neurology clinic in San Francisco. His symptoms included recurring fever, night sweats, mild vision changes and nausea. The fevers typically lasted one day and would recur every 10-14 days. At the time, he was also undergoing monoclonal antibody therapy for multiple sclerosis.

His standard blood work was negative for fungi, Lyme disease, brucellosis and leptospirosis. Chest x-rays and abdominal CT scans were negative as well.

The only notable blood findings were a positive antigen for Epstein-Barr virus, a low platelet count (thrombocytopenia), an elevated C-reactive protein (an inflammatory marker), and an elevated procalcitonin—a biomarker that is released in response to bacterial infections.

Specialty lab testing

Considering the patient’s immunocompromised status and continued relapsing fevers, his blood was sent to a specialty lab for next-generation DNA sequencing. The specialty lab, Karius,  says it can identify over 1000 clinically relevant pathogens including bacteria, DNA viruses, fungi, and parasites from a single blood sample.

The DNA test results came back positive for Borrelia miyamotoi and were sent to the CDC for confirmation. The CDC confirmed the patient’s blood was positive for Borrelia miyamotoi and 100% identical to an isolate that had been previously collected from an Ixodes pacificus tick in Marin County. This indicates the patient acquired the infection in California.

Borrelia miyamotoi, first identified in Japan in 1995, is considered an emerging infectious disease in Asia, Europe and the United States.

A recent study found widespread evidence of Borrelia miyamotoi in human blood samples of people living in the northeastern United States. An earlier study found evidence of tick-borne relapsing fever (TBRF) Borrelia, including Borrelia miyamotoi in the blood of 26 out of 101 samples of residents of Mendocino County, California in the 1980s.

Another study found multiple species of relapsing fever Borrelia in blood samples drawn from patients in 16 out of 24 California counties. And a 13-year-long study found Borrelia miyamotoi in ticks found in 24 out of 48 counties in California (see map below).

Borrelia miyamotoi is transmitted to humans through the bite of infected blacklegged ticks. These are the same  hardbodied ticks (Ixodes scapularis, Ixodes pacificus) that transmit Lyme disease to humans and animals. Other types of North American tick-borne relapsing fever Borrelia (B. hermsii, B. turicatae, B. parkeri), are transmitted by soft-bodied ticks.

The symptoms of Borrelia miyamotoi disease are similar to those of other tick-borne illnesses, such as Lyme disease. But standard Lyme tests will be negative, making the diagnosis challenging.

TBRF

According to the CDC, the main symptoms of TBRF are high fever, headache, muscle and joint pain. Fewer than 1 in 10 patients will develop a rash. Left untreated, the symptoms typically repeat, producing a telltale pattern of relapsing fever lasting 1-3 days, followed by 7-10 days without a fever, followed by another 1-3 days of fever.

The CDC website says: “Confirmation of a diagnosis relies on 1) the use of polymerase chain reaction (PCR) tests that detect DNA from the organism or 2) antibody-based tests. Both types of tests are under development and not widely commercially available but can be ordered from a limited number of CLIA-approved laboratories.”

Treatment for TBRF involves the use of antibiotics, such as doxycycline, amoxicillin or cefuroxime . In this case the man was given a 4-week course of doxycycline and achieved complete resolution of his symptoms. One month after completing antibiotics ,follow-up laboratory testing showed complete resolution of thrombocytopenia and normalization of inflammatory markers.

All tick-borne diseases are a significant health concern worldwide, particularly in areas where ticks are prevalent. These illnesses can present with a range of symptoms, some of which can be mysterious and difficult to diagnose.

While relapsing fever Borrelia has been detected in California before, this is the first CDC-confirmed case of Borrelia miyamotoi in California.  This case highlights the need for continued education and awareness of tick-borne diseases.

As with all tick-borne illnesses, prevention is key. To reduce the risk of tick bites, take precautions when spending time outdoors, such as pre-treating shoes and clothing with permethrin, using insect repellant on yourself, your children and your pets, and performing thorough tick checks after being outdoors.

LymeSci is written by Lonnie Marcum, a Licensed Physical Therapist and mother of a daughter with Lyme. She served two terms on a subcommittee of the federal Tick-Borne Disease Working Group. Follow her on Twitter: @LonnieRhea  Email her at: lmarcum@lymedisease.org.

Reference

Rubio LA, Kjemtrup AM, Marx GE, Cronan S, Kilonzo C, Saunders MEM, et al. Borrelia miyamotoi infection in immunocompromised man, California, USA, 2021. Emerg Infect Dis. 2023 May https://doi.org/10.3201/eid2905.221638 DOI: 10.3201/eid2905.221638

Padgett K, Bonilla D, Kjemtrup A, Vilcins I-M, Yoshimizu MH, Hui L, et al. (2014) Large Scale Spatial Risk and Comparative Prevalence of Borrelia miyamotoi and Borrelia burgdorferi Sensu Lato in Ixodes pacificus. PLoS ONE 9(10): e110853. https://doi.org/10.1371/journal.pone.0110853

Additional Resources

Stanford: Tick-borne disease risk high in SF Bay Area

Yale: Tick-borne Borrelia miyamotoi widespread in northeastern US

LYME SCI: Infected ticks in California? It’s complicated.

LYME SCI: B. miyamotoi has been in California ticks for a long time

LYME SCI: Lyme-carrying ticks in West differ from their Eastern cousins

LYME SCI: How many “negative” Lyme tests are due to B. miyamotoi?

LYME SCI: Tick infection rates as high as 31% in some coastal areas of California

BALF: New interactive maps show where citizen scientists found infected ticks

For more:

And the question begging to be asked is: how many people with B. miyamotoi are falling through the cracks?  It isn’t even reportable to the CDC yet (which notoriously undercounts all things tick-borne-related).

For more:  https://igenex.com/tick-talk/what-you-need-to-know-about-borrelia-miyamotoi/

This article points out the confusion with B. miyamotoi: 

  • many separate it from other tick-borne relapsing fevers
  • while it can cause relapsing fevers, it sometimes doesn’t
  • it appears to be the only TBRF transmitted from a hard bodied tick, unlike TBRF which is mainly transmitted from a soft bodied tick (I remain skeptical of this as ticks have repeatedly been found to transmit things they shouldn’t – just like they are found in places they shouldn’t be.)
  • symptoms often resemble Lyme disease
  • you can be infected with BOTH B. miyamotoi AND Lyme disease (as well as numerous other coinfections) which will complicate symptom presentation
  • testing for B. miyamotoi is just as abysmal as it is for Lyme/MSIDS:  https://madisonarealymesupportgroup.com/2020/03/01/study-cdcs-2-tier-lyme-testing-inaccurate-in-more-than-70-of-cases/

Category:

Borrelia Miyamotoi (Relapsing Fever Group), research, Testing, Ticks, Treatment

Hacking Lyme Disease Book Review

https://www.lymedisease.org/this-easy-to-read-guide-is-packed-with-useful-information/

This easy-to-read guide is packed with useful information

By Dorothy Kupcha Leland
April 25, 2023

Hacking Lyme Disease: An Action Guide to Wellness is a compilation of articles from Dr. Marty Ross’s informative website “treatlyme.net.”

It covers a wide range of topics, including what he considers the best herbal and prescription antibiotic treatments, what to do if your previous treatments have failed to get you well, and a discussion of many alternative therapies (both pro and con).

It is not a guide to treating yourself. Dr. Ross strongly advises you to discuss these matters with your Lyme-literate practitioner. But it answers a lot of questions that Lyme patients may have, including about many alternative treatments.

The Ross Lyme Support Protocol

He outlines his own treatment guidelines for chronic Lyme and related infections, which he calls The Ross Lyme Support Protocol. He says it’s designed to:

  • Boost the immune system,
  • Improve detoxification,
  • Speed recovery,
  • Kill the infections, and
  • protect and repair from the harmful effects of the infections and the herbal and prescription antibiotics.

Dr. Ross emphasizes that treating Lyme disease is complicated. “The infection triggers an immune system cytokine reaction that affects most organs and systems of the body,” he writes. “In my experience, the great majority of people can recover if they address each of the steps in The Ross Lyme Support Protocol.”

He refers to anything that kills Lyme and related infections as “antigerms.”  These herbal and prescription antigerms include:

  • Antibiotics for bacteria like Borrelia (Lyme), Bartonella, Anaplasma, Ehrlichia, and Clostridium difficile;
  • Antifungals for intestinal yeast overgrowth;
  • Antiparasitic agents for Babesia and hidden intestinal parasites, and
  • Antivirals for chronic infections like mononucleosis and human herpesvirus 6.

However, his action steps encompass much more than just trying to eliminate bacteria. He includes recommendations regarding sleep, diet, controlling inflammation, hormones, exercise, detoxification and more.

He also discusses complicating factors such as yeast infections, mold toxin illness, and mast call activation syndrome.

A unique aspect of Hacking Lyme Disease is how it incorporates information from LymeDisease.org’s MyLymeData research project. More than 17,000 Lyme patients participate in MyLymeData, providing feedback about their treatment experiences.

Dr. Ross includes MyLymeData findings in his discussion of prescription antibiotic use as well as a wide variety of alternative medical treatments.

This easy-to-read guide is packed with lots of useful information.

TOUCHED BY LYME is written by Dorothy Kupcha Leland, President of LymeDisease.org. She is co-author of When Your Child Has Lyme Disease: A Parent’s Survival Guide. Contact her at dleland@lymedisease.org .

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Hacking Lyme Disease

Dr. Marty Ross

April 29, 2023

Transcript: http://lymedisease.org.au/wp-content/…

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Activism, Detoxing, Lyme, Treatment