Ehrlichiosis | Madison Area Lyme Support Group

Archive for the ‘Ehrlichiosis’ Category

3 Reasons Lyme/MSIDS Patients Remain Sick: Dormancy/Persisters, Biofilm, Co-Infection

https://parasitesandvectors.biomedcentral.com/articles/10.1186/s13071-019-3495-7

Metamorphoses of Lyme disease spirochetes: phenomenon of Borrelia persisters

Natalie Rudenko, Maryna Golovchenko, Katerina Kybicova & Marie Vancova

Parasites & Vectors volume 12, Article number: 237 (2019) Cite this article

Abstract

The survival of spirochetes from the Borrelia burgdorferi (sensu lato) complex in a hostile environment is achieved by the regulation of differential gene expression in response to changes in temperature, salts, nutrient content, acidity fluctuation, multiple host or vector dependent factors, and leads to the formation of dormant subpopulations of cells. From the other side, alterations in the level of gene expression in response to antibiotic pressure leads to the establishment of a persisters subpopulation. Both subpopulations represent the cells in different physiological states. “Dormancy” and “persistence” do share some similarities, e.g. both represent cells with low metabolic activity that can exist for extended periods without replication, both constitute populations with different gene expression profiles and both differ significantly from replicating forms of spirochetes. Persisters are elusive, present in low numbers, morphologically heterogeneous, multi-drug-tolerant cells that can change with the environment. The definition of “persisters” substituted the originally-used term “survivors”, referring to the small bacterial population of Staphylococcus that survived killing by penicillin. The phenomenon of persisters is present in almost all bacterial species; however, the reasons why Borrelia persisters form are poorly understood. Persisters can adopt varying sizes and shapes, changing from well-known forms to altered morphologies. They are capable of forming round bodies, L-form bacteria, microcolonies or biofilms-like aggregates, which remarkably change the response of Borrelia to hostile environments. Persisters remain viable despite aggressive antibiotic challenge and are able to reversibly convert into motile forms in a favorable growth environment. Persisters are present in significant numbers in biofilms, which has led to the explanation of biofilm tolerance to antibiotics. Considering that biofilms are associated with numerous chronic diseases through their resilient presence in the human body, it is not surprising that interest in persisting cells has consequently accelerated. Certain diseases caused by pathogenic bacteria (e.g. tuberculosis, syphilis or leprosy) are commonly chronic in nature and often recur despite antibiotic treatment. Three decades of basic and clinical research have not yet provided a definite answer to the question: is there a connection between persisting spirochetes and recurrence of Lyme disease in patients?

______________

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6287027/

The Emerging Role of Microbial Biofilm in Lyme Neuroborreliosis

Enea Gino Di Domenico,^1,^* Ilaria Cavallo,¹ Valentina Bordignon,¹ Giovanna D’Agosto,¹ Martina Pontone,¹ Elisabetta Trento,¹ Maria Teresa Gallo,¹ Grazia Prignano,¹ Fulvia Pimpinelli,¹ Luigi Toma,² and Fabrizio Ensoli¹

Author information Article notes Copyright and License information Disclaimer

Abstract

Lyme borreliosis (LB) is the most common tick-borne disease caused by the spirochete Borrelia burgdorferi in North America and Borrelia afzelii or Borrelia garinii in Europe and Asia, respectively. The infection affects multiple organ systems, including the skin, joints, and the nervous system. Lyme neuroborreliosis (LNB) is the most dangerous manifestation of Lyme disease, occurring in 10–15% of infected individuals. During the course of the infection, bacteria migrate through the host tissues altering the coagulation and fibrinolysis pathways and the immune response, reaching the central nervous system (CNS) within 2 weeks after the bite of an infected tick. The early treatment with oral antimicrobials is effective in the majority of patients with LNB. Nevertheless, persistent forms of LNB are relatively common, despite targeted antibiotic therapy. It has been observed that the antibiotic resistance and the reoccurrence of Lyme disease are associated with biofilm-like aggregates in B. burgdorferi, B. afzelii, and B. garinii, both in vitro and in vivo, allowing Borrelia spp. to resist to adverse environmental conditions. Indeed, the increased tolerance to antibiotics described in the persisting forms of Borrelia spp., is strongly reminiscent of biofilm growing bacteria, suggesting a possible role of biofilm aggregates in the development of the different manifestations of Lyme disease including LNB.

________________

https://www.fortunejournals.com/articles/serological-and-pcr-evidence-of-infection-in-105-patients-with-sppt.html

Serological and PCR evidence of Infection in 105 Patients with SPPT

Alexis Lacout^1*, Marie Mas⁴, Michel Franck², Véronique Perronne³, Julie Pajaud², Pierre Yves Marcy⁵, Christian Perronne³

^*Corresponding Author: Alexis Lacout, Centre de diagnostic ELSAN, Centre Médico–Chirurgical, 83 avenue Charles de Gaulle, 15000, Aurillac, France

Received: 11 December 2020; Accepted: 22 December 2020; Published: 05 January 2021

Citation: Alexis Lacout, Marie Mas, Michel Franck, Véronique Perronne, Julie Pajaud, Pierre Yves Marcy, Christian Perronne. Serological and PCR evidence of Infection in 105 Patients with SPPT. Archives of Microbiology & Immunology 5 (2021): 139-150.

Abstract

Introduction: The main aim of this study is to determine the nature of the exposure of patients presenting with polymorphic signs and symptoms to the parasite Babesia, through the study of serology. The secondary aim is to report the different serological or PCR results observed in these patients.

Material and methods: The following serologies were performed in all patients looking for: Babesia divergens, Borrelia, Bartonella, Coxiella burnetii, Anaplasma phagocytophilum. The following PCRs were performed looking for: Borrelia spp, Babesia spp, Bartonella (Bartonella spp, B. quintana, B. Henselae,) Coxiella spp, Anaplasma spp, Ehrlichia spp, Rickettsia spp, most often on several matrices (venous blood, capillary blood, urine and saliva).

Results: In this study, 105 patients were included, 62 females and 43 males, sex ratio F/M was 62/43 = 1.44; mean age was 45.5 year old (range; 5 years, 79 years old).

Of the 105 serologies for B. divergens, 41% were found to be positive.
Of the 104 serologies for Borrelia, 19.2% were found to be positive.
Of the 95 serologies for Anaplasma, 27.3% were found to be positive.

Borrelia spp, Babesia spp, Bartonella spp, Coxiella spp, Anaplasma spp, Ehrlichia spp, Rickettsia spp were found by using rtPCR.

Conclusion: Our study has shown that patients with SPPT/PTLDS, a syndrome close to fibromyalgia, could harbor several tick borne microorganisms. Microbiologic analyses should thus not be merely limited to Borrelia’s research alone.

______________

**Comment**

These relatively recent studies (within the past few years) reveal what Lyme literate doctors and their patients have been experiencing from the beginning. They also reaffirm what many independent researchers have globally been writing about for years. There are many other reasons patients remain ill as well but these three are biggies.

Yet, reality is best summed up by the following quote from the first study listed above:

Three decades of basic and clinical research have not yet provided a definite answer to the question: is there a connection between persisting spirochetes and recurrence of Lyme disease in patients?

Isn’t that sad?

The same, of course, can be said of biofilm and coinfections as well. Decades have gone by with no definitive answers because The Cabal doesn’t want the truth to be known. Why? Quite simple: a chronic, relapsing illness doesn’t fit their “vaccine” narrative which is the favored golden calf and cash cow of research institutions and our government, which have a cozy relationship with Big Pharma and Big Media. This is quite convenient for all of them as they control all the messaging as well as threaten, censor, and ban doctors who dissent.

This has been blatantly exposed during the time of COVID but is nothing new. Lymeland has been riddled with the exact same issues for 40 years. Unfortunately, even well-meaning advocates and patients evidently can not see this and continue to demand more money and become giddy when they get it from the very agencies behind this debacle, who are incidentally profiting from it.

It’s a hot-mess for sure, but one thing is certain: we must stop playing into their hands by being ignorant or filled with “hopium,” a term I use to describe how hope can become a drug that stops you from thinking critically, logically, and honestly.

For more:

Category:

Anaplasmosis, Babesia, Bartonella, Biofilm, Ehrlichiosis, Lyme, research, Rickettsia, Testing

STARI: The Southern Tick-Borne Illness That Can Mimic Lyme Disease

https://rawlsmd.com/health-articles/stari-the-southern-tick-borne-illness-that-can-mimic-lyme-disease

STARI: The Southern Tick-Borne Illness That Can Mimic Lyme Disease

by Stephanie Eckelkamp
Updated 10/27/22

There’s a false narrative that tick-borne diseases aren’t much of a problem in southern states, but we know this to be far from the truth. Not only is Lyme disease present, but ailments like Heartland virus, ehrlichia, and Rocky Mountain spotted fever can be a big problem for people and pets — so it’s important to keep yourself protected.

One primarily southern tick-borne pathogen that’s gotten very little attention is STARI (southern tick-associated rash illness). STARI has caused confusion among doctors and patients because some of its early symptoms closely mimic those of Lyme disease. The promising news: STARI appears to be far less detrimental to long-term health than Lyme.

Here, we cover the signs and symptoms of STARI, how it differs from Lyme, what ticks carry it, and how to protect yourself.

What Is STARI?

STARI is an emerging zoonotic disease transmitted by the bite of the Lone Star tick, which often results in a red, ring-like rash with a central clearing that is almost indistinguishable from the erythema migrans bullseye rash sometimes seen in Lyme disease. The exact causative pathogen is still up for debate — while it was once thought to be caused by the Borrelia lonestari spirochete bacterium, this spirochete has not been detected in all cases of the illness.

Where Is It Most Commonly Found?

STARI isn’t a reportable condition, meaning it’s not required to be reported to public health agencies at local, state, or national levels. Therefore, it’s hard to get a clear breakdown of where exactly STARI is most concentrated, plus it may be misdiagnosed as Lyme. But in general, you can expect to find it where you’d discover Lone Star ticks — throughout south-central, southeastern, and eastern states.

While these ticks may be more concentrated in the south, their range spans eastward from central Texas and Oklahoma and up the Atlantic coast as far north as Maine. And scientists believe they’ll only get more common in northern states as global temperatures rise.

What Are the Symptoms?

A key feature of STARI is the red, ring-like rash with a central clearing surrounding the area of a tick bite. This rash usually appears within a week of the tick bite and may expand to three inches in diameter or more. The STARI rash is generally smaller, more circular, and less tender than a Lyme disease rash (which can reach 12 inches in diameter). Keep in mind that the saliva of Lone Star ticks can irritate the skin, so redness and discomfort aren’t always signs of infection. Nevertheless, any skin irritation after a tick bite is always worth monitoring.

bullseye rash on womans leg

Other symptoms of STARI may include:

Fatigue
Headache
Fever
Muscle aches
Joint pain

Fortunately, no long-term symptoms related to STARI have been reported, and the tick-borne illness hasn’t been associated with arthritic, cardiac, or neurologic manifestations in patients.

STARI vs. Lyme: What Are the Key Differences?

While there is clearly a lot of overlap between the symptoms of STARI and the early symptoms of Lyme disease, data suggests patients with STARI are less likely to experience neck stiffness, joint stiffness, and swollen lymph nodes than patients with Lyme, as well as the more severe symptoms mentioned above. Additionally, a study from 2005 comparing STARI patients in Missouri to Lyme disease patients in New York noted several other differences:

STARI patients were more likely to recall a tick bite than Lyme patients.
The time from tick bite to rash onset was shorter in STARI patients (approximately six days).
STARI patients with a rash were less likely to have other symptoms.
STARI patients were less likely to have multiple skin lesions than Lyme patients, and (as mentioned above) they tended to have rashes that were smaller and rounder.
STARI patients recovered more rapidly after antibiotic treatment than Lyme patients.

How Is It Diagnosed and Treated?

Because scientists haven’t actually determined the exact causative agent (e.g., whether it stems from a bacterium, virus, parasite, etc.) that leads to STARI, diagnostic tests have not been developed. Doctors typically use a patient’s symptoms, geographic location, and the possibility of a tick bite to make a diagnosis. Of course, due to the fact that there is significant overlap in the symptoms of STARI and Lyme disease, there’s a real possibility for misdiagnosis.

It’s unknown whether antibiotics help treat STARI, but because this illness so closely resembles early Lyme, doctors often prescribe them to be safe. To date, STARI symptoms have resolved following oral doxycycline treatment, but it’s uncertain if the drugs do anything to speed recovery.

How to Protect Yourself

You certainly want to do what you can to protect yourself from the bite of a Lone Star tick. In addition to STARI, these ticks are known to transmit ehrlichiosis, Heartland virus disease, Bourbon virus disease, and tularemia. The bite of a Lone Star tick can also sometimes lead to alpha-gal syndrome, a potentially life-threatening allergic reaction to red meat.

Lone Star ticks are known to aggressively target and bite both humans and pets. So taking steps to protect yourself and to prevent them from hitching a ride into your home on Fido is key.

Some good strategies:

Wear protective clothing when out in nature and shower afterward
Avoid brushy areas and stay on the trail when hiking
Perform regular tick checks
Use an effective tick repellent, featuring essential oils like oil of lemon eucalyptus or insecticides such as DEET, picaridin, or permethrin.

If you get bitten, remove the tick promptly and carefully, following the steps in this article. If you save the tick, you might want to consider sending it to a laboratory such as IGenex or Ticknology to be tested for pathogens.

Pets should be subject to frequent tick checks, too, and you should strongly consider putting your dogs on some type of oral tick-preventative treatment. (Read this article for veterinary-approved tips on protecting your pets from tick-borne pathogens.)

Bottom Line

STARI is a tick-borne illness that closely resembles early Lyme disease, but fortunately, it is unlikely to cause long-term illness, and it may respond well to antibiotic treatment. However, you also have to be mindful of coinfections — the Lone Star ticks that transmit STARI may also transmit a variety of other serious bacterial and viral infections.

As with any tick-borne illness, prevention is the best medicine. But taking steps to boost your body’s natural defenses by eating a nutritious diet, exercising, getting enough sleep, and consuming phytochemical-rich herbs, including Japanese knotweed, cat’s claw, andrographis, Chinese skullcap, reishi, cordyceps, and garlic, may also offer a layer of protection and support overall health before or after a tick bite.

Dr. Rawls is a physician who overcame Lyme disease through natural herbal therapy. You can learn more about Lyme disease in Dr. Rawls’ new best selling book, Unlocking Lyme. You can also learn about Dr. Rawls’ personal journey in overcoming Lyme disease and fibromyalgia in his popular blog post, My Chronic Lyme Journey.

REFERENCES
1. Abdelmaseih R, Ashraf B, Abdelmasih R, Dunn S, Nasser H. Southern Tick-Associated Rash Illness: Florida’s Lyme Disease Variant. Cureus. 2021;13(5):e15306. Published 2021 May 28. doi:10.7759/cureus.15306
2. Lyme Disease. Mayo Clinic website. https://www.mayoclinic.org/diseases-conditions/lyme-disease/symptoms-causes/syc-20374651
3. Lyme Disease Maps: Most Recent Year. Centers for Disease Control and Prevention website. https://www.cdc.gov/lyme/datasurveillance/maps-recent.html
4. Slide show: Guide to different tick species and the diseases they carry. Mayo Clinic website. https://www.mayoclinic.org/tick-species/sls-20147911?s=7
5. Southern Tick-Associated Rash Illness. Centers for Disease Control and Prevention website. https://www.cdc.gov/stari/index.html
6. Upstate tick expert predicts huge season for ticks. Upstate Medical University website. https://www.upstate.edu/news/articles/2022/2022-03-24-ticks.php
7. Wormser GP, Masters E, Liveris D, et al. Microbiologic evaluation of patients from Missouri with erythema migrans. Clin Infect Dis. 2005;40(3):423-428. doi:10.1086/427289

Category:

Ehrlichiosis, Lyme, Rocky Mountain Spotted Fever, Viruses

Deadly Disease Spread By Ticks Found in Queensland For the First Time

https://www.9news.com.au/national/brown-dog-tick-found-in-queensland-pet-owner-warning

Deadly disease spread by ticks found in Queensland for the first time

By Savannah Meacham

Oct 5, 2022

A deadly disease spread by ticks has arrived in Queensland for the first time, sparking a warning for pet owners to remain vigilant this summer.

Canine Ehrlichia is spread by brown dog ticks and can go undetected for weeks.

The dangerous disease has been detected in North Queensland. (See link for article)

___________________

SUMMARY:

Ehrlichiosis can cause serious illness, including death.
Symptoms include fever, lethargy, loss of appetite, weight loss, cloudy eyes/conjunctivitis, pain and stiffness, bleeding disorders including bruising, and swelling of the chest or front legs.
It can lay dormant but attacks the immune system, even infecting bone marrow making treatment difficult.
It’s important to vigilantly and regularly check pets for ticks including in between toes, ears, nose, mouth, and stomach.
It’s also important to keep diligent with tick treatments and to avoid shrubby areas, although ticks can be found in wide-open spaces.

According to this, the disease seems to be particularly severe in German Shepherds and Doberman Pinschers; however, people can be infected with it as well, although the article states the disease is ONLY transmitted through tick bites, not through contact….

I remain skeptical of this tenet.

For more:

https://madisonarealymesupportgroup.com/2018/03/09/dogs-ehrlichiosis/
https://madisonarealymesupportgroup.com/2018/07/24/oklahoma-ehrlichiosis-central/
https://www.lymedisease.org/ehrlichiosis-tick-borne-disease-no-one-heard/ Preliminary studies suggest that the vector for the newest species E. muris-like (EML) found in Wisconsin and Minnesota is the deer tick (Ixodes scapularis), and in a recent publication, researchers found that 40% of Pacific Coast ticks were carrying three different types of Rickettsia bacteria. (8, 13)
https://madisonarealymesupportgroup.com/2020/03/14/dogs-with-proteinuria-found-to-have-exposure-to-rickettsia-ehrlichia-and-lyme-disease/
https://madisonarealymesupportgroup.com/2020/06/15/ehrlichiosis-found-in-australian-dogs-can-also-infect-humans/
https://madisonarealymesupportgroup.com/2020/11/17/novel-rickettsia-species-infecting-dogs-united-states/
https://madisonarealymesupportgroup.com/2019/04/12/tick-prevention-2019/

Category:

Ehrlichiosis, Prevention, Ticks, Uncategorized

Emerging Tick Borne Diseases in Australia

http://

Emerging Tick Borne Diseases in Australia

Aug. 1, 2022

Dr. Peter Mayne

This recently uploaded video is about a 2011 paper found here: https://www.researchgate.net/publication/221768948_Emerging_incidence_of_Lyme_borreliosis_babesiosis_bartonellosis_and_granulocytic_ehrlichiosis_in_Australia

Borrelia burgdorferi, the causative agent of Lyme disease (LD), and Babesia, Bartonella, and Ehrlichia species (spp.) are recognized tick-borne pathogens in humans worldwide. Using serology and molecular testing, the incidence of these pathogens was investigated in symptomatic patients from Australia. Sera were analyzed by an immunofluorescent antibody assay (IFA) followed by immunoglobulin (Ig)G and IgM Western blot (WB) assays. Both whole blood and sera were analyzed for detection of specific Borrelia spp. DNA using multiplex polymerase chain reaction (PCR) testing. Simultaneously, patients were tested for Babesia microti, Babesia duncani, Anaplasma phagocytophilum, Ehrlichia chaffeensis, and Bartonella henselae infection by IgG and IgM IFA serology, PCR, and fluorescent in situ hybridization (FISH). Most patients reported symptom onset in Australia without recent overseas travel.

28 of 51 (55%) tested positive for LD
Of 41 patients tested for tick-borne coinfections, 13 (32%) were positive for Babesia spp
nine (22%) were positive for Bartonella spp
Twenty-five patients were tested for Ehrlichia spp. and (16%) were positive for Anaplasma phagocytophilum while none were positive for Ehrlichia chaffeensis.
Among the 51 patients tested for LD, 21 (41%) had evidence of more than one tick-borne infection.
Positive tests for LD, Babesia duncani, Babesia microti, and Bartonella henselae were demonstrated in an individual who had never left the state of Queensland.
Positive testing for these pathogens was found in three others whose movements were restricted to the east coast of Australia.

The study identified a much larger tick-borne disease (TBD) burden within the Australian community than hitherto reported. In particular, the first cases of endemic human Babesia and Bartonella disease in Australia with coexisting Borrelia infection are described, thus defining current hidden and unrecognized components of TBD and demonstrating local acquisition in patients who have never been abroad.

_________________

**Comment**

I repost this because “the powers that be” in Australia continue to downplay and deny that Lyme exists in Australia, despite the plethora of suffering patients and many doctors who state otherwise. (Remember, there are many, many strains of borrelia or Lyme)

Please see this recent article, “Growing evidence of an emerging tick-borne disease that causes a Lyme-like
illness for many Australia patients,” by Professor Noel. Campbell

It appears Mayne has also been disciplined for his stance on Lyme, like many other LLMDs.

Mayne states he has absolute proof that Lyme is in Australia as tissue samples at the bite sites that he took from two patients were positive for Lyme from DNA analysis.

Category:

Babesia, Bartonella, Ehrlichiosis, Lyme, research, Uncategorized

New Pathogens Found in Oklahoma Ticks

https://www.liebertpub.com/doi/10.1089/vbz.2021.0057

Detection of Borrelia miyamotoi and Powassan Virus Lineage II (Deer Tick Virus) from Odocoileus virginianus Harvested Ixodes scapularis in Oklahoma

Russell Smalley IV , Haris Zafar, John Land, Asma Samour , Dylan Hance

and Robert E. Brennan

Published Online:19 Apr 2022https://doi.org/10.1089/vbz.2021.0057

Abstract

Odocoileus virginianus (white-tailed deer) is the primary host of adult Ixodes scapularis (deer tick). Most of the research into I. scapularis has been geographically restricted to the northeastern United States, with limited interest in Oklahoma until recently as the I. scapularis populations spread due to climate change. Ticks serve as a vector for pathogenic bacteria, protozoans, and viruses that pose a significant human health risk. To date, there has been limited research to determine what potential tick-borne pathogens are present in I. scapularis in central Oklahoma. Using a one-step multiplex real-time reverse transcription-PCR, I. scapularis collected from white-tailed deer was screened for Anaplasma phagocytophilum, Borrelia burgdorferi, Borrelia miyamotoi, Babesia microti, and deer tick virus (DTV). Ticks (n = 394) were pooled by gender and life stage into 117 samples. Three pooled samples were positive for B. miyamotoi and five pooled samples were positive for DTV. This represents a minimum infection rate of 0.8% and 1.2%, respectively. A. phagocytophilum, B. burgdorferi, and B. microti were not detected in any samples. This is the first report of B. miyamotoi and DTV detection in Oklahoma I. scapularis ticks. This demonstrates that I. scapularis pathogens are present in Oklahoma and that further surveillance of I. scapularis is warranted.

____________________

**Comment**

A few points:

This article is based upon the faulty premise that somehow “climate change” is causing tick and disease proliferation. This has been proven to be false yet is continually regurgitated as truth. This; however, does not mean “the powers that be” are not committing heinous acts of “climate engineering” which IS causing very real destruction of life.
- This recent article proves Spain has admitted recently spraying deadly chemtrails as part of a secret UN program to fight COVID.
- Four state meteorological agency whistleblowers announced in 2015 that planes were regularly spraying lead dioxide, silver iodide, and diatomite throughout Spain to ward off rain and allow temperatures to rise to create a summery climate for tourism as well as the agricultural sector – producing cold drops of great intensity.
We’ve also been told ad nauseum that Lyme doesn’t exist in Oklahoma and while this research also didn’t find it, it did discover B miyamotoi which symptoms are similar to Lyme. But again, just because they didn’t find it, doesn’t mean it isn’t there. The black legged tick is abundant in Oklahoma.
Oklahoma is Ehrlichiosis Central and has many other tick-borne diseases:
- spotted fever rickettsiosis
- Rocky Mountain spotted fever
- STARI (which many experts tell me is simply Lyme)
- Tularemia
- Heartland Virus
- Tick paralysis
- Anaplasmosis

Category:

Anaplasmosis, Borrelia Miyamotoi (Relapsing Fever Group), Ehrlichiosis, Lyme, research, Rickettsia, Rocky Mountain Spotted Fever, Ticks, Tularemia, Viruses

Madison Area Lyme Support Group

Archive for the ‘Ehrlichiosis’ Category

3 Reasons Lyme/MSIDS Patients Remain Sick: Dormancy/Persisters, Biofilm, Co-Infection

Metamorphoses of Lyme disease spirochetes: phenomenon of Borrelia persisters

The Emerging Role of Microbial Biofilm in Lyme Neuroborreliosis

Serological and PCR evidence of Infection in 105 Patients with SPPT

Abstract

Isn’t that sad?

STARI: The Southern Tick-Borne Illness That Can Mimic Lyme Disease

STARI: The Southern Tick-Borne Illness That Can Mimic Lyme Disease

What Is STARI?

Where Is It Most Commonly Found?

What Are the Symptoms?

STARI vs. Lyme: What Are the Key Differences?

How Is It Diagnosed and Treated?

How to Protect Yourself

Bottom Line

Deadly Disease Spread By Ticks Found in Queensland For the First Time

Deadly disease spread by ticks found in Queensland for the first time

Emerging Tick Borne Diseases in Australia

Emerging Tick Borne Diseases in Australia

New Pathogens Found in Oklahoma Ticks

Detection of Borrelia miyamotoi and Powassan Virus Lineage II (Deer Tick Virus) from Odocoileus virginianus Harvested Ixodes scapularis in Oklahoma

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