Archive for the ‘Rocky Mountain Spotted Fever’ Category

Rocky Mountain Spotted Fever is Not the Only Rickettsiosis

https://www.galaxydx.com/rickettsiosis_rocky_mountain_spotted_fever/

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Rocky Mountain Spotted Fever is not the only Rickettsiosis

Rickettsia species cause moderate to severe symptoms ranging from fever to internal hemorrhaging.

The symptoms and their severity depend on which species is present and how long the patient has been infected. Like Bartonella and Ehrlichia, Rickettsia species are intracellular bacteria, which means that they can live inside cells in the host.

Rocky Mountain spotted fever (RMSF) is perhaps the most notorious of the rickettsioses (Rickettsia-related illnesses) reported in the United States. The CDC started tracking cases back in the early 20th century because of patients’ high fatality rate. Researchers soon found that the causative agent was R. rickettsii, which was transmitted primarily by Dermacentor ticks like the American dog tick.

The fatality rate for RMSF has decreased tremendously since the invention of doxycycline in the 1940s. However, reported cases have risen since CDC criteria for reporting expanded in 2010 to include Rickettsia species that cause similar yet milder symptoms. Our new Rickettsia species webpage is designed to give you an overview of rickettsioses found around the world and how Galaxy Diagnostics tests can detect the spectrum of species that cause them.

Figure 1: Reported cases and case fatality rates of spotted fever rickettsioses

Rocky Mountain Spotted Fever became a nationally notifiable disease in the United States in the 1920s. In 2010, the criteria expanded to include additional Rickettsia species that cause spotted fevers (CDC).

The rise in reported cases of rickettsiosis and newly discovered species has created a need for diagnostics with increased specificity. R. parkeri, R. philipii, and R. akari cause similar symptoms, but conventional tests that are available often cannot discern which species is present.

Serology is the most common method used for laboratory evidence of a Rickettsia species infection. Labs will use antigens from a certain species to test for an immune response in a blood sample, but the chances of cross-reactivity are high because the bacteria are closely related. This means that the test for a certain species could be positive, but it actually may be a different species that is present. Furthermore, serology results can be hard to interpret because antibodies could indicate current or past infection.

Galaxy Diagnostics offers highly sensitive and specific PCR testing for pathogenic Rickettsiaspecies. If DNA from Rickettsia is detected, the sample is DNA sequenced and the exact species is determined.

References

Centers for Disease Control and Prevention. (2019). Rocky Mountain spotted fever (RMSF). Retrieved from https://www.cdc.gov/rmsf/index.html

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For more:  https://madisonarealymesupportgroup.com/2018/09/14/rocky-mountain-spotted-fever-rmsf/

https://madisonarealymesupportgroup.com/2018/08/16/new-tick-causes-epidemic-of-rmsf/  It’s usually spread by the American dog tick and the closely related Rocky Mountain wood tick. But in recent years the bacterial infection has also been spread by the brown dog tick — a completely different species.

https://madisonarealymesupportgroup.com/2018/06/12/georgia-mom-warns-others-after-son-contracts-rocky-mountain-spotted-fever-after-tick-bite/

https://madisonarealymesupportgroup.com/2018/07/10/first-rmsf-death-in-wisconsin/

https://madisonarealymesupportgroup.com/?s=rickettsia

  • 1st detection of Rickettsia Africae & Tropical Bona Tick Found in France
  • Rickettsia found in ticks on Brazilian snakes
  • Tick bite in ear gave UK teacher Rickettsia Typhus infection
  • 30% Finnish ticks carry at least 1 pathogen & Candidas Rickettsia Tarasevichiae found for the 1st time
  • Study finds Q Fever & Rickettsia (Typhus) in Australian Ticks & people

 

 

Category:

Rickettsia, Rocky Mountain Spotted Fever, Testing, Ticks, Uncategorized

Tularemia in Minnesotan Ticks

https://www.liebertpub.com/doi/abs/10.1089/vbz.2018.2388

Prevalence of Francisella tularensis in Dermacentor variabilis Ticks, Minnesota, 2017

Tory Whitten, Courtney Demontigny, Jenna Bjork, Mandy Foss, Molly Peterson, Joni Scheftel, Dave Neitzel, Maureen Sullivan, and Kirk Smith
Published Online:13 Feb 2019 https://doi.org/10.1089/vbz.2018.2388

Abstract

Introduction: The prevalence of Francisella tularensis in Minnesota ticks is unknown. Ticks collected at seven sites were tested to determine the infection prevalence of F. tularensis in Dermacentor variabilis in Minnesota.

Materials and Methods: Ticks were collected from two properties at an epizootic site and at five long-term tick research sites. Ticks were pooled by species, sex, date, and site with a maximum of 10 ticks per pool. Ticks were bisected and homogenized; DNA from supernatant was extracted and tested by real-time PCR (RT-PCR). Twice, additional ticks were collected for bacterial culture and isolation of F. tularensis. Proportion of positive pools and minimum infection rate (MIR) were calculated.

Results: A total of 3527 ticks were tested for F. tularensis including 1601 male D. variabilis and 1926 female D. variabilis. Across all sites, 128 (34%) of 378 pools were RT-PCR positive for F. tularensis. Of 128 positive pools, F. tularensis from 96 (75%) was identified as type A; F. tularensis from 32 pools was unable to be subtyped. The overall MIR was 3.6%. The MIR was significantly lower at the epizootic site compared with Morrison County 1 (3.9% vs. 7.2%; p = 0.02) but did not differ between the epizootic site and Pine County 1 (3.9% vs. 2.1%; p = 0.49). Within the epizootic site, the MIR was significantly higher at Washington County 2 compared with the adjacent property (5.7% vs. 2.3%; p < 0.001). F. tularensis was cultured from 6 (15%) of 40 pools.

Conclusions: F. tularensis was found in ticks at a majority of sites tested. The MIR of F. tularensis in D. variabilis ticks in Minnesota varied geographically. Our findings support the hypothesis that D. variabilis plays an important role in the natural history of tularemia in Minnesota. Further ecologic studies are needed to fully understand the importance of tick species in the maintenance and transmission of F. tularensis in Minnesota.

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**Comment**

The Dermacentor variabilis tick is a hard bodied tick, also known as the American Dog tick or Wood tick and is widely known.  It transmits Rocky Mountain spotted fever (RMSF) and tularemia to humans as well as canine tick paralysis to dogs.  http://edis.ifas.ufl.edu/in781

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Dorsal view of American dog ticks, Dermacentor variabilis (Say), with male on left, and female on right.  Credit: J.F. Butler, University of Florida

It was been suggested that adult ticks move to the edge of the roads and trails in an attempt to find a host, or “quest.” Some have hypothesized that because many animals typically follow trails, they leave an odor that attracts these ticks causing them to move toward and quest alongside trails in attempts to find a host (Mcnemee et al. 2003).

More on Tularemia:  https://madisonarealymesupportgroup.com/2016/10/25/of-rabbits-and-men/ 

https://madisonarealymesupportgroup.com/2018/09/28/after-tularemia-death-experts-stress-education/

https://madisonarealymesupportgroup.com/2018/08/07/tularemia-hunting-dogs-as-possible-vectors/

https://madisonarealymesupportgroup.com/2018/02/27/tularemia-infected-ticks-found-on-sorrento-valley-trail-in-ca/

https://madisonarealymesupportgroup.com/2018/03/07/hantavirus-tularemia-warnings-issued-in-san-diego-county/

https://madisonarealymesupportgroup.com/2018/09/19/glandular-tularemia/

Normally thought of as inhabiting areas east of the Rocky Mountains, the Wood tick is obviously defying entomology maps and traipsing all over – from Minnesota to Missouri, California, and most probably everywhere in-between.

I remember hearing Timothy Lepore, MD, FACS, surgeon at Nantucket Cottage Hospital, at a Lyme conference.  He explained that Tularemia is also a disease of those who work with the land such as landscapers and farmers, as well as those who get bit by a tick. There are cases reported in every state but Hawaii, and many other wild and domestic animals can be infected. The highest rates of infection are in Arkansas.  Please see this link for more details but know that this is a bioweaponized pathogen:  https://madisonarealymesupportgroup.com/2016/10/25/of-rabbits-and-men/  The WHO estimates that an aerosol dispersal of 50 kg of F. tularensis over an area with 5 million people would result in 25,000 incapacitating casualties including 19,000 deaths.

Transmission: Transmission can occur through the skin or mucous membranes when handling infected animals as well as through tick bite, contact with fluids from infected deer flies, mosquitoes or ticks, handling or eating undercooked rabbit, drinking contaminated water, inhaling dust from contaminated soil, and handling contaminated pelts or paws of animals. It can also be inhaled from infected hay, grain, or soil. Dr. Lepore had patients who contracted it from their pet dog who shook rain water on them after chewing on a dead rabbit, as well as from folks eating road kill, a person who held sick animals, and a gentleman who slept with his pet bunny.

Another reminder – don’t sleep with pets!
The fact that 35% of Minnesotan ticks are infected with Tularemia is concerning.  Spread the word.

 

 

 

 

Category:

research, Rocky Mountain Spotted Fever, Ticks, Transmission, Tularemia

North Dakota Tick Survey Sees Large Uptick of Samples. Here’s What the Health Department Found

https://www.thedickinsonpress.com/lifestyle/health/4556529-north-dakota-tick-survey-sees-large-uptick-samples-heres-what-health

North Dakota tick survey sees large uptick of samples. Here’s what the health department found.

By Kim Fundingsland / Minot Daily News on Jan 14, 2019 

ticks1_0

The American Dog tick was the most common tick surveyed in 2018 by the North Dakota Department of Health. This adult female is a known carrier of Rocky Mountain spotted fever.   submitted photo
BISMARCK – Those creepy, crawly creatures are living up to their nasty reputation. In brief, the summary of a second season of a statewide survey of ticks confirms what most people fear – a high percentage of the bloodsucking, pincer pests are carriers of disgusting diseases that are easily transmitted to hosts.

 

The North Dakota Department of Health first ventured into tick surveillance in 2017 by collecting and testing a relatively small sample of ticks. The ticks in the sample were provided with the help of veterinarians and zoos in the state. The program was significantly expanded in 2018 with active participation from 37 veterinarians, four zoos, North Dakota Game and Fish, Department of Agriculture Wildlife Services and at least one individual.

“They all submitted ticks, which was a huge help,”said Laura Cronquist, NDDOH division of disease control. “We had more coverage throughout the state in 2018, which was real nice.”

Of the 13,640 ticks collected and sent to the state laboratory for disease testing, nearly half were contributed by a single interested individual – John Heiser of Grassy Butte. In all, ticks were submitted from 25 counties in the state.

“We had more participation last year, which was awesome,” said Cronquist. “More ticks were submitted. Our project is really unique for our area.”

The state’s most common tick is the American Dog tick. The dog tick and Rocky Mountain wood tick, which is also found within the state, are closely related. Both are known for their speciality, carrying the dreaded Rocky Mountain spotted fever virus.

Rocky Mountain spotted fever symptoms include stomach pain, nausea, vomiting, loss of appetite and muscle pain. Delayed treatment may lead to severe illness or death. Some Rocky Mountain spotted fever victims may suffer irreversible hearing loss, paralysis, mental disability and damage to blood vessels which could lead to amputation of extremities. Fourteen cases of Rocky Mountain spotted fever were reported in the state in 2017.

There’s another tick present in North Dakota with a well-deserved and ugly reputation too. A surprising number of them were collected in 2018.

“We ended up with more deer ticks from across the state,” noted Cronquist.

While the number of deer ticks submitted to the NDDOH was small in comparison to the number of other ticks, just 51, they were found in 22 of the 25 counties surveyed, including Ward County. Deer ticks are are known carriers of Lyme disease, 56 cases of which were reported in the state in 2017. In addition, deer ticks are believed to have transmitted 17 cases of anaplasmosis and one case of Powassan in 2017.

The symptoms of anaplasmosis are similar to Rocky Mountain spotted fever but can include chills, cough and confusion. Severe cases can lead to difficulty breathing, hemorrhage, kidney failure and disrupt various functions of the nervous system.

Fortunately, Powassan transmission from ticks remains quite rare in North Dakota. It is closely related to West Nile disease. A tick can transmit Powassan in as little as 15 minutes after biting a human. About 10 percent of Powassan cases result in death. According to the NDDOH report on the 2018 study, statistics show that approximately half of Powassan survivors have permanent neurologic conditions including headaches, muscle wasting and memory problems.

The Lone Star tick, whose range is primarily the southern and eastern United States, and has been linked to red meat allergies, is believed to be expanding its range. However, Lone Star ticks remain extremely rare in North Dakota.

“That’s correct,” said Cronquist. “Two years ago two were found. Last year just one and it’s unknown how they got here. They are not all that concerning yet.”

The state was divided into eight regions for the tick surveillance survey. Tick pools from each region, consisting of up to 20 ticks each, were tested for the presence of several diseases. Of the 176 pools made up of American Dog ticks and Rocky Mountain wood ticks, 106 tested positive for disease carrying pathogens. Half of the deer tick pools tested positive.

According to the NDDOH report, ticks can transfer some pathogens to their hosts in as little as 15 minutes. Some pathogens require that the tick to be attached from 24 to 48 hours. When a tick bites into flesh it inserts a feeding tube into the incision which enables the transmission of disease.

Complete results and information regarding the 2018 tick surveillance project can be found on the NDDOH website.

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For more:  https://madisonarealymesupportgroup.com/2018/07/22/citizen-scientists-help-track-tick-borne-illness-exposure/

https://madisonarealymesupportgroup.com/2018/04/10/canadian-citizen-scientists-helping-with-tick-surveillance/

https://madisonarealymesupportgroup.com/2018/10/26/scientists-high-school-students-find-new-pathogens-hiding-in-indiana-ticks/

https://madisonarealymesupportgroup.com/2018/10/22/tick-project-takes-a-deeper-look-at-disease/

Category:

Activism, Anaplasmosis, Lyme, research, Rocky Mountain Spotted Fever, Ticks, Transmission, Viruses

HHS Working Group Calls for Tick-Borne Disease Strategic Plan

https://ohsonline.com/articles/2018/11/15/hhs-working-group-calls-for-strategic-plan.aspx?m=1

HHS Working Group Calls for Tick-Borne Disease Strategic Plan

The Tick-Borne Disease Working Group, a federal advisory committee established by Congress in the 21st Century Cures Act, issued its first report Nov. 14.

  • Nov 15, 2018

The Tick-Borne Disease Working Group, an HHS advisory committee established by Congress in the 21st Century Cures Act, issued its first report Nov. 14. The document recommends that the National Institutes of Health create an NIH tick-borne disease strategic plan to address these diseases, including all stages of Lyme disease; that funding be dedicated within CDC to study babesiosis incidence; that the Department of Defense begin a study of tick-borne disease incidence among active-duty service members and their dependents; and that the Veterans Administration begin a study of tick-borne disease incidence and prevalence among veterans and eligible family members.

The DoD recommendation says the department should compile data on the impact of tick-borne diseases on military readiness and should create education and preparedness programs that address the unique risks service members face during training and on deployment and by their families.

The working group consists of 14 people appointed by the HHS secretary in December 2017. They include scientists, physicians, patients, patient advocates, and representatives of HHS, DoD, and the Office of Management and Budget.

Their report calls Lyme disease a growing public health threat, with about 300,000 new cases reported in the United States every year. A map of U.S. states in the report indicates the hardest-hit states, those reporting more than 12,856 cases each in 2004-2016, include Minnesota, Wisconsin, Pennsylvania, Maryland, Virginia, New York, New Jersey, Massachusetts, and Maine.

Most Lyme disease patients who are diagnosed and treated early can fully recover, but 10-20 percent of patients suffer from persistent symptoms, which for some are chronic and disabling. The report says while studies indicate Lyme disease costs approximately $1.3 billion annually in direct medical costs in the United States,

“a comprehensive understanding of the full economic and societal cost remains unknown. It is likely orders of magnitude higher and potentially a $50- to $100-billion-dollar problem for the United States, although more research is needed.”

On Nov. 14, CDC reported that new data show tick-borne diseases are again on the rise, and that in 2017, state and local health departments reported a record number of cases of tick-borne disease to CDC. Cases of Lyme disease, anaplasmosis/ehrlichiosis, spotted fever rickettsiosis (including Rocky Mountain spotted fever), babesiosis, tularemia, and Powassan virus disease all increased—from 48,610 cases in 2016 to 59,349 cases in 2017. However, the 2017 data capture only a fraction of the number of people with tick-borne illnesses, according to CDC. According to the agency, between 2004 and 2016, the number of reported cases of tick-borne disease doubled and researchers discovered seven new tick-borne pathogens that infect people. The new data are from the Notifiable Disease Surveillance System.

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**Comment**

Bartonella is never mentioned yet it is a HUGE player in this madness.  There is little to no research showing how concurrent infection is playing into this.  Here’s a few recent studies:  https://madisonarealymesupportgroup.com/2018/11/17/investigating-disease-severity-in-an-animal-model-of-concurrent-babesiosis-lyme-disease/  THESE FINDINGS SUGGEST THAT B. BURGDORFERI COINFECTION ATTENUATES PARASITE GROWTH WHILE B. MICROTI PRESENCE EXACERBATES LYME DISEASE-LIKE SYMPTOMS IN MICE.

https://madisonarealymesupportgroup.com/2018/10/30/study-shows-lyme-msids-patients-infected-with-many-pathogens-and-explains-why-we-are-so-sick/  For the first time, Garg et al. show a 85% probability for multiple infections including not only tick-borne pathogens but also opportunistic microbes such as EBV and other viruses.
I’m thankful they included Bartonella as that one is often omitted but definitely a player. I’m also thankful for the mention of viruses as they too are in the mix. The mention of the persister form must be recognized as well as many out there deny its existence.

Key Quote:

“Our findings recognize that microbial infections in patients suffering from TBDs do not follow the one microbe, one disease Germ Theory as 65% of the TBD patients produce immune responses to various microbes.”

But there is another important point.

According to this review, 83% of all commercial tests focus only on Lyme (borrelia), despite the fact we are infected with more than one microbe. The review also states it takes 11 different visits to 11 different doctors, utilizing 11 different tests to be properly diagnosed. https://www.news-medical.net/news/20181101/Tick-borne-disease-is-multiple-microbial-in-nature.aspx?

We have many problems, Houston, and much work is being left undone.

 

 

 

Category:

Activism, Anaplasmosis, Babesia, Lyme, Rickettsia, Rocky Mountain Spotted Fever, Tularemia, Viruses

Study Shows Lyme/MSIDS Patients Infected With Many Pathogens and Explains Why We Are So Sick

**UPDATE May 2022**

This important article was retracted in Feb. 2022 due to:

The main method utilised in this study is an ELISA assay. An investigation by the University of Jyväskylä, Finland, has concluded that the patient selection and description in this Article, and in an unpublished report validating the methods used, do not justify the results presented. The Editors therefore no longer have confidence in the results and conclusions presented in this Article.

Please note that the scientists disagree with the retraction:

Kunal Garg, Leena Meriläinen, Heidi Pirttinen, Marco Quevedo-Diaz, Stephen Croucher and Leona Gilbert disagree with this retraction. Ole Franz did not respond to correspondence from the Editors about this retraction.

I can only surmise that ‘the powers that be’ are not happy with the attention this work has gotten and therefore want to erase it from history.

https://www.nature.com/articles/s41598-018-34393-9?fbclid=IwAR3k-zPy2rJu8OuFl3HHqJ0twLPJvQrxiIUALUs0T-BuuJ50_1VQVwcflIQ (Please see comment at end of article)

Evaluating polymicrobial immune responses in patients suffering from tick-borne diseases

Kunal Garg, Leena Meriläinen, Ole Franz, Heidi Pirttinen, Marco Quevedo-Diaz, Stephen Croucher & Leona Gilbert
Scientific Reportsvolume 8, Article number: 15932 (2018)   https://doi.org/10.1038/s41598-018-34393-9

Abstract
There is insufficient evidence to support screening of various tick-borne diseases (TBD) related microbes alongside Borrelia in patients suffering from TBD. To evaluate the involvement of multiple microbial immune responses in patients experiencing TBD we utilized enzyme-linked immunosorbent assay. Four hundred and thirty-two human serum samples organized into seven categories followed Centers for Disease Control and Prevention two-tier Lyme disease (LD) diagnosis guidelines and Infectious Disease Society of America guidelines for post-treatment Lyme disease syndrome. All patient categories were tested for their immunoglobulin M (IgM) and G (IgG) responses against 20 microbes associated with TBD. Our findings recognize that microbial infections in patients suffering from TBDs do not follow the one microbe, one disease Germ Theory as 65% of the TBD patients produce immune responses to various microbes. We have established a causal association between TBD patients and TBD associated co-infections and essential opportunistic microbes following Bradford Hill’s criteria. This study indicated an 85% probability that a randomly selected TBD patient will respond to Borrelia and other related TBD microbes rather than to Borrelia alone.

A paradigm shift is required in current healthcare policies to diagnose TBD so that patients can get tested and treated even for opportunistic infections.
Please see link for full article.  Snippets below:

Introduction
Tick-borne diseases (TBDs) have become a global public health challenge and will affect over 35% of the global population by 20501. The most common tick-borne bacteria are from the Borrelia burgdorferi sensu lato (s.l.) group. However, ticks can also transmit co-infections like Babesia spp.2, Bartonella spp.3, Brucella spp.4,5,6,7,8, Ehrlichia spp.9, Rickettsia spp.10,11, and tick-borne encephalitis virus12,13,14. In Europe and North America, 4–60% of patients with Lyme disease (LD) were co-infected with Babesia, Anaplasma, or Rickettsia11,15,16. Evidence from mouse and human studies indicate that pathogenesis by various tick-borne associated microbes15,16,17 may cause immune dysfunction and alter, enhance the severity, or suppress the course of infection due to the increased microbial burden18,19,20,21,22. As a consequence of extensive exposure to tick-borne infections15,16,17, patients may develop a weakened immune system22,23, and present evidence of opportunistic infections such as Chlamydia spp.24,25,26,27, Coxsackievirus28, Cytomegalovirus29, Epstein-Barr virus27,29, Human parvovirus B1924, and Mycoplasma spp.30,31. In addition to tick-borne co-infections and non-tick-borne opportunistic infections, pleomorphic Borrelia persistent forms may induce distinct immune responses in patients by having different antigenic properties compared to typical spirochetes32,33,34,35. Nonetheless, current LD diagnostic tools do not include Borrelia persistent forms, tick-borne co-infections, and non-tick-borne opportunistic infections.

The two-tier guidelines36,37,38 for diagnosing LD by the Centers for Disease Control and Prevention (CDC) have been challenged due to the omission of co-infections and non-tick-borne opportunistic infections crucial for comprehensive diagnosis and treatment39,40. Emerging diagnostic solutions have demonstrated the usefulness of multiplex assays to test for LD and tick-borne co-infections41,42. However, these new technologies do not address seroprevalence of non-tick-borne opportunistic infections in patients suffering from TBD and they are limited to certain co-infections41,42. Non-tick-borne opportunistic microbes can manifest an array of symptoms24,29 concerning the heart, kidney, musculoskeletal, and the central nervous system as seen in patients with Lyme related carditis43, nephritis44, arthritis45, and neuropathy46, respectively. Therefore, Chlamydia spp., Coxsackievirus, Cytomegalovirus, Epstein-Barr virus, Human parvovirus B19, Mycoplasma spp., and other non-tick-borne opportunistic microbes play an important role in the differential diagnosis of LD24,29. As the current knowledge regarding non-tick-borne opportunistic microbes is limited to their use in differential diagnosis of LD, it is unclear if LD patients can present both tick-borne co-infections and non-tick-borne opportunistic infections simultaneously.

For the first time, we evaluate the involvement of Borrelia spirochetes, Borrelia persistent forms, tick-borne co-infections, and non-tick-borne opportunistic microbes together in patients suffering from different stages of TBD. To highlight the need for multiplex TBD assays in clinical laboratories, we utilized the Bradford Hill’s causal inference criteria47 to elucidate the likelihood and plausibility of TBD patients responding to multiple microbes rather than one microbe. The goal of this study is to advocate screening for various TBD microbes including non-tick-borne opportunistic microbes to decrease the rate of misdiagnosed or undiagnosed48 cases thereby increasing the health-related quality of life for the patients39, and ultimately influencing new treatment protocol for TBDs.

Results
Positive IgM and IgG responses by CDC defined acute, CDC late, CDC negative, PTLDS immunocompromised, and unspecific patients to 20 microbes associated with TBD (Fig. 1) were utilized to evaluate polymicrobial infections (Figs 2–4). Patient categories included CDC acute (n = 43), CDC late (n = 43), CDC negative (n = 46), PTLDS (n = 31), immunocompromised (n = 61), unspecific (n = 31), and healthy (n = 177).

Polymicrobial infections are present at all stages of tick-borne diseases.

Microbes include Borrelia burgdorferi sensu stricto, Borrelia afzelii, Borrelia garinii, Borrelia burgdorferi sensu stricto persistent form, Borrelia afzelii persistent form, Borrelia garinii persistent form, Babesia microti, Bartonella henselae, Brucella abortus, Ehrlichia chaffeensis, Rickettsia akari, Tick-borne encephalitis virus (TBEV), Chlamydia pneumoniae, Chlamydia trachomatis, Coxsackievirus A16 (CVA16), Cytomegalovirus (CMV), Epstein-Barr virus (EBV), Mycoplasma pneumoniae, Mycoplasma fermentans, and Human parvovirus B19 (HB19V).

In Fig. 2A, 51% and 65% of patients had IgM and IgG responses to more than one microbe, whereas 9% and 16% of patients had IgM and IgG responses to only one microbe, respectively. Immune responses to Borrelia persistent forms (all three species) for IgM and IgG were 5–10% higher compared to Borrelia spirochetes in all three species (Fig. 2B). Interestingly, the probability that a randomly selected patient will respond to Borrelia persistent forms rather than the Borrelia spirochetes (Fig. S2) is 80% (d = 1.2) for IgM and 68% for IgG (d = 0.7). Figure 2A and B indicated that IgM and IgG responses by patients from different stages of TBDs are not limited to only Borrelia spirochetes.

In Fig. 3 sub-inlets, more than 50% of the patients reacted to only the individual Borrelia strains suggesting that Borrelia antigens are not cross-reactive. If patients were cross-reacting among antigens, a larger percentage of the patients would be seen with the combination of all three species (Fig. S2). These results provide evidence to suggest that the inclusion of different Borrelia species and their morphologies in current LD diagnostic tools will improve its efficiency.

Discussions
The study outcome indicated that polymicrobial infections existed at all stages of TBD with IgM and IgG responses to several microbes (Fig. 2). Results presented in this study propose that infections in patients suffering from TBDs do not obey the one microbe one disease Germ Theory. Based on these results and substantial literature11,15,16,17,27,49,50,51 on polymicrobial infections in TBD patients, we examined the probability of a causal relationship between TBD patients and polymicrobial infections following Hill’s nine criteria47.

An average effect size of d = 1.5 for IgM and IgG (Fig. 4A) responses is considered very large52. According to common language effect size statistics53, d = 1.5 indicates 85% probability that a randomly selected patient will respond to Borrelia and other TBD microbes rather than to only Borrelia. Reports from countries such as Australia27, Germany49, Netherlands11, Sweden50, the United Kingdom51, the USA15,16, and others indicate that 4% to 60% of patients suffer from LD and other microbes such as Babesia microti and human granulocytic anaplasmosis (HGA). However, previous findings11,15,16,27,49,50,51 are limited to co-infections (i.e., Babesia, Bartonella, Ehrlichia, or Rickettsia species) in patients experiencing a particular stage of LD (such as Erythema migrans). In contrast, a broader spectrum of persistent, co-infections, and opportunistic infections associated with diverse stages of TBD patients have been demonstrated in this study (Fig. 2). From a clinical standpoint, the likelihood for IgM and IgG immune responses by TBD patients to the Borrelia spirochetes versus the Borrelia persistent forms, and responses to just Borrelia versus Borrelia with many other TBD microbes has been quantified for the first time (Fig. S2).

Borrelia pathogenesis could predispose individuals to polymicrobial infections because it can suppress, subvert, or modulate the host’s immune system18,19,20,21,22 to create a niche for colonization by other microbes54. Evidence in animals55 and humans11,15,16,27,49,50,51 frequently indicate co-existence of Borrelia with other TBD associated infections. Interestingly, IgM and IgG immune levels by patients to multiple forms of Borrelia resulted in immune responses to 14 other TBD microbes (Fig. 4B). In contrast, patient responses to either form of Borrelia (spirochetes or persistent forms) resulted in reactions to an average of 8 other TBD microbes (Fig. 4B). Reaction to two forms of Borrelia reflected an increase in disease severity indicating biological gradient for causation as required by Hill’s criteria47.

Multiple microbial infections in TBD patients seem plausible because ticks can carry more than eight different microbes depending on tick species and geography56,57. Moreover, Qiu and colleagues reported the presence of at least 18 bacterial genera shared among three different tick species and up to 127 bacterial genera in Ixodes persulcatus58. Interestingly, research indicates Chlamydia-like organism in Ixodes ricinus ticks and human skin59 that may explain immune responses to Chlamydia spp., seen in this study (Fig. 2). Additionally, prevalence of TBD associated co-infections such as B. abortus, E. chaffeensis, and opportunistic microbes such as C. pneumoniae, C. trachomatis, Cytomegalovirus, Epstein-Barr virus, and M. pneumoniae have been recorded in the general population of Europe and the USA (Table S2). However, true incidence of these microbes is likely to be higher considering underreporting due to asymptomatic infections and differences in diagnostic practices and surveillance systems across Europe and in the USA. More importantly, clinical evidence for multiple microbes has been reported in humans11,15,16,27,49,50,51, and livestock55 to mention the least. Our findings regarding the presence of polymicrobial infections at all stages of TBD further supports the causal relationship between TBD patients and polymicrobial infections (Fig. 2). Various microbial infections in TBD patients have been linked to the reduced health-related quality of life (HRQoL) and increased disease severity39.

An association between multiple infections and TBD patients relates well to other diseases such as periodontal, and respiratory tract diseases. Oral cavities may contain viruses and 500 different bacterial species60. Our findings demonstrate that TBD patients may suffer from multiple bacterial and viral infections (Fig. 4). In respiratory tract diseases, influenza virus can stimulate immunosuppression and predispose patients to bacterial infections causing an increase in disease severity61. Likewise, Borrelia can induce immunosuppression that may predispose patients to other microbial infections causing an increase in disease severity.

Traditionally, positive IgM immune reaction implies an acute infection, and IgG response portrays a dissemination, persistent or memory immunity due to past infections. Depending on when TBD patients seek medical advice, the level of anti-Borrelia antibodies can greatly vary as an Erythema migrans (EM) develops and may present with IgM, IgG, collective IgM/IgG, or IgA62. This study recommends both IgM and IgG in diagnosing TBD (Figs 5 and S4–S6) as unconventional antibody profiles have been portrayed in TBD patients. Presence of long-term IgM and IgG antibodies have been reported in LD patients that were tested by the CDC two-tier system. In 2001, Kalish and colleagues reported anti-Borrelia IgM or IgG persistence in patients that suffered from LD 10–20 years ago63. Similarly, Hilton and co-workers recorded persistent anti-Borrelia IgM response in 97% of late LD patients that were considered cured following an antibiotic treatment64.

Similar events of persistent IgM and IgG antibody reactions were demonstrated in patients treated for Borrelia arthritis and acrodermatitis chronica atrophicans65, chronic cutaneous borreliosis66, and Lyme neuroborreliosis67. A clear phenomenon of immune dysfunction is occurring, which might account for the disparities in LD patient’s antibody profiles and persistence. Borrelia suppresses the immune system by inhibition of antigen-induced lymphocyte proliferation18, reducing Langerhans cells by downregulation of major histocompatibility complex class II molecules on these cells19, stimulating the production of interleukin-10 and anti-inflammatory immunosuppressive cytokine20, and causing disparity in regulation and secretion of cytokines21. Other studies have demonstrated low production or subversion of specific anti-Borrelia antibodies in patients with immune deficiency status22.

In the USA alone, the economic healthcare burden for patients suffering from LD and ongoing symptoms is estimated to be $1.3 billion per year69. Additionally, 83% of all TBD diagnostic tests performed by the commercial laboratories in the USA accounted for only LD70. Globally, the commercial laboratories’ ability to diagnose LD has increased by merely 4% (weighted mean for ELISA sensitivity 62.3%) in the last 20 years71. This study provides evidence regarding polymicrobial infections in patients suffering from different stages of TBDs. Literature analyses and results from this study followed Hill’s criteria indicating a causal association between TBD patients and polymicrobial infections. Also, the study outcomes indicate that patients may not adhere to traditional IgM and IgG responses.

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**Comment**

For the first time, Garg et al. show a 85% probability for multiple infections including not only tick-borne pathogens but also opportunistic microbes such as EBV and other viruses.

I’m thankful they included Bartonella as that one is often omitted but definitely a player.  I’m also thankful for the mention of viruses as they too are in the mix.  The mention of the persister form must be recognized as well as many out there deny its existence.

Key Quote:  Our findings recognize that microbial infections in patients suffering from TBDs do not follow the one microbe, one disease Germ Theory as 65% of the TBD patients produce immune responses to various microbes.”

But there is another important point.

According to this review, 83% of all commercial tests focus only on Lyme (borrelia), despite the fact we are infected with more than one microbe.  The review also states it takes 11 different visits to 11 different doctors, utilizing 11 different tests to be properly diagnosed.  https://www.news-medical.net/news/20181101/Tick-borne-disease-is-multiple-microbial-in-nature.aspx?

This is huge.  Please spread the word.

Category:

Babesia, Bartonella, Borrelia Miyamotoi (Relapsing Fever Group), Ehrlichiosis, Heart Issues, Inflammation, Lyme, Parasites, research, Rickettsia, Rocky Mountain Spotted Fever, Testing, Tickborne Relapsing Fever, Ticks, Viruses