Archive for the ‘research’ Category

Seroepidemiological & Molecular Investigation of Spotted Fever Group Rickettsiae & Coxiella Burnetii in Sao Tome Island: A One Health Approach

https://www.ncbi.nlm.nih.gov/pubmed/31231971

Seroepidemiological and molecular investigation of spotted fever group rickettsiae and Coxiella burnetii in Sao Tome Island: A One Health approach.

Hsi TE1, Hsiao SW1, Minahan NT1, Yen TY1, de Assunção Carvalho AV2, Raoult D3, Fournier PE4,5, Tsai KH1,6.

Abstract

Spotted fever group rickettsiae (SFGR) and Coxiella burnetii are intracellular bacteria that cause potentially life-threatening tick-borne rickettsioses and Q fever respectively. Sao Tome and Principe (STP), small islands located in the Gulf of Guinea, recently experienced a dramatic reduction in the incidence of malaria owing to international collaborative efforts. However, unexplained febrile illnesses persist. A One Health approach was adopted to investigate exposure to SFGR and C. burnetii in humans and examine the diversity of these bacteria in ticks parasitizing domestic ruminants. A cross-sectional human serological study was conducted in Agua Grande district in Sao Tome Island from January to March 2016, and ticks were collected from farmed domestic ruminants in 2012 and 2016. In total, 240 individuals varying in age were randomly screened for exposure to SFGR and C. burnetii by indirect immunofluorescence assay. Twenty of 240 individuals (8.3%) were seropositive for SFGR (4 for Rickettsia africae and 16 for R. conorii) and 16 (6.7%) were seropositive for C. burnetii. Amblyomma astrion were collected exclusively in 2012, as were A. variegatum in 2016 and Rickettsia spp. were detected in 22/42 (52.4%) and 49/60 (81.7%) respectively. Sequence analysis of multiple gene targets from Rickettsia spp. detected in ticks suggests the presence of a single divergent R. africae strain (Sao Tome). While no ticks were found positive for C. burnetii, Coxiella-like endosymbionts were detected in nearly all ticks.

This is the first study in STP to provide serological evidence in humans of SFGR and C. burnetii and additional molecular evidence in ticks for SFGR, which may be responsible for some of the unexplained febrile illnesses that persist despite the control of malaria. Future epidemiological studies are needed to confirm the occurrence and risk factors associated with SFG rickettsioses and Q fever in both humans and animals.

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For more:  https://madisonarealymesupportgroup.com/2019/03/20/rocky-mountain-spotted-fever-is-not-the-only-rickettsiosis/

Great article on SFGR: https://www.galaxydx.com/rickettsia-spp/

C. burnetii:  https://madisonarealymesupportgroup.com/2019/03/28/human-tick-borne-diseases-in-australia/

https://madisonarealymesupportgroup.com/2018/10/18/study-finds-q-fever-rickettsia-typhus-in-australian-ticks-and-people/

https://madisonarealymesupportgroup.com/2018/02/03/understanding-q-fever-risk-to-minnesotans/  Excerpt: 

The CDC reports that 60% of cases are in patients without livestock contact (CDC unpublished data, 2010) and the need for health-care professionals to consider Q fever in the differential diagnosis in patients with a compatible illness, even in the absence of occupational risk or history of direct contact with animal reservoirs.

Supposedly, he United States ended its biological warfare program in 1969. When it did, C. burnetii was one of seven agents it had standardized as biological weapons.  https://en.wikipedia.org/wiki/Coxiella_burnetii

Q Fever can cause acute or chronic illness.

https://www.medscape.com/viewarticle/803800
Excellent video by Alicia Anderson, DVM, MPH on new CDC guidelines for Q Fever

https://madisonarealymesupportgroup.com/2019/06/24/other-arthropod-borne-bacteria-causing-nonmalarial-fever-in-ethiopia/  African patients presenting with fever but testing negative for malaria had DNA for these pathogens: Borrelia spp., Francisella spp. Rickettsia spp. and Bartonella. Thus, in this rural area of Africa, febrile symptoms could be due to bacteria transmitted by arthropods.

 

 

 

Category:

Q Fever, research, Rickettsia, Testing, Ticks

Volunteers Needed For Research – ME/CFS, MS, RA, & Post Cancer Fatigue

The Open Medicine Institute that is setting up the Lyme Clinic at Howard Young Medical Center in Woodruff, WI. is looking for children with lyme, ages 10-17 to participate in a study. The institute is paying $75 per-participant. They’re looking for adult lyme patients as well. You can contact Open Medicine as per-below. I believe they’ll mail kits to those out of the area.

Volunteers for Medical Study

Re: Myalgic Encephalomyelitis (ME)/Chronic Fatigue Syndrome (CFS)

Looking for patients diagnosed with Multiple Sclerosis, Post-Cancer Fatigue, or Rheumatoid Arthritis

Dear Volunteer,

The Open Medicine Institute (OMI) and the Centers for Disease Control (CDC) are running a study of “ill” individuals compared to CFS patients and “normal” healthy patients.

  • Eligible individuals may be asked to re-participate;
  • will be paid $75 for completing the study

We are asking for your help to ask anyone that you know between 18 and 70 years of age with one of the aforementioned diagnoses to help millions of ME/CFS individuals and loved ones.  Interested parties can sign up by emailing research123@openmedicineinstitute.org along with your contact information and availability to come into the OMI office at

319 North Bernardo Ave.

Mountain View, CA 94043

Volunteers are asked to do the following (at no cost):
  1. Fill out a set of online questionnaires via a secure patient portal (this can be used as your own electronic medical record and is yours for free to use on-going);
  2. visit the OMI Office for a physical exam;
  3. have a blood draw;
  4. collect saliva swabs done at home the day before the exam (home kit shipped upon appointment scheduled).
  5. Incentive payment will be mailed upon completion.

If you have any additional questions, please contact the research team at
research123@openmedicineinstitute.org or call (650) 433-8930 x 4005

 

 

Category:

Activism, research

Tickpocalypse: The Public Health Crisis Hiding in Plain Sight

https://medium.com/l/ticks

TICKPOCALYPSE

IS A GLOBAL LYME DISEASE PANDEMIC COMING? IT’S ALREADY HERE. LEARN WHAT YOU CAN DO ABOUT IT.
Special Report
“Pandemic” isn’t a word responsible health experts toss around lightly. It refers to an infectious disease that’s run rampant—and it’s near the top of the list of major threats to human health. When pandemics occur, newshounds and public health officials jump on it, alerting the masses (albeit sometimes too slowly). When they don’t, pandemics continue to spread unabated. That’s what’s happening now, according to a growing cadre of experts, with Lyme disease.
The worldwide tick population is exploding, and with it, the incidence of Lyme. The number of confirmed cases of the illness in the U.S. more than doubled in the two decades leading up to 2017, and rose 17% from 2016 to 2017 alone. It’s estimated that 300,000 people contract Lyme each year in the U.S., with victims found not just in traditionally tick-heavy areas like upstate New York and Maine, but in all 50 states and Washington, D.C. Lyme is also on the rise in Europe, Africa, and Asia. If all of that isn’t troubling enough, other tick-borne illnesses, like Rocky Mountain Spotted Fever—which experts say is significantly more dangerous than Lyme—are also becoming much more widespread.
“Tickpocalypse,” the collection of stories that follows, documents these looming threats, and shows you how to protect yourself and your family. It’s an eye-opening, and hopefully helpful, report.
Click on initial link for the following stories:

Tick, Tick, Tick….

What it’s Like to Have Lyme Disease Forever

Worrying About Worrying About Lyme disease

When Lyme Kills

What it’s Like to be a Creepy-Crawly Field Researcher

Know Your Enemy: The Black Legged Tick

When That Tick Bites

Lyme Prevention 101

The Mouse Cure 

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Category:

Activism, Lyme, research, Testing, Ticks

Polio-like Manifestation of Powassan Virus With Anterior Horn Cell Involvement, Canada

https://wwwnc.cdc.gov/eid/article/25/8/19-0399_article

Volume 25, Number 8—August 2019
Research Letter

Polio-like Manifestation of Powassan Virus Infection with Anterior Horn Cell Involvement, Canada

Picheca C, Yogendrakumar V, Brooks JI, Torres C, Pringle E, Zwicker J. Polio-like manifestation of Powassan virus infection with anterior horn cell involvement, Canada. Emerg Infect Dis. 2019 Aug [date cited]. https://doi.org/10.3201/eid2508.190399

DOI: 10.3201/eid2508.190399

Original Publication Date: 6/3/2019

Abstract

Evidence of spinal cord involvement in Powassan virus infection is largely limited to mouse models. We report a case of a polio-like illness caused by Powassan virus infection in a 62-year-old man in Canada. Magnetic resonance imaging showed T2 hyperintensities in the anterior horns of the cervical spinal cord.

Powassan virus (POWV) is a tickborne flavivirus, named after Powassan, Ontario, Canada, the location of the first documented human infection in 1958 (1). Since then, ≈150 cases of POWV infection have been reported globally, and incidence has increased over time. A total of 125 POWV cases have been identified since 2008, 33 (26%) in 2017 (2). In Canada, most reported POWV infections have been in the Great Lakes regions. A small number of cases have been reported in the Maritime provinces (3).

POWV is transmitted by members of the Ixodes genus of ticks, including I. cookei and the more opportunistic and aggressive I. scapularis. POWV has 2 lineages; lineage 2 (deer tick virus) has emerged quickly in parts of North America, along with the expanding range of I. scapularis ticks.

POWV infection typically begins with prodromal symptoms including fever, nausea, headache, and myalgia. Central nervous system involvement includes an altered level of consciousness, paralysis, or ophthalmoplegia (4). POWV encephalitis has a 10% mortality rate, and <50% of survivors suffer residual deficits (5). Studies with mice have demonstrated that POWV can affect motor neurons in the anterior horns of the spinal cord (6). These same neurons are affected by poliovirus, West Nile virus, and enterovirus D68 (7). However, POWV infection with cord involvement in humans is not well documented; 1 human case demonstrated motor neuron pathology after POWV lineage 2 infection (8), and a second case with suspected motor neuronopathy was reported in 2018 (9).

We present the case of a 62-year-old man living in urban Ontario who experienced nausea, vomiting, and abdominal pain while vacationing in rural Newfoundland. He sought treatment at a hospital in Nova Scotia and experienced diplopia (double vision) and ataxia (movement disorder). A computed tomography scan of the head did not show any acute intracranial event.

The patient became febrile and experienced dysarthria (motor speech disorder) weakness, and respiratory distress. Cerebrospinal fluid analysis showed pleocytosis (159 × 106 total nucleated cells: 42% neutrophils, 43% lymphocytes) and elevated protein levels (0.79 g/L). He was started on empiric treatment with ceftriaxone, ampicillin, acyclovir, and dexamethasone. Results of tests for Cryptococcus, HIV, syphilis, Lyme disease, herpes simplex viruses 1 and 2, varicella zoster virus, and acid-fast bacilli were negative. Initial arbovirus serology results were negative. The patient worsened, requiring intubation and transfer to an intensive care unit.

Seven days after arriving at the hospital, the patient was unable to lift his arms and was transferred to a tertiary center in Ottawa, Ontario (The Ottawa Hospital). Neurologic exam showed facial and extraocular muscle weakness. He had flaccid tone and absent power in his upper extremities and reduced strength in his lower extremities. Sensation was preserved. Nerve conduction studies demonstrated diffusely low motor amplitudes, normal sensory amplitudes, and normal conduction velocities suggestive of a motor neuronopathy. Electromyography in the acute phase was not possible due to poor patient cooperation.

Thumbnail of Coronal T2-weighted image of cervical spinal cord in a patient with Powassan virus infection, Canada. A longitudinal hyperintensity of the anterior horn is visible from C3 to C6.Figure. Coronal T2-weighted image of cervical spinal cord in a patient with Powassan virus infection, Canada. A longitudinal hyperintensity of the anterior horn is visible from C3 to C6.

Results of paired convalescent arbovirus serology collected 1 month after symptom onset were positive. Testing at the National Microbiology Laboratory confirmed POWV infection (hemagglutination inhibition titer 1:80, plaque-reduction neutralization titer 1:160). Magnetic resonance imaging (MRI) of the brain showed infratentorial and supratentorial leptomeningeal enhancement. An MRI of the cervical spine showed increased T2-weighted signal involving the anterior horns from C3 to C6 (Figure; Appendix Figure).

Follow-up MRI of the brain and spine 1 month later showed interval resolution of leptomeningeal abnormalities, but abnormal signal within the anterior horn of the cervical spine remained. Electrodiagnostic testing repeated 6 months after symptom onset again showed normal sensory nerve conduction studies and abnormal motor nerve conduction studies. There was diffuse denervation in all cervical myotomes including the paraspinal muscles, confirming a motor neuronopathy consistent with a poliomyelitis-like presentation of POWV. We suspect that initial arbovirus serology was performed too early in the disease course, because paired serology 4 weeks later demonstrated seroconversion and confirmed diagnosis.

Our case shares similarities with a recently published report of POWV infection (9). In that case, a patient vacationing in the Luskville region of Quebec, Canada, experienced cranial nerve pathologies and flaccid weakness of the upper extremities. Electrodiagnostic testing showed evidence of diffuse denervation and reinnervation across multiple myotomes that was consistent with a motor neuronopathy. Imaging of the brain showed only mild hyperintensities that would not account for the patient’s disproportionate weakness. A spine MRI was not performed. As in our case, acute arbovirus serology results were initially negative but were positive in paired testing (9).

The incidence of POWV infection has increased since 2017 (7). I. scapularis ticks and deer tick virus may be becoming more widely disseminated in northern regions, potentially due to warming climates, whereas infection with prototypical POWV transmitted by I. cookei ticks remains rare and stable in distribution (10). It is possible that Canada will see an increasing number of cases similar to ours. Our findings emphasize the need to include POWV infection in the differential diagnosis for patients with polio-like symptoms in tick-endemic regions.

Dr. Picheca and Dr. Yogendrakumar are resident physicians specializing in neurology at the University of Ottawa. Dr. Picheca has an interest in infectious diseases. Dr. Yogendrakumar’s primary research interests are in stroke and intracerebral hemorrhage.

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References

  1. McLEAN  DM, Donohue  WL. Powassan virus: isolation of virus from a fatal case of encephalitis. Can Med Assoc J. 1959;80:70811.PubMedExternal Link
  2. Centers for Disease Control and Prevention. Statistics & maps: Powassan virus. 2018 [cited 2019 Mar 13]. https://www.cdc.gov/powassan/statistics.html
  3. Corrin  T, Greig  J, Harding  S, Young  I, Mascarenhas  M, Waddell  LA. Powassan virus, a scoping review of the global evidence. Zoonoses Public Health. 2018 [cited 2019 Mar 13].
  4. Sung  S, Wurcel  AG, Whittier  S, Kulas  K, Kramer  LD, Flam  R, et al. Powassan meningoencephalitis, New York, New York, USA. Emerg Infect Dis. 2013;19:19. DOIExternal LinkPubMedExternal Link
  5. Ebel  GD. Update on Powassan virus: emergence of a North American tick-borne flavivirus. Annu Rev Entomol. 2010;55:95110. DOIExternal LinkPubMedExternal Link
  6. Santos  RI, Hermance  ME, Gelman  BB, Thangamani  S. Spinal cord ventral horns and lymphoid organ involvement in Powassan virus infection in a mouse model. Viruses. 2016;8:220. DOIExternal LinkPubMedExternal Link
  7. Hermance  ME, Thangamani  S. Powassan virus: an emerging arbovirus of public health concern in North America. Vector Borne Zoonotic Dis. 2017;17:45362. DOIExternal LinkPubMedExternal Link
  8. Tavakoli  NP, Wang  H, Dupuis  M, Hull  R, Ebel  GD, Gilmore  EJ, et al. Fatal case of deer tick virus encephalitis. N Engl J Med. 2009;360:2099107. DOIExternal LinkPubMedExternal Link
  9. Sanderson  M, Lindsay  LR, Campbell  TM, Morshed  M. A case of Powassan encephalitis acquired in southern Quebec. CMAJ. 2018;190:E147880. DOIExternal LinkPubMedExternal Link
  10. Fatmi  SS, Zehra  R, Carpenter  DO. Powassan virus—a new reemerging tick-borne disease. Front Public Health. 2017;5:342. DOIExternal LinkPubMedExternal Link

Figure. Coronal T2-weighted image of cervical spinal cord in a patient with Powassan virus infection, Canada. A longitudinal hyperintensity of the anterior horn is visible from C3 to C6.

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**Comment**

Polio-like systems include:

  • Loss of reflexes
  • Severe muscle aches or weakness
  • Loose and floppy limbs (flaccid paralysis)
  • Muscle wasting (atrophy)
  • Breathing or swallowing problems

Remember, ticks are everywhere. I do not like how the authors state to consider POWV in “endemic regions.” Birds are transporting ticks everywhere – despite the weather.

For more:  https://madisonarealymesupportgroup.com/2016/02/21/powassan-virus/

https://madisonarealymesupportgroup.com/2017/06/28/powassan-can-kill/

https://madisonarealymesupportgroup.com/2019/06/11/death-of-hampton-man-with-rare-tick-borne-virus-probed/  Read comment after article. 

https://madisonarealymesupportgroup.com/2017/05/18/powassan-and-bb-infection-in-wisconsin-and-u-s-tick-populations/

Nearly 80% of adult female I. scapularis ticks analyzed were collected from the northern half of the state (QNW and QNE) and accounted for 85% of POWV-positive ticks. While only 90 I. scapularis ticks were collected from the southern two quadrants, POWV-positive ticks were identified in both QSE and QSW. QNW I. scapularis ticks revealed the highest MLE of infection for both POWV and B. burgdorferi (4.67% and 23.42%, respectively).

Category:

research, Testing, Viruses

Prevalence & Genetic Characterization of Deer Tick Virus (Powassan Virus, Lineage II) in Ixodes Scapularis Ticks Collected in Maine

http://www.ajtmh.org/content/journals/10.4269/ajtmh.19-0281

Prevalence and Genetic Characterization of Deer Tick Virus (Powassan Virus, Lineage II) in Ticks Collected in Maine

Abstract

Deer tick virus (DTV) is a genetic variant of Powassan virus (POWV) that circulates in North America in an enzootic cycle involving the blacklegged or “deer tick,” , and small rodents such as the white-footed mouse. The number of reported human cases with neuroinvasive disease has increased substantially over the past few years, indicating that POWV may be of increasing public health importance. To this end, we sought to estimate POWV infection rates in questing collected from four health districts in Maine (York, Cumberland, Midcoast, and Central Maine). Infection rates were 1.6%, 1.7%, 0.7%, and 0%, respectively, for adults collected from April to November in 2016. Adults collected in October and November in 2017 from York and Cumberland counties had slightly higher rates of 2.3% and 3.5%, respectively. There was no difference in the number of males verses the number of females infected. All positive samples were of the DTV (lineage II) variant. Phylogenetic analysis was performed on 8 of the 15 DTV sequences obtained in 2016. Deer tick virus from the coastal regions were genetically similar and clustered with virus strains isolated from from New York State and Bridgeport, CT. The two inland viruses were genetically nearly identical and grouped with viruses from Massachusetts, Connecticut, and New York. These results are the first reported infection rates and sequences for POWV in questing ticks collected in Maine and will provide a reference point for future POWV studies.

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More on Powassan Virus:  https://madisonarealymesupportgroup.com/2016/02/21/powassan-virus/

https://madisonarealymesupportgroup.com/2017/05/18/powassan-and-bb-infection-in-wisconsin-and-u-s-tick-populations/

https://madisonarealymesupportgroup.com/2018/06/13/half-of-powassan-cases-from-wisconsin-and-minnesota/

https://madisonarealymesupportgroup.com/2019/05/04/tick-borne-powassan-virus-confirmed-in-6-minnesota-counties/

https://madisonarealymesupportgroup.com/2019/03/08/seroprevalence-of-bb-bm-powassan-in-residents-bitten-by-ixodes-ticks/

Powassan is NOT RARE:  https://madisonarealymesupportgroup.com/2019/06/11/death-of-hampton-man-with-rare-tick-borne-virus-probed/  Please read comment after article.

https://madisonarealymesupportgroup.com/2019/03/04/powassan-virus-on-the-up-tick/

https://madisonarealymesupportgroup.com/2018/01/25/new-powassan-test-89-sensitive/

https://madisonarealymesupportgroup.com/2017/06/28/powassan-can-kill/

 

 

Category:

research, Ticks, Viruses