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Another article was published this month raising the issue of whether Alzheimer's disease is caused by a microbe - which can explain why all the medicines and experimental drugs aimed at treating the "tangles" or amyloid plaques in the brain are not working as a treatment (because that's the wrong approach). The microbe theory of Alzheimer's disease has been around for decades, but only recently is it starting to be taken seriously. Some of the microbes found in patients with Alzheimer's disease (from analyses of both normal brains and Alzheimer patient brains after death): fungi, Borrelia burgdorferi (Lyme disease), herpes simplex virus Type 1 (HSV1), and Chlamydia pneumoniae.

The general hypotheses seem to be that Alzheimer’s disease is caused by infection, but it isn't linked to any one pathogenic microbe.  Instead, the evidence seems to support that "following infection, certain pathogens gain access to brain, where immune responses result in the accumulation of amyloid-β, leading to plaque formation". So the microbes act as "triggers" for Alzheimer's disease - the microbes get into the brain, and immune responses somehow eventually result in the amyloid plaques and Alzheimer's disease. From The Scientist:

Do Microbes Trigger Alzheimer’s Disease?

In late 2011, Drexel University dermatology professor Herbert Allen was astounded to read a new research paper documenting the presence of long, corkscrew-shape bacteria called spirochetes in postmortem brains of patients with Alzheimer’s disease. Combing data from published reports, the International Alzheimer Research Center’s Judith Miklossy and colleagues had found evidence of spirochetes in 451 of 495 Alzheimer’s brains. In 25 percent of cases, researchers had identified the spirochete as Borrelia burgdorferi, a causative agent of Lyme disease. Control brains did not contain the spirochetes.

Allen had recently proposed a novel role for biofilms—colonies of bacteria that adhere to surfaces and are largely resistant to immune attack or antibiotics—in eczema....  Allen knew of recent work showing that Lyme spirochetes form biofilms, which led him to wonder if biofilms might also play a role in Alzheimer’s disease. When Allen stained for biofilms in brains from deceased Alzheimer’s patients, he found them in the same hippocampal locations as amyloid plaquesToll-like receptor 2 (TLR2), a key player in innate immunity, was also present in the same region of the Alzheimer’s brains but not in the controls. He hypothesizes that TLR2 is activated by the presence of bacteria, but is locked out by the biofilm and damages the surrounding tissue instead.

Spirochetes, common members of the oral microbiome, belong to a small set of microbes that cross the blood-brain barrier when they’re circulating in the blood, as they are during active Lyme infections or after oral surgery. However, the bacteria are so slow to divide that it can take decades to grow a biofilm. This time line is consistent with Alzheimer’s being a disease of old age, Allen reasons, and is corroborated by syphilis cases in which the neuroinvasive effects of spirochetes might appear as long as 50 years after primary infection.

Allen’s work contributes to the revival of a long-standing hypothesis concerning the development of Alzheimer’s. For 30 years, a handful of researchers have been pursuing the idea that pathogenic microbes may serve as triggers for the disease’s neuropathology..... In light of continued failures to develop effective drugs, some researchers, such as Harvard neurobiologist Rudolph Tanzi, think it’s high time that more effort and funding go into alternative theories of the disease. “Any hypothesis about Alzheimer’s disease must include amyloid plaques, tangles, inflammation—and, I believe, infection.”

Herpes simplex virus type 1 (HSV1) can acutely infect the brain and cause a rare but very serious encephalitis. In the late 1980s, University of Manchester molecular virologist Ruth Itzhaki noticed that the areas of the brain affected in HSV1 patients were the same as those damaged in patients with Alzheimer’s disease. Knowing that herpes can lie latent in the body for long periods of time, she began to wonder if there was a causal connection between the infection and the neurodegenerative disorder.

Around the same time, neuropathologist Miklossy, then at the University of Lausanne in Switzerland, was detailing the brain damage caused by spirochetes—both in neurosyphilis and neuroborrelia, a syndrome caused by Lyme bacteria. She happened upon a head trauma case with evidence of bacterial invasion and plaque formation, and turned her attention to Alzheimer’s. She isolated spirochetes from brain tissue in 14 Alzheimer’s patients but detected none in 13 age-matched controls. In addition, monoclonal antibodies that target the amyloid precursor protein (APP)—which, when cleaved, forms amyloid-β—cross-reacted with the spirochete species found, suggesting the bacteria might be the source of the protein.

Meanwhile, in the U.S., a third line of evidence linking Alzheimer’s to microbial infection began to emerge. While serving on a fraud investigation committee, Alan Hudson, a microbiologist then at MCP-Hahnemann School of Medicine in Philadelphia, met Brian Balin.... Soon, Balin began to send Hudson Alzheimer’s brain tissue to test for intracellular bacteria in the Chlamydia genus. Some samples tested positive for C. pneumoniae: specifically, the bacteria resided in microglia and astrocytes in regions of the brain associated with Alzheimer’s neuropathology, such as the hippocampus and other limbic system areas. Hudson had a second technician repeat the tests before he called Balin to unblind the samples. The negatives were from control brains; the positives all had advanced Alzheimer’s disease. "We were floored,” Hudson says.

Thus, as early as the 1990s, three laboratories in different countries, each studying different organisms, had each implicated human pathogens in the etiology of Alzheimer’s disease. But the suggestion that Alzheimer’s might have some microbial infection component was still well outside of the theoretical mainstream. Last year, Itzhaki, Miklossy, Hudson, and Balin, along with 29 other scientists, published a review in the Journal of Alzheimer’s Disease to lay out the evidence implicating a causal role for microbes in the disease.

The microbe theorists freely admit that their proposed microbial triggers are not the only cause of Alzheimer’s disease. In Itzhaki’s case, some 40 percent of cases are not explained by HSV1 infection. Of course, the idea that Alzheimer’s might be linked to infection isn’t limited to any one pathogen; the hypothesis is simply that, following infection, certain pathogens gain access to brain, where immune responses result in the accumulation of amyloid-β, leading to plaque formation.

  Finally some good news regarding ticks and the diseases they can transmit to humans. Currently ticks in the US are known to transmit at least 14 diseases, including Lyme disease. But a recent study done in the Netherlands found that the presence of predators such as foxes resulted in mice and voles having fewer ticks on them. A really big reduction in both tick numbers and the percentage of ticks infected with a disease. The researchers  thought that this was due to the mice and voles being less active when predators were nearby, and also that mice and voles that did venture further were preyed upon and eaten by the predators. So be happy if you see foxes in your neighborhood - they're beneficial. Excerpts from the NY Times:

Lyme Disease’s Worst Enemy? It Might Be Foxes

It is August, the month when a new generation of black-legged ticks that transmit Lyme disease and other viruses are hatching. On forest floors, suburban estates and urban parks, they are looking for their first blood meal. And very often, in the large swaths of North America and Europe where tick-borne disease is on the rise, they are feeding on the ubiquitous white-footed mice and other small mammals notorious for harboring pathogens that sicken humans.

But it doesn’t have to be that way. A new study suggests that the rise in tick-borne disease may be tied to a dearth of traditional mouse predators, whose presence might otherwise send mice scurrying into their burrows. If mice were scarcer, larval ticks, which are always born uninfected, might feed on other mammals and bird species that do not carry germs harmful to humans. Or they could simply fail to find that first meal. Ticks need three meals to reproduce; humans are at risk of contracting diseases only from ticks that have previously fed on infected hosts.

For the study, Tim R. Hofmeester, then a graduate student at Wageningen University in the Netherlands and the lead researcher of the study, placed cameras in 20 plots across the Dutch countryside to measure the activity of foxes and stone martens, key predators of mice. Some were in protected areas, others were in places where foxes are heavily hunted. Over two years, he also trapped hundreds of mice — and voles, another small mammal — in the same plots, counted how many ticks were on them, and tested the ticks for infection with Lyme and two other disease-causing bacteria. To capture additional ticks, he dragged a blanket across the ground.

In the plots where predator activity was higher, he found only 5 to 10 percent as many newly hatched ticks on the mice as in areas where predators were scarcer. Thus, there would be fewer ticks to pass along pathogens to the next generation of mice. In the study, the density of infected “nymphs,” as the adolescent ticks are called, was reduced to 6 percent of previous levels in areas where foxes were more active.“The predators appear to break the cycle of infection,’’ said Dr. Hofmeester, who earned his Ph.D. after the study.

Interestingly, the predator activity in Dr. Hofmeester’s plots did not decrease the density of the mouse population itself, as some ecologists had theorized it might. Instead, the lower rates of infected ticks, Dr. Hofmeester suggested in the paper, published in Proceedings of the Royal Society B, may be the result of small mammals curtailing their own movement when predators are around. [Original study.]

Many of us who who spend time outdoors worry about ticks. Just about everyone in the Northeast knows someone who has struggled with Lyme disease or one of the other diseases spread by ticks. An earlier post from June 8, 2015 noted that the CDC says that there are 14 known tick-borne diseases in the United States, and possibly 15 (if recently discovered Bourbon virus is included). Lyme disease is the most common, but people can be infected with more than one tick-borne illness at a time. [POST on Some Ways  To Get Rid of Ticks]

But recently I've seen news reports about a rare and scary tick borne disease called Powassan virus which is spread by deer ticks. News stories reported that an infant that developed the disease was the first case ever in Connecticut, and that the tick had been attached less than 3 hours on the child.

What is Powassan virus and should I be concerned? The good news is that it is very rare, but the bad news is that it's very scary: the virus can be transmitted in less than 2 hours (even as little as 15 minutes!) from an attached tick, and is fatal in about 10% of cases. It can cause encephalitis. And among those who recover, there is about a 50 percent chance of permanent neurological damage.  On the other hand, the CDC also says: "Many people who become infected with POW virus do not develop any symptoms." - But note that we don't know how many people get it and don't get serious symptoms, or any symptoms at all.

Powassan virus (POWV) is a tick-borne flavivirus that was first discovered in Ontario, Canada in 1956. At this time we don't know how prevalent it is in the US. From 2006 to 2015, an average of 7 cases of POWV were reported each year in the United States - only 77 cases in total. Although the virus is mostly found in the Northeast and Great Lakes region of the United States, some states outside of this area have been reporting their first cases.  One recent study found that the Powassan virus was in 1 to 2% of the ticks studied in Long Island in NY and Connecticut.

The Centers for Disease Control (CDC) states that: "Signs and symptoms of infection can include fever, headache, vomiting, weakness, confusion, seizures, and memory loss. Long-term neurologic problems may occur. There is no specific treatment, but people with severe Powassan virus illnesses often need to be hospitalized to receive respiratory support, intravenous fluids, or medications to reduce swelling in the brain. One study of 14  Powassan virus cases in NY state (2004-20012) reported that all of the hospitalized patients who received corticosteroids during their illness survived (looks like something helps).

From CNN: Experts warn of increases in tick-borne Powassan virus

Summer is nearly here, and it's bringing fears of a rare tick-borne disease called Powassan. This potentially life-threatening virus is carried and transmitted by three types of ticks, including the deer tick that transmits Lyme disease. Over the past decade, 75 cases have been reported in the northeastern states and the Great Lakes region, according to the US Centers for Disease Control and Prevention. Though no one can say how many infections will occur this year, warmer winters have led to an increased tick population, so experts predict rising tick-borne infections of many types.

Everyone is at risk for Powassan: Newborns, 20-somethings, the middle-aged, the elderly and the immunocompromised. Anyone bitten by an infected tick can get it, said Dr. Jennifer Lyons, chief of the Division of Neurological Infections and Inflammatory Diseases at Brigham and Women's Hospital in Boston. Infections are most likely during late spring, early summer and mid-fall, when ticks are most active.

"About 15% of patients who are infected and have symptoms are not going survive," said Lyons, who is also an assistant professor of neurology at Harvard Medical School. "Of the survivors, at least 50% will have long-term neurological damage that is not going to resolve." Although most infected people will never show symptoms, those who do become sick usually do so a few days to about a week after the tick bite, she said. The most common symptoms will be fever and headache. "You basically feel nonspecific flu-like stuff," Lyons said, including "muscle aches and pains; maybe you have a little rash on your skin, but almost certainly, you'll have a fever and the headache."The unlucky few who develop a more serious illness will do so "very quickly over the next couple of days," she said. "You start to develop difficulties with maintaining your consciousness and your cognition. ....

Just as there are no vaccines to prevent infection, there are also no treatments for Powassan. There are some experimental therapies we try when somebody comes in and they get here early enough and we get the therapy started early enough, but we have no idea if any of that works," Lyons said. Standard treatment includes intravenous fluids, though antiviral medications, systemic corticosteroids and other drugs have been tried in some patients.

Scientists also believe Powassan is on the rise based on studies that have identified an increasing number of infections in deer. Similarly, Lyme is showing increasing numbers. ....To make the matter more complicated, we are seeing greater number of ticks infected with other tick-associated pathogens, including babesiosis and anaplasmosis," Molaei said. Both babesiosis and anaplasmosis usually don't have symptoms, just like Powassan, though both may cause severe or even life-threatening illnesses.

Medical story about the Connecticut infant who developed Powassan virus. From Contagion Live: Connecticut Reports Its First Human Case of Powassan Virus

 Lyme disease is caused by the bacterium Borrelia burgdorferi and is typically treated with antibiotics. This study may go a long way in explaining why some people do not seem to respond to Lyme disease treatment, and why they continue to feel sick even after prolonged antibiotic therapy. The researchers discussed how, in addition to the familiar spirochete form, B. burgdorferi can transform from spirochetes into round body forms in the presence of various unfavorable environmental conditions, including the presence of antimicrobial agents (antibiotics). And that the different forms respond to different antibiotic treatments!

But now they found that this bacterium has an additional form, which they refer to as biofilm, and which may be resistant to even very aggressive antibiotic (antimicrobial) treatments. They say this is the first study that demonstrates the presence of Borrelia biofilm in infected human skin tissues. From Medical Xpress:

Lyme disease 'Biofilm' eludes antibiotics: report

In many cases, Lyme disease returns after a patient has completed antibiotic treatment, and this finding may help explain why that occurs, the researchers said. University of New Haven researchers determined that Lyme disease-causing Borrelia burgdorferi bacteria produces a biofilm that makes it up to 1,000 times more resistant to antibiotics than other bacteria.

The discovery may lead to new ways to treat Lyme disease, said study author Eva Sapi, head of biology and environmental sciences at the university. "These findings could change the way we think about Lyme disease, especially in patients where it seems to be a persistent disease, despite long-term antibiotic treatment," she said in a news release from the Connecticut-based university.

"This recent finding could help to better understand how Borrelia can survive treatment and ... will provide novel therapeutic targets for chronic Lyme disease, with the hope of eradicating Borrelia in these patients," Sapi added. (original study)

 Borrelia burgdorferi  Credit: CDC

Another microbe that causes Lyme disease! Lyme disease is the most common tick-borne disease in the northern hemisphere, and it is caused by the bacteria Borrelia burgdorferi. Recently Mayo Clinic researchers found a new bacteria, which they named Borrelia mayonii, in the fluids and tissues of some people diagnosed with Lyme disease in the upper midwestern USA. The symptoms are different from typical Lyme disease: with nausea and vomiting, diffuse rashes (rather than a single bull's-eye rash), and a higher concentration of bacteria in the blood. Same treatment as with the original bacteria , but it may not show up in tests for Lyme disease.

Other researchers say that other Borrelia species found throughout the US and Europe also cause Lyme disease. This may explain why Lyme diseasse sufferers are not always diagnosed with Lyme disease, even though they have it. From Scientific American:

New Cause for Lyme Disease Complicates Already Murky Diagnosis

Tick-borne Lyme disease in the U.S. has long been thought to be caused by a single microbe, a spiral-shaped bacterium called Borrelia burgdorferi. Last week this notion was challenged when a team led by scientists at the Mayo Clinic discovered that Lyme could be caused, albeit rarely, by a different bacterial species that may incite more serious symptoms ranging from vomiting to neurological issues. Scientists working in the contentious field of Lyme disagree, however, as to what this information means for public health and if these findings are truly the first of their kind. For years, they say, research has pointed to the notion that the spirochete that causes Lyme disease in the U.S. is more heterogeneous than many have acknowledged ...continue reading "Another Microbe That Causes Lyme Disease"

Bad news about ticks: the blacklegged ticks (Ixodes scapularis and the western Ixodes pacificus) that spread Lyme disease, are now reported in almost half of the counties in the U. S. Researchers found blacklegged ticks in 1,420 out of 3,110 counties in the continental U.S., or about 46% of counties, and found western blacklegged ticks in 111 counties, or about 4%. Combined, this is a 45% increase from 1998 when ticks were reported in 1,058 counties.Of course the tick-dense northeast is where Lyme disease is most common. Although the blacklegged tick is found from Florida to Minnesota, 95% of confirmed Lyme disease cases come from just 14 states in the northeast and upper Midwest. 

One interesting study that looked at reasons for these differences was published in PLOS ONE last year by parasitologist Isis Arsnoe and colleagues . They found that populations of blacklegged ticks behave differently in the north and the south United States. Nymphs of the blacklegged tick in the north are bolder and more active in seeking out hosts, a behavior known as questing. Arsnoe found that that tick nymphs originating from Wisconsin and Rhode Island were 20 times more likely to emerge from leaf litter, putting them in the path of passing humans, than nymphs from North or South Carolina. "Questing behavior is a key factor affecting the risk of tick bites." From Science Daily:

Ticks that transmit Lyme disease reported in nearly half of all US counties

Lyme disease is transmitted by the blacklegged tick (Ixodes scapularis) and the western blacklegged tick (Ixodes pacificus), and the range of these ticks is spreading, according to research published in the Journal of Medical Entomology.

Some symptoms of Lyme disease include fever, headache, and fatigue, all of which can be mistaken for the common flu, so medical personnel need to know where these ticks are found in order to make a correct diagnosis. Unfortunately, the range of blacklegged ticks had not been re-evaluated in nearly two decades, until now.

The team used surveillance methods similar to those used in 1998 so that they would be able to accurately judge the degree to which the distribution of these ticks had changed. Using the gathered data, they figured out which counties had established populations, which ones had one or more reports of a blacklegged ticks, and which ones had none.

They found that the blacklegged tick has been reported in more than 45% of  U.S. counties, compared to 30% of counties in 1998. Even more alarming, the blacklegged tick is now considered established in twice the number of counties as in 1998. Most of the geographic expansion of the blacklegged tick appears to be in the northern U.S., while populations in southern states have remained relatively stable. The range of the western blacklegged tick only increased from 3.4% to 3.6% of counties. (The study in J. of Medical Entomology)

I recently posted on ways the number of  ticks can be reduced in a backyard. Now an article on vaccines being developed to battle tick borne diseases, especially Lyme disease. However, the bad news is that ticks now transmit 16 diseases in the US (including anaplasmosis, babesiosis, ehrlichiosis), while vaccines typically only focus on one disease at a time. Tick borne diseases are on the rise throughout the world.

We all know about Lyme disease (which is also a problem in Europe, China, and Mongolia), but in parts of Africa, the Middle East, Asia and southern Europe, ticks can spread Crimean–Congo haemorrhagic fever, which is fatal 40% of the time! And while some researchers are focusing on human vaccines, some are focusing on vaccines for mice. Big problem: would we really be able to give the vaccine to enough mice to make a difference? I really like the idea of a vaccine that hampers the ability of ticks to feed on humans. From Nature:

The new war on Lyme and other tick-borne diseases

Williams is testing whether vaccinating mice against Borrelia burgdorferi, the bacterium that causes Lyme disease in the United States, can reduce the proportion of ticks that are infected. ....Borrelia burgdorferi infects an estimated 329,000 people in the United States each year, according to the US Centers for Disease Control and Prevention (CDC) in Atlanta, Georgia. And although most people who get prompt treatment recover quickly — Williams has had Lyme three times — up to one in five develops long-term and potentially life-threatening symptoms, including heart, vision or memory problems, or debilitating joint pain. ...continue reading "Vaccines to Battle Tick Diseases?"

Nice article about ticks, tickborne diseases (of which Lyme disease is one), and possible strategies for coping - whether getting rid of ticks in your yard, or minimizing risk. The only thing I disagreed with is that the author gives the time for transmission of a tick borne disease as needing over 24 hours of the tick being attached (this number is frequently given by authorities). Others disagree (as do I based on experience), and a recent article on transmission time after attachment stated that in animal research, transmission can occur in <16 hours. Some human studies also found transmission times of less than 24 hours (and as little as 6 hours of tick attachment), but so far the minimum attachment time for transmission of infection has never been established. Read the complete article for more pet and tick advice. From Mother Earth News:

How to Get Rid of Ticks and Prevent Lyme Disease 

About 300,000 people are diagnosed with Lyme disease every year, according to new estimates from the Centers for Disease Control and Prevention (CDC). Lyme disease is caused by bacteria that multiply in the bodies of ticks, people and animals, including mice, deer and dogs....  the tiny blacklegged deer tick, which is the most common transmitter of Lyme disease.

These deer ticks pick up Lyme bacteria (Borrelia burgdorferi) when they feed on the blood of infected mice, chipmunks and other hosts. Infected ticks in both the nymphal and adult life stages can then transfer the Lyme bacteria to humans if they latch on for a meal and feed for approximately 36 hours or more. Lyme disease is highly treatable when it’s detected early, but devastating when the infection goes unnoticed for more than a few months.

Let Poultry Help with Tick Prevention  Leafy wooded areas and grassy meadows are the preferred habitats for blacklegged deer ticks and American dog ticks, which both spend their larval stage in leaf litter, their nymphal stage on small animals, and their adult stage in tall grass or other shrubby vegetation. People have learned how to get rid of ticks by keeping foraging chickens and guinea fowl on their property. In April 2015, we launched the MOTHER EARTH NEWS Chickens and Ticks Survey, and responses revealed that: 71 percent had an existing tick problem before they got poultry, 78 percent kept poultry that helped control or eliminate ticks within the birds’ feeding range, 46 percent experienced a drop in tick populations within a month after getting poultry; 45 percent saw good control after several months to a year.Many respondents noted that small bantam chickens and game hens can get into tight spots where larger birds can’t fit, resulting in better tick control....

Permethrin-Treated Clothes and ‘Tick Tubes’  If you live in one of the 13 states where Lyme disease risk is highest, learning how to get rid of ticks should be a top priority. You might want to consider using permethrin, a non-organic pesticide that repels and kills ticks. Permethrin is more potent and persistent than the organic materials we usually recommend. We suggest using a formula designed to be applied to clothing rather than misters, sprayers, foggers or other permethrin products. Clothing products that are pre-treated with permethrin are available, or you can buy permethrin with instructions for how to use it to treat your clothes. Take care to not expose kids to this pesticide...The EPA also classified permethrin as “likely to be carcinogenic to humans,” so weigh the risk of infrequent exposure to the risk of Lyme disease in your area.

You might also consider permethrin-infused “tick tubes,” which are designed to kill ticks on white-footed mice as well as chipmunks and rats, the main animals from which ticks become infected with Lyme. The tick tubes offer nesting materials impregnated with the pesticide to such critters. The animals then take the material back to their nests, where it kills any ticks that may have latched on to the adults and their young. The small amount of permethrin used in tick tubes is not water-soluble, so it’s not likely to end up anywhere but in a nest. Sold commercially as Damminix Tick Tubes, these devices are easy to make yourself....

Herbal Tick Repellents   Many of our survey respondents reported that they apply veterinary-prescribed tick preventatives on their dogs and cats, but would prefer more organic repellents. Two plant-based aromatics — sweet-scented “rose” geranium (Pelargonium graveolens) essential oil and eastern red cedar (Juniperus virginiana; also known as “red cedarwood”) essential oil — were repeatedly recommended by readers who use them as spray-on repellents for pets and family members alike....Both geranium essential oil and eastern red cedar essential oil have proven to be successful repellents against ticks in various life stages, according to the Journal of Agricultural and Food Chemistry and the Journal of Medical Entomology, respectively.

Using full-strength essential oil can injure human skin and overwhelm pets’ sensitive noses, so follow this simple recipe when making a liquid anti-tick spray: In an 8-ounce spray bottle, combine 10 to 20 drops of rose geranium or eastern red cedar essential oil with 1 teaspoon of vodka or rubbing alcohol. Fill the rest of the bottle with water and shake to combine. The spray can be applied to your skin or clothing....

More Tick Prevention Tricks Fencing out deer, the primary host of adult Lyme-infected ticks, can help prevent ticks from reaching your land. Low-cost, plastic-mesh deer fencing is available online and at farm stores. Ticks rarely inhabit lawns that are mowed regularly. Raking up leaves and composting them deprives overwintering ticks of shelter.

When hiking where tick populations are high, stay on the trails and dress defensively — pull your socks up over your pants. When only shorts will do, some people cut off the ankle sections of old socks, spray them with a repellent, and wear the tubes around their calves like tick-deterring leg warmers.

A study published in Experimental and Applied Acarology found that spraying outdoor areas with Safer-brand organic insecticidal soap in spring, when blacklegged deer tick nymphs are active, can provide treatment that is equally as effective as spraying with the insecticide chlorpyrifos.

After you’ve been outdoors, check your dogs for any ticks that may have latched on, and then make your way to a hot, soapy shower followed by a careful body check. You can kill any ticks that have attached to your clothing by immediately putting your clothes into the dryer for 15 minutes on the hottest setting, and then washing them. Most ticks are sensitive to dry heat, but may survive even the hottest wash. 

The good news is that not every tick is infected, but the bad news is that the CDC says that there are 14 known tick-borne diseases in the United States, and possibly 15 (if newly discovered Bourbon virus is included). Lyme disease is the most common, but people can be infected with more than one tick-borne illness simultaneously.  Three new diseases to watch for: Borrelia miyamotoi (bacteria carried by deer ticks), Heartland virus (carried by Lone Star Tick), and Bourbon virus. From Medical Xpress;

Beyond Lyme, new illnesses, more reason to watch for ticks

Lyme disease makes the headlines but there are plenty of additional reasons to avoid tick bites. New research highlights the latest in a growing list of tick-borne threats—a distant relative of Lyme that's easy to confuse with other illnesses.Monday's study suggests a kind of bacteria with an unwieldy name—Borrelia miyamotoi—should be on the radar when people in Lyme-endemic areas get otherwise unexplained summertime fevers. It's one of several recently discovered diseases linked to ticks in different parts of the country, a reminder to get tick-savvy no matter where you live.

The first U.S. case was reported in 2013 in New Jersey, an 80-year-old cancer survivor who over four months became increasingly confused, had difficulty walking and lost 30 pounds. Doctors found spiral-shaped bacteria in her spinal fluid that looked like Lyme but caused a relapsing fever more closely related to some other tick-borne illnesses. While treatable by antibiotics—the woman recovered—doctors know little about B. miyamotoi.

Researchers with Imugen Inc., a Massachusetts testing lab, tested blood samples from patients in Massachusetts, Rhode Island, New Jersey and New York whose doctors suspected tick-borne illnesses and used that lab. During the 2013 and 2014 tick seasons the lab found 97 cases of the new infection. That's roughly 1 percent of samples tested and close to the lab's detection of a better-known tick disease named anaplasmosis. ...Researchers then analyzed medical records from 51 of those patients, and found symptoms typically include a high fever, severe headache, chills and blood abnormalities—decreases in infection-fighting and blood-clotting cells

The bacterium is carried by deer ticks, also known as blacklegged ticks, which also can spread Lyme and two other illnesses, babesiosis and anaplasmosis.

 Two new tick-borne viruses were recently discovered in the Midwest, and neither has a specific treatment.The Centers for Disease Control and Prevention has confirmed nine cases of Heartland virus, and one death, with other reports under investigation, said CDC entomologist Roger Nasci. Symptoms include fever, fatigue, headaches, muscle aches, diarrhea and low blood counts. Identified in Missouri, the virus also was reported in Tennessee and Oklahoma, although the Lone Star tick that spreads it lives around the East and Southeast.

Then there's the Bourbon virus, with similar symptoms, discovered last year after the death of a Kansas man and named for his home county. Another patient, in Oklahoma, recovered. The Kansas man had found an embedded tick days before getting sick, and CDC researchers are searching for the culprit species.

The CDC counts 14 illnesses linked to specific U.S. tick species, not including the Bourbon virus still being studied. Lyme is the most common, with about 30,000 cases reported each year, although CDC has estimated that the true number could be 10 times higher. It's too early to know how widespread the newly discovered illnesses are. But people can be infected with more than one tick-borne illness simultaneously, complicating care.

Deer tick            Lone Star Tick   Credit:Wikipedia

I know of a number of people in NY and NJ who have been struggling for years with persistent Lyme disease. So this research with the possibility of treatments that actually work is fantastic. And it gives support to all those people who say they still have Lyme disease after antibiotic treatment, but the medical establishment says they're wrong -  that it's all their mind or due to something else. Yes, they still have Lyme disease from persister cells that avoided the antibiotic treatment! Persister cells are drug-tolerant,dormant variants of Borrelia burgdorferi  (the bacterium that causes Lyme disease). And perhaps pulse-dosing antibiotics may work to get rid of the persister cells. The antibiotic they successfully used in the research is ceftriaxone (a cephalosporin antibiotic) - but only in cultures grown in a lab. Further research is needed. From Science Daily:

Researchers' discovery may explain difficulty in treating Lyme disease

North­eastern Uni­ver­sity researchers have found that the bac­terium that causes Lyme dis­ease forms dor­mant per­sister cells, which are known to evade antibi­otics. This sig­nif­i­cant finding, they said, could help explain why it's so dif­fi­cult to treat the infec­tion in some patients.

In other chronic infec­tions, Lewis' lab has tracked the resis­tance to antibi­otic therapy to the pres­ence of per­sister cells--which are drug-tolerant, dor­mant vari­ants of reg­ular cells. These per­sister cells are exactly what they've iden­ti­fied here in Bor­relia burgdor­feri, the bac­terium that causes Lyme disease.The researchers have also reported two approaches--one of them quite promising--to erad­i­cate Lyme dis­ease, as well as poten­tially other nasty infections.

Lyme dis­ease affects 300,000 people annu­ally in the U.S., according to the Cen­ters for Dis­ease Con­trol and Pre­ven­tion, and is trans­mitted to people via bites from infected black­legged ticks. If caught early, patients treated with antibi­otics usu­ally recover quickly. How­ever, about 10 to 20 per­cent of patients, par­tic­u­larly those diag­nosed later, who have received antibi­otic treat­ment may have per­sis­tent and recur­ring symp­toms including arthritis, muscle pain, fatigue, and neu­ro­log­ical prob­lems. These patients are diag­nosed with Post-treatment Lyme Dis­ease Syndrome.

In addi­tion to iden­ti­fying the pres­ence of these per­sister cells, Lewis' team also pre­sented two methods for wiping out the infection--both of which were suc­cessful in lab tests. One involved an anti-cancer agent called Mit­o­mycin C, which com­pletely erad­i­cated all cul­tures of the bac­terium in one fell swoop. How­ever, Lewis stressed that, given Mit­o­mycin C's tox­i­city, it isn't a rec­om­mended option for treating Lyme dis­ease, though his team's find­ings are useful to helping to better under­stand the disease.

The second approach, which Lewis noted is much more prac­tical, involved pulse-dosing an antibi­otic to elim­i­nate per­sis­ters. The researchers intro­duced the antibi­otic a first time, which killed the growing cells but not the dor­mant per­sis­ters. But once the antibi­otic washed away, the per­sis­ters woke up, and before they had time to restore their pop­u­la­tion the researchers hit them with the antibi­otic again. Four rounds of antibi­otic treat­ments com­pletely erad­i­cated the per­sis­ters in a test tube.

"This is the first time, we think, that pulse-dosing has been pub­lished as a method for erad­i­cating the pop­u­la­tion of a pathogen with antibi­otics that don't kill dor­mant cells," Lewis said. "The trick to doing this is to allow the dor­mant cells to wake up.