User:Ngo0014/Tick-borne disease

Lead:
Most of these pathogens require passage through vertebrate hosts as part of their life cycle. Tick-borne infections in humans, farm animals, and companion animals are primarily associated with wildlife animal reservoirs. many tick-borne infections in humans involve a complex cycle between wildlife animal reservoirs and tick vectors.

The survival and transmission of these tick-borne viruses are closely linked to their interactions with tick vectors and host cells. These viruses are classified into different families, including Asfarviridae, Reoviridae, Rhabdoviridae, Orthomyxoviridae, Bunyaviridae, and Flaviviridae.

Article body:
Exposure:

Tick-borne viruses (TBVs) are significant pathogens affecting humans, livestock, and wildlife. These viruses belong to different families and orders, and some can cause substantial mortality. They pose an emerging threat to public health, particularly in resource-poor communities. Recent studies have revealed that ticks found in urban areas often originate from tick populations in nearby wild natural habitats surrounding cities and towns. These urban environments provide conditions similar to those in the wild, making them particularly suitable for ticks.

Symptoms:

Ticks also have the potential to induce a motor illness characterized by acute, ascending flaccid paralysis. This condition can be fatal if not treated promptly, affecting both humans and animals. It is mainly associated with certain species of ticks. Symptoms typically ranges from fatigue, numbness in the legs, muscle aches, and, to in some cases, paralysis and other severe neurological manifestations .Tick-borne diseases (TBD) are a major health threat in the US. The number of pathogens and the burden of disease have been increasing over the last couple decades. With improved diagnostics and surveillance, new pathogens are regularly identified, bettering our understanding of TBDs. Unfortunately, diagnosis of these illnesses remains a challenge, with many TBDs presenting with similar nonspecific symptoms and diagnosis requiring a battery of assays to assess patients adequately. New advanced molecular diagnostic methods, including next-generation sequencing and metagenomics analysis, promise improved detection of novel and emerging pathogens with the ability to detect a litany of potential pathogens with a single assay.

Diagnosis:

Diagnosing tick-borne diseases involves a dual approach. Some diagnoses rely on clinical observations and symptom analysis, while others are confirmed through laboratory tests. ticks can transmit a wide range of viruses, many of which are arboviruses.

Diagnosing Lyme borreliosis relies on clinical criteria, with a history of a tick bite and associated symptoms being crucial. Laboratory diagnosis follows a 'two-tiered diagnostic protocol,' involving detecting specific antibodies using methods such as immunoenzymatic assays and Western blot tests, preferably with recombinant antigens. While ELISA and Western blot have similar sensitivity, Western blot is more specific due to the identification of specific immunoreactive bands. Seroconversion typically occurs around two weeks after symptom onset, but false positive ELISA results can be linked to poorly reactive antibodies against specific antigens, especially in patients with other infectious and non-infectious diseases

Tick-borne encephalitis (TBE) presents non-specific clinical features, making laboratory diagnosis crucial. The diagnostic process typically involves identifying specific IgM- and IgG-serum antibodies through enzyme-linked immunosorbent assay (ELISA) since these antibodies are detectable in most cases upon hospitalization.

Treatment:
Patients with Lyme disease who are treated with appropriate antibiotics usually recover rapidly and completely. Antibiotics commonly used include doxycycline, amoxicillin, or cefuroxime axetil. For Anaplasmosis, ehrlichiosis and Rocky Mountain spotted fever, Doxycycline is the first line treatment for adults and children of all ages. For babesiosis, a combination therapy with atovaquone and azithromycin is most commonly recommended for treatment of mild to moderate babesiosis. Treatment is usually continued for 7 to 10 days. A combination regimen of oral clindamycin and quinine has also been proven effective, but the rate of adverse reactions is significantly higher with this combination. For Powassan virus, there are no medications for treating Powassan virus infections. Medications, however, can help to relieve symptoms and prevent complications. People with severe disease are typically treated in a hospital where they may be given intravenous fluids, fever-reducing medications, breathing support, and other therapies as needed.