Clongen Laboratories offer Lyme
Disease Testing by PCR and Western
Blot. To order test, please
fill out the Test Request Form
and include with your specimen. Patients
are responsible for payment. Request test 124 (Lyme Disease)
for Lyme Test by PCR, test 124A
for Lyme Test by Western Blot,
or test 124B for both PCR and
Western Blot testing,
Important: If you have been
bitten by a tick, be very careful
when removing it. Do not use
heat, petroleum, or any other
checmical while attempting to
remove it from the bite site. Also,
you have to be carefel not to
squeeze the gut contents into
the bite site as this may increase
the chances for bacterial transmission. Transfer
the tick into a plastic container
with a tight seal or to a zip
lock bag if it is dead and send
it to the lab. for testing. Ticks
should be shipped cooled overnight. There
is no need for a doctor's order
to run the test, however, it
is highly recommended that you
provide us with a doctor's fax
number so that we can keep your
family physician informed.
If the
result is negative, the patient
should pay special attention
to the bite site as there are
other organisms that can be
transmitted by ticks (e.g. Ehrlichia
and Babesia species). Please
seek immediate medical attention
if there are any unusual symptoms
associated with the tick bite. Not
all Lyme cases produce the typical
"Bull's Eye" rash. It is recommended
to test for the presence of
Lyme disease antibodies if you
live in a high risk area for
Lyme's disease. Western Blotting
is much more sensitive and more
specific thatn EIA. Your final
report will include all the
positive bands showing on the
blot even if the result is considered
negative (there is a minimum
number of bands that have to
appear before a test is called
positive).
Tick testing
(dead or alive) is $75 - Test 124C
Background:
Lyme disease (LD) was named in 1977
when arthritis was observed in a cluster
of children in and around Lyme, Connecticut.
LD is a multisystem and multistage
infection caused by a tick-borne spirochete. It
is the most common arthropod-borne
infection in the United States. There
has been a steady increase in the
incidence of the disease over the
years and the distribution of the
disease in the United States matches
the distribution of ticks of the genus
Ixodes. The tick Ixodes scapularis
is responsible for the transmission
of the LD bacteria in the Northeastern
and Northcentral United States. On
the Pacific Coast, the bacteria are
transmitted to humans by the western
black-legged tick (Ixodes pacificus).
Ixodes
ticks are much smaller than common
dog and cattle ticks. In their larval
and nymphal stages, they are no bigger
than a pinhead. Ticks feed by inserting
their mouths into the skin of a host
and slowly taking in blood. Ixodes
ticks are most likely to transmit
infection after feeding for two or
more days.
The disease is caused by Borrelia
burgdorferi, a spriochete sharing
sequence homology with Treponema and
Leptospira. Borrelia burgdorferi is
the longest and narrowest of the Borreliae. It
contains several antigens that are
important in pathogenesis and diagnosis
including outer surface proteins,
OspA through OspG, that are located
on plasmids and a 41 kDa flagellar
protein. Although there are three
geno-species recognized within the
Borrelia burgdorferi (B. burgdorferi
sensu lato): B. burgdorferi sensu
stricto, B. garinii, and B. afzelii,
strains found in the United States
are relatively homogeneous and conform
to the definition of B. burgdorferi
sensu stricto. The two other species
are present in Europe and Asia and
produce mixed infections in humans
and mice. B. garinii is mainly associated
with neuroborreliosis whereas B. afzelii
is associated with arthritis and skin
lesions. The risk of developing LD
following a tick bite is less than
0.01 and it has been shown that it
is not cost-effective to recommend
prophylactic treatment for everyone
that has been bitten by a tick.
Like other spirochetal infections,
the signs and symptoms of LD occur
in stages and involve a variety of
tissues and organs including the skin,
joints, heart and nervous system.
Early infection (stage 1) involves
erythema migrans (EM), an annular
skin rash that is seen days to weeks
after a tick bite. Hematogenous
dissemination of the bacteria days
to weeks later (stage 2) can result
in multiple skin lesions (secondary
EM) as well as meningitis, rediculoneuritis,
arterioventricular blockage, myocarditis
and oligoarticular arthritis.
Persistent infections (stage 3) occurs
months to years following the initial
exposure and can be associated with
acrodermatitis chronica atrophicans,
various encephalopathies and persistent
arthritis. Clinical signs of
LD among patients in North America
tend to differ from those in Europe
and Asia due to differences in Borrelia
species in different parts of
the world. The CDC has developed
a case definition of LD for surveillance
purposes that includes either physician-diagnosed
EM along with solitary lesions of
at least 5 cm or at least one joint,
cardiac or neurological manifestation
along with laboratory diagnosis.
Culture isolation of B. burgdorferi
sensu lato remains the gold standard
for diagnosis although the recovery
rate decreases as the disease stages
advance with the most likelihood of
isolating the bacteria in Barbour-Stoenner-Kelly
medium (BSK or modified BSK) is in
stage one EM. Detection of the bacteria
in culture is accomplished using dark
field microscopy, or by fluorescent
microscopy using acridine orange stain
or a specific antibody to the bacteria
labeled with fluorescein. Serologic
testing using antibodies to outer
surface proteins (OsP-A to G), the
41 KDa flagellin protein and other
heat shock proteins can be used although
there have been reports about down
regulation of OsPs A-G in the bacteria
after a blood meal. Molecular testing
is being widely used for the detection
of the spirochete in lesions even
before the appearance of antibodies
in the patient's serum. It was shown
that PCR has close to 99% specificity
and an average of 73% sensitivity
and that molecular testing produces
positive results in cases where the
patients had already received prophylactic
treatment and no antibodies or viable
bacteria have been detected. The bacterial
DNA tends to be detectable by PCR
in joints and tissues for weeks following
antimicrobial therapy. The PCR results
from cerebrospinal fluid (CSF) vary
and the overall sensitivity in CSF
does not exceed 20%, therefore, a
negative result in the CSF does not
rule out LD. Urine has been shown
not to be a good sample choice for
diagnosis as the results showed large
variations. In conclusion, the most
important element in LD diagnosis
is the clinical picture and patient
history supported by laboratory testing
using several methods to improve sensitivity. It
is highly recommended that PCR testing
be performed as early as possible
following a possible exposure to ticks. If
the results are positive, prophylactic
treatment can be recommended by a
clinician and other testing is performed
to monitor the treatment efficacy.
Clognen Laboratories offer Lyme Disease
Testing by Western Blot. The test
detects both IgM and IgG supports
the PCR results. The IgM Western Blot
is especially helpful in detecting
the acute stage of B. burgdorferi
infection while the IgG Western Blot
is useful after a month or more have
passed since exposure to a Lyme disease-infected
tick.
Lyme
Disease (Borrelia burgdorferi)
- Multiplex PCR for simultaneous
detection of two gene
targets in Borrelia
burgdorferi (ultrasensitive
method)
124
1 -
3 days
Lyme
Disease (Borrelia burgdorferi)
- Western Blot Analysis
124A
3 -
5 days
Lyme
disease by PCR and Western Blot
Panel
124B
3 -
5 days
Tick
Testing for Lyme Disease (Borrelia
burgdorferi) - Multiplex PCR
for simultaneous detection
of two gene targets
in Borrelia burgdorferi (ultrasensitive
method)
Background: 
To
learn more about Lyme Disease
Symptoms, Treatment and other
related information,
