Physical findings are nonspecific and often normal, but arthritis,
meningitis and Bell’s palsy may sometimes be noted. Available data
suggest that objective evidence alone is inadequate to make treatment decisions, because a significant number of chronic Lyme disease cases may occur in symptomatic patients without objective
features on examination or confirmatory laboratory testing.
Factors other than physical findings, such as a history of
potential exposure, known tickbites, rashes or symptoms consistent with the typical multisystem presentation of Lyme disease, must also be considered in determining whether an
individual patient is a candidate for antibiotic therapy
Section I: Introduction to guidelines
This report, completed in November 2003, is intended to
serve as a resource for physicians, public health officials and
organizations involved in the evaluation and treatment of
Lyme disease.
1. International Lyme and Associated Diseases Society (ILADS)
ILADS is an interdisciplinary organization of health science
professionals established in 1999 to accomplish the following
objectives:
• Analyze the medical literature, position statements and
practice parameters related to Lyme and associated diseases
• Improve the management of these diseases through evaluation
of established and innovative therapies
• Educate a broad range of healthcare providers and serve as
an effective advocate for clinicians seeking cost-effective
state-of-the-art treatment regimens
ILADS identified the need for new and expanded guidelines for the diagnosis and treatment of Lyme and associated
diseases. In 2001, a working party was formed to evaluate
current practices and to encourage new standards of care.
This report, completed in November 2003, is intended to
serve as a resource for physicians, public health officials and
organizations involved in the evaluation and treatment of
Lyme disease.
2. Chronic Lyme disease: a growing epidemic
The Centers for Disease Control and Prevention (CDC)
consider Lyme disease the fastest growing vector-borne disease in the USA. By conservative estimate, the number of
new Lyme disease infections per year may be ten times
higher than the 17,730 cases reported to the CDC during
2000 [1,2].
The prevalence of chronic Lyme disease ranges from 34% in
a population-based, retrospective cohort study [3] to 62% in a
specialty clinic located in an area endemic for Lyme disease [4].
Clinic patients presented with arthralgia, arthritis, cardiac and
neurologic symptoms [4].
A widening array of chronic presentations is associated with
the Lyme spirochete, Borrelia burgdorferi. There are great challenges in determining optimal cost-effective means for appropriate diagnosis, clinical management and public health control of
Lyme disease throughout the world. Additional problems include
the identification and management of tickborne coinfections
including Ehrlichia, Babesia and Bartonella species [5].
3. The need for new guidelines
Guidelines of the Infectious Disease Society of America
(IDSA) fall short of meeting the needs for diagnosis and
treatment of individuals with chronic Lyme disease [6]. The
latest IDSA Guidelines (2000) fail to take into account the
compelling, peer-reviewed, published evidence confirming
persistent, recurrent and refractory Lyme disease and, in
fact, deny its existence [6].
The IDSA’s symptomatic approaches to Lyme disease are
limited and exclude many individuals with persisting clinical
and laboratory evidence of active B. burgdorferi infection. In
addition, physicians treating individuals with Lyme and other
tick-borne infections recognize the need for new guidelines to
better serve the patient population [6].
Previous guidelines for management of Lyme disease have
been published in the New England Journal of Medicine in
1990 by Rahn [7]; in Conn’s Current Therapy in 1997 by Burrascano and in 1998 by Steere [8,9]; in Burrascano’s Guidelines
on the ILADS website (www.ilads.org); and in the Journal of
Infectious Diseases by Wormser and colleagues in 2000 [6]. The
ILADS Guidelines expand on these protocols using the evidence-based approach and Cochrane methodology employed
by the IDSA [6,10].
Our goal is to present practitioners with practical and defensible guidelines for treating all individuals with Lyme disease
including those with persistent, recurrent and relapsing
symptoms of B. burgdorferi infection.
The ILADS Guidelines focus on which patients to evaluate,
what tests to order, what antibiotics to use and what steps to take
to ensure that concerns over antibiotic use are addressed.
The ILADS Working Group that formulated these guidelines
included primary care clinicians, researchers, community healthcare providers and patient advocates. In developing these treatment
guidelines, the group considered factors such as incidence of Lyme
disease; severity of disease in terms of morbidity; comorbidities and
determinants of when Lyme disease is most likely to become
chronic; feasibility, efficacy and cost of antibiotic treatment; impact
of antibiotic therapy on quality of life, including adverse drug
events; and the potential for drug resistance to develop.
Because of the complexity and variability of Lyme disease
symptoms, the guidelines are flexible. Treatment depends on
the severity of each case, the patient’s response to therapy and
the physician’s own clinical judgment.
4. A problem of definitions
Lyme disease was initially investigated by CDC epidemiologists
focusing on erythema migrans, heart block, meningitis and arthritis. The ELISA test and later, the western blot, were introduced for
seroepidemiologic studies. Chronic, persistent, recurrent and
refractory Lyme disease were not included in these studies;
consequently cases of chronic Lyme disease still go unrecognized.
For the purpose of the ILADS guidelines, ‘chronic Lyme disease’ is inclusive of persistent symptomatologies including
fatigue, cognitive dysfunction, headaches, sleep disturbance
and other neurologic features, such as demyelinating disease,
peripheral neuropathy and sometimes motor neuron disease;
neuropsychiatric presentations; cardiac presentations including
electrical conduction delays and dilated cardiomyopathy; and
musculoskeletal problems. Symptoms may continue despite 30
days of treatment (persistent Lyme disease). The patient may
relapse in the absence of another tickbite or erythema migrans
rash (recurrent Lyme disease), or be poorly responsive to antibiotic
treatment (refractory Lyme disease).ILADS guidelines for Lyme disease
www.future-drugs.com S5
By these definitions, almost two-thirds of 215 Lyme disease
patients in a recent retrospective cohort from an endemic
region had chronic Lyme disease [4]. Case definitions for Lyme
disease have evolved and will continue to develop as a better
understanding of chronic Lyme disease emerges to shape a
common lexicon.
5. Competency and training
The appropriateness of treatment hinges on the clinician’s experience in treating Lyme disease. Competence requires diagnostic and treatment skills heretofore not offered in medical school
or postresidency training.
Clinicians more practiced in treating Lyme disease achieve
better outcomes and encounter fewer complications because of
an enhanced ability to interpret clinical data, the prompt prescription of antibiotics and the use of measures to reduce
adverse events, e.g., employing acidophilus to replace normal
intestinal flora that is depleted by antibiotics.
6. The increasing role of primary care
The primary care physician has an important role as the first
and at times, the principal medical contact for the person with
Lyme disease.
Primary care physicians focus on the resolution of symptoms,
monitoring for side effects, maintenance or improvement of
functional status and prevention of recurrent symptoms.
These guidelines incorporate the evidence used by primary
care physicians for the care of patients with Lyme disease
.
7. Highlights of guidelines
• Since there is currently no definitive test for Lyme disease,
laboratory results should not be used to exclude an individual
from treatment
• Lyme disease is a clinical diagnosis and tests should be used to
support rather than supersede the physician’s judgment
• The early use of antibiotics can prevent persistent, recurrent
and refractory Lyme disease
• The duration of therapy should be guided by clinical
response, rather than by an arbitrary (i.e., 30 day) treatment
course
• The practice of stopping antibiotics to allow for delayed
recovery is not recommended for persistent Lyme disease. In
these cases, it is reasonable to continue treatment for
several months after clinical and laboratory abnormalities
have begun to resolve and symptoms have disappeared
Section II: New presentatons
Lyme disease was first described in 1977 as ‘Lyme arthritis’
among patients initially thought to have arthritis or juvenile
rheumatoid arthritis [11]. It was later renamed ‘Lyme disease’
following recognition of a combination of cardiac, neurologic
and rheumatologic presentations, including heart block, meningitis and Bell’s palsy. For more than 10 years, variable symptomatic conditions have been recognized including encephalopathy and neuropsychiatric presentations.
8. Symptomatic presentation
Variable symptomatic presentations have been increasingly documented in Lyme disease, with the best example being encephalopathy [12]. Encephalopathic presentations were described in
an initial cohort of 27 patients as a symptom complex including memory loss (81%), fatigue (74%), headache (48%),
depression (37%), sleep disturbance (30%) and irritability
(26%), often without objective markers [12]. Only two of the 27
patients presented with objective findings on lumbar puncture:
one had pleocytosis (seven cells) and a second had an antibody
index of greater than one [12].
Neuropsychiatric presentations in acute and chronic Lyme
disease have been increasingly recognized and can include
depression, anxiety and rage [13]. These are presumably related
to persistent infection and are potentially reversible with antibiotics. Neuropsychiatric symptoms may reflect additional
psychosocial processes including the stress of coping with a
chronic illness.
Asch and colleagues found that more than half of 215
patients in a Lyme-endemic region had symptomatic presentations of chronic Lyme disease [4]. The patients presented with
chronic fatigue, headaches and joint pain (but not headaches
alone) in this retrospective cohort study.
9. Symptoms of Lyme disease
• Fatigue
• Low grade fevers, ‘hot flashes’ or chills
• Night sweats
• Sore throat
• Swollen glands
• Stiff neck
• Migrating arthralgias, stiffness and, less commonly, frank
arthritis
• Myalgia
• Chest pain and palpitations
• Abdominal pain, nausea
• Diarrhea
• Sleep disturbance
• Poor concentration and memory loss
• Irritability and mood swings
• Depression
• Back pain
• Blurred vision and eye pain
• Jaw pain
• Testicular/pelvic pain
• Tinnitus
• Vertigo
• Cranial nerve disturbance (facial numbness, pain, tingling,
palsy or optic neuritis)
• Headaches
• ‘Lightheadedness’
• DizzinessThe International Lyme and Associated Diseases Society
S6 Expert Rev. Anti-infect. Ther. 2(1), (2004)
10. Increasing evidence of persistent infection
Persistent, recurrent and refractory presentations from ongoing
infection are the most feared of the long-term complications of
Lyme disease.
Laboratory culture of B. burgdorferi has documented persistent infection in chronic Lyme disease patients, but the
yields are quite low by current methods [14]. In fact, there is
no reliable, commercially available culture assay that can
confirm the eradication of the organism. Using experimental
techniques, however, B. burgdorferi has been detected in virtually every organ in the body, and the spirochete has a
strong predilection for the central nervous system. Oral
antibiotic levels in the central nervous system are low, and
this fact may necessitate the addition of drugs with good
penetration across the blood–brain barrier [15], such as
intravenous ceftriaxone or cefotaxime.
Most studies demonstrate a beneficial effect of antibiotics in
the management of chronic Lyme disease, but the extent of
optimal treatment is still uncertain [4,12,13,16–22]. Recent clinical
trials questioning the benefits of antibiotics have been criticized for enrolling patients with refractory Lyme disease who
were sick for a mean of 4.7 years despite an average of three
courses of antibiotics, and for relying only on one treatment
protocol (1 month of i.v. ceftriaxone followed by 2 months of
low-dose oral doxycycline) [23]. In view of these methodological problems, persistent infection remains a continued concern
for physicians.
11. Disappointing results of symptomatic treatment
A theoretical immune mechanism has been proposed to
explain persistent symptoms in chronic Lyme disease, but no
clinical or laboratory test can confirm this theory. The
immune mechanism theory is based on physiological events
(often in the form of cascades) that are not reversed by simply
killing the infecting organism.
The presentation of chronic Lyme disease can be identical
to that of other multisystem disorders, including systemic
lupus erythematosus, rheumatoid arthritis and fibromyalgia.
In the seminal article describing fibromyalgia in a Lyme disease population, antibiotic treatment failure and relapse of
symptoms were considered to be proof of the absence of
B. burgdorferi infection, and persistent symptoms were
assumed to be due to postinfectious sequelae [24]. However,
the failure of short-course (2–4 week) antibiotic treatment in
14 (94%) of 15 fibromyalgia patients is consistent with a persistent, inadequately treated infection with B. burgdorferi [24].
The increasing successes of repeated and prolonged antibiotic
treatment in chronic Lyme disease are more consistent with a
persistent infection mechanism.
12. Severity of chronic Lyme disease
For patients with chronic Lyme disease, the quality of life has
been evaluated in a clinical trial sponsored by the National
Institutes of Health (NIH) using a standardized questionnaire
[23]. The quality of life of the 107 individuals with chronic
Lyme disease was worse than that of patients with Type 2 diabetes or a recent heart attack, and equivalent to that of patients
with congestive heart failure or osteoarthritis. Moreover, the
average Lyme disease duration of 4.7 years in subjects enrolling
in the study emphasized the chronic nature of the condition.
Finally, the failure of 1 month of i.v. ceftriaxone followed by
2 months of oral doxycycline delineated the potential for a poor
outcome in chronic Lyme disease [25].
Section III: Diagnostic concerns
The most important method for preventing chronic Lyme disease
is recognition of the early manifestations of the disease.
13. Atypical early presentations
Early Lyme disease classically presents with a single erythema
migrans (EM or ‘bullseye’) rash. The EM rash may be absent
in over 50% of Lyme disease cases, however [25]. Patients
should be made aware of the significance of a range of rashes
beyond the classic EM, including multiple, flat, raised or blistering rashes. Central clearing was absent in over half of a
series of EM rashes [26]. Rashes can also mimic other common
presentations including a spider bite, ringworm, or cellulitis.
One series of eleven EM rashes was misdiagnosed and treated
as cellulitis, with all eleven patients showing clinical evidence
of Lyme disease progression [27].
Physicians should be aware that fewer than 50% of all Lyme
disease patients recall a tickbite [28]. Early Lyme disease should also
be considered in an evaluation of ‘off-season’ onset when flu-like
symptoms, fever and chills occur in the summer and fall. Early
recognition of atypical early Lyme disease presentation is most
likely to occur when the patient has been educated on this topic.
14. New chronic Lyme disease presentations
A detailed history may be helpful for suggesting a diagnosis of
chronic Lyme disease. Headache, stiff neck, sleep disturbance
and problems with memory and concentration are findings frequently associated with neurologic Lyme disease. Other clues to
Lyme disease have been identified, although these have not
been consistently present in each patient: numbness and tingling, muscle twitching, photosensitivity, hyperacusis, tinnitus,
lightheadedness and depression.
Most patients diagnosed with chronic Lyme disease have an
indolent onset and variable course. Neurologic and rheumatologic
symptoms are characteristic, and increased severity of symptoms
on wakening is common. Neuropsychiatric symptoms alone are
more often seen in chronic than acute Lyme disease. Although
many studies have found that such clinical features are often not
unique to Lyme disease, the striking association of musculoskeletal
and neuropsychiatric symptoms, the variability of these symptoms
and their recurrent nature may support a diagnosis of the disease.
15. The limitations of physical findings
A comprehensive physical examination should be performed,
with special attention to neurologic, rheumatologic and cardiac
symptoms associated with Lyme disease.ILADS guidelines for Lyme disease
www.future-drugs.com S7
Physical findings are nonspecific and often normal, but arthritis,
meningitis and Bell’s palsy may sometimes be noted. Available data
suggest that objective evidence alone is inadequate to make treatment decisions, because a significant number of chronic Lyme disease cases may occur in symptomatic patients without objective
features on examination or confirmatory laboratory testing.
Factors other than physical findings, such as a history of
potential exposure, known tickbites, rashes or symptoms consistent with the typical multisystem presentation of Lyme
disease, must also be considered in determining whether an
individual patient is a candidate for antibiotic therapy.
.
16. Sensitivity limitations of testing
Treatment decisions should not be based routinely or exclusively
on laboratory findings [2,25]. The two-tier diagnostic criteria,
requiring both a positive ELISA and western blot, lacks sensitivity
and leaves a significant number of individuals with Lyme disease
undiagnosed and untreated [29,30]. These diagnostic criteria were
intended to improve the specificity of tests to aid in identifying
well-defined Lyme disease cases for research studies [31]. Though
arbitrarily chosen, these criteria have been used as rigid diagnostic
benchmarks that have prevented individuals with Lyme disease
from obtaining treatment. Diagnosis of Lyme disease by two-tier
confirmation fails to detect up to 90% of cases and does not
distinguish between acute, chronic, or resolved infection [21].
The CDC considers a western blot positive if at least 5 of 10
IgG bands or 2 of 3 IgM bands are positive [31]. However, other
definitions for western blot confirmation have been proposed
to improve the test sensitivity [30,32–36]. In fact, several studies
showed that sensitivity and specificity for both the IgM and
IgG western blot range from 92 to 96% when only two specific
bands are positive [34–36].
Lumbar puncture has also been disappointing as a diagnostic
test to rule out concomitant central nervous system infection. In
Lyme disease, evaluation of cerebrospinal fluid is unreliable for a
diagnosis of encephalopathy and neuropathy because of poor
sensitivity (see Section II.8). For example, pleocytosis was present
in only one of 27 patients (sensitivity 3%) and with only seven
cells [12]. The antibody index was positive (>1) in only one of 27
patients (sensitivity 3%) [12]. An index is the ratio between Lyme
ELISA antibodies in the spinal fluid and Lyme ELISA antibodies
in the serum. The proposed index of 1.3 would be expected to
have even worse sensitivity.
Several additional tests for Lyme disease have been evaluated.
These include antigen capture, urine antigen and polymerase
chain reaction. Each has advantages and disadvantages in terms
of convenience, cost, assay standardization, availability and reliability. These tests remain an option to identify people at high risk for persistent, recurrent and refractory Lyme disease but
have not been standardized.
17. Seronegative Lyme disease
A patient who has tested seronegative may have a clinical presentation consistent with Lyme disease, especially if there is no
evidence to indicate another illness.
Although many individuals do not have confirmatory serologic tests, surveillance studies show that these patients may have a similar risk of developing persistent, recurrent and
refractory Lyme disease compared with the seropositive population. A prospective observational study of 1094 patients [21] and the Klempner clinical trials [23] found no difference in measured outcomes (e.g., success of retreatment) among seropositive or seronegative Lyme disease patients.
18. Continued importance of differential diagnosis
The differential diagnosis of Lyme disease requires consideration of both infectious and noninfectious etiologies. Among noninfectious causes are thyroid disease, degenerative arthritis, metabolic disorders (vitamin B12 deficiency, diabetes), heavy metal toxicity, vasculitis and primary psychiatric
disorders.
Infectious causes can mimic certain aspects of the typical
multisystem illness seen in chronic Lyme disease. These include
viral syndromes such as parvovirus B19 or West Nile virus
infection, and bacterial mimics such as relapsing fever, syphilis, leptospirosis and mycoplasma.
The clinical features of chronic Lyme disease can be indistinguishable from fibromyalgia and chronic fatigue syndrome. These illnesses must be closely scrutinized for the possibility of etiological B. burgdorferi infection.
19. Clinical judgment
Clinical judgment remains necessary in the diagnosis of late
Lyme disease. A problem in some studies that relied on objective evidence was that treatment occurred too late, leaving the patient at risk for persistent and refractory Lyme disease.
As noted, time-honored beliefs in objective findings and twotier serologic testing have not withstood close scrutiny [21,30,34,37]. Lyme disease should be suspected in patients with
newly acquired or chronic symptoms (headaches, memory and
concentration problems and joint pain). Management of patients diagnosed on the basis of clinical judgment needs to be tested further in prospective trials, and diagnostic reproducibility
must be verified.
20. Testing for coinfection
Polymicrobial infection is a new concern for individuals with
Lyme disease, and coinfection is increasingly reported in critically ill individuals [25,38]. Although B. burgdorferi remains the
most common pathogen in tickborne illnesses, coinfections, including Ehrlichia and Babesia strains are increasingly noted in patients with Lyme disease, particularly in those with chronic illness. Bartonella is another organism that is carried by the same ticks that are infected with B. burgdorferi, and
evidence suggests that it is a potential coinfecting agent in Lyme disease [25]. Recent animal and human studies suggest that Lyme disease may be more severe and resistant to therapy in coinfected
patients [25,38]. Thus, concurrent testing and treatment for coinfection is mandatory in Lyme disease patients.The International Lyme and Associated Diseases Society S8 Expert Rev. Anti-infect. Ther. 2(1), (2004)
Section IV: Treatment considerations
Since Lyme disease can become persistent, recurrent and refractory even in the face of antibiotic therapy, evaluation and treatment must be prompt and aggressive.
21. Prompt use of antibiotics Although no well designed studies have been carried out, the
available data support the prompt use of antibiotics to prevent chronic Lyme disease. Antibiotic therapy may need to be initiated upon suspicion of the diagnosis, even without definitive proof. Neither the optimal antibiotic dose nor the duration of therapy has been standardized, but limited data suggest a benefit from increased dosages and longer treatment, comparable to the data on tuberculosis and leprosy which are caused by similarly slow-growing pathogens [25].
22. Choosing an antibiotic
In acute Lyme disease, the choice of antibiotics should be tailored to the individual and take into account the severity of the disease as well as the patient’s age, ability to tolerate side effects,
clinical features, allergy profile, comorbidities, prior exposure, epidemiologic setting and cost.
Conversely, persistent and refractory Lyme disease treatment is more likely to include intravenous and/or intramuscular antibiotics. The choices depend in part on the patient’s response to antibiotic therapy and on the success of antibiotics in treating other Lyme disease patients (see below).
Therapy usually starts with oral antibiotics, and some experts recommend high dosages. The choice of antibiotic therapy is guided by weighing the greater activity of intravenous antibiotics
in the central nervous system against the lower cost and easy administration of oral antibiotics for B. burgdorferi.
23. Oral antibiotic options
For many Lyme disease patients, there is no clear advantage ofparenteral therapy. Along with cost considerations and pressure to treat patients with Lyme disease with the least intervention,
there is growing interest in the use of oral therapy. First-line drug therapies for Lyme disease may include (in
alphabetical order): oral amoxicillin, azithromycin [39–41], cefuroxime [42], clarithromycin [43], doxycycline and tetracycline. These antibiotics have similar favorable results in comparative trials of early Lyme disease. In one study, azithromycin performed slightly less well when compared to amoxicillin
and doxycycline. However, the efficacy of azithromycin was underestimated because the antibiotic was only given for 10 days [39].
One study has suggested that oral doxycycline (100 mg twice daily for 30 days) is as effective as intravenous ceftriaxone (2 g daily for 30 days) in early disseminated Lyme disease [40]. Two European studies have demonstrated similar efficacy of oral doxycycline and parenteral penicillin and ceftriaxone in early
Lyme disease [44,45]. There are no studies comparing oral with intravenous antibiotics
for persistent, recurrent and refractory Lyme disease.
24. Intravenous antibiotic options
It is common practice to consider intravenous antibiotics upon failure of oral medications in patients with persistent, recurrent or refractory Lyme disease, and as the first line of therapy for certain conditions, (i.e., encephalitis, meningitis, optic neuritis, joint effusions and heart block).Ideally, the intravenous antibiotic should be selected on the basis of in vitro sensitivity testing or clinical experience [101].
Intravenous antibiotics are also justified by concern for penetration into the central nervous system [15].
Until recently, ceftriaxone, cefotaxime and penicillin were
the only intravenous antibiotics routinely studied for use in Lyme disease. Intravenous imipenem, azithromycin and doxycycline have an adequate antispirochetal spectrum of activity and may represent suitable alternative therapies. However, the latter two drugs are often considered for intravenous use only
if they are not tolerated orally.
There is a paucity of data on alternative intravenous antibiotics, and their success is less predictable in chronic Lyme disease
.25. Intramuscular antibiotic options Intramuscular benzathine penicillin (1.2 to 2.4 million units per week) is sometimes effective in patients who do not respond to oral and intravenous antibiotics. If intramuscular benzathine penicillin is used, long-term therapy may be necessary due to the low serum concentration of this form of penicillin [46]. Luft and colleagues report, “It was demonstrated that while B. burgdorferi may be sensitive to relatively small concentrations of penicillin and ceftriaxone, the organism is killed slowly. This implies that, as in syphilis, prolonged blood levels of these drugs may be necessary in order to ensure cure” [46]. One-third of a chronic Lyme disease population responded
to intramuscular benzathine penicillin (1.2 to 2.4 million units per week) [16–18]. Benzathine penicillin has mainly been used in patients who have had multiple relapses while receiving oral or intravenous antibiotic therapy or who are intolerant of oral or intravenous antibiotics.
26. Combination antibiotic treatment
Combination therapy with two or more antibiotics is now
increasingly used for refractory Lyme disease [11,41,45,46–49]
and has also been given as initial therapy for some chronic
presentations.
This approach is already used for another tickborne illness,
babesiosis [50]. Oral amoxicillin, cefuroxime or (more
recently) cefdinir combined with a macrolide (azithromycin
or clarithromycin) are examples of combination regimens that
have proven successful in clinical practice, although controlled clinical trials are lacking in persistent, recurrent and refractory Lyme disease. Combination therapy in patients with Lyme disease raises the
risk of adverse events. This risk must be weighed against the improved response to combination therapy in Lyme disease patients failing single agents [47–49].ILADS guidelines for Lyme disease
www.future-drugs.com S9
27. Sequential treatment
Clinicians increasingly use the sequence of an intravenous antibiotic followed by an oral or intramuscular antibiotic
[19,37,101,47,48]. In two recent case series that employed combination therapy and sequential therapy, most patients were successfully treated [19,47]. A logical and attractive sequence would be
to use intravenous therapy first (e.g., intravenous ceftriaxone),
at least until disease progression is arrested and then follow with
oral therapy for persistent and recurrent Lyme disease.
28. Dosage
Increasingly, clinicians recommend that certain drugs used for
Lyme disease be given at higher daily doses: for example,
3000–6000 mg of amoxicillin, 300–400 mg doxycycline and
500–600 mg of azithromycin. Some clinicians prescribe antibiotics using blood levels to guide higher doses. Close monitoring
of complete blood counts and chemistries are also required with
this approach.
With higher doses, there may be an increase in adverse events
in general and gastrointestinal problems in particular. Acidophilus has reportedly reduced the incidence of C. difficile colitis and non-C. difficile antibiotic-related diarrhea.
Serious adverse effects of antibiotics, however, were less common than previous estimates. In a recent clinical trial of chronic Lyme disease, the overall serious adverse event rate was 3% after
three months of antibiotics, including 1 month of intravenous
antibiotics [23]. Clinicians who have experience with higherdose antibiotic therapy must balance the benefit of higher drug levels achieved with this therapy against the modest risk of gastrointestinal and other side effects. Research is needed to determine the added benefits of higher doses of antibiotics in chronic Lyme disease.
29. Duration of therapy
Because of the disappointing long-term outcome with shorter
courses of antibiotics, the practice of stopping antibiotics to
allow for a delayed recovery is no longer recommended for
patients with persistent, recurrent and refractory Lyme disease.
Reports show failure rates of 30–62% within 3 years of shortcourse treatment using antibiotics thought to be effective for
Lyme disease [3,4,12]. Conversely for neurologic complications of
Lyme disease, doubling the length of intravenous ceftriaxone
treatment from 2 to 4 weeks improved the success rate from 66
to 80% [12,51].
The management of chronic Lyme disease must be individualized, since patients will vary according to severity of presentation
and response to previous treatment.
Concurrent risk factors (i.e., coinfections, previous treatment failures, frequent relapses, neurologic involvement, or
previous use of corticosteroids) or evidence of unusually
severe Lyme disease should lead to the initiation of prolonged
and/or intravenous antibiotic treatment. Physicians should
always assess the patient’s response to treatment before deciding on appropriate duration of therapy (i.e., weeks
versus months).
30. Empiric treatment
The importance of establishing the diagnosis of Lyme disease is
heightened in light of increasing concern about antibiotic overuse. After an appropriate history, physical examination and laboratory testing are completed, empiric antimicrobial therapy
should be initiated on the basis of clinical clues, the severity of
the patient’s acute illness, underlying disease and the likelihood
of B. burgdorferi infection. The ILADS working group recommends that empiric treatment be considered routine for patients with a likely diagnosis of Lyme disease.
31. Persistent Lyme disease
Persistent Lyme disease is more resistant to treatment and more
likely to produce a relapse. Although persistent Lyme disease may
resolve without additional therapy, many experts believe that this
condition should be treated with repeated and prolonged antibiotics. Physicians should extend the duration of antibiotics to prevent or delay recurrent and refractory Lyme disease.
32. Recurrent Lyme disease
Despite previous antibiotic treatment, Lyme disease has a propensity for relapse and requires careful follow-up for years. The data suggest that failure to eradicate the organism may be the
reason for a recurrence of symptoms [12]. Early and aggressive
treatment with antibiotics is indicated for recurrent Lyme disease. The ultimate impact from retreating each episode of recurrent Lyme disease is currently unclear.
33. Refractory Lyme disease
Refractory Lyme disease is a devastating condition that usually
affects patients with persistent symptomatology and long-term
disability. Prompt and aggressive institution of antibiotic therapy may be essential to prevent refractory disease. Increasing evidence shows that antibiotics have a beneficial effect on the
course of refractory Lyme disease even in cases where the
patient is intolerant of antibiotics or when a previous regimen
has failed. Several months of therapy are often required to produce clear evidence of improvement. During this time, symptomatic treatment may be combined with antibiotic treatment.
34. Treatment failure
When patients fail to respond or their conditions deteriorate after
initiation of empiric therapy, a number of possibilities should be
considered other than Jarisch-Herxheimer reaction. These include
adverse events that limit treatment, allergic history to medication,
inappropriate or inadequate dosing regimen, compliance problems, incorrect medication, immune sequelae and sequestering of the organism (e.g., in the central nervous system). An alternative
diagnosis or coinfection should also be considered.
35. Symptomatic treatment
Although there may be a potential role for symptomatic treatment in chronic Lyme disease, this approach has little support due to the strong possibility of persistent infection. Owing to the
potential hazard of immunosuppression and the poor outcome inThe International Lyme and Associated Diseases Society
S10 Expert Rev. Anti-infect. Ther. 2(1), (2004)
one study, steroid therapy is not recommended [52]. Surgical
synovectomy is associated with significant morbidity and does
not address neurologic presentations; it should be reserved for
knee pain failing antibiotic treatment [53]. Intra-articular steroid injection may be useful as a temporizing procedure in patients with persistent knee pain but this runs the risk of
masking persistent infection. Symptomatic therapy (particularly anti-inflammatory medications, tricyclic antidepressants, selective serotonin re-uptake inhibitors and hydroxychloroquine) may be useful in concert
with antibiotics and in individuals failing antibiotics.
Hyperbaric oxygen therapy (HBOT) is under study but is not recommended for routine therapeutic use [25,54]. Other treatments, including cholestyramine (CSM), antifungal
therapy and antiviral agents require further study.
Since patients are becoming more interested in alternative therapies (e.g., traditional Chinese medicine, anti oxidants, hyperthermia, bee venom, naturopathy and homeopathy), physicians
should be prepared to address questions regarding these topics.
36. Fibromyalgia
The outcome of treating fibromyalgia secondary to Lyme disease with nonantibiotic regimens has been poor. The most encouraging clinical trial showed success in only one of 15
patients and only modest improvement in 6 of 15 individuals
with fibromyalgia despite 2 years of treatment [24].
Antibiotic therapy has been much more effective than supportive therapy in symptomatic patients with fibromyalgia secondary to Lyme disease.
Fibromyalgia treatment alone without antibiotics raises the
risk of conversion to refractory chronic Lyme disease and/or
exacerbation of an undiagnosed persistent infection and is not
recommended. Increasingly, clinicians do not feel comfortable
treating fibromyalgia in Lyme disease without antibiotics.
37. Decision to stop antibiotics
Several studies of patients with Lyme disease have recommended
that antibiotics be discontinued after 30 days of treatment. Complicating the decision to stop antibiotics is the fact that some patients present with disease recurrence after the resolution of
their initial Lyme disease symptoms. This is consistent with
incomplete antibiotic therapy. Although the optimal time to discontinue antibiotics is unknown, it appears to be dependent on the extent of symptomatology, the patient’s previous response to
antibiotics and the overall response to therapy (see below).
Rather than an arbitrary 30-day treatment course, thepatient’s clinical response should guide duration of therapy.Patients must therefore be carefully evaluated for persistent infection before a decision is made to withhold therapy. The decision to discontinue antibiotics should be made in consultation with the patient and should take into account
such factors as the frequency and duration of persistent infection, frequency of recurrence, probability of refractory Lyme disease, gains with antibiotics, the importance to the patient of
discontinuing antibiotics and potential for careful follow-up.
The ideal approach would be to continue therapy for Lyme disease until the Lyme spirochete is eradicated. Unfortunately there is currently no test available to determine this point [25]. Therefore,
the clinician must rely on the factors outlined above to decide on the length of antibiotic therapy for chronic Lyme disease.
38. Alternative antibiotics
There is compelling evidence that Lyme disease can result in
serious and potentially refractory illness. Use of alternative antibiotics to treat early Lyme disease with erythema migrans is generally not indicated unless coinfection is suspected.
The ILADS Working Group believes that the risk of alternative antibiotics is acceptable in selected Lyme disease patients presenting with chronic Lyme disease. Alternative antibiotics
include less commonly used oral antibiotics (cefixime, cefdinir,
metronidazole) and intravenous antibiotics (imipenem, azithromycin). The role of alternative antibiotics in low-risk patients is less certain and there is less consensus within the Working Group
as to whether the potential benefits outweigh the risks.
39. Therapy for coinfection
Therapy for polymicrobial infection in Lyme disease is a rapidly changing area of clinical practice [25]. Uncomplicated
Lyme disease may be managed without addressing coinfection by means of standard oral or parenteral antibiotic therapy. Some but not all experts recommend therapy for subclinical
or chronic coinfection with Ehrlichia, Babesia or Bartonella on the basis of their belief that responses are more prompt with this approach. The dose, duration and type of treatment for coinfections
have not been defined. Published reports of coinfection are limited to a small number of patients treated in open-label, nonrandomized studies. Doxycycline has been indicated for Ehrlichia. A recently published randomized trial determined that treatment of severe Babesia microti with the combination of
atovaquone and azithromycin was as effective as the use of standard oral therapy with clindamycin and quinine [55]. The decision to use alternative antibiotics should be based
on the individual case, including a careful assessment of the
patient’s risk factors and personal preferences. Patients managed in this way must be carefully selected and considered reliable for follow-up. Further controlled studies are needed
to address the optimal antimicrobial agents for coinfections
and the optimal duration of therapy. Additional research is needed to determine which antibiotics
work best for Bartonella, but fluoroquinolones, azithromycin, doxycycline and rifampin have good in vitro activity.Section V: Research needs The ILADS Working Group encourages centers that treat large
numbers of Lyme disease patients symptomatically using IDSA treatment guidelines to perform a formal evaluation of their own programs. This will allow researchers to compare the
results of treatment guidelines that use more antibiotics with those that do not.ILADS guidelines for Lyme disease www.future-drugs.com S11
40. Ongoing development of treatment guidelines
The IDSA guidelines recommending one-time short-term antibiotic therapy have not been successful. Physician demands for better outcomes have led to the development of the ILADS
guidelines, and the continued evolution of an evidence-based
approach is critical for the treatment of persistent, recurrent and refractory Lyme disease.
41. Validation of guidelines
Most studies of Lyme disease were retrospective, unblinded and
uncontrolled. Furthermore, the antibiotic dose and duration of
therapy were not standardized.
The first double-blind clinical trial found that weekly benzathine penicillin for 3 weeks was more effective than placebo for Lyme arthritis [56]. At the other end of the spectrum, a recently
completed randomized clinical trial failed to demonstrate any efficacy of 90 days of antibiotic therapy in previously treated patients with neurologic Lyme disease [23].
Two additional randomized trials are examining the practice of retreating chronic Lyme disease patients with antibiotics, and these results should be available shortly [57,58]. The retreatment
approach is being validated using a single-center, prospective
surveillance database.
42. Comparative studies
The IDSA and ILADS Guidelines differ substantially, revealing
the wide variation in diagnosis and treatment (TABLE 1) [59,60].
This variation suggests that physicians do not use a uniform
strategy to diagnose and treat Lyme disease. Physicians often
treat for Lyme disease longer than 4 weeks and also retreat
[8,19,47,48,57–62]. These decisions are made despite warnings
against overdiagnosis and overtreatment [63–65].
Community-based clinicians and academic centers often
have different criteria for diagnosis and divergent goals of care
[8]. The guidelines and standards of practice used for diagnosis
of Lyme disease in academic research settings may not be
applicable or appropriate for community-based settings.
Moreover, the clinical manifestations of Lyme disease are
often subtle or atypical in the community.
Because important data concerning the treatment of chronic
Lyme disease was not considered by the IDSA expert panel,
ILADS introduced an evidence-based review to determine which
recommendations warranted revision. This evidence-based
review gave rise to the current guidelines.
Section VI: Periodic review of guidelines
New data on treatment of Lyme disease is emerging, and
randomized controlled trials that address various unresolved
issues in Lyme disease are ongoing. The ILADS Working
Group has therefore developed a mechanism for routinely
and periodically reviewing this information and for updating the guidelines on a regular basis. The most recent information will be available from the ILADS website at
www.ILADS.org.
43. Grading system for evidence-based guidelines
The ILADS system for grading recommendations is similar
to that used by the expert panel of the IDSA. However, the
ILADS panel includes primary care clinicians, researchers
and international leaders in the treatment of Lyme disease.
Thus, the ILADS group is more inclusive and clinically oriented than the IDSA panel, and the ILADS guidelines reflect this diversity
44. Table 1. Comparison of key IDSA and ILADS
guidelines.
Condition IDSA ILADS
Lyme arthritis B - II A - II
Encephalopathy A - II A - II
Retreatment None A - II
Prolonged antibiotics None A - II
Benzathine penicillin D - III B - III
Intra-articular steroid B - III D - III
Arthroscopic Synovectomy B - II D - II
Coinfection B - III B - III
Seronegative Lyme disease None A - III
Combination treatment None B - III
Empiric treatment None B
45. Criteria for evidence-based guidelines
The ILADS recommendations are based on two criteria [10]:
• The strength of the evidence (denoted by categories A–E)
• The quality of the data (denoted by Roman numerals I–III)
Recommendations rated ‘A’ are considered good evidence to
support the recommendation. Those rated ‘B’ have moderate
evidence to support the recommendation. Those rated ‘C’ are
considered optional. Measures designated ‘D’ generally should
not be offered; those designated ‘E’ are contraindicated.
A rating of I indicates that at least one randomized controlled
trial supports the recommendation; II, evidence from at least
one well-designed clinical trial without randomization supports
the recommendation; and III, ‘expert opinion’.
Sources
Our data sources are English-language articles published from
1975 to 2003. The selection panel synthesized the recommendations from published and expert opinion. Human
studies of Lyme disease were identified from MEDLINE
(1975 to 2003) and from references in pertinent articles and
reviews. Also included are abstracts and material presented at
professional meetings and the collective experience of the
ILADS Working Group treating tens of thousands of Lyme
disease patients.
44. Table 1. Comparison of key IDSA and ILADS
guidelines.
Condition IDSA ILADS
Lyme arthritis B - II A - II
Encephalopathy A - II A - II
Retreatment None A - II
Prolonged antibiotics None A - II
Benzathine penicillin D - III B - III
Intra-articular steroid B - III D - III
Arthroscopic Synovectomy B - II D - II
Coinfection B - III B - III
Seronegative Lyme disease None A - III
Combination treatment None B - III
Empiric treatment None B - III
The International Lyme and Associated Diseases Society
S12 Expert Rev. Anti-infect. Ther. 2(1), (2004)
References
1 Goldoft MJ, Schulze TL, Parkin WE,
Gunn RA. Lyme disease in New Jersey. NJ
Med. 87, 579–584 (1990).
2 CDC. Lyme disease-United States, 2000.
MMWR 51, 29–31 (2002).
3 Shadick NA, Phillips CB, Logigian EL et al.
The long-term clinical outcomes of Lyme
disease. A population-based retrospective
cohort study. Ann. Intern. Med. 121,
560–567 (1994).
4 Asch ES, Bujak DI, Weiss M, Peterson
MGE, Weinstein A. Lyme disease: an
infectious and postinfectious syndrome. J.
Rheumatol. 21, 454–456 (1994).
5 Parola P, Raoult D. Ticks and tickborne
bacterial diseases in humans: an emerging
infectious threat. Clin. Infect. Dis. 32,
897–928 (2001).
6 Wormser GP, Nadelman RB, Dattwyler RJ
et al. Practice guidelines for the treatment
of Lyme disease. The Infectious Diseases
Society of America. Clin. Infect. Dis.
31(Suppl. 1), 1–14 (2000).
7 Rahn DW, Malawista SE. Lyme disease:
recommendations for diagnosis and
treatment. Ann. Intern. Med. 114, 472–481
(1991).
8 Feder HM Jr. Differences are voiced by two
Lyme camps at a Connecticut public hearing
on insurance coverage of Lyme disease.
Pediatrics 105(4 Pt 1), 855–857 (2000).
9 Burrascano JJ. Lyme disease. In: Conn’s
Current Therapy. WB Saunders Company,
PA, USA 140–143 (1997).
10 Kish MA. Guide to development of
practice guidelines. Clin. Infect. Dis. 32,
851–854 (2001).
11 Steere AC, Malawista SE, Snydman DR,
Shope RE, Andiman WA, Ross MR, Steele
FM. Lyme arthritis: an epidemic of
oligoarticular arthritis in children and
adults in three Connecticut communities.
Arthritis Rheum. 20, 7–17 (1977).
12 Logigian EL, Kaplan RF, Steere AC.
Chronic neurologic manifestations of Lyme
disease. N. Engl. J. Med. 323, 1438–1444
(1990).
13 Fallon BA, Nields JA. Lyme disease: a
neuropsychiatric illness. Am. J. Psychiatry
151, 1571–1583 (1994).
14 Tylewska-Wierzbanowska S, Chmielewski
T. Limitation of serological testing for
Lyme borreliosis: evaluation of ELISA and
western blot in comparison with PCR and
culture methods. Wien Klin Wochenschr.
114, 601–605 (2002).
15 Halperin JJ. Neuroborreliosis. Am. J. Med.
98(4A), 52S–59S (1995).
16 Battaglia HR, Alvarez G, Mercau A, Fay M,
Campodónico M. Psychiatric
symptomatology associated with
presumptive Lyme disease: Clinical
evidence. J. Spiro Tick Dis. 7, 22–25
(2000).
17 Corsaro L Intramuscular Bicillin for
persistent pediatric Lyme disease.
Proceedings of the 9th International
Conference on Lyme Borreliosis & Other
Tick-borne Disorders (1999).
18 Cimmino MA, Accardo S. Long-term
treatment of chronic Lyme arthritis with
benzathine penicillin. Ann. Rheum. Dis. 51,
1007–1008 (1992).
19 Fallon BA, Tager F, Keilp J, Weiss N,
Liebowitz MR, Fein L, Liegner K. Repeated
antibiotic treatment in chronic Lyme
disease. J. Spiro Tick Dis. 6, 94–102 (1999).
20 Lawrence C, Lipton RB, Lowy FD, Coyle
PK. Seronegative chronic relapsing
neuroborreliosis. Eur. Neurol. 35,113–117
(1995).
21 Cameron DJ. Monitoring Lyme disease
in the community – First surveillance
database sentinel health site. Proceedings
of the 12th Annual International
Scientific Conference on Lyme Disease
and Other Spirochetal and Tick-Borne
Disorders (1999).
22 Fallon BA, Kochevar JM, Gaito A, Nields
JA. The underdiagnosis of neuropsychiatric
Lyme disease in children and adults.
Psychiatr. Clin. North Am. 21, 693–703
(1998).
23 Klempner MS, Hu LT, Evans J et al. Two
controlled trials of antibiotic treatment in
patients with persistent symptoms and a
history of Lyme disease. N. Engl. J. Med.
345, 85–92 (2001).
24 Dinerman H, Steere AC. Lyme disease
associated with fibromyalgia. Ann. Intern.
Med. 117, 281–285 (1992).
25 Stricker RB, Lautin A. The Lyme wars:
time to listen. Expert Opin. Investig. Drugs
12, 1609–1614 (2003).
26 Nadelman RB, Wormser GP. Erythema
migrans and early Lyme disease. Am. J.
Med. 98(4A), S15–S24 (1995).
27 Nowakowski J, McKenna D, Nadelman RB
et al. Failure of treatment with cephalexin
for Lyme disease. Arch. Fam. Med. 9,
563–567 (2000).
28 Steere AC, Broderick TF, Malawista SE.
Erythema chronicum migrans and Lyme
arthritis: epidemiologic evidence for a tick
vector. Am. J. Epidemiol. 108, 312–321
(1978).
29 Petrovic M, Vogelaers D, Van Renterghem
L, Carton D, De Reuck J, Afschrift M.
Lyme borreliosis – a review of the late stages
and treatment of four cases. Acta Clin. Belg.
53, 178–183 (1998).
30 Tilton RC, Sand MN, Manak M. The
Western immunoblot for Lyme disease:
determination of sensitivity, specificity and
interpretive criteria with use of
commercially available performance panels.
Clin. Infect. Dis. 25(Suppl. 1), S31–S34
(1997).
31 CDC. Recommendations for test
performance and interpretation from the
second national conference on serologic
diagnosis of Lyme disease. MMWR 44,
590–591 (1995).
32 Trevejo RT, Krause PJ, Sikand VK,
Schriefer ME, Ryan R, Lepore T, Porter W,
Dennis DT. Evaluation of two-test
serodiagnostic method for early Lyme
disease in clinical practice. J. Infect. Dis.
179, 931–938 (1999).
33 Aguero-Rosenfeld ME, Nowakowski J,
McKenna DF, Carbonaro CA, Wormser
GP. Serodiagnosis in early Lyme disease.
J. Clin. Microbiol. 31, 3090–3095
(1993).
34 Harris N. An understanding of laboratory
testing for Lyme disease. J. Spiro Tick Dis.
5, 16–26 (1998).
35 Ma B, Christen B, Leung D, Vigo-Pelfrey
C. Serodiagnosis of Lyme borreliosis by
Western immunoblot: reactivity of various
significant antibodies against Borrelia
burgdorferi. J. Clin. Microbiol. 30, 370–376
(1992).
36 Engstrom SM, Shoop E, Johnson RC.
Immunoblot interpretation criteria for
serodiagnosis of early Lyme disease. J. Clin.
Microbiol. 33, 419–427 (1995).
37 Magnarelli LA. Laboratory analyses for
Lyme disease. Conn. Med. 53, 331–334
(1989).
38 Krause PJ, Telford S, Spielman A, Sikand
VJ, Ryan R, Christianson D, Burke G,
Brassard P, Pollack R, Peck J, Persing DH.
Concurrent Lyme disease and Babesiosis:
Evidence for increased severity and
duration of illness. JAMA 275, 1657–1660
(1996).
39 Luft BJ, Dattwyler RJ, Johnson RC et al.
Azithromycin compared with amoxicillin
in the treatment of erythema migrans: a
double-blind, randomized, controlled
trial. Ann. Intern. Med. 124, 785–791
(1996).
40 Dattwyler RJ, Luft BJ, Kunkel M et al.
Ceftriaxone compared with doxycycline for
the treatment of acute disseminated Lyme
disease. N. Engl. J. Med. 337, 289–294
(1997).ILADS guidelines for Lyme disease
www.future-drugs.com S13
41 Barsic B, Maretic T, Majerus L, Strugar J.
Comparison of azithromycin and
doxycycline in the treatment of erythema
migrans. Infection 28, 153–156 (2000).
42 Scott LJ, Ormrod D, Goa KL. Cefuroxime
axetil: an updated review of its use in the
management of bacterial infections. Drugs
61, 1455–1500 (2001).
43 Dattwyler RJ, Grunwaldt E, Luft BJ.
Clarithromycin in treatment of early Lyme
disease: a pilot study. Antimicrob. Agents
Chemother. 40, 468–469 (1996).
44 Karlsson M, Hammers-Berggren S,
Lindquist L et al. Comparison of iv.
penicillin G and oral doxycycline for
treatment of Lyme neuroborreliosis.
Neurology 44, 1203–1207 (1994).
45 Dotevall L, Hagberg L. Successful oral
doxycycline treatment of Lyme diseaseassociated facial palsy and meningitis. Clin.
Infect. Dis. 28, 569–574 (1999).
46 Luft BJ, Volkman DJ, Halperin JJ,
Dattwyler RJ. New chemotherapeutic
approaches in the treatment of Lyme
borreliosis. Ann. NY Acad. Sci. 539,
352–361 (1988).
47 Battaglia HR, Alvarez G, Mercau A, Fay M,
Campodónico M. Psychiatric
symptomatology associated with
presumptive Lyme disease: clinical
evidence. J. Spirol. Tick Dis. 7, 22–25
(2000).
48 Ziska MH, Donta ST, Demarest FC.
Physician preferences in the diagnosis
and treatment of Lyme disease in the
United States. Infection 24, 182–186
(1996).
49 Culp RW, Eichenfield AH, Davidson RS,
Drummond DS, Christofersen MR,
Goldsmith DP. Lyme arthritis in children.
An orthopedic perspective. J. Bone Joint
Surg. Am. 69, 96–99 (1987).
50 Weiss LM. Babesiosis in humans: a
treatment review. Expert Opin.
Pharmacother. 3, 1109–1115 (2002).
51 Logigian EL, Kaplan RF, Steere AC.
Successful treatment of Lyme
encephalopathy with iv. ceftriaxone. J.
Infect. Dis. 180, 377–383 (1999).
52 Dattwyler RJ, Halperin JJ, Volkman DJ,
Luft BJ. Treatment of late Lyme
borreliosis – randomized comparison of
ceftriaxone and penicillin. Lancet
1191–1194 (1988).
53 Schoen RT, Aversa JM, Rahn DW, Steere
AC. Treatment of refractory chronic
Lyme arthritis with arthroscopic
synovectomy. Arthritis Rheum. 34,
1056–1060 (1991).
54 Pavia CS. Current and novel therapies for
Lyme disease. Expert Opin. Investig. Drugs
12, 1003–1016 (2003).
55 Krause PJ, Lepore T, Sikand VK et al.
Atovaquone and azithromycin for the
treatment of babesiosis. N. Engl. J. Med.
343, 1454–1458 (2000).
56 Steere AC, Green J, Schoen RT et al.
Successful parenteral penicillin therapy of
established Lyme arthritis. N. Engl. J. Med.
312, 869–874 (1985).
57 Fallon BA. Chronic Lyme Disease Research
Study. A double-blind placebo-controlled
randomized clinical trial evaluating the
efficacy of ten weeks of iv. ceftriaxone and
effects on brain imaging. Enrollment since
2000.
58 Cameron DJ. Lyme Disease Retreatment
Study. A double-blind placebo-controlled
randomized clinical trial evaluating the
efficacy of oral amoxicillin for seropositive
and seronegative Lyme disease. Enrollment
since 2001.
59 Eppes SC, Klein JD, Caputo G, Rose CD.
Physician beliefs, attitudes and approaches
toward Lyme disease in an endemic area.
Clin. Pediatr. 33, 130–134 (1994).
60 Peña CA, Mathews AA, Siddiqi NH,
Strickland GT. Antibiotic therapy for Lyme
disease in a population-based cohort. Clin.
Infect. Dis. 29, 694–695 (1999).
61 Wahlberg P, Granlund H, Nyman D,
Panelius J, Seppala I. Treatment of late
Lyme borreliosis. J. Infect. 29, 255–261
(1994).
62 Donta ST. Tetracycline therapy for chronic
Lyme disease. Clin. Infect. Dis. 25(Suppl.
1), S52–S56 (1997).
63 Reid MC, Schoen RT, Evans J, Rosenberg
JC, Horwitz RI. The consequences of
overdiagnosis and overtreatment of Lyme
disease: an observational study. Ann. Intern.
Med. 128, 354–362 (1998).
64 Steere AC, Taylor E, McHugh GL,
Logigian EL. The overdiagnosis of Lyme
disease. JAMA 269, 1812–1816 (1993).
65 Sigal LH. Anxiety and persistence of Lyme
disease. Am. J. Med. 98(4A), 74S–78S
(1995).
Website
101 Burrascano JJ Jr. Managing Lyme disease:
diagnostic hints and treatment guidelines
for Lyme borreliosis, 2003. Accessed at
www.ILADS.org on November 1, 2003.
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