The IDSA Guidelines And Embers At a Glance Table
I have blogged about the Embers study previously. The Embers study essentially dismantles much of the science that the IDSA relies on in their Lyme guidelines. This post presents a table of the IDSA guideline assumptions and recommendations that the Embers study refutes. This is just one of the many, many reasons the IDSA guidelines should be revised.
The IDSA Guidelines And Embers At a Glance Table.
A new study by Drs. Monica Embers, Stephen Barthold, Mario Phillip and colleagues has found that the bacteria that cause Lyme disease, Borrelia burgdorferi (Bb) persist in monkeys after antibiotic treatment. It is the latest in a number of studies that have demonstrated persistent infection in animal models despite treatment. The study also found that the C6 antibody test gave false negative results in all of those treated with antibiotics and in more than 50% of those untreated. This study contradicts most of the IDSA major tenents in their Lyme guidelines as set forth in the table below:
Embers Monkey Trials: IDSA Guidelines Implications
Mandatory Use of Antibody Laboratory Tests for Diagnosis
IDSA:“Clinical ﬁndings are sufﬁcient for the diagnosis of erythema migrans, but clinical ﬁndings alone are not sufﬁcient for diagnosis of extracutaneous manifestations of Lyme disease. . . . Diagnostic testing performed in laboratories with excellent quality-control procedures is required for conﬁrmation of extracutaneous Lyme disease.”
Embers Monkey Trials: The C6 antibody test failed to detect Lyme disease in 50% of monkeys with persistent Lyme disease over time even though direct evidence of the bacteria confirmed persistence. [This means the test is not sensitive enough to be required for diagnosis.]
Treatment of Early Disseminated Lyme Disease
IDSA:“Doxycycline, amoxicillin, and cefuroxime axetil are effective for the treatment of early Lyme disease. Most patients respond promptly and completely. Some individuals have persistent subjective complaints, despite receiving therapy that otherwise appears curative. Less than 10% of individuals do not respond to antibiotic therapy, as evidenced by the presence of objective clinical manifestations, and rarely is re-treatment required.”
Embers Monkey Trials: All infected monkeys treated with this protocol failed to clear the infection. Early disseminated was defined as 4 months after inoculation. [This means short term protocols are expected to fail in monkeys with early disseminated Lyme disease.]
Persistence of Lyme disease bacteria (Borellia burdorferi)
IDSA:“There is no convincing biologic evidence for the existence of symptomatic chronic B. burgdorferi infection among patients after receipt of recommended treatment regimens for Lyme disease.”
Embers Monkey Trials: Embers found direct evidence of persistence in all monkeys treated with 28 days of antibiotics and in 8 out of 11 treated with 90 day Klempner protocol. [This means Bb persistence is the norm in monkeys.]
Effectiveness of Antibiotic therapy chronic Lyme disease
IDSA:“Antibiotic therapy has not proven to be useful and is not recommended for patients with chronic (6 months) subjective symptoms after recommended treatment regimens for Lyme disease (E-I).”
Embers Monkey Trials: Embers found that 3 of 11 infected monkeys cleared the infection using the 90 day Klempner protocol. [This means that 90 days of antibiotics worked in about 25% of the monkeys. It suggest that rather than being ineffective, the course of antibiotics used may be insufficient.]
Recommended modalities of treatment
IDSA:“Because of a lack of biologic plausibility, lack of efﬁcacy, absence of supporting data, or the potential for harm to the patient, the following are not recommended for treatment of patients with any manifestation of Lyme disease: . . . .combinations of antimicrobials, pulsed-dosing (i.e., dosing on some days but not others), long-term antibiotic therapy. . .”
Embers Monkey Trials: “Finally, the use of variable and pulse-dosing regimens of antibiotics may improve efficacy  and this warrants testing in an appropriate model.” [This means that non-standard approaches may improve efficacy. Also note that 90 days was better than 28 in the Embers study.]
Mechanisms of persistence
IDSA:“Finally, Lyme disease lacks characteristics of other infections that justify longer treatment courses, such as infections in immunodeﬁcient hosts, infections in which a pathogen is inhibited but not killed by antimicrobial therapy or in which available antimicrobials are minimally active in vitro, infections caused by an intracellular pathogen, infections involving a bioﬁlm, infections on a heart valve, or infections involving a clinical site in which there is ischemia, a foreign body, a sequestrum, or frank pus . The “cystic” forms of B. burgdorferi that have been seen under certain growth conditions in vitro have not been shown to have any clinical signiﬁcance .”
Embers Monkey Trials: “The nature of the persistent organisms and the acquisition of tolerance to antibiotics are questions that need to be addressed. The B. burgdorferi spirochete is known to invade collagenous tissue as a possible mechanism of immune evasion.”
. . . .”The fact that organisms can persist in the presence of antibiotics such as penicillin and cephalosporins (ceftriaxone) that interfere with cell wall synthesis appears to stem from their ability to enter a dormant, non-dividing state [43,44], thus avoiding the need for cell wall synthesis to continue growth.”
. . . .”A ‘‘persister’’ phenotype may possibly be responsible for the recalcitrance of persisting spirochetes made evident by previous studies in mice and dogs [37,42,45], and by those presented in this report.” [This means there are lots of plausible mechanisms for persistence.]
Antibody Level Decline
IDSA:Additional compelling evidence against the hypothesis that persistent symptoms are the result of persistent infection is the fact that the concentrations of antibodies against B. burgdorferi in many of these patients diminish to undetectable levels [257, 286, 288, 318]. The panel is unaware of any chronic infection in which antibody titers diminish despite persistence of the causative organism.
Embers Monkey Trials: In all of the infected animals, the C6 antibody index rose steeply within the first 5–8 weeks post-inoculation (PI). Thereafter, the responses fit into three patterns, depending on whether the animals were or were not treated with antibiotics. In the treated group, the response declined steadily during the treatment period and reached background levels at the endpoint in all animals. In contrast, the responses of the untreated group remained either largely unchanged (5 out of 12 animals, or returned to background levels (7 out of 12 animals) but not in parallel with the kinetics of the treated group’s decline in specific antibody (Figure 2B).
This article is part of a series of reviewing the Embers findings for treatment of chronic and early disseminated Lyme disease as well as the effectiveness of the C6 antibody test. You can find these other posts here:
Embers ME, Barthold SW, Borda JT, Bowers L, Doyle L, Hodzic E, et al. Persistence of Borrelia burgdorferi in Rhesus Macaques following Antibiotic Treatment of Disseminated Infection. PLoS ONE. 2012;7(1):e29914. Available at: http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0029914.
Wormser GP, Dattwyler RJ, Shapiro ED, Halperin JJ, Steere AC, Klempner MS, et al. The clinical assessment, treatment, and prevention of lyme disease, human granulocytic anaplasmosis, and babesiosis: clinical practice guidelines by the Infectious Diseases Society of America. Clin Infect Dis. 2006 Nov 1;43(9):1089-134.