MRI – F.I.G.H.T for your health!

More on cancer diagnostics … with Dr. Gordon

Linda — Tue, 12 Apr 2011 06:43:01 +0000

Cancer diagnosis and treatment is ready for an overnight revolution. This WSJ report has vital information about how bad current diagnosis is and offers some real hope for the future. If you add this information to the new Johnson and Johnson test that finds one cancer cell in a billion in peripheral blood and therefore alerts doctors and patients. Most cancers are not local by the time they are found; if you find a 6 mm lump in a breast there are already 100 million cancer cells present there!! Now that we know radiation offers no help nor does lymph node dissection in the axilla offer any benefit, this is the time to move on to any tests that will motivate patients to take better care of themselves.

My FIGHT program is the answer but patients need some test that they believe is worth paying attention to in order to follow my program and then see that the less than optimal test results are all improving and they are no longer getting sick.

Also note in this report that there is a high false positive rate on skin biopsies for melanoma so who is getting needless surgery again? Please join me in alerting patients to the futility of current cut, burn and poison and the value of a total health program like my FIGHT program. We know we can improve the outcome of every measurable parameter of disease including cancer, cv, dx and dementia and slow aging.

Note that researchers at UC San Diego find that high cholesterol is protective against environmental toxins! The cholesterol myth needs to be destroyed; low cholesterol is associated with bad outcomes. Only oxidized cholesterol is worth dealing with and simple things like Kyolic Heart formula has been proven by Dr Budoff at UCLA
(http://search.barnesandnoble.com/cholesterol/matthew-budoff/e/9781935297109) to be 7.5 times more cardio protective than aspirin and statins together!

The public is brain washed today and they, therefore, have most of the facts all wrong! You need to educate your patients and office visits do not provide the needed time so rent space and invite patients to an evening or a Saturday afternoon free lecture; you could plan on at least 1/2 day for your patients and their families. Do this once or twice a year, as it doubles your practice and increases your satisfaction with your work. Use a Holiday Inn or some affordable large space.

Also refer them to all my lectures on my website and all my PowerPoint lectures are downloadable to use in your office. Contact Liz at Longevity Plus, 928-472-4263, ext 133, for assistance on using one of my PowerPoint lectures.

If we are to avoid bankrupting our nation with bad medicine, you need to become a spokesman for our FACT brand of Advanced Medicine. Put together a flyer, hand out and mail to everyone in your area and rent a space to share what you learn in FACT with your patients and friends and the public. They are ready to listen as Andrew Weil’s book title says No One Can Afford to Get Sick!

Garry F. Gordon MD,DO,MD(H)
President, Gordon Research Institute
www.gordonresearch.com

Link: http://online.wsj.com/article/SB10001424052748703749504576172564063944284.html?mod=djemHL_t

Excerpt:

Cancer can be notoriously difficult to spot, so scientists are working to develop new techniques to better detect tumors in the body.

Such tools could potentially identify cancer cells more reliably and earlier than currently available methods, such as mammography, biopsies and magnetic resonance imaging, or MRI. Improved detection methods could help speed up treatment decisions and monitor whether a therapy is working.

Cost analysis of asymmetric sensorineural hearing loss

Linda — Sun, 29 Aug 2010 06:08:16 +0000

Excerpt:

OBJECTIVES/HYPOTHESIS:: The purpose of this study is to critically evaluate the typical cost of asymmetrical sensorineural hearing loss (ASNHL) work-up, and to compare the positive predictive value from this common presenting symptom. STUDY DESIGN:: Retrospective chart review from two major otolaryngology centers. METHODS:: We reviewed charts from patients presenting to New York Eye and Ear Infirmary between January 1, 2006 and December 31, 2006, and the University of Minnesota between December 1, 2002 and November 30, 2007 with ASNHL. Diagnostic information included magnetic resonance imaging (MRI) and serum laboratory values (antinuclear antibodies, erythrocyte sedimentation rate, Lyme, rapid plasma reagin, and thyroid-stimulating hormone). We calculated positive rate according to each item of diagnosis. To estimate cost-benefit, we further calculated the average cost for identifying a patient with a positive result.

CONCLUSIONS:: A comprehensive ASNHL work-up may not be applicable to all patients. Laboratory serologic tests are highly cost effective in diagnosing treatable causes of ASNHL, such as syphilis and Lyme. Although radiographic imaging with MRI is not as cost effective, its value in detecting for acoustic neuroma is undeniable. Laryngoscope, 2010.

Mimicry of lyme arthritis by synovial hemangioma

Linda — Wed, 21 Jul 2010 05:27:47 +0000

Excerpt:

To report on the differential diagnosis of lyme arthritis and synovial hemangioma due to similar clinical and radiological signs and symptoms. A 15-year-old boy presented at the age of 9 with recurrent rather painless swelling of the right knee. Altogether four episodes lasting for 1-2 weeks each occurred over a period of 18 months before medical advice was sought. Physical examination revealed only a slightly limited range of motion. Living in an endemic area of borreliosis, he reported a tick bite 6 months prior to onset of his symptoms with erythema migrans and was treated for 10 days with amoxicillin. Serology revealed two positive unspecific bands in IgG immunoblot (p41 and 66) with slight positivity for ELISA. Ultrasound revealed synovial thickening and increased fluid. Despite the weak positive serology a diagnosis of lyme arthritis could not be excluded and intravenous antibiotic treatment with ceftriaxone was started. After two further relapses antiinflammatory therapy including intraarticular steroids were introduced with no long lasting effect. A chronical disease developed with alternate periods of swelling and almost complete remission. Ultrasound as well as MRI demonstrated ongoing signs of synovitis, therefore after further progression, a diagnostic arthroscopy was performed showing an inconspicuous knee joint. A second MRI showed focal suprapatellar enhancement and was followed by open arthrotomy revealing a histopathological proven synovial cavernous juxtaarticular hemangioma. To our knowledge, the differential diagnosis of lyme arthritis and synovial hemangioma has not yet been reported despite obvious clinical similarities. In conclusion, in children and adolescents synovial hemangioma has to be considered in differential diagnosis of recurrent knee swelling. Early diagnosis is important to prevent prolonged suffering from chronic joint swelling with probable joint damages, unnecessary treatment procedures and as well school and sports absenteeism.

Acute transverse myelitis in Lyme neuroborreliosis

Linda — Fri, 02 Jul 2010 06:54:15 +0000

Full article: http://eutils.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&id=20505978&retmode=ref&cmd=prlinks

Excerpt:

INTRODUCTION: Acute transverse myelitis (ATM) is a rare disorder
(1-8 new cases per million of population per year), with 20% of
all cases occurring in patients younger than 18 years of age.
Diagnosis requires clinical symptoms and evidence of inflammation
within the spinal cord (cerebrospinal fluid and/or magnetic
resonance imaging). ATM due to neuroborreliosis typically
presents with impressive clinical manifestations.
CASE PRESENTATION: Here we present a case of Lyme
neuroborreliosis-associated ATM with severe MRI and CSF findings,
but surprisingly few clinical manifestations and late conversion
of the immunoglobulin G CSF/blood index of Borrelia burgdorferi
sensu lato.
CONCLUSION:
Clinical symptoms and signs of neuroborrelial ATM may be minimal,
even in cases with severe involvement of the spine, as shown by
imaging studies. The CSF/blood index can be negative in the early
stages and does not exclude Lyme neuroborreliosis; if there is
strong clinical suspicion of Lyme neuroborreliosis, appropriate
treatment should be started and the CSF/blood index repeated to
confirm the diagnosis.

Disorders That Mimic Multiple Sclerosis

Linda — Mon, 17 May 2010 05:29:20 +0000

Excerpt:

If you have multiple sclerosis (MS)––or you know someone who does––you probably remember how long it took to make the diagnosis. You also may remember a lot of blood tests, a lumbar puncture, at least one magnetic resonance imaging (MRI) scan, as well as many visits and examinations by various doctors. You may wonder why it still takes so long to make the diagnosis in this modern age of MRIs and other sophisticated tests. We are going to try to explain why it can be so difficult for even the most expert MS neurologist to determine that someone has MS. You have to live with the diagnosis and face the disease and the treatments. You should understand and have confidence in the diagnosis. Also, if your case of MS does not fit the typical pattern, you need to be aware of the other disorders that can mimic MS. This is important because the treatments may be very different and, just as in most cases of MS, treatment begun early in the course of the disease is the best way to prevent or slow further neurologic damage.

MRI and new laboratory tests have definitely helped speed the diagnosis, but it still takes longer than anyone would wish, even in easy cases. This is partly because of the variable nature of the disease in its many signs and symptoms. But it is also because a rather long list of other medical disorders can cause neurologic symptoms and signs that resemble MS. Furthermore, the “white spots” on brain MRI can be caused by a number of other conditions that also need to be ruled out.

The diagnosis of clinically definite MS requires that a person experience at least two neurologic symptoms of the type seen in MS, in two different areas of the central nervous system (CNS), at two different times (‘disseminated in space and time’). Most typically, the symptoms are optic neuritis plus either an abnormal sensation or a problem with movement. It can also be numbness in one part of the body and weakness or lack of coordination in another. But in every case, there can be no other explanation for the symptoms, the changes seen on the MRI, and the abnormalities in the spinal fluid. Many “mimics” need to be ruled out in order to make the diagnosis of MS.

Low White Blood Cell Count Distinguishes Lyme Arthritis

Linda — Sat, 13 Mar 2010 19:16:28 +0000

Excerpt:

November 13, 2009 (Washington, DC) — The odds that a child living in a Lyme-endemic area of the United States who presents with a joint effusion will be diagnosed as having Lyme arthritis is 29%. The odds are even higher (44%) if the affected joint is the knee. The leukocyte count is useful in distinguishing between septic and Lyme arthritis, researchers announced here.

“There was an increase in the number of cases in the United States by 101% over the past 15 years, possibly due to increased recognition of Lyme disease,” said Aristides I. Cruz Jr., MD, resident in the Department of Orthopedics and Rehabilitation at Yale University in New Haven, Connecticut. During his presentation, he noted that 93% of all Lyme disease cases arise from 10 states, most in the Northeast United States.

Low White Blood Cell Count Distinguishes Lyme Arthritis From Septic Arthritis

Linda — Fri, 04 Dec 2009 07:10:50 +0000

November 13, 2009 (Washington, DC) – The odds that a child living in a Lyme-endemic area of the United States who presents with a joint effusion will be diagnosed as having Lyme arthritis is 29%. The odds are even higher (44%) if the affected joint is the knee. The leukocyte count is useful in distinguishing between septic and Lyme arthritis, researchers announced here.

“There was an increase in the number of cases in the United States by 101% over the past 15 years, possibly due to increased recognition of Lyme disease,” said Aristides I. Cruz Jr., MD, resident in the Department of Orthopedics and Rehabilitation at Yale University in New Haven, Connecticut. During his presentation, he noted that 93% of all Lyme disease cases arise from 10 states, most in the Northeast United States.

“Children are more likely to present with arthritis as initial manifestation of Lyme disease,” Dr. Cruz told the audience.

“Children with Lyme arthritis presenting with a limp and a swollen joint will typically have a lower peripheral white blood cell count,” Dr. Cruz added. “They are less likely to have complete non-weight-bearing on the affected limb, less likely to have a fever, and [arthritis symptoms are] more likely to involve the knee joint compared with children with septic arthritis.”

The findings were reported here at the American Academy of Pediatrics 2009 National Conference & Exhibition.

Basic Diagnostic Tools Help Distinguish Lyme From Septic Arthritis

“In the Northeast, we see a lot of Lyme disease,” said Yi-Meng Yen, MD, PhD, instructor in orthopaedic surgery, Harvard Medical School, Children’s Hospital Boston in Massachusetts. “It is hard to distinguish whether [it] is Lyme disease or whether [it] is septic arthritis,” Dr. Yen agreed.

“Septic arthritis mandates that we take the patient to the operating room and do a surgery, whereas Lyme arthritis theoretically can be treated with antibiotics,” he told Medscape Pediatrics in an interview. For instance, he said, “Our institution has been looking at MRIs [magnetic resonance images] as a way to reliably distinguish between the two, because it takes several days sometimes for the lab tests to come back to definitely tell you whether you have Lyme disease or not. So, in those few days, if you have septic arthritis, that’s a bad thing.”

“To reliably, quickly diagnose what the patient has can help us determine the treatment quickly,” added Dr. Yen, who was not involved in this study.

“If you are clinically susceptible for septic arthritis, it pays to go to the operating room,” Dr. Cruz said in answer to a question from the audience. “In the past, almost all these patients automatically went to the operating room.”

However, if the clinical presentation is consistent with Lyme arthritis, treatment with antibiotics should suffice, he added. “The point of this study was to come up with some clinically useful criteria to arm ourselves with more tools to diagnose the disease.”

Dr. Cruz and his team sought to evaluate clinical parameters that could eventually be used to differentiate Lyme arthritis from septic arthritis in children and help with diagnosis and subsequent treatment.

In this retrospective analysis, the investigators reviewed data from children who underwent lower-extremity joint aspiration at Yale University Medical Center, a tertiary care children’s hospital in a Lyme disease endemic area.

Between August 2002 and August 2008, more than 200 children underwent a total of 212 aspirations for a joint effusion. Cell count, culture, hematologic inflammatory markers, and subsequent surgical intervention were available for 170 of the 212 aspirates.

Dr. Cruz’s team compared findings from 50 children with serologically confirmed Lyme disease with data from 21 patients with culture-positive septic arthritis.

They found statistically significant differences between the 2 cohorts. For instance, the peripheral white blood cell count was 9.5 x 1000/μL (range, 3.0 – 14.9 x 1000/μL) in the aspirates from children with Lyme disease vs 12.5 (range, 5.5 – 30.1) in children with septic arthritis (P = .002).

Other parameters, such as joint fluid cell count, erythrocyte sedimentation rate, and C-reactive protein levels, were not significantly different between the 2 groups and could not be used to differentiate between septic and Lyme arthritis.

Interestingly, said Dr. Cruz, of all the children presenting with a joint effusion at their hospital, 29% were likely to be diagnosed as having Lyme arthritis overall compared with 44% if the aspirate was a knee aspirate.

“Is it worthwhile to develop something that’s very reliable? Absolutely!” said Dr. Yen. “Especially in the Northeast centers. It is a growing healthcare problem and a lot more study should be put into it.”

Dr. Cruz and Dr. Yen have disclosed no relevant financial relationships.

American Academy of Pediatrics (AAP) 2009 National Conference & Exhibition (NCE): Abstract 5806. Presented October 17, 2009.

Journalist

Crina Frincu-Mallos, PhD

Crina Frincu-Mallos is a freelance writer for Medscape Medical News.

American Academy of Pediatrics (AAP) 2009 National Conference and Exhibition

This coverage is not sanctioned by, nor a part of, the American Academy of Pediatrics.

From Medscape Medical New

Lyme Encephalopathy

Linda — Sun, 29 Nov 2009 05:39:37 +0000

Encephalopathy is like fine art: Most people know it when they see it, but there is very little agreement on how to define it. At the 14th International Lyme Disease Conference, Brian A. Fallon, MD,[1] of Columbia University and the New York State Psychiatric Institute, New York, NY, tried to do just that. More importantly, he described the different ways one can define encephalopathy, the strengths and limitations of each approach, and significantly, what other aspects of life can give the impression of encephalopathy where none exists. First, one must evaluate patients with persistent Lyme encephalopathy by asking the following questions:

Is the diagnosis correct?
Are there comorbid psychiatric disorders that could be treated better? Does the patient have a psychogenic medical illness? What was the patient’s response to prior antibiotics?
Was previous treatment adequate? How long was the course, and what was the route of administration? Was there a subsequent relapse

Defining the Problem
The first question can pose a problem for the clinician. There is currently no agreed-upon definition of Lyme encephalopathy, and this has caused a great deal of confusion in the field. Encephalopathy was not included in the CDC’s case definition of Lyme disease, so NIH-funded studies of this condition can be hard to defend without a government- or society-sanctioned definition.
For investigators in this field, there have been numerous and differing definitions of Lyme encephalopathy. One of the earlier attempts at defining the problem was made by Logigian and colleagues in 1990.[2] This group listed the chronic neurologic abnormalities of Lyme encephalopathy as memory loss, depression, sleep disturbance, irritability, and difficulty finding words. However, there is much overlap between these symptoms and those of depression unrelated to Lyme disease.

Some further possibilities for defining the condition include self reporting of cognitive deficits, self reporting plus laboratory signs of CNS involvement, objective evidence of deficits on cognitive testing, or objective deficits plus laboratory signs of central nervous system (CNS) involvement. Signs of CNS involvement have included elevated cerebrospinal fluid (CSF) protein or pleocytosis, abnormal brain scans or tests (single photon emission computed tomography [SPECT], magnetic resonance imaging [MRI], or electroencephalogram [EEG]), intrathecal antibody production, or a positive polymerase chain reaction (PCR) for Borrelia burgdorferi DNA or a positive culture. However, objective tests often do not agree with patients’ perceptions. This is especially true for memory in depression

One Deficit, or Many?
One challenge is determining which and how many cognitive deficits to include in the definition and evaluation. For instance, some investigators have looked at a single, representative deficit (ie, single-domain methods) such as memory.[3] Others have looked at numerous deficits in each patient (ie, multiple-domain methods), such as memory, verbal fluency, and attention.[4] The advantage of the single domain method is that it focuses on one main problem and makes for a more homogeneous study sample. However, such a study may exclude patients who are impaired in other cognitive areas. The multiple domain method is particularly well suited for a disease that affects multiple cognitive domains, as one would expect for a global term such as encephalopathy. However, if patients have deficits primarily in one domain, this method becomes less sensitive (by dilution with less affected cognitive areas).
A further complication is how one defines and measures these deficits. One approach is to compare to age-matched norms. A second approach is to compare to actual or estimated premorbid or general ability levels. Comparison to age-matched norms provides simple, clear criteria for measurement and comparison, a cut-off score. But if the deficit being compared is correlated with a general ability (such as memory and general intelligence), then people with higher intelligence but with memory impairment may not be detected by this method. For example, if a subject has a general intelligence IQ of 130 and a memory score of 100, his full-scale IQ is 2 standard deviations above the age-norm, while his memory score is exactly at the age-norm. Compared to age-norms, this subject would not have memory impairment. Compared to his full-scale IQ, his memory score would be 2 standard deviations below expected — which clearly would suggest impairment. One method identifies this subject as normal, the next identifies him as impaired.

In contrast to the age-norm method, comparison to general levels of ability can allow for a more customized approach to assessing cognitive impairment, thus enhancing sensitivity. However, general abilities can be decreased by illness, regardless of a specific effect on that ability. In addition, this approach assumes that the domain of interest is strongly correlated with general ability.

The ideal screening tool for Lyme encephalopathy should have maximal sensitivity and specificity. Premorbid ability should be taken into account, by using norms adjusted for age, sex, and education level, or with balanced premorbid assessment of ability. It is still not clear whether a single- or multiple-domain definition of neurocognitive impairment should be used.

There are many screening tools for assessing premorbid ability, including verbal IQ, verbal comprehension index, vocabulary subtest score, reading subtest score (WRAT-R [Wide range achievement test-Revised]), demographic composite (Barona demographic equation), and national adult reading test (NART). Of course, different investigators have used different methods of assessing premorbid ability, thus further complicating comparisons between studies.

One of the few studies that actively evaluated patients with Lyme encephalopathy was conducted by Logigian and coworkers in 1997.[5] This study reveals some of these diagnostic problems discussed above. In this study, the investigators screened patients for Lyme encephalopathy and then evaluated the change in SPECT scan perfusion after treatment. Starting with clearly defined criteria for “definite Lyme encephalopathy” — subjective complaints of cognitive deficits, along with either a past or present CSF abnormality (intrathecal antibodies or PCR positivity) or objective cognitive deficits (as measured by 2 standard deviations below normal on verbal or visual memory tests, or 1 SD below normal on both tests) — they examined whether brain perfusion improved after treatment. While the brain imaging results were of interest in that all of the patients with definite Lyme encephalopathy showed improved perfusion after treatment, this study also demonstrated that the definition of Lyme encephalopathy, if restricted to cognitive testing, would have been too restrictive using their criteria. In other words, 5 of the 13 patients with “definite Lyme encephalopathy” did not have cognitive impairment using their criteria for impairment. Yet, these very same patients had abnormal SPECT scans that improved after treatment. Their cognitive criteria, which used age-norms for comparison, failed to identify 38% of patients with CNS abnormalities.

Dr. Fallon described an ongoing study of Lyme encephalopathy he is conducting at the NY State Psychiatric Institute. Because previous studies disagree about which is more accurate, single- or multiple-domain evaluation, they will collect data in 6 domains: motor skills, psychomotor skills, attention, memory, working memory, and verbal fluency. Data are preliminary, but so far the most sensitive method for the detection of impairment appears to be one that incorporates testing from multiple cognitive domains. Memory and working memory seem to be the most affected neurocognitive areas. Even so, about one quarter of the control subjects appeared to have neurocognitive deficits, compared to two thirds of the patients with complaints of memory impairment secondary to Lyme disease. Dr. Fallon suggested that the best method for detecting memory impairment in particular might be one that makes use of ethnicity- and education-adjusted norms. The Psychological Corporation is expected to publish such norms within the next year.

Complicating Factors
When determining the presence of encephalopathy in patients with Lyme disease, one must take into account other causes of cognitive complaints (Table 1), including the use of medications that can impair neurocognitive function (Table 2).

[Hysterical dementia is often over diagnosed in patients with Lyme encephalopathy, but it is rare for this to occur alone as a conversion symptom. The label of “hysterical” is often applied when phenomena are outside the clinician’s experience. For instance, females and male homosexuals more often receive this label. Based on studies over the past 50 years, many patients who are initially given the diagnosis of hysterical dementia go on to develop an organic CNS disorder.

Dr. Fallon is conducting a randomized, placebo-controlled study of brain imaging and treatment of persistent Lyme encephalopathy (Columbia University – National Institute of Neurological Disorders and Stroke [NINDS]). Treatment will involve IV ceftriaxone for 10 weeks, with a 14-week antibiotic-free follow-up period. At the end of the 24-week study, patients who had been randomized to receive placebo will be given 6 weeks of IV ceftriaxone. Evaluations will be conducted at baseline and 12 and 24 weeks. PET and MRI imaging as well as neuropsychiatric tests are being used to evaluate response to treatment. Patients will be recruited for this study over the course of the next 3 years.

An In-depth Study of Neurocognitive and Behavioral Lyme Disease

Patricia K. Coyle, MD,[6] and colleagues from the State University of New York at Stony Brook School of Medicine have conducted a prospective, controlled study to characterize the neurologic and neurobehavioral manifestations of Lyme disease in North America. They examined 3 groups: adults with acute disease, adults with chronic disease, and children with disseminated disease (ie, more than 1 erythema migrans [EM] lesion). They attempted to characterize changes to the CSF and identify pathogenetic mechanisms and predictors of outcome. This work builds on a previous study by Coyle and colleagues.[7]
The clinical syndromes studied included cranial (facial) neuropathy, radiculoneuritis, meningitis, and arthritis. The major symptoms (ie, seen in more than two thirds of patients) in adults with acute disease included fatigue, headache, sleep problems, stiff neck, and myalgia. Those with chronic disease had a different constellation of major symptoms, such as concentration difficulties, fatigue, arthralgias, myalgias, mood disturbance, memory loss, sleep problems, word-finding difficulties, knee pain, confusion, and stiff neck. Children with disseminated Lyme disease experienced major symptoms of headache and fatigue. By symptom score, the major initial defining syndrome for the acute adult group was meningitis, followed by multifocal EM, cranial nerve palsy, radiculoneuritis, and single EM; for the chronic adult group, single EM was the most common presenting symptom, followed by arthritis, cranial nerve palsy, and multifocal EM; and for children with disseminated disease, extraneural symptoms.

These investigators concluded that the children with disseminated disease are less symptomatic than adults, but they have more inflammatory CSF changes. Among the adult patients, those with chronic disease were more symptomatic than those with acute disease. They had more cognitive, mood, and joint disturbances; more severe symptoms; and more current depression, anxiety, and adjustment problems. However, it was the acute disease patients who were more likely to show objective cognitive deficits.

Surprisingly, CSF changes were not marked in either group of adult patients. In adults with acute disease, 45% had reactive or borderline CSF serology, 7% had intrathecal antibody production (a common test for CNS infection), 30% had an elevated white blood cell count (WBC), 23% had elevated protein, only 14% had evidence of oligoclonal bands, and only 7% had an elevated IgG index. Similarly, in the adult chronic disease group, 35% had reactive or borderline CSF serology, 6% had intrathecal antibody production, 15% had elevated WBC, 15% had elevated protein, 6% had evidence of oligoclonal band testing, and 3% had an elevated IgG index. Dr. Coyle plans to follow up with each group of patients to measure long-term (18-month) sequelae of the disease

Lyme Encepalopathy

Linda — Sun, 29 Nov 2009 05:35:42 +0000

Encephalopathy is like fine art: Most people know it when they see it, but there is very little agreement on how to define it. At the 14th International Lyme Disease Conference, Brian A. Fallon, MD,[1] of Columbia University and the New York State Psychiatric Institute, New York, NY, tried to do just that. More importantly, he described the different ways one can define encephalopathy, the strengths and limitations of each approach, and significantly, what other aspects of life can give the impression of encephalopathy where none exists.
First, one must evaluate patients with persistent Lyme encephalopathy by asking the following questions:

An In-depth Study of Neurocognitive and Behavioral Lyme Disease