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Epstein barr virus mononucleosis

Infectious mononucleosis (also known as mono, the kissing disease, Pfeiffer's disease, and glandular fever) is a disease seen most commonly in adolescents and young adults, characterized by fever, sore throat and fatigue. It is caused by the Epstein-Barr virus (EBV) or the cytomegalovirus (CMV). It is typically transmitted through saliva or blood, often through kissing, or by sharing a drinking glass, eating utensil or needle. Contrary to common belief, the disease is relatively non-contagious. The causative virus is also found in the mucus of the infected person, so it is also easily spread through coughing or sneezing. more...

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It is estimated that 95% of adults in the world have EBV-antibodies, having been infected with the Epstein-Barr virus at some point in their lives. The virus infects B cells (B-lymphocytes), producing a reactive lymphocytosis and the atypical T cells (T-lymphocytes) which give the disease its name.

Symptoms and physical signs

A person can be infected with the virus for weeks or months before any symptoms begin to appear. Symptoms usually begin to appear 4-7 weeks after infection and may resemble strep throat or other bacterial or viral respiratory infections. These first signs of the disease are commonly confused with cold and flu symptoms. The typical symptoms and signs of mononucleosis are:

  • Fever - this varies from mild to severe, but is seen in nearly all cases.
  • Enlarged and tender lymph nodes - particularly the posterior cervical lymph nodes, on both sides of the neck.
  • Sore throat (throat infection) - nearly all patients with EBV-mononucleosis have symptoms similar to tonsillitis.
  • Fatigue (sometimes extreme fatigue)

Some patients may also display:

  • Enlarged spleen (splenomegaly) or liver (hepatomegaly), which may later rupture
  • Abdominal pain
  • Aching muscles
  • Headache
  • Loss of appetite
  • Jaundice
  • Sinus infection
  • Depression
  • Weakness
  • Skin rash

The symptoms of infectious mononucleosis usually last 1-2 months, but the virus can remain dormant in the B cells indefinitely after symptoms have disappeared, and resurface at a later date. Many people exposed to the Epstein-Barr virus do not show symptoms of the disease, but carry the virus and can transmit it to others. This is especially true in children, in whom infection seldom causes more than a very mild illness which often goes undiagnosed. This feature, along with mono's long incubation period, makes epidemiological control of the disease impractical. About 6% of people who have had mono will relapse.

Since mononucleosis can cause the spleen to swell, it may in rare cases lead to a ruptured spleen. Rupture may occur without trauma, but impact to the spleen is usually a factor. Other complications include hepatitis (inflammation of the liver) causing jaundice, and anaemia (a deficiency of red blood cells). In rare cases, death may result from severe hepatitis or splenic rupture.

Usually, the longer the infected person experiences the symptoms the more the infection weakens the person's immune system and the longer he/she will need to recover. Cyclical reactivation of the virus, although rare in healthy people, is often a sign of immunological abnormalities in the small subset of organic disease patients in which the virus is active or reactivated.

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Epstein-Barr virus infectious mononucleosis
From American Family Physician, 10/1/04 by Mark H. Ebell

Infectious mononucleosis is a clinical syndrome caused by Epstein-Barr virus (EBV) that is particularly common in adolescents and children. Typical features of infectious mononucleosis include fever, pharyngitis, adenopathy, malaise, and an atypical lymphocytosis. Splenomegaly, hepatomegaly, jaundice, and splenic rupture can occur in patients with infectious mononucleosis, but these complications are rare. (1)

Data collected more than 30 years ago on the incidence of infectious mononucleosis show the highest rates in persons 10 to 19 years of age (six to eight cases per 1,000 persons per year). (2, 3) The incidence in persons younger than 10 years and older than 30 years is less than one case per 1,000 persons per year, (2, 3) but mild infections in younger children often may be undiagnosed. The infection is most common in populations with many young adults, such as active-duty military personnel and college students, in whom the annual incidence for infectious mononucleosis ranges from 11 to 48 cases per 1,000 persons. (4, 5)

Infectious mononucleosis is relatively uncommon in adults, accounting for less than 2 percent of all adults presenting with sore throat. (6) Family physicians should expect to diagnose one to four patients with infectious mononucleosis per year, depending on the number of adolescents in their practice. (3, 5) The incidence of infectious mononucleosis shows no consistent seasonal peak. (2)

Etiology and Pathophysiology

EBV is a herpes virus that replicates primarily in [beta]-lymphocytes but also may replicate in the epithelial cells of the pharynx and parotid duct. (7) The infection is spread primarily by saliva, and the incubation period is four to eight weeks. In an acute infection, heterophile antibodies that agglutinate sheep erythrocytes are produced. This process forms the basis for the Monospot rapid latex agglutination test. Antibodies to viral capsid antigen (i.e., VCA-IgG and VCA-IgM) are produced slightly earlier than the heterophile antibody and are more specific for EBV infection. The VCA-IgG antibody persists past the stage of acute infection and signals the development of immunity. (7)

Diagnosis

TYPICAL PRESENTATION

In a series of 500 patients with confirmed infectious mononucleosis, at least 98 percent had sore throat, lymph node enlargement, fever, and tonsillar enlargement. (8) Other common physical signs included pharyngeal inflammation (85 percent) and transient palatal petechiae (50 percent). (8) This presentation is typical in adolescents. Older adults are less likely to have sore throat and adenopathy but more likely to have hepatomegaly and jaundice. (9)

DIAGNOSTIC CRITERIA FOR INFECTIOUS MONONUCLEOSIS

Hoagland's criteria (8) for the diagnosis of infectious mononucleosis are the most widely cited: at least 50 percent lymphocytes and at least 10 percent atypical lymphocytes in the presence of fever, pharyngitis, and adenopathy, and confirmed by a positive serologic test. While quite specific, these criteria are not highly sensitive and are most useful for research purposes. (6, 10) Only about one half of patients with symptoms suggestive of infectious mononucleosis and a positive heterophile antibody test meet all of Hoagland's criteria.

DIFFERENTIAL DIAGNOSIS

Patients with streptococcal pharyngitis or one of several viral pharyngitides present with sore throat, fatigue, and adenopathy. Acute cytomegalovirus (CMV) infection and toxoplasmosis can share many additional characteristics with infectious mononucleosis, including splenomegaly, hepatomegaly, lymphocytosis, atypical lymphocytosis, and even false-positive results from a heterophile antibody test. (11) It may not be possible--or even useful--to distinguish between infectious mononucleosis caused by EBV infection and an infectious mononucleosis--like syndrome caused by toxoplasmosis or CMV, because the management of these syndromes is the same. However, diagnostic testing is warranted in pregnant women because toxoplasmosis and acute human immunodeficiency virus (HIV) and CMV infections are associated with significant pregnancy complications.

Symptoms of acute HIV infection can resemble those of infectious mononucleosis. If acute HIV infection is suspected, a quantitative polymerase chain reaction test should be performed. The differential diagnosis for suspected infectious mononucleosis is summarized in Table 1. (12)

KEY DIAGNOSTIC FEATURES

Few well-designed studies have been con-ducted to determine the value of clinical examination in patients with infectious mononucleosis in the primary care setting. The best study is a series including more than 700 patients 16 years of age and older with sore throat, 15 of whom were found to have infectious mononucleosis on the basis of a positive heterophile antibody test. (6) The diagnostic accuracy of different signs and symptoms associated with infectious mononucleosis is summarized in Table 2. (6)

[TABLE 2 OMITTED]

The presence of splenomegaly, posterior cervical adenopathy, axillary adenopathy, and inguinal adenopathy is most useful in considering the possibility of infectious mononucleosis, while the absence of cervical adenopathy and fatigue is most helpful in dismissing the diagnosis. Infectious mononucleosis should be suspected and a diagnostic evaluation obtained in febrile patients who have sore throat plus splenomegaly, palatal petechiae, or posterior, axillary, or inguinal adenopathy. (6) A recent study (13) con-firmed this recommendation, although axillary and inguinal adenopathy were found less often in the study population.

Because the physical examination is quite insensitive for detecting splenomegaly (between 27 and 58 percent, depending on the examiner's index of suspicion), the absence of splenomegaly should not be used as evidence against the diagnosis of infectious mononucleosis. (14)

DIAGNOSTIC TESTS

The accuracy of diagnostic tests for infectious mononucleosis is summarized in Table 3. (6, 18, 15, 17) The syndrome is characterized by an absolute and relative lymphocytosis and an increased proportion of atypical lymphocytes. When a higher cutoff point is used to define an abnormal number of atypical lymphocytes, the sensitivity decreases (i.e., more false-negative diagnoses) and the specificity increases (i.e., fewer false-positive diagnoses).

The original serologic test for infectious mononucleosis, the Paul-Bunnell test, detected heterophile antibodies by agglutination of sheep or horse red blood cells. (18) Later, guinea pig kidney absorption of serum was added to increase the specificity of the test. (19) These tests are now available in convenient latex agglutination or solid-phase immunoassay form. Although they are relatively specific, heterophile antibody tests are somewhat insensitive, particularly in the first weeks of illness. The false-negative rate is as high as 25 percent in the first week, approximately 5 to 10 percent in the second week, and 5 percent in the third week of illness. (8) Heterophile antibody tests are less sensitive in patients younger than 12 years, detecting only 25 to 50 percent of infections in this group, compared with 71 to 91 percent in older patients. (15)

More sensitive tests have been developed that detect VCA-IgG and VCA-IgM. When the results are negative, these tests are better than heterophile antibody tests in ruling out infectious mononucleosis caused by EBV (negative likelihood ratio, 0.03 versus 0.14 to 0.18 for heterophile antibody tests), but when the results are positive, the tests are similar in their ability to rule in disease (positive likelihood ratio, 16 versus 9.7 to 28). (16, 17) VCA-IgG and VCA-IgM tests are useful in diagnosing patients who have highly suggestive clinical features but negative heterophile antibody test results. Antibody to Epstein-Barr nuclear antigen (EBNA), while typically not detectable until six to eight weeks after the onset of symptoms, can help distinguish between acute and previous infections. If EBNA is positive in a patient with acute symptoms and suspected infectious mononucleosis, previous infection is suggested. Elevated hepatic transaminase levels are relatively common in patients with infectious mononucleosis, occurring in approximately one half of patients. (20)

RECOMMENDED DIAGNOSTIC STRATEGY

No evidence-based or consensus guidelines have been proposed to guide the evaluation of patients with suspected infectious mononucleosis; the following recommendations are based on a synthesis of the available evidence (Figure 1). Patients between 10 and 30 years of age with sore throat, fever, and significant anterior cervical adenopathy, fatigue, posterior cervical adenopathy, inguinal adenopathy, palatal petechiae, or splenomegaly are at high risk for infectious mononucleosis. A white blood cell count with differential or a heterophile antibody test should be obtained in these patients, as well as a rapid test for streptococcal pharyngitis.

[FIGURE 1 OMITTED]

If the patient has more than 20 percent atypical lymphocytes or more than 50 percent lymphocytes with at least 10 percent atypical lymphocytes, infectious mononucleosis is quite likely, and further confirmation of the diagnosis is not needed. A positive result of a heterophile antibody test also is strong evidence in favor of a diagnosis of infectious mononucleosis. A negative result of an antibody test, particularly during the first week of illness, may indicate that the patient does not have infectious mononucleosis. However, it also could be a false-negative result or could indicate that the patient has an infectious mononucleosis--like syndrome caused by CMV or toxoplasmosis. The patient should be treated symptomatically, and if the patient does not clinically improve within five to seven days, a second heterophile antibody test should be performed. If an accurate diagnosis is urgently required (for example, in a competitive athlete who wants to return to competition as soon as possible), a VCA-IgM test may be selected. A negative result is strong evidence against the diagnosis of infectious mononucleosis.

Treatment

The mainstay of treatment for infectious mononucleosis is good supportive care, including adequate hydration; nonsteroidal anti-inflammatory drugs or acetaminophen for fever and myalgias; and throat lozenges or sprays, or gargling with a 2 percent lidocaine (Xylocaine) solution to relieve pharyngeal discomfort. An older, quasi-experimental study (21) found that enforced bed rest slowed recovery. Given the lack of evidence for bed rest in many other conditions, it seems sensible to recommend that patients base their return to usual activities on their energy levels.

A meta-analysis (22) of five randomized controlled trials involving 339 patients found that patients who took acyclovir (Zovirax) had less oropharyngeal shedding at the end of therapy, but this treatment provided no significant or consistent clinical benefit and is therefore not recommended. Another trial found no significant benefit from the use of ranitidine (Zantac) in patients with infectious mononucleosis. (23)

Corticosteroids have been advocated for the treatment of patients with infectious mononucleosis, (8) and some early studies (24, 25) seemed to show a benefit from these agents with regard to normalization of temperature and laboratory values. However, these studies had significant methodologic limitations. A more recent and better-designed study (26) found no benefit from a combination of acyclovir and prednisone. In a small, double-blind, randomized trial (27) of 40 children with suspected infectious mononucleosis (33 of whom had confirmed infectious mononucleosis), those who were given oral dexamethasone (0.3 mg per kg) had less pain at 12 hours but not at 24, 48, and 72 hours. This finding indicates that repeated doses may be needed. Based on clinical experience and case reports, corticosteroids are recommended in patients with significant pharyngeal edema that causes or threatens respiratory compromise. (28)

PREVENTION OF COMPLICATIONS AND RECURRENCE

A 1975 report (8) of 500 consecutive patients with infectious mononucleosis found that 30 percent of patients had group A [beta]-hemolytic streptococcal (GABHS) pharyngitis, 0.2 percent had splenic rupture, 0.2 percent had peritonsillar abscess, and 0.2 percent had rheumatic fever. Two other studies (29, 30) reported GABHS pharyngitis rates of only 3 to 4 percent in studies of more than 100 patients. The true rate of concomitant infectious mononucleosis and GABHS pharyngitis probably lies between these extremes and may depend on the time of year. It seems prudent to obtain a rapid strep test in patients with infectious mononucleosis and to treat them with antibiotics only if the strep test result is positive. Amoxicillin and ampicillin should not be used because they may cause a morbilliform rash in patients with infectious mononucleosis.

Patients with infectious mononucleosis are likely to have splenomegaly. Although most patients do not have a palpable spleen on physical examination, a study (31) of 29 patients who were hospitalized with infectious mononucleosis (and who therefore may have had more severe disease) found that all patients had splenomegaly on ultra-sound examination and that one half of them had hepatomegaly. Only 17 percent of the enlarged spleens and 8 percent of the enlarged livers were palpable on physical examination, a finding that is consistent with other studies. (6) Because an enlarged spleen is at risk for rupture, athletes should not compete in contact or collision sports for a minimum of three to four weeks after the onset of symptoms. (32)

The risk of splenic rupture is estimated at 0.1 percent, based on a retrospective series of 8,116 patients. (33) In a review (34) of 55 athletes with splenic rupture, almost all ruptures occurred in the first three weeks of illness. Interestingly, in the same series, one half of ruptures were atraumatic. These data suggest that patients should be kept out of athletics for at least three to four weeks and until they are asymptomatic. Some experts suggest a longer duration of restricted activity of five to six weeks (35) or even six months, (36) although data from natural history studies do not necessarily support these recommendations. Because the physical examination is so insensitive, ultrasound imaging to assess the size of the spleen at three weeks may be a better guide for determining whether a patient should return to athletics. (37) The cost to prevent one traumatic rupture probably is well over $1 million when this strategy is used, given that the risk of rupture overall is one in 1,000, the risk of rupture beyond four weeks is considerably less, about one half of ruptures are atraumatic, and the cost of an ultrasound scan is several hundred dollars. Although the strategy may make sense when used selectively (e.g., when an athlete would like to return to competition in less than four weeks), it cannot be endorsed as routine practice.

Several cohort studies have examined the long-term outcomes of infectious mononucleosis. Between 9 and 22 percent of patients reported persistent fatigue or hypersomnia six months after clinical infectious mononucleosis, compared with zero to 6 percent of patients following uncomplicated upper respiratory infection. (5) The best study (13) of the natural history of infectious mononucleosis followed 150 patients for six months. In this study, sore throat, fever, headache, rash, cough, and nausea largely had resolved one month after the onset of symptoms. Fatigue resolved more slowly (77 percent initially, 28 percent at one month, 21 percent at two months, and 13 percent at six months), as did sleeping too much (45 percent initially, 18 percent at one month, 14 percent at two months, and 9 percent at six months) and sore joints (23 percent initially, 15 percent at one month, 6 percent at two months, and 9 percent at six months). (13) This study also followed functional status over the same six-month period and found that patients required about two months to achieve a stable level of recovery. The association between EBV infection and chronic fatigue syndrome remains uncertain, and a positive IgG test for EBV does not imply a causal relationship. In addition, evidence of EBV infection is not part of the definition of chronic fatigue syndrome. (28) Physicians should be aware of several other rare complications of infectious mononucleosis (Table 4). (1, 38-41)

REFERENCES

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(2.) Henke CE, Kurland LT, Elveback LR. Infectious mononucleosis in Rochester, Minnesota, 1950 through 1969. Am J Epidemiol 1973;98:483-90.

(3.) Fry J. Infectious mononucleosis: some new observations from a 15-year study. J Fam Pract 1980;10:1087-9.

(4.) Van Cauwenberge PB, Vander Mijnsbrugge A. Pharyngitis: a survey of the microbiologic etiology. Pediatr Infect Dis J 1991;10(10 suppl):S39-42.

(5.) Candy B, Chalder T, Cleare AJ, Wessley S, White PD, Hotopf M. Recovery from infectious mononucleosis: a case for more than symptomatic therapy? A systematic review. Br J Gen Pract 2002;52:844-51.

(6.) Aronson MD, Komaroff AL, Pass TM, Ervin CT, Branch WT. Heterophil antibody in adults with sore throat: frequency and clinical presentation. Ann Intern Med 1982;96:505-8.

(7.) Andersson JP. Clinical aspects of Epstein-Barr virus infection. Scand J Infect Dis Suppl 1991;80:94-104.

(8.) Hoagland RJ. Infectious mononucleosis. Prim Care 1975;2:295-307.

(9.) Axelrod P, Finestone AJ. Infectious mononucleosis in older adults. Am Fam Physician 1990;42:1599-606.

(10.) Brigden ML, Au S, Thompson S, Brigden S, Doyle P, Tsaparas Y. Infectious mononucleosis in an outpatient population: diagnostic utility of 2 automated hematology analyzers and the sensitivity and specificity of Hoagland's criteria in heterophile-positive patients. Arch Pathol Lab Med 1999;123:875-81.

(11.) Ho-Yen DO, Martin KW. The relationship between atypical lymphocytosis and serological tests in infectious mononucleosis. J Infect 1981;3:324-31.

(12.) Centers for Disease Control and Prevention. Cytomegalovirus (CMV) infection. Accessed online August 16, 2004, at: http://www.cdc.gov/ncidod/diseases/cmv.htm.

(13.) Rea TD, Russo JE, Katon W, Ashley RL, Buckwald DS. Prospective study of the natural history of infectious mononucleosis caused by Epstein-Barr virus. J Am Board Fam Pract 2001;14:234-42.

(14.) Grover SA, Barkun AN, Sackett DL. The rational clinical examination. Does this patient have splenomegaly? JAMA 1993;270:2218-21.

(15.) Linderholm M, Boman J, Juto P, Linde A. Comparative evaluation of nine kits for rapid diagnosis of infectious mononucleosis and Epstein-Barr virus-specific serology. J Clin Microbiol 1994;32:259-61.

(16.) Bruu AL, Hjetland R, Holter E, Mortensen L, Natas O, Petterson W, et al. Evaluation of 12 commercial tests for detection of Epstein-Barr virus-specific and heterophile antibodies. Clin Diagn Lab Immunol 2000;7:451-6.

(17.) Elgh F, Linderholm M. Evaluation of six commercially available kits using purified heterophile antigen for the rapid diagnosis of infectious mononucleosis compared with Epstein-Barr virus-specific serology. Clin Diagn Virol 1996;7:17-21.

(18.) Paul JR, Bunnell WW. Classics in infectious diseases. The presence of heterophile antibodies in infectious mononucleosis by John R. Paul and W. W. Bunnell. American Journal of the Medical Sciences, 1932. Rev Infect Dis 1982;4:1062-8.

(19.) Davidsohn I. Serologic diagnosis of infectious mononucleosis. JAMA 1937;108:289-95.

(20.) Grotto I, Mimouni D, Huerta M, Mimoumi M, Cohen D, Robin G, et al. Clinical and laboratory presentation of EBV positive infectious mononucleosis in young adults. Epidemiol Infect 2003;131:683-9.

(21.) Dalrymple W. Infectious mononucleosis. 2. Relation of bed rest and activity to prognosis. Postgrad Med 1964;35:3459.

(22.) Torre D, Tambini R. Acyclovir for treatment of infectious mononucleosis: a meta-analysis. Scand J Infect Dis 1999;31:543-7.

(23.) Vendelbo Johansen L, Lildholdt T, Bende M, Toft A, Brahe Pedersen C, Danielsson GP. Infectious mononucleosis treated by an antihistamine: a comparison of the efficacy of ranitidine (Zantac) vs placebo in the treatment of infectious mononucleosis. Clin Otolaryngol 1997;22:123-5.

(24.) Bolden KJ. Corticosteroids in the treatment of infectious mononucleosis. An assessment using a double blind trial. J R Coll Gen Pract 1972;22:87-95.

(25.) Prout C, Dalrymple W. A double-blind study of eighty-two cases of infectious mononucleosis treated with corticosteroids. J Am Coll Health Assoc 1966;15:62-6.

(26.) Tynell E, Aurelius E, Brandell A, Julander I, Wood M, Yao QY, et al. Acyclovir and prednisolone treatment of acute infectious mononucleosis: a multicenter, double-blind, placebo-controlled study. J Infect Dis 1996;174:324-31.

(27.) Roy M, Bailey B, Amre DK, Girodias JB, Bussieres JF, Gaudreault P. Dexamethasone for the treatment of sore throat in children with suspected infectious mononucleosis: a randomized, double-blind, placebo-controlled, clinical trial. Arch Pediatr Adolesc Med 2004;158:250-4.

(28.) Epstein-Barr virus and infectious mononucleosis. Accessed online August 16, 2004, at: http://www.cdc.gov/ncidod/diseases/ebv.htm.

(29.) Chretien JH, Esswein JG. How frequent is bacterial superinfection of the pharynx in infectious mononucleosis? Observations on incidence, recognition, and management with antibiotics. Clin Pediatr [Phila] 1976;15:424-7.

(30.) Merriam SC, Keeling RP. Beta-hemolytic streptococcal pharyngitis: uncommon in infectious mononucleosis. South Med J 1983;76:575-6.

(31.) Dommerby H, Stangerup SE, Stangerup M, Hancke S. Hepatosplenomegaly in infectious mononucleosis, assessed by ultrasonic scanning. J Laryngol Otol 1986;100:573-9.

(32.) Burroughs KE. Athletes resuming activity after infectious mononucleosis. Arch Fam Med 2000;9:1122-3.

(33.) Farley DR, Zietlow SP, Bannon MP, Farnell MB. Spontaneous rupture of the spleen due to infectious mononucleosis. Mayo Clin Proc 1992;67:846-53.

(34.) Maki DG, Reich RM. Infectious mononucleosis in the athlete. Diagnosis, complications, and management. Am J Sports Med 1982;10:162-73.

(35.) Eichner ER. Infectious mononucleosis. Phys Sportsmed 1996;24:49-54.

(36.) Rutkow IM. Rupture of the spleen in infectious mononucleosis: a critical review. Arch Surg 1978;113:718-20.

(37.) Sevier TL. Infectious disease in athletes. Med Clin North Am 1994;78:389-412.

(38.) Verma N, Arunabh S, Brady TM, Charytan C. Acute interstitial nephritis secondary to infectious mononucleosis. Clin Nephrol 2002;58:151-4.

(39.) Connelly KP, DeWitt LD. Neurologic complications of infectious mononucleosis. Pediatr Neurol 1994;10:181-4.

(40.) Anderson MD, Kennedy CA, Lewis AW, Christensen GR. Retrobulbar neuritis complicating acute Epstein-Barr virus infection. Clin Infect Dis 1994;18:799-801.

(41.) MacGowan JR, Mahendra P, Ager S, Marcus RE. Thrombocytopenia and spontaneous rupture of the spleen associated with infectious mononucleosis. Clin Lab Haematol 1995;17:93-4.

MARK H. EBELL, M.D., M.S., is associate professor of family medicine at Michigan State University College of Human Medicine, East Lansing, and practices at Athens (Ga.) Primary Care. Dr. Ebell received his medical degree from the University of Michigan Medical School, Ann Arbor, where he also completed a family practice residency. He is the developer of the InfoRetriever software and deputy editor for evidence-based medicine for American Family Physician.

Address correspondence to Mark H. Ebell, M.D., M.S., 330 Snapfinger Dr., Athens, GA 30605 (e-mail: ebell@msu.edu). Reprints are not available from the author.

The author indicates that he does not have any conflict of interest. Source of funding: none reported.

COPYRIGHT 2004 American Academy of Family Physicians
COPYRIGHT 2004 Gale Group

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