sábado, 2 de febrero de 2013

Lymphocytic Choriomeningitis Virus Infections among American Indians - Vol. 19 No. 2 - February 2013 - Emerging Infectious Disease journal - CDC

Lymphocytic Choriomeningitis Virus Infections among American Indians - Vol. 19 No. 2 - February 2013 - Emerging Infectious Disease journal - CDC
EID cover artwork EID banner
Table of Contents
Volume 19, Number 2– February 2013

 

Volume 19, Number 2—February 2013

Letter

Lymphocytic Choriomeningitis Virus Infections among American Indians

Suggested citation for this article
To the Editor: Lymphocytic choriomeningitis virus (LCMV) is a rodent-borne pathogen that causes a spectrum of disease in humans, ranging from self-limiting meningoencephalitis to congenital birth defects to severe disseminated illness in organ transplant recipients (1). It is not known how frequently cases of LCMV infection are diagnosed in the United States. We performed a retrospective case analysis of American Indian and Alaska Native (AI/AN) patients treated within the Indian Health Service (IHS) health care system who had an LCMV-associated diagnosis defined by the International Classification of Diseases, 9th Revision, Clinical Modification (ICD-9-CM). Our goal was to estimate the incidence of LCMV-associated aseptic meningitis and encephalitis diagnosed within a well-defined population.
Inpatient and outpatient visit data from fiscal years 2001–09 were obtained from the IHS National Patient Information Reporting System (2). For each fiscal year, records for AI/AN patients with at least 1 inpatient or outpatient visit within the year that listed the ICD-9-CM code 049.0 (lymphocytic choriomeningitis and meningoencephalitis) were selected (3,4). A subset of medical records was reviewed for patients with the diagnosis code of interest in the IHS Southwest and Southern Plains regions. Health care facilities were located in Arizona, New Mexico, and Oklahoma, USA. Suspected LCMV infection was defined as a diagnosis of meningitis, choriomeningitis, encephalitis, or meningoencephalitis not explained by another etiologic agent. A confirmed case of LCMV infection required laboratory detection of antibodies, virus antigen, or virus. A patient with no evidence of suspected LCMV infection in his or her medical record was not considered to have a case of LCMV infection.
Annual population denominators were determined by using annual IHS Southwest and Southern Plains region user populations, which includes all registered AI/ANs who received IHS-funded health care at least once during the previous 3 years (5). The annual average incidence rate for diagnosed cases of infection with LCMV was determined. Rates were also determined for viral meningitis not otherwise specified (ICD-9-CM code 047.9); for unspecified causes of encephalitis, myelitis, or encephalomyelitis (323.9); and for unspecified non-arthropod–borne viral diseases of the central nervous system or viral encephalitis not otherwise specified (049.9) (3). Annual numbers were calculated on a patient basis, whereby the first time a diagnosis was coded for a given patient during each fiscal year was counted.
Twenty-six AI/AN patients received the diagnosis code of 049.0 during fiscal years 2001–09. Of these patients, 16 received the diagnosis in the Southwest or Southern Plains regions. Fourteen available medical charts from these 2 regions were reviewed, and 4 patients were classified as having signs and symptoms consistent with suspected LCMV infection (Table), although no patients were confirmed by diagnostic testing as having LCMV infection. All 4 suspected cases of LCMV infection were in women (age range 16–43 years) who had a 1–2-day history of headache, nausea, and vomiting. Photophobia and neck or back pain were present in patients 1–3. Cerebrospinal fluid from patients 2–4 had increased leukocyte counts that were lymphocytic.
The diagnoses of the 10 remaining patients were classified as miscodes because the written diagnoses in the charts did not mention lymphocytic meningitis. Two patients had central nervous system disease (Lyme encephalitis and tuberculosis meningitis) although an etiologic agent was confirmed that was not LCMV. Additional diagnoses mistakenly coded are shown in the Table.
Among the 4 patients identified as having clinical signs and symptoms of suspected LCMV infection in the Southwest and Southern Plains regions during fiscal years 2001–09, the average annual incidence rate was estimated to be 0.06 cases/100,000 persons. In the same population, viral meningitis not otherwise specified was reported for 971 patients (incidence rate 13.69 cases/100,000 persons/year). Unspecified causes of encephalitis, myelitis, or encephalomyelitis were diagnosed for 444 patients (incidence rate 6.26 cases/100,000 persons), and unspecified non-arthropod–borne viral diseases of the central nervous system or viral encephalitis not otherwise specified were diagnosed for 56 patients (incidence rate 0.78 cases/100,000 persons).
Using a population-based analysis of diagnoses for patients who visited the IHS system at least 1 time as an inpatient or outpatient, we found that LCMV-associated aseptic meningitis and encephalitis were infrequently diagnosed and that confirmatory testing was not conducted. We also found that the code for LCMV was used incorrectly for several patients, probably because the virus is named ambiguously, and LCMV could be mistaken for other unrelated diseases with a lympho prefix. In addition, the definition for the code does not specify LCMV infection. We recommend that description of the ICD-9-CM and ICD-10 codes should be adjusted accordingly to clarify and reduce coding errors.
LCMV infection is considered to be underdiagnosed (6,7), although the virus was not detected in several studies that prospectively tested for LCMV in large numbers (>90) of clinical encephalitis or meningitis patients (810). Despite infrequently causing aseptic meningitis or mild disease in immunocompetent persons, LCMV has the potential to cause severe disease and should be considered for patients with a compatible illness and potential rodent exposure.
Barbara KnustComments to Author , Robert C. Holman, John Redd, Jason M. Mehal, Steven M. Grube, Adam MacNeil, James Cheek, and Pierre E. Rollin
Author affiliations: Author affiliations: Centers for Disease Control and Prevention, Atlanta, Georgia, USA (B. Knust, R.C. Holman, J.M. Mehal, S.M. Grube, A. MacNeil, P.E. Rollin); Indian Health Service, Albuquerque, New Mexico, USA (J. Redd, J. Cheek)

Acknowledgment

We thank Barbara Strzelczyk, Don Reece, and Phil Smith for technical assistance; and the staff at the IHS/tribal facilities and the IHS National Patient Information Reporting System for participating in the study.

References

  1. Bonthius DJ. Lymphocytic choriomeningitis virus: a prenatal and postnatal threat. Adv Pediatr. 2009;56:7586. DOIExternal Web Site IconPubMedExternal Web Site Icon
  2. Indian Health Service. Direct/CHS inpatient data: all-diseases, fiscal years 2001–2009, National Inpatient Information Reporting System. Albuquerque (NM): Indian Health Service; 2010.
  3. US Department of Health and Human Services. International Classification of Diseases, 9th Revision, Clinical Modification. 6th ed. Jackson (WY): Teton Data Systems; 2010.
  4. Indian Health Service. Direct/CHS outpatient data: all-diseases, fiscal years 2001–2009, National Outpatient Information Reporting System. Albuquerque (NM): Indian Health Service; 2010.
  5. Indian Health Service. Trends in Indian Health 2002–2003. Rockville (MD): Indian Health Service; 2009.
  6. Mets MB, Barton LL, Khan AS, Ksiazek TG. Lymphocytic choriomeningitis virus: an underdiagnosed cause of congenital chorioretinitis. Am J Ophthalmol. 2000;130:20915. DOIExternal Web Site IconPubMedExternal Web Site Icon
  7. Barton LL, Mets MB. Congenital lymphocytic choriomeningitis virus infection: decade of rediscovery. Clin Infect Dis. 2001;33:3704. DOIExternal Web Site IconPubMedExternal Web Site Icon
  8. Glaser CA, Gilliam S, Schnurr D, Forghani B, Honarmand S, Khetsuriani N, In search of encephalitis etiologies: diagnostic challenges in the California Encephalitis Project, 1998–2000. Clin Infect Dis. 2003;36:73142. DOIExternal Web Site IconPubMedExternal Web Site Icon
  9. Park JY, Peters C, Rollin P, Ksiazek T, Gray B, Waites K, Development of a reverse transcription–polymerase chain reaction assay for diagnosis of lymphocytic choriomeningitis virus infection and its use in a prospective surveillance study. J Med Virol. 1997;51:10714. DOIExternal Web Site IconPubMedExternal Web Site Icon
  10. Cordey S, Sahli R, Moraz ML, Estrade C, Morandi L, Cherpillod P, Analytical validation of a lymphocytic choriomeningitis virus real-time RT-PCR assay. J Virol Methods. 2011;177:11822. DOIExternal Web Site IconPubMedExternal Web Site Icon

Table

Suggested citation for this article: Knust B, Holman RC, Redd J, Mehal JM, Grube SM, MacNeil A, et al. Lymphocytic choriomeningitis virus infections among American Indians [letter]. Emerg Infect Dis [Internet]. 2013 Feb [date cited]. http://dx.doi.org/10.3201/eid1902.120888External Web Site Icon
DOI: 10.3201/eid1902.120888

No hay comentarios:

Publicar un comentario