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Salud Pública de México

versión impresa ISSN 0036-3634

Salud pública Méx vol.49 no.1 Cuernavaca ene./feb. 2007

 

CARTAS AL EDITOR

 

Pathogens and acute respiratory distress syndrome

 

 

Dear editor: Acute respiratory distress syndrome (ARDS), represented mainly by the common cold, pharyngitis, nasopharyngitis, pharyngotonsillitis, laringitis, otitis media, sinusitis, bronchitis, bronchopneumonia, and pneumonia,1 is the most common reason for seeking medical attention and the fourth cause of mortality in Mexico.2 The principal agents associated with this syndrome are viral;3 however, bacterial agents are associated with increased mortality, and the most common microorganisms are Streptococcus pneumoniae, Haemophillus influenzae, Moraxella catarrhalis and Streptococcus pyogenes.4 In our community there is an increase in failures of common treatments, presumably provoked by an increase in resistant microorganisms or by the presence of uncommon ones.

In order to determine the pathogens most frequently associated with ARDS, their prevalence, and resistance patterns to common antimicrobials, we conducted a clinical survey of 194 students with acute respiratory infection who had not previously received treatment. The students were selected from five high schools belonging to the Universidad Autónoma del Estado de México (UAEM). A clinical diagnosis and appropriate bacteriological culture from the affected sites was conducted for each case.

The clinical distribution of ARDS was: pharyngitis (60.8%), pharyngotonsillitis (34.5%), nasopharyngitis (4.1%) and rynitis (0.5%). The agents associated with these were; S. pyogenes (23%), M. catarrhalis (55.1%) and S. aureus (49.4%). In addition, no bacterial pathogen could be isolated in 27 of the cultures. A high bacterial resistance to common antimicrobials was found: S. pyogenes showed a resistance pattern to pefloxacine (86.7%) and trimethoprim-sulfamethoxazole (51.1%), whereas the resistance of M. catarrhalis to ampicilin, trimethoprim-sulfamethoxazole, and carbenicillin was higher than 60% and lower than 21% to gentamicyn, metilmicin, and nitrofurantoin. The microbial resistance of S. aureus to cefotaxime, ampicillin, penicillin, dicloxacin, and cefatazidime was higher than 80% and lower than 21% for trimethoprim-sulfamethoxazole, gentamicyn, cefalotine, and erytromicin. Strains S. pyogenes producing b-lactamase were not found.

ARDS is well recognized as a serious public health problem among specific age groups.4, 5 Free access to antibiotics and self-medication in most cases, regardless of etiology,6 have favored an increase in the rate of bacterial resistance in the three most common pathogens: S. pneumoniae, H. influenzae and M. catarrhalis.7 It has been suggested that the use of microbiologic tests, such as cultures of the affected sites, can improve diagnostic and therapeutic accuracy and avoid the emergence of resistant strains.8

S. pyogenes was the most common pathogen isolated in a single form; however, the indentification of M. catarrhalis in all clinical diagnoses, with the exception of nasopharyngitis, was not expected in this population. Currently, it is accepted that M. catarrhalis is the third most common pathogen agent in children9 and in adults with immunologic compromise9 or chronic obstructive pulmonary disease.10 Its role as an etiology agent in healthy adolescents, however, has not been reported.11 Only a low prevalence rate in carriers of M. catarrhalis has been reported in this age group.11-13

This finding merits some consideration. First, the current rate in carriers of M. catarrhalis must be established in this age group, and specifically, in those who present with ARDS, in order to discard its pathogenic role. Second, even though the rates of colonization were naturally elevated and not associated with disease, M. catharralis is associated with a high betalactamase production index. This can favor the persistence of strains sensitive to betalactamic antibiotics through a synergetic effect with non-producing strains (as is the case for S. pyogenes), 14 prolong the clinical course of the disease, and force a change in the selection of the antibiotic in order to avoid the appearance of resistant strains.

The study had some limitations. We were not able to dismiss an etiologic role of M. catarrhalis because all subjects were symptomatic. Although we were not able to test the production of the BRO15 b-lactamase enzyme by M. catarrhalis, it was the second pathogen most commonly isolated. We also cannot dismiss the role of those pathogens previously described as commensals in the etiology of ARDS. This needs further investigation. Recently, S. aureus has been recognized as an invasive pathogen of the upper tract respiratory16 and also has been documented in the familiar transmission of disase17 and as a responible of recurrent disease for drug resistant.18

The most important fact in this study was the high resistance of S. pyogenes to trimethroprim-sulfamethoxazole, which explains the high degree of failure of antibiotic treatment in our community. Cultures and office visits, despite the costs, should be considered as a strategy before the use of antibiotics.

 

María del Socorro Camarillo-Romero.
Laboratorio de Análisis Bioquímico Clínicos.
Centro de Investigación en Ciencias Médicas.
Universidad Autónoma del Estado de México.
Jesús Carranza 200, Colonia Universidad.
CP 50130, Toluca, Estado de México, México.
Teléfono y Fax: 01-722-219-4122.
Email: sococamarillo@yahoo.es
Aurora Maravilla.II
Eneida Camarillo Romero.I
Juan O. Talavera.I,III
Gerardo Huitrón-Bravo.I

ILaboratorio de Análisis Bioquímico Clínicos. Centro
de Investigación en Ciencias Médicas. Universidad
Autónoma del Estado de México.
IICoordinación de Investigación y Estudios
de Postgrado Facultad de Medicina. Universidad
Autónoma del Estado de México.
IIIUnidad de Investigación Médica en Epidemiología
Clínica, Hospital de Especialidades
Centro Médico Nacional Siglo XXI, IMSS.

 

References

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3. Avila MM, Carballal G, Rovaletti H, Ebekian B, Cusminsky MM, Weissenbacher M. Viral etiology in acute lower respiratory infections in children from a closed community. Am Rev Resp Dis 1989;140:634-637.

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13. Leaños-Miranda B, Miranda-Novales MG, Solórzano-Santos F, Ortiz-Ocampo L, Guiscafré-Gallardo H. Prevalencia de colonización por Moraxella catarrhalis en portadores asintomáticos menores de seis años. Salud Publica Mex 2002;43:27-31.

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15. Schmitz FJ, Beeck A, Perdikouli M, Boos M, Mayer S, Scheuring S, et al. Production of BRO lactamases and resistance to complement in European Moraxella catarrhalis isolates J Clin Microbiol 2002;4:1546-1548.

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