To determine the pattern of antibiotic susceptibility of isolated Streptococcus pneumoniae strains of healthy nasopharyngeal carriers younger than 2 years in seven regions of Peru.
Between 2007 and ...2009, nasopharyngeal swab samples were collected among 2123 healthy children aged 2-24 months in growth and development medical practices (CRED) and vaccination offices of hospitals and health centers in Lima, Piura, Cusco, Abancay, Arequipa, Huancayo, and Iquitos. The resistance to ten antibiotics through disk diffusion sensitivity testing of isolated pneumococcus strains was determined.
572 strains were isolated. High rates of resistance to co-trimoxazole (58%), penicillin (52.2% non-sensitive); tetracycline (29,1%); azithromycin (28,9%), and erythromycin (26,3%). Resistance to chloramphenicol was low (8.8%). Multiresistance was found at 29.5%. Resistance to azithromycin and penicillin was different in all seven regions (p<0,05), the highest percentage of non-sensitive strains being found in Arequipa (63,6%), whereas the lowest percentage was found in Cusco (23.4%).
High levels of resistance found to penicillin, co-trimoxasole and macrolides in isolated pneumococcus strains of healthy carriers in all studied regions, and their association to a previous use of antibiotics, represent a significant public health problem in our country. This emphasizes the need to implement nationwide strategies to reduce the irrational use of antibiotics, especially among children. It is necessary to complement data of resistance to penicillin with the determination of minimal inhibitory concentration to make proper therapeutic recommendations.
Objetivos. Determinar el patrón de susceptibilidad antibiótica de cepas de Streptococcus pneumoniae aisladas de portadores nasofaríngeos sanos menores de 2 años de siete regiones del Perú. Materiales ...y métodos. Entre el 2007 y 2009 se tomaron muestras de hisopado nasofaríngeo a 2123 niños sanos entre 2 y 24 meses de edad en los consultorios de crecimiento y desarrollo (CRED) y vacunación de hospitales y centros de salud de Lima, Piura, Cusco, Abancay, Arequipa, Huancayo, e Iquitos. Se determinó la resistencia a diez antibióticos mediante la prueba de disco-difusión de las cepas de neumococo aisladas. Resultados. Se aislaron 572 cepas. Se encontró altas tasas de resistencia a cotrimoxazol (58%); penicilina (52,2% no-sensibles); tetraciclina (29,1%); azitromicina (28,9%), y eritromicina (26,3%). La resistencia a cloranfenicol fue baja (8,8%). Se encontró 29,5% de multirresistencia. La resistencia a la azitromicina y a la penicilina fue diferente en las siete regiones (p<0,05), hallándose el mayor porcentaje de cepas no-sensibles a penicilina en Arequipa (63,6%), mientras que el menor fue en Cusco (23,4%). Conclusiones. Los elevados niveles de resistencia encontrados para penicilina, cotrimoxazol y macrólidos en cepas de neumococo aisladas de portadores sanos en todas las regiones estudiadas, y su asociación con uso previo de antibióticos, representan un importante problema de salud pública en nuestro país. Esto resalta la necesidad de implementar, a nivel nacional, estrategias para disminuir el uso irracional de antibióticos, sobre todo en la población pediátrica. Es necesario complementar los datos de resistencia a penicilina con la determinación de la concentración mínima inhibitoria para hacer las recomendaciones terapéuticas respectivas
With the technological innovations, the necessity of development of tools robust grows and capable to assist in the diagnosis of illnesses, and to make possible its treatment of fast and efficient ...form. The considered system will go to contribute for the fast diagnosis of possible illnesses, through a system of diffusion of bioelectrical signals on the WEB, which will allow one better attendance for the population that inhabits in cities moved away from the great centers, and that they possess deficiency in the medical attendance, as well as equipment and systems capable to assist in the diagnosis of illnesses. The main characteristic of this system is the fast access of the information of the patient, stored in a database in the WEB, through which the physician will be able to evaluate the available information, or either, the bioelectrical registers of the patients (ECG, EMG, EEG, EOG, among others), together with other information that can be available, thus being able to effect a diagnosis based on the available information. After the diagnosis registered in cadastre at the system, the same can be visualized by the responsible nurse for the patient. Based in the diagnosis, the responsible nurse will be able to direct the patient for a place that possesses a specialized attendance, case it is necessary. For access to the data of the patients, an authentication password is indispensable, through this the physician and/or nurses, can have access and manipulate the information of the patients, as the level of access, thus restricting, the manipulation of the confidential data, increasing the security of the available information. The bioelectrical registers will be presented to the specialist in an Applet developed in JAVA, thus guaranteeing the functioning of the system in any platform that contains the virtual machine Java (JVM) installed.
To determine the carriage rate and serotype distribution of Streptococcus pneumoniae in the nasopharynx of healthy children younger than 2 years prior to the universal use of the pneumococcal ...conjugate vaccines in Peru.
Between 2007 and 2009 we collected nasopharyngeal swab samples from 2,123 healthy children aged 2 to 24 months in the vaccination and healthy children consultation offices of pediatric hospitals and health centers in 7 cities in Peru: on the coast (Lima, Piura), highlands (Cusco, Abancay, Arequipa and Huancayo) and amazon basin (Iquitos). The pneumococcal strains were isolated and identified at the central laboratory of the project in Lima, and serotyped by Quellung reaction in the pneumococcal reference laboratory at the Center for Diseases Control and Prevention (CDC).
We found 27% (573/2123) of pneumococcal nasopharyngeal healthy carrier children. Among the 526 analyzed strains, we found 42 serotypes; the most common were: 19F (18.1%), 6B (14.3%); 23F (8.9%) and 14 (6.5%).
The distribution of vaccine serotypes in the analyzed strains was of 50% for the serotypes present in the seven-valent vaccine, 50.2% for the serotypes present in the ten-valent vaccine and 57.2% for those present in the thirteen-valent vaccine.
Objetivos. Determinar la frecuencia y distribución de serotipos de S. pneumoniae en portadores nasofaríngeos sanos menores de dos años previa al uso universal de la vacuna conjugada antineumocócica ...en el Perú. Materiales y métodos. Entre los años 2007 y 2009 se tomaron muestras de hisopado nasofaríngeo a 2123 niños sanos entre 2 y 24 meses de edad en los consultorios de crecimiento y desarrollo o vacunación de hospitales y centros de salud de siete ciudades del Perú: costa (Lima, Piura); sierra (Cusco, Abancay, Arequipa y Huancayo) y selva (Iquitos). Las cepas de neumococo fueron aisladas e identificadas en el laboratorio central del proyecto en Lima y serotipificadas por reacción de Quellung en el Laboratorio de Referencia de Neumococo del Centro de Control y Prevención de Enfermedades. Resultados. Se encontró 27,0% (573/2123) de portadores nasofaríngeos sanos de neumococo. En las 526 cepas analizadas se encontraron 42 serotipos; los más frecuentes fueron: 19F (18,1%), 6B (14,3%); 23F (8,9%) y 14 (6,5%). Conclusiones. La distribución de serotipos vacunales en las cepas analizadas fue de 50,0% para los serotipos presentes en la vacuna conjugada heptavalente; 50,2% para los serotipos presentes en la vacuna decavalente y 57,2% para la vacuna 13-valente.
Objetivos. Determinar la frecuencia y distribución de serotipos de S. pneumoniae en portadores nasofaríngeos sanos menores de dos años previa al uso universal de la vacuna conjugada antineumocócica ...en el Perú. Materiales y métodos. Entre los años 2007 y 2009 se tomaron muestras de hisopado nasofaríngeo a 2123 niños sanos entre 2 y 24 meses de edad en los consultorios de crecimiento y desarrollo o vacunación de hospitales y centros de salud de siete ciudades del Perú: costa (Lima, Piura); sierra (Cusco, Abancay, Arequipa y Huancayo) y selva (Iquitos). Las cepas de neumococo fueron aisladas e identificadas en el laboratorio central del proyecto en Lima y serotipificadas por reacción de Quellung en el Laboratorio de Referencia de Neumococo del Centro de Control y Prevención de Enfermedades. Resultados. Se encontró 27,0% (573/2123) de portadores nasofaríngeos sanos de neumococo. En las 526 cepas analizadas se encontraron 42 serotipos; los más frecuentes fueron: 19F (18,1%), 6B (14,3%); 23F (8,9%) y 14 (6,5%). Conclusiones. La distribución de serotipos vacunales en las cepas analizadas fue de 50,0% para los serotipos presentes en la vacuna conjugada heptavalente; 50,2% para los serotipos presentes en la vacuna decavalente y 57,2% para la vacuna 13-valente.Objectives. To determine the carriage rate and serotype distribution of Streptococcus pneumoniae in the nasopharynx of healthy children younger than 2 years prior to the universal use of the pneumococcal conjugate vaccines in Peru. Materials and methods. Between 2007 and 2009 we collected nasopharyngeal swab samples from 2,123 healthy children aged 2 to 24 months in the vaccination and healthy children consultation offices of pediatric hospitals and health centers in 7 cities in Peru: on the coast (Lima, Piura), highlands (Cusco, Abancay, Arequipa and Huancayo) and amazon basin (Iquitos). The pneumococcal strains were isolated and identified at the central laboratory of the project in Lima, and serotyped by Quellung reaction in the pneumococcal reference laboratory at the Center for Diseases Control and Prevention (CDC). Results. We found 27% (573/2123) of pneumococcal nasopharyngeal healthy carrier children. Among the 526 analyzed strains, we found 42 serotypes; the most common were: 19F (18.1%), 6B (14.3%); 23F (8.9%) and 14 (6.5%). Conclusions. The distribution of vaccine serotypes in the analyzed strains was of 50% for the serotypes present in the seven-valent vaccine, 50.2% for the serotypes present in the ten-valent vaccine and 57.2% for those present in the thirteen-valent vaccine.
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