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  1. Rozaliyani A, Wiyono WH, Nawas MA, Sijam R, Adawiyah R, Tugiran M, et al.
    Trop Biomed, 2020 Dec 01;37(4):1117-1123.
    PMID: 33612763 DOI: 10.47665/tb.37.4.1117
    Pneumocystis pneumonia (PCP) and pulmonary tuberculosis infection (PTB) are important opportunistic infections in HIV-infected patients. The diagnosis remains challenging since Pneumocystis jirovecii cannot be cultured, and expectorated-sputum is frequently difficult to obtain. The monoclonal-antibody detection for P. jirovecii from induced sputum is promising in diagnosing PCP. This study determined the percentage of PCP in HIV-infected patients with pulmonary infiltrates at three government hospitals in Jakarta. The concurrent infection of PTB was carefully documented as well. This cross-sectional study was carried out by documenting the clinical symptoms, laboratory findings, chest X-ray, while clinical outcomes were evaluated during hospitalization. The sputum induction was conducted for P. jirovecii with monoclonal antibody detection at the laboratory of Parasitology Department, Faculty of Medicine Universitas Indonesia, as well as Ziehl-Nielsen staining for PTB. The results indicated that of 55 HIV-infected patients with pulmonary infiltrates, the positive monoclonal antibody for P. jirovecii was detected in eight patients (14.6%). Weight loss, fever, shortness of breath, and crackles were found in all PCP patients; while dry cough in five patients. Moreover, PTB cases with positive acid-fast bacilli (AFB) was detected in five patients (9.1%), the PTB cases with negative AFB was 43.6% (24 out of 55 patients), and the rest 26 patients (47.3%) were not proven to have PTB. The concurrent infections of PCP and PTB were documented in three out of five positive AFB patients. The clinical outcome of eight PCP patients showed improvement in five patients, but the other three patients died. Laboratory findings play an important role in the diagnosis of PCP and PTB, along with clinical characteristics and radiological features. Low CD4+ cell count was considered a possible risk factor for PCP and poor clinical outcomes.
  2. Wispriyono B, Jalaludin J, Kusnoputranto H, Pakpahan S, Aryati GP, Pratama S, et al.
    J Public Health Res, 2021 Aug 04;10(4).
    PMID: 34351097 DOI: 10.4081/jphr.2021.2372
    BACKGROUND: Indoor air pollution has globally known as the risk factor of acute respiratory infection in young children.  The exposure to indoor particulate matter 2.5 (PM2.5) and nitrogen dioxide (NO2) at house or school can be a potential risk to children's health. This study aimed to examine the association between indoor PM2.5 and NO2 with oxidative stress markers in junior high school students.

    DESIGN AND METHOD: This study was conducted using a cross sectional study with 75 students collected randomly from four junior high schools in Jakarta.  PM2.5 and NO2 were measured in classrooms and school yards. The schools were categorized based on the exposure level of PM2.5 and NO2 in classrooms. Superoxide dismutase (SOD) and reduced glutathione (GSH) were examined from the blood sample. All students were interviewed with questionnaires to determine upper respiratory tract infection, smoking family members, mosquito repellent usage, and dietary supplement consumption.

    RESULTS: Mean concentration of indoor PM2.5 and NO2 were 0.125±0.036 mg m-3 and 36.37±22.33 µg m-3, respectively. The schools which located near to highway showed lower PM2.5 and higher NO2 level indicated the emission of traffic activity. Mean activity of SOD was 96.36±50.94 U mL-1 and mean concentration of GSH was of 0.62±0.09 µg mL-1. Most of the students reported upper respiratory tract infection history, smoking family member, use mosquito repellent at home, and do not consume dietary supplement.

    CONCLUSION: The level of oxidative stress markers and the exposure categories of classroom PM2.5 and NO2 was not significantly different, however there were significant correlation with cigarette smoke and mosquito repellent at home. Nevertheless, the exposure of indoor PM2.5 and NO2 increased the risk of the exposure to cigarette smoke and mosquito repellent at home. Further study on the air pollution at school and home is needed to affirm association towards student's health and to design strategic control efforts.

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