Background: One of the deadliest parasite infections is malaria. A combination of quinine sulphate and doxycycline is another therapeutic option for malaria that is resistant to chloroquine and is anticipated to be ab...Background: One of the deadliest parasite infections is malaria. A combination of quinine sulphate and doxycycline is another therapeutic option for malaria that is resistant to chloroquine and is anticipated to be able to both combat the issue of anti-malarial medication resistance as well as the compliance to malaria therapy that is still raging in certain locations of Indonesia. Aim: This study will focus on evaluating the possibility of interaction between quinine sulphate and doxycycline followed by formulating the fixed-dose combination of both active pharmaceutical ingredients. Method: The study was designed as a laboratory experiment and applied some examinations. The examination from the organoleptic test of active pharmaceutical ingredients powder, crystallography analysis, and physical analysis of fixed-dose tablet including hardness, friability, and disintegration time testing. Result: The crystallography study reported there was no physical interaction found between quinine sulphate and doxycycline. The formula found excellent tablet printability with a composition of Quinine sulphate and doxycycline (Qidox). Conclusion: quinine sulphate with doxycycline can be combined into one tablet as Fixed-Dose Combination (FDC).展开更多
Background: Infrequent data exist on the frequency of bacterial co-infections and secondary infection among COVID-19-infected patients admitted to intensive care units (ICU). Objective: To describe the quantity and th...Background: Infrequent data exist on the frequency of bacterial co-infections and secondary infection among COVID-19-infected patients admitted to intensive care units (ICU). Objective: To describe the quantity and the quality of antimicrobial usage in COVID-19 with secondary infection, multiple drug resistance organisms and the outcome of antimicrobial treatment. Methods: This study applies observational design with a cross sectional approach. All the patients with laboratory-confirmed severe COVID-19 pneumonia who were discharged from the Intensive Care Unit (ICU) Dr. Ramelan Navy Hospital from February 1st to June 30th 2022 included. The quantity of antibiotics usage was assessed by counting the Defined Daily Dose (DDD). Result: During the study period, 126 patients were referred to the ICU for COVID-19 with severe pneumonia. There were 70.6% (89 patients) treated with antibiotics and 29.4% (37 patients) untreated with antibiotics. Quantitative analysis of 89 patients revealed that levofloxacin was the most common antibiotic prescribed with 43 DDD, followed by Meropenem and Cefoperazone-Sulbactam, which were 17.76 DDD and 16.87 DDD, respectively. Meanwhile, qualitative analysis resulted in 81 antibiotics (43.55%) being used appropriately. No indications of the use of antibiotics were found in 53 antibiotics (28.49%). Klebsiella pneumonia was the main pathogen identified in the blood, sputum. While E. Coli was found to be the main pathogen in urine. Conclusion: A high death rate in patients treated with antibiotics compared to patients not treated with antibiotics.展开更多
文摘Background: One of the deadliest parasite infections is malaria. A combination of quinine sulphate and doxycycline is another therapeutic option for malaria that is resistant to chloroquine and is anticipated to be able to both combat the issue of anti-malarial medication resistance as well as the compliance to malaria therapy that is still raging in certain locations of Indonesia. Aim: This study will focus on evaluating the possibility of interaction between quinine sulphate and doxycycline followed by formulating the fixed-dose combination of both active pharmaceutical ingredients. Method: The study was designed as a laboratory experiment and applied some examinations. The examination from the organoleptic test of active pharmaceutical ingredients powder, crystallography analysis, and physical analysis of fixed-dose tablet including hardness, friability, and disintegration time testing. Result: The crystallography study reported there was no physical interaction found between quinine sulphate and doxycycline. The formula found excellent tablet printability with a composition of Quinine sulphate and doxycycline (Qidox). Conclusion: quinine sulphate with doxycycline can be combined into one tablet as Fixed-Dose Combination (FDC).
文摘Background: Infrequent data exist on the frequency of bacterial co-infections and secondary infection among COVID-19-infected patients admitted to intensive care units (ICU). Objective: To describe the quantity and the quality of antimicrobial usage in COVID-19 with secondary infection, multiple drug resistance organisms and the outcome of antimicrobial treatment. Methods: This study applies observational design with a cross sectional approach. All the patients with laboratory-confirmed severe COVID-19 pneumonia who were discharged from the Intensive Care Unit (ICU) Dr. Ramelan Navy Hospital from February 1st to June 30th 2022 included. The quantity of antibiotics usage was assessed by counting the Defined Daily Dose (DDD). Result: During the study period, 126 patients were referred to the ICU for COVID-19 with severe pneumonia. There were 70.6% (89 patients) treated with antibiotics and 29.4% (37 patients) untreated with antibiotics. Quantitative analysis of 89 patients revealed that levofloxacin was the most common antibiotic prescribed with 43 DDD, followed by Meropenem and Cefoperazone-Sulbactam, which were 17.76 DDD and 16.87 DDD, respectively. Meanwhile, qualitative analysis resulted in 81 antibiotics (43.55%) being used appropriately. No indications of the use of antibiotics were found in 53 antibiotics (28.49%). Klebsiella pneumonia was the main pathogen identified in the blood, sputum. While E. Coli was found to be the main pathogen in urine. Conclusion: A high death rate in patients treated with antibiotics compared to patients not treated with antibiotics.
