A One-Year Environmental and Microbiological Monitoring of Storage Areas and Production Room of a Pharmaceutical Industry from Northern Nigeria

UMYU Journal of Microbiology Research (UJMR) Pub Date : 2023-06-30 DOI:10.47430/ujmr.2381.001

Oloninefa, S. D, Aisoni, J. E, Alli, A. I, Akomolafe, D. O

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Abstract

The degradation and reduction of the potency of both raw materials and finished pharmaceutical products (FPPs) are of great concern to pharmaceutical industries, making the environmental monitoring of storage areas and production rooms a must. In this study, a one year monthly data for environmental and microbiological monitoring for storage areas (raw materials quarantine room, raw materials approved room, finished product quarantine room and finished product approved room) and production room were collected and analyzed using IBM SPSS Statistics Version 23. The results revealed that the lowest temperature (21.01oC) was obtained from the raw materials approved room. At the same time, the highest (29.50oC) was recorded from the finished product quarantine room. In contrast, the lowest relative humidity of 11.11% was obtained from raw materials quarantine room while raw materials approved room had the highest relative humidity of 33.33%. The results obtained for microbial loads showed that Escherichia coli, Staphylococcus aureus, Salmonella typhimurium and Pseudomonas aeruginosa recorded 0.00cfu/ml each. In contrast, the value obtained for total viable aerobic mesophilic bacteria plate count ranges from 0.00-28.67 cfu/ml and fungi range from 0.67-5.00 cfu/mL respectively. The significant difference was determined at p<0.05. However, the results obtained for the temperature, relative humidity and microbial loads were within the stated specifications. This shows that the temperature and relative humidity of the storage areas and the production room were controlled and well monitored in line with the current good manufacturing practice which will eventually positively impact the quality, marketability and stability of raw materials and drug products. Environmental monitoring of storage areas and production room should be highly encouraged in pharmaceutical industries to curb the menace of speedy degradation and loss of potency experienced in raw materials and finished pharmaceutical products.

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尼日利亚北部某制药工业储存区和生产车间一年环境和微生物监测

原料药和制成品(FPPs)的降解和效力降低是制药行业非常关注的问题，因此必须对储存区域和生产车间进行环境监测。本研究采用IBM SPSS Statistics Version 23对存储区域(原料检疫室、原料审定室、成品检疫室和成品审定室)和生产车间一年的月度环境和微生物监测数据进行收集和分析。结果表明，原料审定室的最低温度为21.01oC。同时，最高温度(29.50℃)记录在成品检疫室。原料检疫室相对湿度最低，为11.11%，原料审批室相对湿度最高，为33.33%。微生物负荷结果显示，大肠杆菌、金黄色葡萄球菌、鼠伤寒沙门菌和铜绿假单胞菌各为0.00cfu/ml。相比之下，获得的总活氧中温细菌平板数分别为0.00-28.67 cfu/ml和真菌为0.67-5.00 cfu/ml。p<0.05为差异有统计学意义。然而，获得的温度、相对湿度和微生物负荷的结果在规定的规范范围内。这表明储存区和生产车间的温度和相对湿度得到了控制，并按照现行的良好生产规范进行了良好的监测，这将最终对原料和药品的质量、适销性和稳定性产生积极影响。制药工业应大力鼓励对储存区和生产车间进行环境监测，以遏制原料和制成品迅速降解和效力丧失的威胁。

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UMYU Journal of Microbiology Research (UJMR)

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