OBJECTIVES: To apply an institutional clinical data warehouse (CDW) to the assessment of adverse drug reactions (ADRs) and demonstrate its utility through a specific example. METHODS: We modeled the process for assessing ADRs through retrospective cohort design by using CDW at the Osaka University Hospital as follows: 1) We defined a drug X, an adverse drug reaction (ADR) Y, and a laboratory measurement Z to assess Y during a given study period; 2) we excluded those whose Z value exceeded the defined criteria or were not available at the inception of the cohort; 3) we divided the patients into two groups based on exposure or non-exposure to X; 4) we matched the patient characteristics between the two groups through stratification and randomization; and 5) we compared the frequency of patients who presented Y during the study period between the two groups. Aminoglycoside and Cephalosporin associated nephrotoxicity in pediatric inpatients was used as an example to demonstrate the usefulness of this approach. RESULTS: Our evaluation indicates that there is an increased risk of nephrotoxicity for pediatric inpatients who were prescribed cephalosporin either alone or in combination with aminoglycoside; further, aminoglycoside tends to increase the cephalosporin-associated nephrotoxicity. CONCLUSIONS: Our findings are consistent with those drawn from other studies, indicating that the method of applying an institutional CDW is useful for assessing ADRs.
OBJECTIVES: To apply an institutional clinical data warehouse (CDW) to the assessment of adverse drug reactions (ADRs) and demonstrate its utility through a specific example. METHODS: We modeled the process for assessing ADRs through retrospective cohort design by using CDW at the Osaka University Hospital as follows: 1) We defined a drug X, an adverse drug reaction (ADR) Y, and a laboratory measurement Z to assess Y during a given study period; 2) we excluded those whose Z value exceeded the defined criteria or were not available at the inception of the cohort; 3) we divided the patients into two groups based on exposure or non-exposure to X; 4) we matched the patient characteristics between the two groups through stratification and randomization; and 5) we compared the frequency of patients who presented Y during the study period between the two groups. Aminoglycoside and Cephalosporin associated nephrotoxicity in pediatric inpatients was used as an example to demonstrate the usefulness of this approach. RESULTS: Our evaluation indicates that there is an increased risk of nephrotoxicity for pediatric inpatients who were prescribed cephalosporin either alone or in combination with aminoglycoside; further, aminoglycoside tends to increase the cephalosporin-associated nephrotoxicity. CONCLUSIONS: Our findings are consistent with those drawn from other studies, indicating that the method of applying an institutional CDW is useful for assessing ADRs.
Authors: Man Young Park; Eun Yeob Kim; Young Ho Lee; Woojae Kim; Ku Sang Kim; Seung Soo Sheen; Hong Seok Lim; Rae Woong Park Journal: Healthc Inform Res Date: 2011-03-31
Authors: David J Foran; Wenjin Chen; Huiqi Chu; Evita Sadimin; Doreen Loh; Gregory Riedlinger; Lauri A Goodell; Shridar Ganesan; Kim Hirshfield; Lorna Rodriguez; Robert S DiPaola Journal: Cancer Inform Date: 2017-03-02