I have my table (cte) defintions and result set here
The CTE may look strange but it has been tested and returns the correct results in the most efficient manner that I've found yet. The below query will find the number of person IDs (patid) who are taking two or more drugs at the same time. Currently, the query works insofar as it returns the patIDs of the people taking both drugs, but not both drugs at the same time. Taking both drugs is indicated by one
fillDate of one drug falling before a
scriptEndDate of another drug. So
You can see in this partial result set that on line 18 the
2009-07-19 which is between the
scriptEndDate of the same patID from row 2. What constraint do I need to add so I can filter these unneeded results?
--PatientDrugList is a CTE because eventually parameters might be passed to it --to alter the selection population ;with PatientDrugList(patid, filldate, scriptEndDate,drugName,strength) as ( select rx.patid,rx.fillDate,rx.scriptEndDate,rx.drugName,rx.strength from rx ), --the row constructor here will eventually be parameters for a stored procedure DrugList (drugName) as ( select x.drugName from (values ('concerta'),('fentanyl')) as x(drugName) where x.drugName is not null ) --the row number here is so that I can find the largest date range --(the largest datediff means the person was on a given drug for a larger --amount of time. obviously not a optimal solution --celko inspired relational division! select distinct row_number() over(partition by pd.patid, drugname order by datediff(day,pd.fillDate,pd.scriptEndDate)desc) as rn ,pd.patid ,pd.drugname ,pd.fillDate ,pd.scriptEndDate from PatientDrugList as pd where not exists (select * from DrugList where not exists (select * from PatientDrugList as pd2 where(pd.patid=pd2.patid) and (pd2.drugName = DrugList.drugName))) and exists (select * from DrugList where DrugList.drugName=pd.drugName ) group by pd.patid, pd.drugName,pd.filldate,pd.scriptEndDate