CREATE TABLE [dbo].[rx]( [pat_id] [int] NOT NULL, [fill_Date] [date] NOT NULL, [script_End_Date] AS (dateadd(day,[dayssup],[filldate])), [drug_Name] [varchar](50) NULL, [days_Sup] [int] NOT NULL, [quantity] [float] NOT NULL, [drug_Class] [char](3) NOT NULL, CHECK(fill_Date <=script_End_Date PRIMARY KEY CLUSTERED ( [clmid] ASC ) CREATE TABLE [dbo].[Calendar]( [cal_date] [date] NOT NULL, [julian_seq] [int] IDENTITY(1,1) NOT NULL, --unsure if the above line is an acceptable way of adding a 'julianized date number', the data in this database ranges from 1-1-2007 to 12-31-2009 PRIMARY KEY CLUSTERED ( [cal_date] ASC )
I have my table of interest and a calendar table with the structures above. I'm trying to find the max number of distinct drugs that a person is taking in a set number of families at a given time (overlapping dates) by the field drug_class. I had success with help from the community here on a similar problem, but at the moment I'm doing something incorrect and getting wildly inaccurate results. If possible, I would like for the result set returned to look like - create table DesiredResults (pat_id int, min_overlap date, max_overlap date, drug_class char(3),drug_name varchar(50)) insert into Desired_Results(patid, minoverlap, maxoverlap, drug_class,drug_name) values (1111,'2008-11-28', '2008-12-18','h3a','drug X') ,(1111,'2008-11-28','2008-12-18','h3a','drug Y')
this would mean that during the time frame above patient 111 was prescribed drug x and drug y. My query is -
;with Overlaps (pat_id,cal_date,drug_class) as ( select mdo.pat_id ,c1.cal_date ,mdo.drug_class from ( --this gives a table of all the scripts a person had within the classes restricted in the where rx.drug_class IN clause and their fill_date and script_end_dates SELECT DISTINCT rx.pat_id ,rx.drug_class ,rx.drug_name ,rx.fill_date ,rx.script_end_date FROM rx WHERE rx.drug_class IN( 'h3a', 'h6h', 'h4b', 'h2f', 'h2s', 'j7c', 'h2e' ) -- ) as mdo,Calendar as c1 where c1.cal_date between mdo.fill_date and mdo.script_end_date group by mdo.pat_id,c1.cal_date,mdo.drug_class having count(*) > 1--overlaps ) , Groupings(pat_id,cal_date,drug_class,grp_nbr) as ( select o.pat_id ,o.cal_date ,o.drug_class ,c2.julian_seq --julianized date -row_number() over(partition by o.pat_id,o.drug_class order by o.cal_date) as grp_nbr from Overlaps as o,calendar as c2 where c2.cal_date = o.cal_date ) ,x as ( --i think this is what's causing the problem select pat_id,min(cal_date) as min_overlap,max(cal_date) as max_overlap,drug_class from groupings group by pat_id,grp_nbr,drug_class ) select x.pat_id ,x.min_overlap ,x.max_overlap ,y.drug_class ,y.drug_name from x inner join ( select distinct rx.pat_id ,rx.drug_name ,rx.drug_class ,rx.fill_date from rx ) as y on x.pat_id = y.pat_id and x.drug_class=y.drug_class and y.fill_date between x.min_overlap and x.max_overlap order by datediff(day,min_overlap,max_overlap) desc
I'm looking for the span of days where the most drugs in a given class are being prescribed. However, right now this is giving me date ranges that are larger than any single datediff(day,fill_date,script_end_date). This is making the numbers artificially inflated because some of the overlap ranges are years long when at most they should be approximately the number of days that a doctor would write a script for. If five drugs in the class 'h3a' were prescribed on the same day then I would catch that period of time as
pat_id fill_date end_date h3a, repeated five times for each drug in that class.