README-run-etl.md

Running the ETL on PostgreSQL

This README overviews running the MIMIC-OMOP ETL from the ground up on a PostgreSQL server. You will need an installation of PostgreSQL 9.6+ in order to run the ETL. You will also need MIMIC-III installed on this instance of postgres, see here for details: https://mimic.physionet.org/gettingstarted/dbsetup/

This README will assume the following:

• MIMIC-III v1.4 is available in the mimic database under the mimiciii schema
• The standard concepts from Athena have been downloaded and are available somewhere (including running the extra script to download CPT code definitions)
• The R software library with remotes (install.packages("remotes")) and a GitHub package remotes::install_github("r-dbi/RPostgres")
• The computer has an active internet connection (needed to clone certain repositories throughout the build)

0. Open up a terminal and define parameters

To simplify the reusability of these scripts, we define a few environment variables and reuse them throughout the rest of the guide.

First is the connection string used to connect to the database. Note this also specifies the schema using search_path.

export OMOP_SCHEMA='omop'
export OMOP='host=localhost dbname=postgres user=postgres options=--search_path='$OMOP_SCHEMA
export MIMIC='host=localhost dbname=postgres user=postgres options=--search_path=mimiciii'
# or, e.g., export OMOP="dbname=mimic options=--search_path=omop"

We will later use these environmental variables to connect to postgres.

NOTE: While ideally specifying the schemas would be completely configurable, much of the repository assumes the omop schema. The mimiciii schema should be configurable, but this is experimental.

1. Build OMOP tables with standard concepts

See the omop/build-omop/postgresql/README.md file to build OMOP on postgres.

2. Create local MIMIC-III concepts

We need to create a concept_id for each MIMIC-III local code. OMOP reserves concept_id above 20,000,000+ for local codes, so we will use this range to insert ours.

psql "$MIMIC" -f mimic/build-mimic/postgres_create_mimic_id.sql

N.B. this script is called by etl_sequence.sql

After this, every table in the MIMIC-III schema will have an additional column called mimic_id.

3. Load the concepts from the CSV files

First prepare a configuration file for the R script and save it as mimic-omop.cfg in the root folder of this repository. Here is an example of the file structure:

dbname=mimic
user=alistairewj

After that, run the R script from the root folder:

Rscript etl/ConceptTables/loadTables.R mimiciii

This will load various manual mappings to the database under the mimiciii schema.

4. Run the ETL

Be sure to run this from the root folder of the repository, or the relative path names will cause errors.

psql "$MIMIC" --set=OMOP_SCHEMA="$OMOP_SCHEMA" -f "etl/etl.sql"

5. Check the ETL has run properly

In order to run the checks, you'll need pgTap. pgTap is a testing framework for postgres. You can install pgtap by either:

• using a package manager, e.g. on Ubuntu using: sudo apt-get install pgtap.
• from source, following the install instructions here

If building from source, pay careful attention to the make output. You may need to install additional perl modules in order to use functions such as pg_prove, using cpan TAP::Parser::SourceHandler::pgTAP. You may also need to run the installation make files as the postgres user, who has superuser privileges to the postgres database.

After you install it, be sure to enable the extension as follows:

psql "$MIMIC" -c "CREATE EXTENSION pgtap;"

Now the extension is available database-wide, and we can run the ETL.

psql "$MIMIC" -f "etl/check_etl.sql"