Mimic4Dataset / day_intervals_cohort_v22.py
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Update day_intervals_cohort_v22.py
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import datetime
import os
import sys
import numpy as np
import pandas as pd
from pathlib import Path
from tqdm import tqdm
import importlib
import disease_cohort
importlib.reload(disease_cohort)
import disease_cohort
sys.path.append(os.path.dirname(os.path.abspath(__file__)) + './../..')
if not os.path.exists("./data/cohort"):
os.makedirs("./data/cohort")
if not os.path.exists("./data/summary"):
os.makedirs("./data/summary")
def get_visit_pts(mimic4_path:str, group_col:str, visit_col:str, admit_col:str, disch_col:str, adm_visit_col:str, use_mort:bool, use_los:bool, los:int, use_admn:bool, disease_label:str,use_ICU:bool):
"""Combines the MIMIC-IV core/patients table information with either the icu/icustays or core/admissions data.
Parameters:
mimic4_path: path to mimic-iv folder containing MIMIC-IV data
group_col: patient identifier to group patients (normally subject_id)
visit_col: visit identifier for individual patient visits (normally hadm_id or stay_id)
admit_col: column for visit start date information (normally admittime or intime)
disch_col: column for visit end date information (normally dischtime or outtime)
use_ICU: describes whether to speficially look at ICU visits in icu/icustays OR look at general admissions from core/admissions
"""
visit = None # df containing visit information depending on using ICU or not
if use_ICU:
visit = pd.read_csv(mimic4_path + "/icu/icustays.csv.gz", compression='gzip', header=0, index_col=None, parse_dates=[admit_col, disch_col])
if use_admn:
# icustays doesn't have a way to identify if patient died during visit; must
# use core/patients to remove such stay_ids for readmission labels
pts = pd.read_csv(mimic4_path + "hosp/patients.csv.gz", compression='gzip', header=0, index_col=None, usecols=['subject_id', 'dod'], parse_dates=['dod'])
visit = visit.merge(pts, how='inner', left_on='subject_id', right_on='subject_id')
visit = visit.loc[(visit.dod.isna()) | (visit.dod >= visit[disch_col])]
if len(disease_label):
hids=disease_cohort.extract_diag_cohort(visit['hadm_id'],disease_label,mimic4_path)
visit=visit[visit['hadm_id'].isin(hids['hadm_id'])]
print("[ READMISSION DUE TO "+disease_label+" ]")
else:
visit = pd.read_csv(mimic4_path + "hosp/admissions.csv.gz", compression='gzip', header=0, index_col=None, parse_dates=[admit_col, disch_col])
visit['los']=visit[disch_col]-visit[admit_col]
visit[admit_col] = pd.to_datetime(visit[admit_col])
visit[disch_col] = pd.to_datetime(visit[disch_col])
visit['los']=pd.to_timedelta(visit[disch_col]-visit[admit_col],unit='h')
visit['los']=visit['los'].astype(str)
visit[['days', 'dummy','hours']] = visit['los'].str.split(' ', -1, expand=True)
visit['los']=pd.to_numeric(visit['days'])
visit=visit.drop(columns=['days', 'dummy','hours'])
if use_admn:
# remove hospitalizations with a death; impossible for readmission for such visits
visit = visit.loc[visit.hospital_expire_flag == 0]
if len(disease_label):
hids=disease_cohort.extract_diag_cohort(visit['hadm_id'],disease_label,mimic4_path)
visit=visit[visit['hadm_id'].isin(hids['hadm_id'])]
print("[ READMISSION DUE TO "+disease_label+" ]")
pts = pd.read_csv(
mimic4_path + "hosp/patients.csv.gz", compression='gzip', header=0, index_col = None, usecols=[group_col, 'anchor_year', 'anchor_age', 'anchor_year_group', 'dod','gender']
)
pts['yob']= pts['anchor_year'] - pts['anchor_age'] # get yob to ensure a given visit is from an adult
pts['min_valid_year'] = pts['anchor_year'] + (2019 - pts['anchor_year_group'].str.slice(start=-4).astype(int))
# Define anchor_year corresponding to the anchor_year_group 2017-2019. This is later used to prevent consideration
# of visits with prediction windows outside the dataset's time range (2008-2019)
#[[group_col, visit_col, admit_col, disch_col]]
if use_ICU:
visit_pts = visit[[group_col, visit_col, adm_visit_col, admit_col, disch_col,'los']].merge(
pts[[group_col, 'anchor_year', 'anchor_age', 'yob', 'min_valid_year', 'dod','gender']], how='inner', left_on=group_col, right_on=group_col
)
else:
visit_pts = visit[[group_col, visit_col, admit_col, disch_col,'los']].merge(
pts[[group_col, 'anchor_year', 'anchor_age', 'yob', 'min_valid_year', 'dod','gender']], how='inner', left_on=group_col, right_on=group_col
)
# only take adult patients
# visit_pts['Age']=visit_pts[admit_col].dt.year - visit_pts['yob']
# visit_pts = visit_pts.loc[visit_pts['Age'] >= 18]
visit_pts['Age']=visit_pts['anchor_age']
visit_pts = visit_pts.loc[visit_pts['Age'] >= 18]
##Add Demo data
eth = pd.read_csv(mimic4_path + "hosp/admissions.csv.gz", compression='gzip', header=0, usecols=['hadm_id', 'insurance','race'], index_col=None)
visit_pts= visit_pts.merge(eth, how='inner', left_on='hadm_id', right_on='hadm_id')
if use_ICU:
return visit_pts[[group_col, visit_col, adm_visit_col, admit_col, disch_col,'los', 'min_valid_year', 'dod','Age','gender','race', 'insurance']]
else:
return visit_pts.dropna(subset=['min_valid_year'])[[group_col, visit_col, admit_col, disch_col,'los', 'min_valid_year', 'dod','Age','gender','race', 'insurance']]
def validate_row(row, ctrl, invalid, max_year, disch_col, valid_col, gap):
"""Checks if visit's prediction window potentially extends beyond the dataset range (2008-2019).
An 'invalid row' is NOT guaranteed to be outside the range, only potentially outside due to
de-identification of MIMIC-IV being done through 3-year time ranges.
To be invalid, the end of the prediction window's year must both extend beyond the maximum seen year
for a patient AND beyond the year that corresponds to the 2017-2019 anchor year range for a patient"""
print("disch_col",row[disch_col])
print(gap)
pred_year = (row[disch_col] + gap).year
if max_year < pred_year and pred_year > row[valid_col]:
invalid = invalid.append(row)
else:
ctrl = ctrl.append(row)
return ctrl, invalid
def partition_by_los(df:pd.DataFrame, los:int, group_col:str, visit_col:str, admit_col:str, disch_col:str, valid_col:str):
invalid = df.loc[(df[admit_col].isna()) | (df[disch_col].isna()) | (df['los'].isna())]
cohort = df.loc[(~df[admit_col].isna()) & (~df[disch_col].isna()) & (~df['los'].isna())]
#cohort=cohort.fillna(0)
pos_cohort=cohort[cohort['los']>los]
neg_cohort=cohort[cohort['los']<=los]
neg_cohort=neg_cohort.fillna(0)
pos_cohort=pos_cohort.fillna(0)
pos_cohort['label']=1
neg_cohort['label']=0
cohort=pd.concat([pos_cohort,neg_cohort], axis=0)
cohort=cohort.sort_values(by=[group_col,admit_col])
#print("cohort",cohort.shape)
print("[ LOS LABELS FINISHED ]")
return cohort, invalid
def partition_by_readmit(df:pd.DataFrame, gap:datetime.timedelta, group_col:str, visit_col:str, admit_col:str, disch_col:str, valid_col:str):
"""Applies labels to individual visits according to whether or not a readmission has occurred within the specified `gap` days.
For a given visit, another visit must occur within the gap window for a positive readmission label.
The gap window starts from the disch_col time and the admit_col of subsequent visits are considered."""
case = pd.DataFrame() # hadm_ids with readmission within the gap period
ctrl = pd.DataFrame() # hadm_ids without readmission within the gap period
invalid = pd.DataFrame() # hadm_ids that are not considered in the cohort
# Iterate through groupbys based on group_col (subject_id). Data is sorted by subject_id and admit_col (admittime)
# to ensure that the most current hadm_id is last in a group.
#grouped= df[[group_col, visit_col, admit_col, disch_col, valid_col]].sort_values(by=[group_col, admit_col]).groupby(group_col)
grouped= df.sort_values(by=[group_col, admit_col]).groupby(group_col)
for subject, group in tqdm(grouped):
max_year = group.max()[disch_col].year
if group.shape[0] <= 1:
#ctrl, invalid = validate_row(group.iloc[0], ctrl, invalid, max_year, disch_col, valid_col, gap) # A group with 1 row has no readmission; goes to ctrl
ctrl = ctrl.append(group.iloc[0])
else:
for idx in range(group.shape[0]-1):
visit_time = group.iloc[idx][disch_col] # For each index (a unique hadm_id), get its timestamp
if group.loc[
(group[admit_col] > visit_time) & # Readmissions must come AFTER the current timestamp
(group[admit_col] - visit_time <= gap) # Distance between a timestamp and readmission must be within gap
].shape[0] >= 1: # If ANY rows meet above requirements, a readmission has occurred after that visit
case = case.append(group.iloc[idx])
else:
# If no readmission is found, only add to ctrl if prediction window is guaranteed to be within the
# time range of the dataset (2008-2019). Visits with prediction windows existing in potentially out-of-range
# dates (like 2018-2020) are excluded UNLESS the prediction window takes place the same year as the visit,
# in which case it is guaranteed to be within 2008-2019
ctrl = ctrl.append(group.iloc[idx])
#ctrl, invalid = validate_row(group.iloc[-1], ctrl, invalid, max_year, disch_col, valid_col, gap) # The last hadm_id datewise is guaranteed to have no readmission logically
ctrl = ctrl.append(group.iloc[-1])
#print(f"[ {gap.days} DAYS ] {case.shape[0] + ctrl.shape[0]}/{df.shape[0]} {visit_col}s processed")
print("[ READMISSION LABELS FINISHED ]")
return case, ctrl, invalid
def partition_by_mort(df:pd.DataFrame, group_col:str, visit_col:str, admit_col:str, disch_col:str, death_col:str):
"""Applies labels to individual visits according to whether or not a death has occurred within
the times of the specified admit_col and disch_col"""
invalid = df.loc[(df[admit_col].isna()) | (df[disch_col].isna())]
cohort = df.loc[(~df[admit_col].isna()) & (~df[disch_col].isna())]
# cohort["label"] = (
# (~cohort[death_col].isna())
# & (cohort[death_col] >= cohort[admit_col])
# & (cohort[death_col] <= cohort[disch_col])
# )
# cohort["label"] = cohort["label"].astype("Int32")
#print("cohort",cohort.shape)
#print(np.where(~cohort[death_col].isna(),1,0))
#print(np.where(cohort.loc[death_col] >= cohort.loc[admit_col],1,0))
#print(np.where(cohort.loc[death_col] <= cohort.loc[disch_col],1,0))
cohort['label']=0
#cohort=cohort.fillna(0)
pos_cohort=cohort[~cohort[death_col].isna()]
neg_cohort=cohort[cohort[death_col].isna()]
neg_cohort=neg_cohort.fillna(0)
pos_cohort=pos_cohort.fillna(0)
pos_cohort[death_col] = pd.to_datetime(pos_cohort[death_col])
pos_cohort['label'] = np.where((pos_cohort[death_col] >= pos_cohort[admit_col]) & (pos_cohort[death_col] <= pos_cohort[disch_col]),1,0)
pos_cohort['label'] = pos_cohort['label'].astype("Int32")
cohort=pd.concat([pos_cohort,neg_cohort], axis=0)
cohort=cohort.sort_values(by=[group_col,admit_col])
#print("cohort",cohort.shape)
print("[ MORTALITY LABELS FINISHED ]")
return cohort, invalid
def get_case_ctrls(df:pd.DataFrame, gap:int, group_col:str, visit_col:str, admit_col:str, disch_col:str, valid_col:str, death_col:str, use_mort=False,use_admn=False,use_los=False) -> pd.DataFrame:
"""Handles logic for creating the labelled cohort based on arguments passed to extract().
Parameters:
df: dataframe with patient data
gap: specified time interval gap for readmissions
group_col: patient identifier to group patients (normally subject_id)
visit_col: visit identifier for individual patient visits (normally hadm_id or stay_id)
admit_col: column for visit start date information (normally admittime or intime)
disch_col: column for visit end date information (normally dischtime or outtime)
valid_col: generated column containing a patient's year that corresponds to the 2017-2019 anchor time range
dod_col: Date of death column
"""
case = None # hadm_ids with readmission within the gap period
ctrl = None # hadm_ids without readmission within the gap period
invalid = None # hadm_ids that are not considered in the cohort
if use_mort:
return partition_by_mort(df, group_col, visit_col, admit_col, disch_col, death_col)
elif use_admn:
gap = datetime.timedelta(days=gap)
# transform gap into a timedelta to compare with datetime columns
case, ctrl, invalid = partition_by_readmit(df, gap, group_col, visit_col, admit_col, disch_col, valid_col)
# case hadm_ids are labelled 1 for readmission, ctrls have a 0 label
case['label'] = np.ones(case.shape[0]).astype(int)
ctrl['label'] = np.zeros(ctrl.shape[0]).astype(int)
return pd.concat([case, ctrl], axis=0), invalid
elif use_los:
return partition_by_los(df, gap, group_col, visit_col, admit_col, disch_col, death_col)
# print(f"[ {gap.days} DAYS ] {invalid.shape[0]} hadm_ids are invalid")
def extract_data(use_ICU:str, label:str, time:int, icd_code:str, root_dir,mimic_path, disease_label, cohort_output=None, summary_output=None):
"""Extracts cohort data and summary from MIMIC-IV data based on provided parameters.
Parameters:
cohort_output: name of labelled cohort output file
summary_output: name of summary output file
use_ICU: state whether to use ICU patient data or not
label: Can either be '{day} day Readmission' or 'Mortality', decides what binary data label signifies"""
print("===========MIMIC-IV v2============")
if not cohort_output:
cohort_output="cohort_" + use_ICU.lower() + "_" + label.lower().replace(" ", "_") + "_" + str(time) + "_" + disease_label
if not summary_output:
summary_output="summary_" + use_ICU.lower() + "_" + label.lower().replace(" ", "_") + "_" + str(time) + "_" + disease_label
if icd_code=="No Disease Filter":
if len(disease_label):
print(f"EXTRACTING FOR: | {use_ICU.upper()} | {label.upper()} DUE TO {disease_label.upper()} | {str(time)} | ")
else:
print(f"EXTRACTING FOR: | {use_ICU.upper()} | {label.upper()} | {str(time)} |")
else:
if len(disease_label):
print(f"EXTRACTING FOR: | {use_ICU.upper()} | {label.upper()} DUE TO {disease_label.upper()} | ADMITTED DUE TO {icd_code.upper()} | {str(time)} |")
else:
print(f"EXTRACTING FOR: | {use_ICU.upper()} | {label.upper()} | ADMITTED DUE TO {icd_code.upper()} | {str(time)} |")
#print(label)
cohort, invalid = None, None # final labelled output and df of invalid records, respectively
pts = None # valid patients generated by get_visit_pts based on use_ICU and label
ICU=use_ICU
group_col, visit_col, admit_col, disch_col, death_col, adm_visit_col = "", "", "", "", "", ""
#print(label)
use_mort = label == "Mortality" # change to boolean value
use_admn=label=='Readmission'
los=0
use_los= label=='Length of Stay'
#print(use_mort)
#print(use_admn)
#print(use_los)
if use_los:
los=time
use_ICU = use_ICU == "ICU" # change to boolean value
use_disease=icd_code!="No Disease Filter"
if use_ICU:
group_col='subject_id'
visit_col='stay_id'
admit_col='intime'
disch_col='outtime'
death_col='dod'
adm_visit_col='hadm_id'
else:
group_col='subject_id'
visit_col='hadm_id'
admit_col='admittime'
disch_col='dischtime'
death_col='dod'
pts = get_visit_pts(
mimic4_path=mimic_path,
group_col=group_col,
visit_col=visit_col,
admit_col=admit_col,
disch_col=disch_col,
adm_visit_col=adm_visit_col,
use_mort=use_mort,
use_los=use_los,
los=los,
use_admn=use_admn,
disease_label=disease_label,
use_ICU=use_ICU
)
#print("pts",pts.head())
# cols to be extracted from get_case_ctrls
cols = [group_col, visit_col, admit_col, disch_col, 'Age','gender','ethnicity','insurance','label']
if use_mort:
cols.append(death_col)
cohort, invalid = get_case_ctrls(pts, None, group_col, visit_col, admit_col, disch_col,'min_valid_year', death_col, use_mort=True,use_admn=False,use_los=False)
elif use_admn:
interval = time
cohort, invalid = get_case_ctrls(pts, interval, group_col, visit_col, admit_col, disch_col,'min_valid_year', death_col, use_mort=False,use_admn=True,use_los=False)
elif use_los:
cohort, invalid = get_case_ctrls(pts, los, group_col, visit_col, admit_col, disch_col,'min_valid_year', death_col, use_mort=False,use_admn=False,use_los=True)
#print(cohort.head())
if use_ICU:
cols.append(adm_visit_col)
#print(cohort.head())
if use_disease:
hids=disease_cohort.extract_diag_cohort(cohort['hadm_id'],icd_code,mimic_path)
#print(hids.shape)
#print(cohort.shape)
#print(len(list(set(hids['hadm_id'].unique()).intersection(set(cohort['hadm_id'].unique())))))
cohort=cohort[cohort['hadm_id'].isin(hids['hadm_id'])]
cohort_output=cohort_output+"_"+icd_code
summary_output=summary_output+"_"+icd_code
#print(cohort[cols].head())
# save output
cohort=cohort.rename(columns={"race":"ethnicity"})
cohort[cols].to_csv("./data/cohort/"+cohort_output+".csv.gz", index=False, compression='gzip')
print("[ COHORT SUCCESSFULLY SAVED ]")
summary = "\n".join([
f"{label} FOR {ICU} DATA",
f"# Admission Records: {cohort.shape[0]}",
f"# Patients: {cohort[group_col].nunique()}",
f"# Positive cases: {cohort[cohort['label']==1].shape[0]}",
f"# Negative cases: {cohort[cohort['label']==0].shape[0]}"
])
# save basic summary of data
with open(f"./data/cohort/{summary_output}.txt", "w") as f:
f.write(summary)
print("[ SUMMARY SUCCESSFULLY SAVED ]")
print(summary)
return cohort_output
if __name__ == '__main__':
# use_ICU = input("Use ICU Data? (ICU/Non_ICU)\n").strip()
# label = input("Please input the intended label:\n").strip()
# extract(use_ICU, label)
response = input('Extra all datasets? (y/n)').strip().lower()
if response == 'y':
extract_data("ICU", "Mortality")
extract_data("Non-ICU", "Mortality")
extract_data("ICU", "30 Day Readmission")
extract_data("Non-ICU", "30 Day Readmission")
extract_data("ICU", "60 Day Readmission")
extract_data("Non-ICU", "60 Day Readmission")
extract_data("ICU", "120 Day Readmission")
extract_data("Non-ICU", "120 Day Readmission")