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calculate_dose_scaled_back.py
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calculate_dose_scaled_back.py
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import pandas as pd
import numpy as np
import os
import re
import json
from collections import Counter
def match_input_files(file: str) -> bool:
"""Checks if file name has format outputted by cohort extractor"""
pattern = r"^input_20\d\d-(0[1-9]|1[012])-(0[1-9]|[12][0-9]|3[01])\.feather"
return True if re.match(pattern, file) else False
def get_date_input_file(file: str) -> str:
"""Gets the date in format YYYY-MM-DD from input file name string"""
# check format
if not match_input_files(file):
raise Exception("Not valid input file format")
else:
date = result = re.search(r"input_(.*)\.feather", file)
return date.group(1)
def round_5(x):
return int(5 * round(float(x)/5))
OUTPUT_DIR = "output"
for file in os.listdir(OUTPUT_DIR):
if match_input_files(file):
df = pd.read_feather(os.path.join(OUTPUT_DIR, file))
date = get_date_input_file(file)
# e.g date='2020-01-01'
# calculate recommended dose for each doac based on recorded crcl
# deal with null values in numeric value vars
df["crcl"] = df["crcl"].fillna(-1)
# apixaban
apixaban_conditions = [
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 29)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30)),
]
apixaban_values = ["nr", "A2.5", "A5"]
df["apixaban"] = np.select(apixaban_conditions, apixaban_values)
# rivaroxaban
rivaroxaban_conditions = [
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 49)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 50)),
]
rivaroxaban_values = ["nr", "R15", "R20"]
df["rivaroxaban"] = np.select(rivaroxaban_conditions, rivaroxaban_values)
# edoxaban
edoxaban_conditions = [
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 50)),
((df["atrial_fib"] == 1) & (df["crcl"] > 50)),
]
edoxaban_values = ["nr", "E30", "E60"]
df["edoxaban"] = np.select(edoxaban_conditions, edoxaban_values)
# dabigatran
dabigatran_conditions = [
((df["atrial_fib"] == 1) & (df["crcl"] < 30) & (df["crcl"] >= 0)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["crcl"] <= 50)),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30)),
]
dabigatran_values = ["nr", "D110", "D150"]
df["dabigatran"] = np.select(dabigatran_conditions, dabigatran_values)
# now need to check if on correct dose!
conditions = [
(df["doac_dose_calculated"] == df["apixaban"]),
(df["doac_dose_calculated"] == df["rivaroxaban"]),
(df["doac_dose_calculated"] == df["edoxaban"]),
(df["doac_dose_calculated"] == df["dabigatran"]),
]
values = [1, 1, 1, 1]
df["dose_match"] = np.select(conditions, values)
# with af & crcl recorded & exclusions
afcrcl_conditions = [
((df["atrial_fib"] == 1) & (df["crcl_recorded"] == 1)),
((df["atrial_fib"] == 0)),
((df["crcl_recorded"] == 0)),
(df["crcl_include"] == 0),
(df["mechanical_valve"] == 1),
]
afcrcl_values = [1, 0, 0, 0, 0]
df["af_&_crcl"] = np.select(afcrcl_conditions, afcrcl_values)
# dose summary over/under/match
summary_conditions = [
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "A2.5")),
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "A5")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 29) & (df["doac_dose_calculated"] == "A2.5")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 29) & (df["doac_dose_calculated"] == "A5")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["doac_dose_calculated"] == "A2.5")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["doac_dose_calculated"] == "A5")),
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "R15")),
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "R20")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 49) & (df["doac_dose_calculated"] == "R15")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 49) & (df["doac_dose_calculated"] == "R20")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 50) & (df["doac_dose_calculated"] == "R15")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 50) & (df["doac_dose_calculated"] == "R20")),
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "E30")),
((df["atrial_fib"] == 1) & (df["crcl"] < 15) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "E60")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 50) & (df["doac_dose_calculated"] == "E30")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 15) & (df["crcl"] <= 50) & (df["doac_dose_calculated"] == "E60")),
((df["atrial_fib"] == 1) & (df["crcl"] > 50) & (df["doac_dose_calculated"] == "E30")),
((df["atrial_fib"] == 1) & (df["crcl"] > 50) & (df["doac_dose_calculated"] == "E60")),
((df["atrial_fib"] == 1) & (df["crcl"] < 30) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "D110")),
((df["atrial_fib"] == 1) & (df["crcl"] < 30) & (df["crcl"] >= 0) & (df["doac_dose_calculated"] == "D150")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["crcl"] <= 50) & (df["doac_dose_calculated"] == "D110")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["crcl"] <= 50) & (df["doac_dose_calculated"] == "D150")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["doac_dose_calculated"] == "D110")),
((df["atrial_fib"] == 1) & (df["crcl"] >= 30) & (df["doac_dose_calculated"] == "D150")),
((df["atrial_fib"] == 1) & (df["doac_dose_calculated"] == "D75")),
((df["atrial_fib"] == 1) & (df["doac_dose_calculated"] == "E15")),
((df["atrial_fib"] == 1) & (df["doac_dose_calculated"] == "R10")),
((df["atrial_fib"] == 1) & (df["doac_dose_calculated"] == "R2.5")),
]
summary_values = ["over", "over", "match", "over", "under", "match", "over", "over", "match", "over", "under", "match", "over", "over", "match", "over", "under", "match", "over", "over", "match", "over", "under", "match", "under", "under", "under", "under"]
df["dose_summary"] = np.select(summary_conditions, summary_values)
# new crcl values grouped
crcl_conditions = [
((df["crcl"] < 15) & (df["crcl"] >= 0)),
((df["crcl"] >= 15) & (df["crcl"] <= 29)),
((df["crcl"] >= 30) & (df["crcl"] <= 90)),
((df["crcl"] > 90)),
]
crcl_values = ["<15mL/min", "15-29mL/min", "30-90mL/min", ">90mL/min"]
df["crcl_grouped"] = np.select(crcl_conditions, crcl_values)
# new weight values grouped
weight_conditions = [
((df["weight"] < 50) & (df["crcl"] >= 0)),
((df["weight"] >= 50) & (df["crcl"] <= 120)),
((df["weight"] > 120)),
]
weight_values = ["<50Kg", "50-120Kg", ">120Kg"]
df["weight_grouped"] = np.select(weight_conditions, weight_values)
# with non-valvular af
nvaf_conditions = [
((df["atrial_fib"] == 1) & (df["mechanical_valve"] == 0)),
((df["atrial_fib"] == 0)),
(df["mechanical_valve"] == 1),
]
nvaf_values = [1, 0, 0]
df["nvaf"] = np.select(nvaf_conditions, nvaf_values)
# df.to_csv(f'output/df_with_calculation_{date}.csv') # this will be a new file
df.to_feather(os.path.join(OUTPUT_DIR, file)) # this will overwrite