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import argparse
import requests
import xml.etree.ElementTree as ET
import pickle
import re
import os
os.environ['TF_CPP_MIN_LOG_LEVEL'] = '3'
import tensorflow as tf
from nltk.corpus import stopwords
from nltk.tokenize import word_tokenize
import spacy
import numpy as np
import streamlit as st
from tensorflow.keras.preprocessing.sequence import pad_sequences
STOPWORDS = set(stopwords.words('english'))
max_length = 300
trunc_type = 'post'
padding_type = 'post'
from typing import (
Dict,
List,
Tuple,
Set,
Optional,
Any,
Union,
)
# Standardize the abstract by replacing all named entities with their entity label.
# Eg. 3 patients reported at a clinic in England --> CARDINAL patients reported at a clinic in GPE
# expects the spaCy model en_core_web_lg as input
def standardizeAbstract(abstract:str, nlp:Any) -> str:
doc = nlp(abstract)
newAbstract = abstract
for e in reversed(doc.ents):
if e.label_ in {'PERCENT','CARDINAL','GPE','LOC','DATE','TIME','QUANTITY','ORDINAL'}:
start = e.start_char
end = start + len(e.text)
newAbstract = newAbstract[:start] + e.label_ + newAbstract[end:]
return newAbstract
# Same as above but replaces biomedical named entities from scispaCy models
# Expects as input en_ner_bc5cdr_md and en_ner_bionlp13cg_md
def standardizeSciTerms(abstract:str, nlpSci:Any, nlpSci2:Any) -> str:
doc = nlpSci(abstract)
newAbstract = abstract
for e in reversed(doc.ents):
start = e.start_char
end = start + len(e.text)
newAbstract = newAbstract[:start] + e.label_ + newAbstract[end:]
doc = nlpSci2(newAbstract)
for e in reversed(doc.ents):
start = e.start_char
end = start + len(e.text)
newAbstract = newAbstract[:start] + e.label_ + newAbstract[end:]
return newAbstract
# Prepare model
#nlp, nlpSci, nlpSci2, classify_model, classify_tokenizer= init_classify_model()
def init_classify_model(model:str='LSTM_RNN_Model') -> Tuple[Any,Any,Any,Any,Any]:
#Load spaCy models
nlp = spacy.load('en_core_web_lg')
nlpSci = spacy.load("en_ner_bc5cdr_md")
nlpSci2 = spacy.load('en_ner_bionlp13cg_md')
# load the tokenizer
with open('tokenizer.pickle', 'rb') as handle:
classify_tokenizer = pickle.load(handle)
# load the model
classify_model = tf.keras.models.load_model(model)
return (nlp, nlpSci, nlpSci2, classify_model, classify_tokenizer)
#Gets abstract and title (concatenated) from EBI API
def PMID_getAb(PMID:Union[int,str]) -> str:
url = 'https://www.ebi.ac.uk/europepmc/webservices/rest/search?query=EXT_ID:'+str(PMID)+'&resulttype=core'
r = requests.get(url)
root = ET.fromstring(r.content)
titles = [title.text for title in root.iter('title')]
abstracts = [abstract.text for abstract in root.iter('abstractText')]
if len(abstracts) > 0 and len(abstracts[0])>5:
return titles[0]+' '+abstracts[0]
else:
return ''
def search_Pubmed_API(searchterm_list:Union[List[str],str], maxResults:int) -> Dict[str,str]: #returns a dictionary of {pmids:abstracts}
print('search_Pubmed_API is DEPRECATED. UTILIZE search_NCBI_API for NCBI ENTREZ API results. Utilize search_getAbs for most comprehensive results.')
return search_NCBI_API(searchterm_list, maxResults)
## DEPRECATED, use search_getAbs for more comprehensive results
def search_NCBI_API(searchterm_list:Union[List[str],str], maxResults:int) -> Dict[str,str]: #returns a dictionary of {pmids:abstracts}
print('search_NCBI_API is DEPRECATED. Utilize search_getAbs for most comprehensive results.')
pmid_to_abs = {}
i = 0
#type validation, allows string or list input
if type(searchterm_list)!=list:
if type(searchterm_list)==str:
searchterm_list = [searchterm_list]
else:
searchterm_list = list(searchterm_list)
#gathers pmids into a set first
for dz in searchterm_list:
# get results from searching for disease name through PubMed API
term = ''
dz_words = dz.split()
for word in dz_words:
term += word + '%20'
query = term[:-3]
url = 'https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esearch.fcgi?db=pubmed&term='+query
r = requests.get(url)
root = ET.fromstring(r.content)
# loop over resulting articles
for result in root.iter('IdList'):
pmids = [pmid.text for pmid in result.iter('Id')]
if i >= maxResults:
break
for pmid in pmids:
if pmid not in pmid_to_abs.keys():
abstract = PMID_getAb(pmid)
if len(abstract)>5:
pmid_to_abs[pmid]=abstract
i+=1
return pmid_to_abs
## DEPRECATED, use search_getAbs for more comprehensive results
# get results from searching for disease name through EBI API
def search_EBI_API(searchterm_list:Union[List[str],str], maxResults:int) -> Dict[str,str]: #returns a dictionary of {pmids:abstracts}
print('DEPRECATED. Utilize search_getAbs for most comprehensive results.')
pmids_abs = {}
i = 0
#type validation, allows string or list input
if type(searchterm_list)!=list:
if type(searchterm_list)==str:
searchterm_list = [searchterm_list]
else:
searchterm_list = list(searchterm_list)
#gathers pmids into a set first
for dz in searchterm_list:
if i >= maxResults:
break
term = ''
dz_words = dz.split()
for word in dz_words:
term += word + '%20'
query = term[:-3]
url = 'https://www.ebi.ac.uk/europepmc/webservices/rest/search?query='+query+'&resulttype=core'
r = requests.get(url)
root = ET.fromstring(r.content)
# loop over resulting articles
for result in root.iter('result'):
if i >= maxResults:
break
pmids = [pmid.text for pmid in result.iter('id')]
if len(pmids) > 0:
pmid = pmids[0]
if pmid[0].isdigit():
abstracts = [abstract.text for abstract in result.iter('abstractText')]
titles = [title.text for title in result.iter('title')]
if len(abstracts) > 0:# and len(abstracts[0])>5:
pmids_abs[pmid] = titles[0]+' '+abstracts[0]
i+=1
return pmids_abs
## This is the main, most comprehensive search_term function, it can take in a search term or a list of search terms and output a dictionary of {pmids:abstracts}
## Gets results from searching through both PubMed and EBI search term APIs, also makes use of the EBI API for PMIDs.
## EBI API and PubMed API give different results
# This makes n+2 API calls where n<=maxResults, which is slow
# There is a way to optimize by gathering abstracts from the EBI API when also getting pmids but did not pursue due to time constraints
# Filtering can be
# 'strict' - must have some exact match to at leastone of search terms/phrases in text)
# 'lenient' - part of the abstract must match at least one word in the search term phrases.
# 'none'
def search_getAbs(searchterm_list:Union[List[str],List[int],str], maxResults:int, filtering:str) -> Dict[str,str]:
#set of all pmids
pmids = set()
#dictionary {pmid:abstract}
pmid_abs = {}
#type validation, allows string or list input
if type(searchterm_list)!=list:
if type(searchterm_list)==str:
searchterm_list = [searchterm_list]
else:
searchterm_list = list(searchterm_list)
#gathers pmids into a set first
for dz in searchterm_list:
term = ''
dz_words = dz.split()
for word in dz_words:
term += word + '%20'
query = term[:-3]
## get pmid results from searching for disease name through PubMed API
url = 'https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esearch.fcgi?db=pubmed&term='+query
r = requests.get(url)
root = ET.fromstring(r.content)
# loop over resulting articles
for result in root.iter('IdList'):
if len(pmids) >= maxResults:
break
pmidlist = [pmid.text for pmid in result.iter('Id')]
pmids.update(pmidlist)
## get results from searching for disease name through EBI API
url = 'https://www.ebi.ac.uk/europepmc/webservices/rest/search?query='+query+'&resulttype=core'
r = requests.get(url)
root = ET.fromstring(r.content)
# loop over resulting articles
for result in root.iter('result'):
if len(pmids) >= maxResults:
break
pmidlist = [pmid.text for pmid in result.iter('id')]
#can also gather abstract and title here but for some reason did not work as intended the first time. Optimize in future versions to reduce latency.
if len(pmidlist) > 0:
pmid = pmidlist[0]
if pmid[0].isdigit():
pmids.add(pmid)
#Construct sets for filtering (right before adding abstract to pmid_abs
# The purpose of this is to do a second check of the abstracts, filters out any abstracts unrelated to the search terms
#if filtering is 'lenient' or default
if filtering !='none' or filtering !='strict':
filter_terms = set(searchterm_list).union(set(str(re.sub(',','',' '.join(searchterm_list))).split()).difference(STOPWORDS))
'''
# The above is equivalent to this but uses less memory and may be faster:
#create a single string of the terms within the searchterm_list
joined = ' '.join(searchterm_list)
#remove commas
comma_gone = re.sub(',','',joined)
#split the string into list of words and convert list into a Pythonic set
split = set(comma_gone.split())
#remove the STOPWORDS from the set of key words
key_words = split.difference(STOPWORDS)
#create a new set of the list members in searchterm_list
search_set = set(searchterm_list)
#join the two sets
terms = search_set.union(key_words)
#if any word(s) in the abstract intersect with any of these terms then the abstract is good to go.
'''
## get abstracts from EBI PMID API and output a dictionary
for pmid in pmids:
abstract = PMID_getAb(pmid)
if len(abstract)>5:
#do filtering here
if filtering == 'strict':
uncased_ab = abstract.lower()
for term in searchterm_list:
if term.lower() in uncased_ab:
pmid_abs[pmid] = abstract
break
elif filtering =='none':
pmid_abs[pmid] = abstract
#Default filtering is 'lenient'.
else:
#Else and if are separated for readability and to better understand logical flow.
if set(filter_terms).intersection(set(word_tokenize(abstract))):
pmid_abs[pmid] = abstract
print('Found',len(pmids),'PMIDs. Gathered',len(pmid_abs),'Relevant Abstracts.')
return pmid_abs
#This is a streamlit version of search_getAbs. Refer to search_getAbs for documentation
def streamlit_getAbs(searchterm_list:Union[List[str],List[int],str], maxResults:int, filtering:str) -> Dict[str,str]:
pmids = set()
pmid_abs = {}
if type(searchterm_list)!=list:
if type(searchterm_list)==str:
searchterm_list = [searchterm_list]
else:
searchterm_list = list(searchterm_list)
#maxResults is multiplied by a little bit because sometimes the results returned is more than maxResults
percent_by_step = 1/(maxResults*1.05)
PMIDs_bar = st.progress(0)
for dz in searchterm_list:
term = ''
dz_words = dz.split()
for word in dz_words:
term += word + '%20'
query = term[:-3]
url = 'https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esearch.fcgi?db=pubmed&term='+query
r = requests.get(url)
root = ET.fromstring(r.content)
for result in root.iter('IdList'):
if len(pmids) >= maxResults:
break
pmidlist = [pmid.text for pmid in result.iter('Id')]
pmids.update(pmidlist)
PMIDs_bar.progress(min(round(len(pmids)*percent_by_step,1),1.0))
url = 'https://www.ebi.ac.uk/europepmc/webservices/rest/search?query='+query+'&resulttype=core'
r = requests.get(url)
root = ET.fromstring(r.content)
for result in root.iter('result'):
if len(pmids) >= maxResults:
break
pmidlist = [pmid.text for pmid in result.iter('id')]
if len(pmidlist) > 0:
pmid = pmidlist[0]
if pmid[0].isdigit():
pmids.add(pmid)
PMIDs_bar.progress(min(round(len(pmids)*percent_by_step,1),1.0))
PMIDs_bar.empty()
with st.success('Found '+str(len(pmids))+' PMIDs. Gathering Abstracts and Filtering...'):
abstracts_bar = st.progress(0)
percent_by_step = 1/(maxResults)
if filtering !='none' or filtering !='strict':
filter_terms = set(searchterm_list).union(set(str(re.sub(',','',' '.join(searchterm_list))).split()).difference(STOPWORDS))
for pmid in pmids:
abstract = PMID_getAb(pmid)
if len(abstract)>5:
#do filtering here
if filtering == 'strict':
uncased_ab = abstract.lower()
for term in searchterm_list:
if term.lower() in uncased_ab:
pmid_abs[pmid] = abstract
abstracts_bar.progress(min(round(len(pmid_abs)*percent_by_step,1),1.0))
break
elif filtering =='none':
pmid_abs[pmid] = abstract
abstracts_bar.progress(min(round(len(pmid_abs)*percent_by_step,1),1.0))
#Default filtering is 'lenient'.
else:
#Else and if are separated for readability and to better understand logical flow.
if set(filter_terms).intersection(set(word_tokenize(abstract))):
pmid_abs[pmid] = abstract
abstracts_bar.progress(min(round(len(pmid_abs)*percent_by_step,1),1.0))
abstracts_bar.empty()
st.success('Found '+str(len(pmids))+' PMIDs. Gathered '+str(len(pmid_abs))+' Relevant Abstracts.')
return pmid_abs, (len(pmids),len(pmid_abs))
# Generate predictions for a PubMed Id
# nlp: en_core_web_lg
# nlpSci: en_ner_bc5cdr_md
# nlpSci2: en_ner_bionlp13cg_md
# Defaults to load my_model_orphanet_final, the most up-to-date version of the classification model,
# but can also be run on any other tf.keras model
#This was originally getPredictions
def getPMIDPredictions(pmid:Union[str,int], classify_model_vars:Tuple[Any,Any,Any,Any,Any]) -> Tuple[str,float,bool]:
nlp, nlpSci, nlpSci2, classify_model, classify_tokenizer = classify_model_vars
abstract = PMID_getAb(pmid)
if len(abstract)>5:
# remove stopwords
for word in STOPWORDS:
token = ' ' + word + ' '
abstract = abstract.replace(token, ' ')
abstract = abstract.replace(' ', ' ')
# preprocess abstract
abstract_standard = [standardizeAbstract(standardizeSciTerms(abstract, nlpSci, nlpSci2), nlp)]
sequence = classify_tokenizer.texts_to_sequences(abstract_standard)
padded = pad_sequences(sequence, maxlen=max_length, padding=padding_type, truncating=trunc_type)
y_pred1 = classify_model.predict(padded) # generate prediction
y_pred = np.argmax(y_pred1, axis=1) # get binary prediction
prob = y_pred1[0][1]
if y_pred == 1:
isEpi = True
else:
isEpi = False
return abstract, prob, isEpi
else:
return abstract, 0.0, False
def getTextPredictions(abstract:str, classify_model_vars:Tuple[Any,Any,Any,Any,Any]) -> Tuple[float,bool]:
nlp, nlpSci, nlpSci2, classify_model, classify_tokenizer = classify_model_vars
if len(abstract)>5:
# remove stopwords
for word in STOPWORDS:
token = ' ' + word + ' '
abstract = abstract.replace(token, ' ')
abstract = abstract.replace(' ', ' ')
# preprocess abstract
abstract_standard = [standardizeAbstract(standardizeSciTerms(abstract, nlpSci, nlpSci2), nlp)]
sequence = classify_tokenizer.texts_to_sequences(abstract_standard)
padded = pad_sequences(sequence, maxlen=max_length, padding=padding_type, truncating=trunc_type)
y_pred1 = classify_model.predict(padded) # generate prediction
y_pred = np.argmax(y_pred1, axis=1) # get binary prediction
prob = y_pred1[0][1]
if y_pred == 1:
isEpi = True
else:
isEpi = False
return prob, isEpi
else:
return 0.0, False
if __name__ == '__main__':
print('Loading 5 NLP models...')
classify_model_vars= init_classify_model()
print('All models loaded.')
pmid = input('\nEnter PubMed PMID (or DONE): ')
while pmid != 'DONE':
abstract, prob, isEpi = getPredictions(pmid, classify_model_vars)
print(abstract, prob, isEpi)
pmid = input('\nEnter PubMed PMID (or DONE): ') |