Structural causal model with expert augmented knowledge to estimate the effect of oxygen therapy on mortality in the ICU

Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal effects from observational data in cases where the causal graph is identifiable, i.e., the data generation mechanism can be recovered from the jo...

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Veröffentlicht in:Artificial intelligence in medicine Jg. 137; S. 102493
Hauptverfasser: Gani, Md Osman, Kethireddy, Shravan, Adib, Riddhiman, Hasan, Uzma, Griffin, Paul, Adibuzzaman, Mohammad
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Netherlands Elsevier B.V 01.03.2023
Schlagworte:
Causal inference
COVID-19
Critical care
Databases, Factual
Expert augmented knowledge
Humans
Intensive Care Units
Oxygen
Oxygen therapy
SARS-CoV-2
Structural causal model
Causal inference
Critical care
Structural causal model
Oxygen therapy
Expert augmented knowledge
ISSN:0933-3657, 1873-2860, 1873-2860
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Abstract Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal effects from observational data in cases where the causal graph is identifiable, i.e., the data generation mechanism can be recovered from the joint distribution. However, no such studies have been performed to demonstrate this concept with a clinical example. We present a complete framework to estimate the causal effects from observational data by augmenting expert knowledge in the model development phase and with a practical clinical application. Our clinical application entails a timely and essential research question, the effect of oxygen therapy intervention in the intensive care unit (ICU). The result of this project is helpful in a variety of disease conditions, including severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) patients in the ICU. We used data from the MIMIC-III database, a widely used health care database in the machine learning community with 58,976 admissions from an ICU in Boston, MA, to estimate the oxygen therapy effect on morality. We also identified the model’s covariate-specific effect on oxygen therapy for more personalized intervention. •Causal inference can help estimate causal effects, given the causal model is known.•Using Causal Inference, we aim to find the causal effect of oxygen therapy at ICU.•We leveraged observational data and expert knowledge to find underlying causal model.•We extracted cohort data from MIMIC-III database, a large public healthcare dataset.•Proposed causal method is suitable for exploring a broader set of clinical questions.
AbstractList Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal effects from observational data in cases where the causal graph is identifiable, i.e., the data generation mechanism can be recovered from the joint distribution. However, no such studies have been performed to demonstrate this concept with a clinical example. We present a complete framework to estimate the causal effects from observational data by augmenting expert knowledge in the model development phase and with a practical clinical application. Our clinical application entails a timely and essential research question, the effect of oxygen therapy intervention in the intensive care unit (ICU). The result of this project is helpful in a variety of disease conditions, including severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) patients in the ICU. We used data from the MIMIC-III database, a widely used health care database in the machine learning community with 58,976 admissions from an ICU in Boston, MA, to estimate the oxygen therapy effect on morality. We also identified the model's covariate-specific effect on oxygen therapy for more personalized intervention.Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal effects from observational data in cases where the causal graph is identifiable, i.e., the data generation mechanism can be recovered from the joint distribution. However, no such studies have been performed to demonstrate this concept with a clinical example. We present a complete framework to estimate the causal effects from observational data by augmenting expert knowledge in the model development phase and with a practical clinical application. Our clinical application entails a timely and essential research question, the effect of oxygen therapy intervention in the intensive care unit (ICU). The result of this project is helpful in a variety of disease conditions, including severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) patients in the ICU. We used data from the MIMIC-III database, a widely used health care database in the machine learning community with 58,976 admissions from an ICU in Boston, MA, to estimate the oxygen therapy effect on morality. We also identified the model's covariate-specific effect on oxygen therapy for more personalized intervention.
Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal effects from observational data in cases where the causal graph is identifiable, i.e., the data generation mechanism can be recovered from the joint distribution. However, no such studies have been performed to demonstrate this concept with a clinical example. We present a complete framework to estimate the causal effects from observational data by augmenting expert knowledge in the model development phase and with a practical clinical application. Our clinical application entails a timely and essential research question, the effect of oxygen therapy intervention in the intensive care unit (ICU). The result of this project is helpful in a variety of disease conditions, including severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) patients in the ICU. We used data from the MIMIC-III database, a widely used health care database in the machine learning community with 58,976 admissions from an ICU in Boston, MA, to estimate the oxygen therapy effect on morality. We also identified the model's covariate-specific effect on oxygen therapy for more personalized intervention.
Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal effects from observational data in cases where the causal graph is identifiable, i.e., the data generation mechanism can be recovered from the joint distribution. However, no such studies have been performed to demonstrate this concept with a clinical example. We present a complete framework to estimate the causal effects from observational data by augmenting expert knowledge in the model development phase and with a practical clinical application. Our clinical application entails a timely and essential research question, the effect of oxygen therapy intervention in the intensive care unit (ICU). The result of this project is helpful in a variety of disease conditions, including severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) patients in the ICU. We used data from the MIMIC-III database, a widely used health care database in the machine learning community with 58,976 admissions from an ICU in Boston, MA, to estimate the oxygen therapy effect on morality. We also identified the model’s covariate-specific effect on oxygen therapy for more personalized intervention. •Causal inference can help estimate causal effects, given the causal model is known.•Using Causal Inference, we aim to find the causal effect of oxygen therapy at ICU.•We leveraged observational data and expert knowledge to find underlying causal model.•We extracted cohort data from MIMIC-III database, a large public healthcare dataset.•Proposed causal method is suitable for exploring a broader set of clinical questions.
ArticleNumber 102493
Author Hasan, Uzma
Adibuzzaman, Mohammad
Adib, Riddhiman
Kethireddy, Shravan
Griffin, Paul
Gani, Md Osman
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  surname: Gani
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  givenname: Shravan
  surname: Kethireddy
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  givenname: Riddhiman
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  surname: Adib
  fullname: Adib, Riddhiman
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  givenname: Uzma
  surname: Hasan
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  givenname: Mohammad
  surname: Adibuzzaman
  fullname: Adibuzzaman, Mohammad
  email: adibuzza@ohsu.edu
  organization: Oregon Clinical and Translational Research Institute, Oregon Health & Science University, Portland, OR, USA
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Keywords Causal inference
Critical care
Structural causal model
Oxygen therapy
Expert augmented knowledge
Language English
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Snippet Recent advances in causal inference techniques, more specifically, in the theory of structural causal models, provide the framework for identifying causal...
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StartPage 102493
SubjectTerms Causal inference
COVID-19
Critical care
Databases, Factual
Expert augmented knowledge
Humans
Intensive Care Units
Oxygen
Oxygen therapy
SARS-CoV-2
Structural causal model
Title Structural causal model with expert augmented knowledge to estimate the effect of oxygen therapy on mortality in the ICU
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0933365723000076
https://dx.doi.org/10.1016/j.artmed.2023.102493
https://www.ncbi.nlm.nih.gov/pubmed/36868692
https://www.proquest.com/docview/2783492740
https://pubmed.ncbi.nlm.nih.gov/PMC9992896
Volume 137
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