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Related Concept Videos

Antibiotic Selection00:57

Antibiotic Selection

49.0K
Overview
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Development of Antibiotic Resistance01:30

Development of Antibiotic Resistance

2.0K
Antibiotic resistance is a major public health concern that arises when bacteria evolve mechanisms to withstand the effects of antibiotic treatments. This resistance can be intrinsic, acquired through genetic mutations, or transferred between bacteria via horizontal gene transfer. The development of antibiotic resistance poses significant challenges in treating bacterial infections and necessitates ongoing research to develop new therapeutic strategies.Intrinsic resistance occurs when bacterial...
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Clinical Significance of Antibiotic Resistance01:25

Clinical Significance of Antibiotic Resistance

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Methicillin-resistant Staphylococcus aureus (MRSA) presents a critical public health threat, arising from its capacity to resist β-lactam antibiotics due to acquisition of the mecA gene within the staphylococcal cassette chromosome mec (SCCmec). This gene encodes penicillin-binding protein 2a (PBP2a), which impairs binding efficacy of methicillin and other β-lactams. MRSA has evolved into distinct clonal lineages impacting humans and animals alike, reinforcing its significance within...
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Updated: May 5, 2026

One-day Workflow Scheme for Bacterial Pathogen Detection and Antimicrobial Resistance Testing from Blood Cultures
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Multi task learning based early prediction model for antibiotic resistance using multi institutional cohort data.

Yeongmin Kim1, Inyong Jeong1, Jin-Hyun Park1

  • 1Department of Biomedical Informatics, Korea University College of Medicine, 73 Goryeodae-ro, Seongbuk-gu, Seoul, 02841, Korea.

Scientific Reports
|March 3, 2026
PubMed
Summary
This summary is machine-generated.

Machine learning models predict antibiotic resistance in hospitalized patients. Multi-task learning, particularly hard parameter sharing, showed superior performance, offering a novel solution for medical data challenges.

Keywords:
Antibiotic resistance predictionClinical decision supportElectronic health recordsExplainable artificial intelligenceMachine learningMulti-task learning

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One-day Workflow Scheme for Bacterial Pathogen Detection and Antimicrobial Resistance Testing from Blood Cultures
08:30

One-day Workflow Scheme for Bacterial Pathogen Detection and Antimicrobial Resistance Testing from Blood Cultures

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Area of Science:

  • Medical Informatics
  • Computational Biology
  • Infectious Diseases

Background:

  • Antibiotic resistance is a critical global health threat.
  • Inappropriate antibiotic use accelerates resistance development.
  • High-cost data labeling hinders medical research.

Purpose of the Study:

  • To develop and compare machine learning models for predicting antibiotic resistance.
  • To address the challenge of high-cost data labeling in medical records.
  • To evaluate multi-task learning approaches against single-task models.

Main Methods:

  • Retrospective study using electronic medical records from 59,551 patients.
  • Development of single-task learning (Logistic Regression, XGBoost, LightGBM, CatBoost, MLP) and multi-task learning (Hard, Soft Parameter Sharing) models.
  • Performance evaluation using Area Under the ROC Curve (AUC), Precision-Recall Curve (PRC), and calibration slope.

Main Results:

  • The hard parameter sharing multi-task learning model achieved the highest AUC (79.63) and PRC (80.26) for five of nine antibiotic classes in external validation.
  • Shapley Additive Explanations identified previous antibiotic resistance as the key predictor.
  • Model performance varied by subgroup: hard parameter sharing excelled with prior culture data, while soft parameter sharing was better without it.

Conclusions:

  • Multi-task learning models offer generalized, stable, and superior performance in predicting antibiotic resistance compared to traditional models.
  • This approach provides a novel solution for handling partial targets in medical datasets.
  • The findings support the use of advanced machine learning for combating antibiotic resistance.