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Videos de Conceptos Relacionados

Malaria01:29

Malaria

Malaria pathogenesis in humans reflects a delicate interplay between parasite biology and host response. Clinical illness reflects a host’s immune response to the parasite’s asexual replication cycle, which is often asymptomatic in individuals with partial immunity. From the parasite's perspective, transmission between mosquito and human with minimal host pathology is evolutionarily advantageous. Among the six Plasmodium species infecting humans, P. falciparum and P. vivax dominate in global...

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Aprendizaje profundo confiable para el diagnóstico de la malaria mediante inteligencia artificial explicable

Rahila Parveen1, Baozhi Qui2, Wei Song1

  • 1School of Computer and Artificial intelligence, Zhengzhou University, 100, Science Avenue, Zhengzhou, 450001, Henan, China.

Scientific reports
|December 19, 2025
PubMed
Resumen
Este resumen es generado por máquina.

Los modelos de aprendizaje profundo muestran una alta precisión para la detección de la malaria a partir de frotis de sangre, ofreciendo una solución escalable para áreas con recursos limitados. Las técnicas de IA explicable mejoran la confianza y la transparencia en los diagnósticos automatizados.

Palabras clave:
análisis de frotis de sangreaprendizaje profundoIA explicableGrad-CAMInception-ResNetV2LIMEdetección de malariaclasificación de imágenes médicasXception

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Área de la Ciencia:

  • Medical Diagnostics
  • Artificial Intelligence
  • Computational Biology

Sus antecedentes:

  • Malaria diagnosis faces challenges with traditional methods like microscopy, rapid diagnostic tests (RDTs), and polymerase chain reaction (PCR) due to limitations in scalability, sensitivity, and expertise.
  • Automated diagnostic strategies are crucial for improving malaria detection, especially in resource-limited healthcare settings.

Objetivo del estudio:

  • To investigate the efficacy of deep learning models for automated malaria detection using blood smear images.
  • To evaluate and compare the performance of various convolutional neural network (CNN) architectures.
  • To enhance model interpretability and clinical trust through explainable artificial intelligence (XAI) techniques.

Principales métodos:

  • Empirical evaluation of four CNNs (MobileNetV2, VGG19, InceptionV3, ResNet18) on malaria blood smear images.
  • Fine-tuning of advanced hybrid architectures (Xception, Inception-ResNetV2) on a large dataset (27,090 images).
  • Validation of model robustness on an independent dataset with varied staining and imaging conditions.
  • Application of XAI techniques (Grad-CAM, LIME, SHAP) for model interpretability.

Principales resultados:

  • ResNet18 achieved the highest F1-score (96.33%) among the initial CNNs.
  • Xception and Inception-ResNetV2 attained approximately 98% classification accuracy on validation and test sets.
  • High accuracy (97-98%) was maintained on an independent dataset, demonstrating generalization.
  • XAI techniques provided spatial, superpixel, and pixel-level transparency into model decisions.

Conclusiones:

  • Deep learning models, particularly hybrid architectures like Inception-ResNetV2, offer a highly accurate and scalable solution for malaria detection.
  • Explainable AI techniques significantly enhance the interpretability and clinical trustworthiness of these automated diagnostic systems.
  • The proposed AI framework addresses limitations of traditional methods, paving the way for improved malaria diagnostics in resource-limited settings.