Referential Competencies in Digital Health: A Necessity for the Digital Transformation of Future Clinical Professionals

Gutiérrez S., Torres V., Molina M., Corvalán F., García F., Härtel S. (2025). Referential Competencies in Digital Health: A Necessity for the Digital Transformation of Future Clinical Professionals. MedInfo2025, 9 – 13 August 2025, The Taipei International Convention Center (TICC), Taipei, Taiwan (Accepted).

Automatic Counting of Dynamic Technical Actions using Computer Vision in the Biomechanical Risk Assessment of Work-Related Musculoskeletal Disorders of the Upper Limb

6. Contreras, D. V., Härtel, S., & Zeman, V. C. (2024, December). Automatic Counting of Dynamic Technical Actions using Computer Vision in the Biomechanical Risk Assessment of Work-Related Musculoskeletal Disorders of the Upper Limb. In 2024 International Symposium on 3D Analysis of Human Movement (3DAHM) (pp. 1-6). IEEE

Delayed biofilm formation in non-motile uropathogenic Escherichia coli strain in static and dynamic growth conditions

Canales-Huerta, N., Cádiz, M., Ulloa, M. T., Chilet, L. A., Palma, K., Jara-Wilde, J., … & Härtel, S. (2025). Delayed biofilm formation in non-motile uropathogenic Escherichia coli strain in static and dynamic growth conditions. Microbial Pathogenesis, 107712.

Human-in-the-Loop—A Deep Learning Strategy in Combination with a Patient-Specific Gaussian Mixture Model Leads to the Fast Characterization of Volumetric Ground-Glass Opacity and Consolidation in the Computed Tomography Scans of COVID-19 Patients.

Vásquez-Venegas, C., Sotomayor, C. G., Ramos, B., Castañeda, V., Pereira, G., Cabrera-Vives, G., & Härtel, S. (2024). Human-in-the-Loop—A Deep Learning Strategy in Combination with a Patient-Specific Gaussian Mixture Model Leads to the Fast Characterization of Volumetric Ground-Glass Opacity and Consolidation in the Computed Tomography Scans of COVID-19 Patients. Journal of clinical medicine, 13(17), 5231

Proteus mirabilis biofilm expansion microscopy yields over 4-fold magnification for super-resolution of biofilm structure and subcellular DNA organization.

Castagnini, D., Palma, K., Jara-Wilde, J., Navarro, M. N., González, M. J., Toledo, J., … & Härtel, S. (2024). Proteus mirabilis biofilm expansion microscopy yields over 4-fold magnification for super-resolution of biofilm structure and subcellular DNA organization. Journal of Microbiological Methods, 106927.

Amyloid β-Oligomers Inhibit the Nuclear Ca2+ Signals and the Neuroprotective Gene Expression Induced by Gabazine in Hippocampal Neurons

Lobos, P., Vega-Vásquez, I., Bruna, B., Gleitze, S., Toledo, J., Härtel, S., … & Paula-Lima, A. (2023). Amyloid β-Oligomers Inhibit the Nuclear Ca2+ Signals and the Neuroprotective Gene Expression Induced by Gabazine in Hippocampal Neurons. Antioxidants, 12(11), 1972.