Ciubotaru, A.; Covali, R.; Grosu, C.; Alexa, D.; Riscanu, L.; Robert-Valentin, B.; Popa, R.; Sargu, G.D.; Popa, C.; Filip, C.;
et al. Integrated Biomarker–Volumetric Profiling Defines Neurodegenerative Subtypes and Predicts Neuroaxonal Injury in Multiple Sclerosis Based on Bayesian and Machine Learning Analyses. Biomedicines 2026, 14, 42.
https://doi.org/10.3390/biomedicines14010042
AMA Style
Ciubotaru A, Covali R, Grosu C, Alexa D, Riscanu L, Robert-Valentin B, Popa R, Sargu GD, Popa C, Filip C,
et al. Integrated Biomarker–Volumetric Profiling Defines Neurodegenerative Subtypes and Predicts Neuroaxonal Injury in Multiple Sclerosis Based on Bayesian and Machine Learning Analyses. Biomedicines. 2026; 14(1):42.
https://doi.org/10.3390/biomedicines14010042
Chicago/Turabian Style
Ciubotaru, Alin, Roxana Covali, Cristina Grosu, Daniel Alexa, Laura Riscanu, Bîlcu Robert-Valentin, Radu Popa, Gabriela Dumachita Sargu, Cristina Popa, Cristiana Filip,
and et al. 2026. "Integrated Biomarker–Volumetric Profiling Defines Neurodegenerative Subtypes and Predicts Neuroaxonal Injury in Multiple Sclerosis Based on Bayesian and Machine Learning Analyses" Biomedicines 14, no. 1: 42.
https://doi.org/10.3390/biomedicines14010042
APA Style
Ciubotaru, A., Covali, R., Grosu, C., Alexa, D., Riscanu, L., Robert-Valentin, B., Popa, R., Sargu, G. D., Popa, C., Filip, C., Cucu, L.-E., Vamanu, A., Constantinescu, V., & Ignat, E. B.
(2026). Integrated Biomarker–Volumetric Profiling Defines Neurodegenerative Subtypes and Predicts Neuroaxonal Injury in Multiple Sclerosis Based on Bayesian and Machine Learning Analyses. Biomedicines, 14(1), 42.
https://doi.org/10.3390/biomedicines14010042
