141 research outputs found
MSJ778008_supplementary_appendix_2 – Supplemental material for Cross-modal plasticity among sensory networks in neuromyelitis optica spectrum disorders
Supplemental material, MSJ778008_supplementary_appendix_2 for Cross-modal plasticity among sensory networks in neuromyelitis optica spectrum disorders by Maria Assunta Rocca, Filippo Savoldi, Paola Valsasina, Marta Radaelli, Paolo Preziosa, Giancarlo Comi, Andrea Falini and Massimo Filippi in Multiple Sclerosis Journal</p
MSJ778008_supplementary_appendix – Supplemental material for Cross-modal plasticity among sensory networks in neuromyelitis optica spectrum disorders
Supplemental material, MSJ778008_supplementary_appendix for Cross-modal plasticity among sensory networks in neuromyelitis optica spectrum disorders by Maria Assunta Rocca, Filippo Savoldi, Paola Valsasina, Marta Radaelli, Paolo Preziosa, Giancarlo Comi, Andrea Falini and Massimo Filippi in Multiple Sclerosis Journal</p
Supplemental material for Cross-sectional study of smoking exposure: no differential effect on OCT metrics in a cohort of MS patients
Supplemental Material for Cross-sectional study of smoking exposure: no differential effect on OCT metrics in a cohort of MS patients by Mattia Rosso, Dorlan J Kimbrough, Cindy T Gonzalez, Bonnie I Glanz, Brian C Healy, Maria Assunta Rocca, Massimo Filippi, Howard Weiner and Tanuja Chitnis in Multiple Sclerosis Journal – Experimental, Translational and Clinical</p
MSJ787347_supplementary_figure – Supplemental material for Dynamic volumetric changes of hippocampal subfields in clinically isolated syndrome patients: A 2-year MRI study
Supplemental material, MSJ787347_supplementary_figure for Dynamic volumetric changes of hippocampal subfields in clinically isolated syndrome patients: A 2-year MRI study by Laura Cacciaguerra, Elisabetta Pagani, Sharlota Mesaros, Jelena Dackovic, Irena Dujmovic-Basuroski, Jelena Drulovic, Paola Valsasina, Massimo Filippi and Maria Assunta Rocca in Multiple Sclerosis Journal</p
MSJ787347_supplementary_material – Supplemental material for Dynamic volumetric changes of hippocampal subfields in clinically isolated syndrome patients: A 2-year MRI study
Supplemental material, MSJ787347_supplementary_material for Dynamic volumetric changes of hippocampal subfields in clinically isolated syndrome patients: A 2-year MRI study by Laura Cacciaguerra, Elisabetta Pagani, Sharlota Mesaros, Jelena Dackovic, Irena Dujmovic-Basuroski, Jelena Drulovic, Paola Valsasina, Massimo Filippi and Maria Assunta Rocca in Multiple Sclerosis Journal</p
MSJ787347_supplementary_MRI_details – Supplemental material for Dynamic volumetric changes of hippocampal subfields in clinically isolated syndrome patients: A 2-year MRI study
Supplemental material, MSJ787347_supplementary_MRI_details for Dynamic volumetric changes of hippocampal subfields in clinically isolated syndrome patients: A 2-year MRI study by Laura Cacciaguerra, Elisabetta Pagani, Sharlota Mesaros, Jelena Dackovic, Irena Dujmovic-Basuroski, Jelena Drulovic, Paola Valsasina, Massimo Filippi and Maria Assunta Rocca in Multiple Sclerosis Journal</p
Disability worsening outcome in multiple sclerosis based on EDSS: does half a point matter?
Emprint Microwave Thermoablation System: Bridging Thermal Ablation Efficacy between Human Patients and Porcine Models through Mathematical Correlation
To investigate the in vivo ablation characteristics of a microwave ablation antenna in the livers of humans with tumors, a retrospective analysis of the ablation zones was conducted after applying Emprint microwave ablation systems for treatment. Percutaneous microwave ablations performed between January 2022 and September 2022 were included in this study. Subsequently, immediate post-ablation echography images were subjected to retrospective evaluation to state the long ablated diameter, short ablated diameter, and volume. The calculated ablation lengths and volume indices were then compared between in vivo and ex vivo results obtained from laboratory experiments conducted on porcine liver. The ex vivo data showed a good correlation between energy delivered and both increasing ablated dimensions (both p < 0.001) and volume (p < 0.001). The in vivo data showed a good correlation for dimensions (p = 0.037 and p = 0.019) and a worse correlation for volume (p = 0.142). When comparing ex vivo and in vivo data for higher energies, the ablated volumes grew much more rapidly in ex vivo cases compared to in vivo ones. Finally, a set of correlations to scale ex vivo results with in vivo ones is presented. This phenomenon was likely due to the absence of perfusion, which acts as a cooling system
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