#ExpertAnswers: Sarah Greising on Muscle Injury Recovery
Sarah Greising discusses the current pathophysiologic understanding of the skeletal muscle remaining following traumatic musculoskeletal injuries.
#ExpertAnswers: Ana Briones on Targeting Inflammation and Vascular Damage in Hypertension
Ana Briones discusses her research on the effects and potential therapeutic targets of excessive inflammation and vascular damage in hypertension.
Functional Recovery of the Musculoskeletal System Following Injury – Leveraging the Large Animal Model
Watch Dr. Sarah Greising discuss the current pathophysiologic understanding of the skeletal muscle remaining following traumatic musculoskeletal injuries.
#ExpertAnswers: Franck Lebrin and Denis Vivien on Ultrasound Imaging in Stroke and Neurovascular Diseases
Franck Lebrin and Denis Vivien discuss their work on microvascular and functional ultrasound imaging in stroke and neurovascular diseases.
Inflammation and Vascular Damage in Hypertension
Watch Dr. Ana Briones present her research that studies the effects and potential therapeutic targets of excessive inflammation and vascular damage in hypertension.
Microvascular & Functional Ultrasound Imaging: Insights into Stroke and Neurovascular Diseases
Dr. Franck Lebrin and Dr. Denis Vivien discuss functional ultrasound imaging and its application to the study and treatment of stroke and other neurological diseases.
#ExpertAnswers: Edward Bahnson on Light-sheet Fluorescence Microscopy and Vascular Injury
Edward Bahnson, PhD presents the development and validation of a methodological approach using light-sheet fluorescence microscopy (LSFM) for the imaging of preclinical models of vascular injury with a focus of minimizing analysis bias while increasing precision and reproducibility.
Old Dogs Benefit From New Tricks: 3D Analysis of Arterial Injury to Study Nrf2-Dependent Inhibition of Neointimal Hyperplasia in Rats
Edward Bahnson, PhD presents the development and validation of a methodological approach using light-sheet fluorescence microscopy (LSFM) for the imaging of preclinical models of vascular injury with a focus of minimizing analysis bias while increasing precision and reproducibility.