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Universitat Politècnica de Catalunya

3 ARTICLES PUBLISHED IN JoVE

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JoVE Core

Simultaneous Electrical and Mechanical Stimulation to Enhance Cells' Cardiomyogenic Potential
Aida Llucià-Valldeperas 1,2, Ramon Bragós 3, Antoni Bayés-Genís 1,4,5,6
1Insuficiencia Cardiaca y Regeneración Cardiaca (ICREC) Research Program, Health Science Research Institute Germans Trias i Pujol, 2Amsterdam Universitair Medisch Centrum (UMC), Vrije Universiteit Amsterdam, Pulmonology and Physiology, Amsterdam Cardiovascular Sciences, 3Electronic and Biomedical Instrumentation Group, Departament d'Enginyeria Electrònica, Universitat Politècnica de Catalunya, 4Cardiology Service, Germans Trias i Pujol University Hospital, 5Department of Medicine, Universitat Autònoma de Barcelona, 6Centro de Investigación Biomédica en Red (CIBER) Cardiovascular, Instituto de Salud Carlos III

Here we present a protocol for training a cell population using electrical and mechanical stimuli emulating cardiac physiology. This electromechanical stimulation enhances the cardiomyogenic potential of the treated cells and is a promising strategy for further cell therapy, disease modeling, and drug screening.

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Neuroscience

Quantified Assessment of Infant's Gross Motor Abilities Using a Multisensor Wearable
Elisa Taylor 1, Manu Airaksinen 1, Anastasia Gallen 1, Tuuli Immonen 2, Elina Ilén 3, Taru Palsa 1,2, Leena M. Haataja 1,2, Sampsa Vanhatalo 1,4
1BABA Center, Pediatric Research Center, Department of Clinical Neurophysiology, New Children's Hospital and HUS Imaging, Helsinki, University Hospital, 2Department of Pediatric Neurology, Children's Hospital, Helsinki University Hospital and University of Helsinki, 3Department of Materials Science and Engineering, Universitat Politècnica de Catalunya, 4Department of Physiology, University of Helsinki

This paper outlines the assessment of infants' gross motor performance with a multisensor wearable and its fully automated deep learning-based analysis pipeline. The method quantifies the posture and movement patterns of infants from lying supine until they master walking independently.

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Medicine

Surgical Bone Implantation Technique for Rat Tibia Models of Diabetes and Osteoporosis
David Alfaiate 1,2, Carlos Mas-Moruno 3,4, Cidália Manuela 5, Josep Maria Ustrell 6,7, Juan Antonio Camara 8,9, Marina Ferrer 10,11, José Maria Manero 3,4, Maria-Cristina Manzanares-Céspedes 12
1Faculty of Medicine and Health Sciences, University of Barcelona, 2Department of Oral Surgery, Davallmed Clinic. Porto, 3Biomaterials, Biomechanics and Tissue Engineering Group, Department of Materials Science and Engineering, Universitat Politècnica de Catalunya, 4Barcelona Research Centre in Multiscale Science and Engineering, Universitat Politècnica de Catalunya, 5Department of Periodontology, Davallmed Clinic. Porto, 6Department of Odontostomatology, University of Barcelona, 7Oral Health and Masticatory System Research Group at the Bellvitge Biomedical Research Institute (IDIBELL), 8Preclinical imaging platform, Vall d'Hebron Research Institute, Barcelona, 9Preclinical Therapeutics Core, Helen Diller Family Comprehensive Cancer Center, University of California, San Francisco, 10Animal facility, Vall d'Hebron Research Institute, Barcelona, 11UCSF Gnotobiotics Core Facility, University of California, San Francisco, 12Human Anatomy and Embryology Unit, Experimental Pathology and Therapeutics Department, Faculty of Medicine and Health Sciences, University of Barcelona

The placement of implants in a rat model is an essential experimental procedure for clinical research. This study presents a comprehensive surgical protocol for implanting titanium implants into the tibia of rat models with diabetes and osteoporosis.

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