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X-WR-CALNAME:Institute of Biomedical Engineering (BME)
X-ORIGINAL-URL:https://bme.utoronto.ca
X-WR-CALDESC:Events for Institute of Biomedical Engineering (BME)
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TZID:America/Toronto
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DTSTART:20230312T070000
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BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240404T121000
DTEND;TZID=America/Toronto:20240404T122500
DTSTAMP:20260411T042525
CREATED:20240325T210732Z
LAST-MODIFIED:20240403T210832Z
UID:44163-1712232600-1712233500@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Adam Gravitis
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Wavelet Phase Coherence of Ictal Scalp EEG-Extracted Muscle Activity (SMA) as a Biomarker for Sudden Unexpected Death in Epilepsy\nAbstract:\nObjective Approximately 50 million people worldwide have epilepsy and 8-17% of the deaths in patients with epilepsy are attributed to sudden unexpected death in epilepsy (SUDEP). The goal of the present work was to establish a biomarker for SUDEP so that preventive treatment can be instituted.\nApproach Seizure activity in patients with SUDEP and non-SUDEP was analyzed\, specifically\, the scalp EEG extracted muscle activity (SMA) and the average wavelet phase coherence (WPC) during seizures was computed for two frequency ranges (1-12 Hz\, 13-30 Hz) to identify differences between the two groups.\nMain results Ictal SMA in SUDEP patients showed a statistically higher average WPC value when compared to non-SUDEP patients for both frequency ranges. Area under curve for a cross-validated logistic classifier was 81%.\nSignificance Average WPC of ictal SMA is a candidate biomarker for early detection of SUDEP.\nSupervisor Name: Berj Bardakjian\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-adam-gravitis/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240404T122500
DTEND;TZID=America/Toronto:20240404T124000
DTSTAMP:20260411T042525
CREATED:20231121T183740Z
LAST-MODIFIED:20240403T210832Z
UID:42982-1712233500-1712234400@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Jingan Chen
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Pulmonary Delivery of Engineered tRNA Using Lipid Nanoparticles for Overcoming Nonsense Mutations in Cystic Fibrosis\nAbstract: Cystic fibrosis (CF) is a rare but debilitating genetic disease that affects more than four thousand people in Canada and over seventy thousand people worldwide1-4. The disease is caused by the mutation of the cftr gene that encodes for cystic fibrosis transmembrane conductance regulator (CFTR)\, which is an essential chloride ion channel found in lung tissues and the digestive tract5. Among multiple gene mutation types identified for CF\, nonsense mutation is one of the significant contributors and covers about 11% of CF patients6-8. Nonsense mutations cause premature termination codons (PTCs; also known as nonsense or stop mutations) in the cftr gene and lead to lowered mRNA levels as mRNAs are degraded through the nonsense-mediated decay pathway6-8\, and the resulting CFTR protein is truncated and malfunction. Current clinically used drugs/modulators for CF are significantly less effective on CF patients with nonsense mutations and cause safety concerns9\,10\, indicating a pressing clinical need for safe and efficient therapeutic strategies. While premature termination is the primary outcome of PTCs\, the relatively rare event of translational readthrough occurs when an aminoacyl-tRNA decodes the stop codon\, which can be caused due to mutations within the tRNA anticodon or through near-cognate tRNAs. Naturally\, tRNAs mediate the translation of the genetic code by linking a nucleic acid adapter with amino acids\, the building blocks for proteins\, and pairing to the corresponding codon on the mRNA to deliver the encoded amino acid to the ribosome. Nonsense mutations can be rescued if an aminoacyl-tRNA decodes the premature stop codon in the ribosome\, thereby inducing readthrough or suppression of the mutation. This has been achieved by anti-codon-engineered transfer RNAs (ACE-tRNAs)\, which are derived from natural tRNAs but have their anticodon altered to base-pair with stop codons11. An ACE-tRNA can be charged with the correct amino acid by components of the endogenous protein synthesis machinery (aminoacyl-tRNA synthetases) and decoding the nonsense mutation by ACE-tRNA restores the production of the full-length protein. To this end\, we aim to develop lipid nanoparticles (LNPs) specifically designed and optimized for pulmonary delivery of ACE-tRNAs\, thereby offering a novel and translatable therapeutic strategy for treating CF cases caused by nonsense mutations.\nSupervisor Name: Dr. Bowen Li\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-jingan-chen/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240404T124000
DTEND;TZID=America/Toronto:20240404T125500
DTSTAMP:20260411T042525
CREATED:20231121T183740Z
LAST-MODIFIED:20240403T210832Z
UID:42981-1712234400-1712235300@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Gloria Boudreault-Morales
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: 3D Pose Estimation Using RGB-D Data for Rehabilitation\nSupervisor Name: Dr Jose Zariffa\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-gloria-boudreault-morales/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240409T120000
DTEND;TZID=America/Toronto:20240409T130000
DTSTAMP:20260411T042525
CREATED:20230804T154946Z
LAST-MODIFIED:20240326T181449Z
UID:42133-1712664000-1712667600@bme.utoronto.ca
SUMMARY:Robotically Steerable Devices for Transcatheter and Endovascular Interventions – Jaydev Desai
DESCRIPTION:Speaker\nJaydev Desai\nProfessor\nWallace H. Coulter Department of Biomedical Engineering\nGeorgia Institute of Technology \n\nAbstract\nMitral regurgitation is a common heart valve disease. Current approaches for mitral valve repair include open heart surgery (which carries the risk of post-operative complications) and transcatheter mitral valve repair (TMVr). TMVr is a relatively new approach that is performed on a beating heart using a catheter that is guided to the target location to implant the device to reduce or eliminate mitral regurgitation. Given the tortuosity of the path that needs to be taken to reach the mitral valve\, TMVr is a clinically challenging procedure. The first part of the talk will focus on our work in developing  a highly articulated\, intravascular meso-scale robot that can be guided to deploy the mitral valve implant under image guidance. \nThe second part of the talk will focus on the area of micro-scale robotic systems involving steerable guidewires. One of the primary requirements of an endovascular robotic system is to be able to successfully steer the guidewire towards the target location with minimal or no harm to the vessel. Chronic total occlusions (CTOs) remain the riskiest\, most challenging\, and least successful vascular lesions to treat with traditional endovascular devices. Peripheral artery disease (PAD) in particular\, is one of the most common causes of cardiovascular deaths worldwide. Procedural complexity in treating CTOs are attributed to multiple causes. The second part of the talk will present our work on the development of 400 microns (~0.016”) robotically steerable guidewire as a potential solution to this challenging clinical problem. \nBiography \nDr. Jaydev P. Desai is currently a Professor at Georgia Tech in the Wallace H. Coulter Department of Biomedical Engineering and holds the G.P. “Bud” Peterson and Valerie H. Peterson Faculty Professorship in Pediatric Research. He is the Associate Chair for Undergraduate studies in BME at GT\, founding Director of the Georgia Center for Medical Robotics (GCMR)\, and an Associate Director of the Institute for Robotics and Intelligent Machines (IRIM). He completed his undergraduate studies from the Indian Institute of Technology\, Bombay\, India\, in 1993. He received his MA in Mathematics in 1997 and MSE and Ph.D. in Mechanical Engineering and Applied Mechanics in 1995 and 1998 respectively\, all from the University of Pennsylvania. He was also a Post-Doctoral Fellow in the Division of Engineering and Applied Sciences at Harvard University.  He is a recipient of several NIH R01 grants\, NSF CAREER award\, and was the lead inventor on the “Outstanding Invention in the Physical Science Category” at the University of Maryland\, College Park\, where he was formerly employed. He is also the recipient of the Ralph R. Teetor Educational Award and the 2021 IEEE Robotics and Automation Society (RAS) Distinguished Service Award. He has been an invited speaker at the National Academy of Sciences “Distinctive Voices” seminar series and also invited to attend the National Academy of Engineering’s U.S. Frontiers of Engineering Symposium. He has over 200 publications\, is the founding Editor-in-Chief of the Journal of Medical Robotics Research\, and Editor-in-Chief of the four-volume Encyclopedia of Medical Robotics. At 2018 ICRA\, his prior work was the finalist for “IEEE RAS Award for the Most Influential Paper from ICRA 1998” (20-years impact). Most recently\, he was selected as the recipient of the 2024 IEEE RAS George Saridis Leadership Award in Robotics and Automation from the IEEE RAS. His research group has received several accolades including the best student paper award\, best symposium paper award\, cover image of IEEE Transactions on Biomedical Engineering\, and featured article in the IEEE Transactions on Biomedical Engineering. His current research interests are primarily in the areas of image-guided surgical robotics\, pediatric robotics\, endovascular robotics\, and rehabilitation and assistive robotics. He is a Fellow of IEEE\, ASME\, and AIMBE. \n\nHost\nLueder Kahrs
URL:https://bme.utoronto.ca/event/invited-academic-seminar-series-jaydev-desai/
LOCATION:Medical Sciences Building 3154\, 1 King's College Cir\, Toronto\, Ontario\, M5S 1A8\, Canada
CATEGORIES:BME Invited Academic Speaker Series
ATTACH;FMTTYPE=image/jpeg:https://bme.utoronto.ca/wp-content/uploads/2023/08/Jaydev-Desai-e1710353874337.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T121000
DTEND;TZID=America/Toronto:20240411T122500
DTSTAMP:20260411T042525
CREATED:20231121T183740Z
LAST-MODIFIED:20240410T210811Z
UID:42983-1712837400-1712838300@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Fatemeh Shomal Zadeh
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Utilizing Shear-Wave Elastography to Investigate the Effects of Ankle Muscle Co-Contraction on Ankle Muscle Stiffness and Standing Balance in Able-bodied Individuals\nSupervisor Name: Dr. Kei Masani\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-fatemeh-shomal-zadeh/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T122500
DTEND;TZID=America/Toronto:20240411T124000
DTSTAMP:20260411T042525
CREATED:20231121T183741Z
LAST-MODIFIED:20240410T210811Z
UID:42984-1712838300-1712839200@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Griffin Copp
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Evaluating Enhanced Mesenchymal Stromal Cell Extracellular Vesicles\nAbstract: Mesenchymal stromal cells (MSCs) have shown promise as multimodal therapeutics in mitigating disease symptoms and disease progression. Recently\, lipid-bound nanoparticles secreted by MSCs; extracellular vesicles (EVs)\, have been indicated as a principal therapeutic agent responsible for MSCs efficacies. I am interested in how the therapeutic capacity of MSC-EVs are altered as a result of non-genetic enhancement. I hypothesize that enhanced MSCs will secrete EVs with enhanced properties capable of modulating the immune environment. Generating proof of concept data that will inform both MSC mechanisms of action as well as potential cell-free therapeutic strategies.\nSupervisor Name: Sowmya Viswanathan\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-griffin-copp/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T124000
DTEND;TZID=America/Toronto:20240411T125500
DTSTAMP:20260411T042525
CREATED:20231121T183741Z
LAST-MODIFIED:20240410T210811Z
UID:42985-1712839200-1712840100@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Kenneth Kimmins
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: TBD\nSupervisor Name: Eli Sone\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-kenneth-kimmins/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T131000
DTEND;TZID=America/Toronto:20240411T132500
DTSTAMP:20260411T042525
CREATED:20240311T203735Z
LAST-MODIFIED:20240410T210812Z
UID:44038-1712841000-1712841900@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Amel Sassi
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Effects of low-magnitude high-frequency vibration on prostate cancer growth and bone metastasis\nSupervisor Name: Dr. Lidan You\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-amel-sassi/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T132500
DTEND;TZID=America/Toronto:20240411T134000
DTSTAMP:20260411T042525
CREATED:20240311T203735Z
LAST-MODIFIED:20240410T210812Z
UID:44037-1712841900-1712842800@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Coulter Montague
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Enhancing the Force Generation of Human Pluripotent Stem Cell-Derived Cardiomyocytes Using Genome Engineering\nSupervisor Name: Dr. Michael Laflamme\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-coulter-montague-2/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T134000
DTEND;TZID=America/Toronto:20240411T135500
DTSTAMP:20260411T042525
CREATED:20240311T203736Z
LAST-MODIFIED:20240410T210812Z
UID:44039-1712842800-1712843700@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Christopher Dedek
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: A device for automated pain behaviour testing in rodents.\nSupervisor Name: Steve Prescott\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-christopher-dedek/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T141000
DTEND;TZID=America/Toronto:20240411T142500
DTSTAMP:20260411T042525
CREATED:20240311T203736Z
LAST-MODIFIED:20240410T210812Z
UID:44040-1712844600-1712845500@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Shiyu Zheng
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Maximizing AAV Vector Potential: Bispecific Adaptor Proteins as a Bridge to Improved Gene Therapy Targeting\nSupervisor Name: Michael Garton\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-shiyu-zheng/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T142500
DTEND;TZID=America/Toronto:20240411T144000
DTSTAMP:20260411T042525
CREATED:20240311T203736Z
LAST-MODIFIED:20240410T210812Z
UID:44041-1712845500-1712846400@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Anlan Hong
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: In-vivo nitric oxide detection using novel MRI contrast agent\nSupervisor Name: Hai-Ling Margaret Cheng\nYear of Study: 3\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-anlan-hong-3/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240411T144000
DTEND;TZID=America/Toronto:20240411T145500
DTSTAMP:20260411T042525
CREATED:20240311T203736Z
LAST-MODIFIED:20240410T210812Z
UID:44042-1712846400-1712847300@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Brian Webb
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: WB116\nPresentation Title: Engineering a multilayer vascularized soft tissue gingival graft seeded with human-adipose-derived stem cells\nSupervisor Name: Paul Santerre\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-brian-webb/
LOCATION:WB116
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240412T120000
DTEND;TZID=America/Toronto:20240412T130000
DTSTAMP:20260411T042525
CREATED:20240321T140348Z
LAST-MODIFIED:20240321T140348Z
UID:44146-1712923200-1712926800@bme.utoronto.ca
SUMMARY:Can AI make health care more accurate\, accessible and sustainable?
DESCRIPTION:The global health care landscape is facing unprecedented challenges\, including an aging population and increasing rates of chronic disease. The need for efficient\, equitable\, and patient-centered systems has never been more important. Artificial intelligence has the potential to revolutionize health care by optimizing workflows and diagnostics and fostering innovations like virtual assistants and robotic surgery. \nHow is artificial intelligence already being used and what new applications are being explored? What challenges and biases exist for implementation in our current systems? \nJoin us as three experts weigh in on how AI is shaping the future of health care and how interdisciplinary collaboration is key to driving innovation. \nCo-Hosted by: University of Toronto Faculty of Applied Science & Engineering\, Faculty of Arts & Science\, Rotman School of Management and Temerty Faculty of Medicine \nHave a question for one of our panelists? Submit it on the registration page. \n\n\n\nAbout the Speakers\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nProfessor Milos Popovic\nPhD ’96 Mechanical & Industrial Engineering\, Applied Science & Engineering \nDirector\, Institute of Biomedical Engineering\, University of Toronto\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nProfessor Muhammad Mamdani \nDirector\, Temerty Faculty of Medicine Centre for Artificial Intelligence Education and Research in Medicine (T-CAIREM)\, University of Toronto \nVice President\, Data Science and Advanced Analytics at Unity Health Toronto\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nAzi Boloorchi Drake\nBSc ’04 Human Biology Arts & Science\, MSc ’06 Laboratory Medicine & Pathobiology Temerty Medicine\, MBA ’09 Rotman School of Management \nVice President\, Commercial Strategy\, Product & Analytics\, Teladoc Health\n\n\n\n\n\n\n\nModerator\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nClaire Kennedy\nBASc ’89 Chemical Engineering\, Applied Science & Engineering \nSenior Advisor\, Bennett Jones LLP \nCo-Chair\, Defy Gravity Campaign\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\nInviting Colleagues or Friends?\nIf you know others who might be interested in receiving this invitation\, please forward it to them. \nQuestions?\nevents@engineering.utoronto.ca\n\n\n\n\n\n\n\n\n\n\nBrought to you by the University of Toronto Affinity Partners: \n\n\n\n\n\n\n\n\nDiscover the benefits of affinity products!
URL:https://bme.utoronto.ca/event/can-ai-make-health-care-more-accurate-accessible-and-sustainable/
LOCATION:ON
CATEGORIES:Events & Workshops
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T121000
DTEND;TZID=America/Toronto:20240418T122500
DTSTAMP:20260411T042525
CREATED:20240405T210731Z
LAST-MODIFIED:20240417T213745Z
UID:44324-1713442200-1713443100@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Aleksandra Fomina
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: In vitro tumor niches to probe mechanisms of chemoresistance in pancreatic cancer\nSupervisor Name: Alison McGuigan\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-aleksandra-fomina-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T122500
DTEND;TZID=America/Toronto:20240418T124000
DTSTAMP:20260411T042525
CREATED:20240405T210731Z
LAST-MODIFIED:20240417T213745Z
UID:44328-1713443100-1713444000@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Mohammadamir Ghasemian Moghaddam
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: DNA Origami – Polymer materials for cancer vaccines\nSupervisor Name: Leo Chou\nYear of Study: 3\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-mohammadamir-ghasemian-moghaddam-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T124000
DTEND;TZID=America/Toronto:20240418T125500
DTSTAMP:20260411T042525
CREATED:20240405T210731Z
LAST-MODIFIED:20240417T213745Z
UID:44327-1713444000-1713444900@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Chantelle Shing
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Validating an Automated High-Throughput 3D In Vitro Human Adipose Model\nSupervisor Name: Dr. Alison McGuigan\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-chantelle-shing-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T131000
DTEND;TZID=America/Toronto:20240418T132500
DTSTAMP:20260411T042525
CREATED:20240405T210731Z
LAST-MODIFIED:20240417T213745Z
UID:44332-1713445800-1713446700@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Qian Chu
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Neuronal mechanisms of saccade-coordinated visuospatial memory in the human brain\nAbstract: Eye movements and visuospatial memory constantly interact to shape an efficient representation of the world. The behavioral and neurophysiological effects of eye movements on holistic scene memory have been extensively demonstrated\, yet it remains elusive how visual identity representations dynamically unfold in active vision. It is known that some neurons in the human medial temporal lobe exhibit highly selective tuning to abstract concepts. We thus leveraged the unique opportunity to record single-unit activity from individuals with epilepsy and probed the response of identity neurons during visual exploration in different memory stages. We designed a novel gaze-contingent visuospatial memory task\, where patients encoded images in a spatial layout with the presentation of images triggered by saccades to cued locations. They subsequently re-explored the layout in the same gaze-contingent manner and were then tasked with judging visuospatial match/mismatch\, constituting the retrieval condition. We hypothesized that\, during retrieval\, identity neurons would fire before the onset of their preferred image and saccade initiation. This anticipatory firing would reflect the learned association between image identity and planned saccade landing location. We found preliminary evidence that identity neurons increased their firing rate before image onset\, selectively during retrieval but not encoding. Given the gaze-contingent design\, the observed phenomenon cannot be explained by peripheral visual afference and/or receptive field remapping. Our data suggests that visual identity representations are reactivated prior to foveal processing. The findings hint at a novel mechanism for memory-guided eye movements which may underlie the functional enhancement of memory retrieval brought by gaze reinstatement.\nSupervisor Name: Taufik Valiante; José Zariffa; Lucia Melloni (MPG)\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-qian-chu-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T132500
DTEND;TZID=America/Toronto:20240418T134000
DTSTAMP:20260411T042525
CREATED:20240405T210731Z
LAST-MODIFIED:20240417T213745Z
UID:44334-1713446700-1713447600@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Si Long Tou
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Brain Modulations through Music\nSupervisor Name: Dr. Tom Chau\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-si-long-tou-3/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T134000
DTEND;TZID=America/Toronto:20240418T135500
DTSTAMP:20260411T042525
CREATED:20240405T210731Z
LAST-MODIFIED:20240417T213746Z
UID:44336-1713447600-1713448500@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Luis Antonio Franco Vergara
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Closed loop neuoromodulatory approaches for Parkinson’s disease\nSupervisor Name: Dr. Luka Milosevic\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-luis-antonio-franco-vergara-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T141000
DTEND;TZID=America/Toronto:20240418T142500
DTSTAMP:20260411T042525
CREATED:20240405T210732Z
LAST-MODIFIED:20240417T213746Z
UID:44338-1713449400-1713450300@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Faranak Dayyani
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Assessing social isolarion and functional decline in older adults post lower limb fractures using multimodal sensors\nSupervisor Name: Shehroz Khan\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-faranak-dayyani-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T142500
DTEND;TZID=America/Toronto:20240418T144000
DTSTAMP:20260411T042525
CREATED:20240405T210732Z
LAST-MODIFIED:20240417T213746Z
UID:44340-1713450300-1713451200@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Emerson Grabke
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Detecting prostate cancer with machine learning\nSupervisor Name: Masoom Haider & Babak Taati\nYear of Study: 3\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-emerson-grabke-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240418T144000
DTEND;TZID=America/Toronto:20240418T145500
DTSTAMP:20260411T042525
CREATED:20240405T210732Z
LAST-MODIFIED:20240417T213746Z
UID:44342-1713451200-1713452100@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Marshall MacDuff
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Discovering nanoparticle corona opsonins responsible for liver macrophage capture\nAbstract: Liver macrophage cells can capture circulating nanoparticles and reduce their delivery to target organs. Serum proteins adsorbed to the nanoparticle surface can direct interactions with the liver. We used a multi-omic strategy to identify the adsorbed serum proteins binding to specific liver macrophage cell receptors. We discovered six serum adsorbed proteins or opsonins that bind two liver macrophage receptors. We named these nanoparticle-binding ligands Receptor-Active Corona Opsonins (RACOs). We further determined the nanoparticle design can influence the probability of one of the six serum proteins adsorbing to the surface\, which leads to a high probability of its binding to RACOs for removal from circulation by the liver. The identification of these six serum corona proteins enabled us to precisely design decoy nanoparticles to prime the liver to decrease the uptake of therapeutic nanoparticles\, leading to more nanoparticles for targeting extrahepatic tissues. Thus\, the elucidation of the molecular interactions governing the nanoparticle journey in vivo will enable us to control the delivery of particles to diseased tissues.\nSupervisor Name: Warren Chan\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-marshall-macduff-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T121000
DTEND;TZID=America/Toronto:20240425T122500
DTSTAMP:20260411T042525
CREATED:20240423T215225Z
LAST-MODIFIED:20240424T215233Z
UID:44500-1714047000-1714047900@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Aaron Rosenstein
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: FAST-STEM: A Human pluripotent stem cell engineering system toolkit for rapid design-build-test-learn development of human cell-based therapeutic devices\nAbstract: Very recent clinical advances in stem cell derived tissue replacement and gene therapy\, in addition to the rise of artificial intelligence-aided scientific discovery\, have placed the possibility of rationally-designed human cell-based therapies firmly within reach. However\, development of such cells and testing of their engineered gene circuit components\, has proven highly challenging\, due to the need for generating stable cell lines for each design–build–test–learn engineering cycle. Current approaches to generating stable human induced pluripotent stem cell (hiPSC) lines are highly time-consuming and suffer from lack of control\, poor integration efficiency\, and limited functionality. Validation in clinically relevant stem cell derived tissues is also broadly lacking. Such drawbacks are prohibitive to repeatably conducting cutting-edge stem cell engineering with broad application within a realistic timescaleframe with broad application\, and will not scale with the future of regenerative medicine. Such drawbacks are prohibitive to repeatably conducting cutting-edge stem cell engineering a realistic timescale with broad application\, and will not scale with the future of regenerative medicine. We have developed FAST-STEM (Facile Accelerated Stem-cell Transgene integration with SynBio Tunable Engineering Modes)\, a hiPSC landing-padengineering platform that drastically reduces the time to engineer generate ‘differentiation ready’ stem cell lines from several weeks to 7 days\, exhibiting a ~612-fold improvement in transgene integration rate over previous methodologies. Additional FAST-STEM innovations include: (i) rapid and highly efficient transgene integration; (ii) copy number control; (iii) simultaneous or consecutive integration of multiple gene cassettes; (iv) library screen capability. In addition to this unique functional versatility\, platform transportability and broad use case for stem cell-engineering was confirmed by differentiation into eight different cell types across nine different laboratories. This platform dramatically lowers the bar for integration of synthetic biology with regenerative medicine\, enabling experiments which were previously deemed logistically impossible\, thus and pavinges the way for sophisticated human cell device development.\nSupervisor Name: Dr. Michael Garton\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-aaron-rosenstein/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T122500
DTEND;TZID=America/Toronto:20240425T124000
DTSTAMP:20260411T042525
CREATED:20240423T215225Z
LAST-MODIFIED:20240424T215233Z
UID:44498-1714047900-1714048800@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Tenzin Yangzom
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Development of novel wearable device for remote blood flow monitoring\nAbstract: Cardiovascular diseases (CVD) are estimated to be responsible for 31% of all worldwide deaths. Endothelial Dysfunction (ED) is one of the earliest markers in most CVDs. Despite its significant prognostic value\, endothelial dysfunction has been difficult to implement clinically and non-invasively. The current ‘Gold Standard’ ED assessment method is Coronary Angiogram but is invasive and exposes patients to significant risk. Separately\, Laser Doppler Flowmetry (LDF) device has been developed which measures skin blood flow in response to heat as an indicator of endothelial function. However\, these clinical tools for ED assessment are only accessible at the point-of-care and in the presence of trained specialists. There are currently no low-cost\, practical methods for monitoring blood flow\, continuously or intermittently. Remote monitoring of skin blood flow can provide key information on progression of various disease types\, but more importantly can serve as a cardiovascular risk stratification tool to aid in CVD screening\, management\, and outcomes. The objective of this research project is to demonstrate a novel\, wearable device that non-invasively measures blood flow through multi-wavelength photoplethysmography technology and a newly developed algorithm for deriving the arteriolar Pulse transit time (aPTT) to serve as the skin blood flow metric\, during controlled heating. We have established a strong correlation of our derived skin blood flow metric to the referenced LDF measurements for different body locations at baseline. This work demonstrates validation of our device and the aPTT metric as a surrogate for skin blood flow measurement. Once deployed\, our device will enable clinicians to remotely assess endothelial function\, assess risk\, and intervene before devastating clinical events such as heart failure\, stroke and other cardiovascular diseases. Other use cases of remote skin blow flow assessment include post-surgery monitoring\, wound healing assessment and prescribed treatment validation.\nSupervisor Name: Daniel Franklin\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-tenzin-yangzom/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T124000
DTEND;TZID=America/Toronto:20240425T125500
DTSTAMP:20260411T042525
CREATED:20240405T210732Z
LAST-MODIFIED:20240424T215233Z
UID:44348-1714048800-1714049700@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Ana-Maria Oproescu
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Engineering fusogenic molecules as lipid nanoparticle excipients for mitochondrial delivery\nSupervisor Name: Omar Khan\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-ana-maria-oproescu-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T131000
DTEND;TZID=America/Toronto:20240425T132500
DTSTAMP:20260411T042525
CREATED:20240405T210732Z
LAST-MODIFIED:20240424T215233Z
UID:44350-1714050600-1714051500@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Sadaf Safa
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: DETECTING PATIENT ENGAGEMENT IN VIRTUAL CARDIAC REHABILITATION\nSupervisor Name: Dr. Shehroz Khan\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-sadaf-safa-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T132500
DTEND;TZID=America/Toronto:20240425T134000
DTSTAMP:20260411T042525
CREATED:20240405T210733Z
LAST-MODIFIED:20240424T215233Z
UID:44352-1714051500-1714052400@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Campbell Thom
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Development of an In Vitro Model of the Outer Annulus Fibrosus-Cartilage Endplate Interface within a Perfusion Bioreactor\nAbstract: BACKGROUND: Lower back pain is a leading cause of disability worldwide and is often associated with intervertebral disc (IVD) degeneration. IVDs are fibrocartilaginous tissues between the vertebral bodies of the spine which facilitate load transmission and enable spinal flexibility. Once damaged there is a lack of treatment options that permanently restore functionality. Tissue engineering aims to address the limitations of existing therapeutics by generating living tissue constructs that could replace the diseased disc. Given the complex disc architecture coupled with the limitations of conventional static culturing methods\, the production of tissue constructs that recapitulate the structural features and mechanical strength of the native disc has yet to be achieved. The current study aims to develop an in vitro-formed model of the outer annulus fibrosus (OAF)-cartilage endplate interface\, which is often overlooked in current research despite its critical role in maintaining structural and biochemical integrity of the IVD. It is hypothesized that in vitro-formed OAF can be integrated with in vitro-grown cartilage tissue\, such that the interfacial strength of the tissue interface is significantly enhanced when cultured under perfusion flow within a bioreactor. \,\,METHODS: OAF cells are isolated from bovine caudal discs and seeded onto polyurethane scaffolds\, as described previously1\, in a spinning bioreactor to generate in vitro-formed OAF tissue. These tissues are then co-cultured with deep zone articular chondrocytes that have been isolated from bovine caudal metacarpal-phalangeal joints and cultured on PTFE membranes. OAF-chondrocyte constructs are co-cultured statically for 7 days in mineralizing media containing β-Glycerophosphate. Co-cultures are either maintained in static culture or transferred to a perfusion bioreactor system in which they are dynamically cultured using a flow rate of 5mL/min\, for an additional 7 days before performing histological or mechanical assessment. All experiments\, except for mechanical testing\, were repeated with 3 biological sets\, with each condition done in quadruplicate. Statistical analysis was performed using a T test and significance assigned at p<0.05.\,\,\,RESULTS:\,Co-culture of in vitro-formed OAF tissue and chondrocytes generated an integrated tissue interface composed of cartilage and AF tissue. More tissue appeared to be present\, histologically (Figure 1)\, in constructs grown in the perfusion bioreactor versus static conditions. The interface was also stronger in the perfused constructs as determined using a pull-apart testing\, where the average interfacial strength of perfused and static constructs was 53.3kPa and 18.9kPa\, respectively (preliminary data; N=1). Immunostaining of the OAF-cartilage constructs demonstrate collagen type I\, collagen type II\, and aggrecan distribution for both conditions appear similar to that of the native OAF-CEP interface (Figure 1). Von Kossa staining demonstrates cartilage mineralization under both perfusion and static culture conditions. However\, OAF-cartilage constructs that undergo perfusion appear to have more mineral deposition.\,\,CONCLUSIONS: This study provides a first-generation in vitro OAF-CEP model that incorporates key structural properties of the native interface\, and demonstrates that the use of a perfusion bioreactor enhances development of in vitro-grown IVD tissue interfaces. These findings fill a translation gap in the field of IVD tissue engineering and will support the scale-up of such tissues to physiological sizes.\nSupervisor Name: Rita Kandel\nYear of Study: 2\nProgram of Study: MASc\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-campbell-thom-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T134000
DTEND;TZID=America/Toronto:20240425T135500
DTSTAMP:20260411T042525
CREATED:20240405T210733Z
LAST-MODIFIED:20240424T215233Z
UID:44354-1714052400-1714053300@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Nitya Gulati
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Comprehensive Investigation of Glucose Metabolism: From Murine Islets to SC-Derived Beta Cell Aggregates\nSupervisor Name: Jonathan Rocheleau\nYear of Study: 2\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-nitya-gulati-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Toronto:20240425T141000
DTEND;TZID=America/Toronto:20240425T142500
DTSTAMP:20260411T042525
CREATED:20240405T210733Z
LAST-MODIFIED:20240424T215234Z
UID:44358-1714054200-1714055100@bme.utoronto.ca
SUMMARY:Graduate Student Seminar Series - Oreoluwa Kolade
DESCRIPTION:Graduate Student Seminar Series\nPlease ensure you invite your Principal Investigator by adding their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nLocation: TRI-UC (KITE) Basement Auditorium\, 550 University Avenue\nPresentation Title: Computational analysis of donor heterogeneity and critical processing parameters in mesenchymal stromal cells identifies suitable donors and CPP conditions for improved MSC expansion and potency\nSupervisor Name: Sowmya Viswanathan and Julie Audet\nYear of Study: 4\nProgram of Study: PhD\nPowered by Calendly.com
URL:https://bme.utoronto.ca/event/graduate-student-seminar-series-oreoluwa-kolade-2/
LOCATION:TRI-UC (KITE) Basement Auditorium\, 550 University Avenue
CATEGORIES:Graduate Seminar Series
END:VEVENT
END:VCALENDAR