BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Institute of Biomedical Engineering (BME) - ECPv6.16.2//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH 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) REFRESH-INTERVAL;VALUE=DURATION:PT1H X-Robots-Tag:noindex X-PUBLISHED-TTL:PT1H BEGIN:VTIMEZONE TZID:America/Toronto BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20220313T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20221106T060000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20230312T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20231105T060000 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20240310T070000 END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20241103T060000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230405T120000 DTEND;TZID=America/Toronto:20230405T123000 DTSTAMP:20260524T200819 CREATED:20220819T163756Z LAST-MODIFIED:20230404T180810Z UID:38437-1680696000-1680697800@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Daniela Chan-Viquez DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Video gaming for home-based rehabilitation: feasibility for children with hemiplegic cerebral palsy living in Costa Rica.\nAbstract: Economic and geographic barriers can limit access to rehabilitation therapies for children with cerebral palsy (CP). These barriers are magnified in developing countries and with the recent COVID-19 pandemic. In Costa Rica\, 43% of children with disabilities do not have access to basic health services. To address this accessibility gap\, effective and engaging approaches are needed to motivate and support children in practicing motor therapies at home. Bootle Blast (BB) is a low-cost\, movement-tracking video game encouraging upper limb (UL) exercises at home. This study will assess the feasibility of a family-centred BB home intervention among Costa Rican children with CP. Our objectives are to 1) Establish probable efficacy for clinical outcomes related to UL function\, activity\, and participation and 2) Evaluate the implementation of the 8-week BB intervention (e.g.\, achievement of family-directed play time goals). Fifteen children with a diagnosis of CP (7-17 yrs) and one of their primary caregivers will participate. Children must have a current accessibility barrier to UL rehabilitation services as reported by the caregiver. Study assessments will be performed via videoconference (probable efficacy). Measures will target UL activity (e.g.\, Box & Blocks Test) and related participation (i.e.\, Canadian Occupational Performance Measure). Children will play BB at home for 8 weeks with weekly\, 15–20-minute check-in video calls by a monitoring therapist. Computer-system logs (e.g.\, time and games played) and data from reported technical barriers will be collected (implementation). Measures for implementation will be reported using descriptive statistics. System logs will identify the percentage of children meeting their weekly play time goal. Effect sizes and confidence intervals will be calculated for clinical measures. Pre-post changes in clinical outcomes will be interpreted based on the minimal clinically important difference (MCID). This study will provide valuable learnings on how therapy gaming interventions can/should be implemented to bridge accessibility gaps\, engage children and caregivers\, and improve access to care.\nSupervisor Name: Elaine Biddiss\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-daniela-chan-viquez/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230405T123000 DTEND;TZID=America/Toronto:20230405T130000 DTSTAMP:20260524T200819 CREATED:20220824T165254Z LAST-MODIFIED:20230404T180810Z UID:38506-1680697800-1680699600@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Nhien Tran-Nguyen DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Computational Fluid Dynamics to Investigate the Relation Between Hemodynamics and Coronary Artery Bypass Graft Failure\nAbstract: TBD\nSupervisor Name: Piero Triverio\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-nhien-tran-nguyen/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230406T120000 DTEND;TZID=America/Toronto:20230406T123000 DTSTAMP:20260524T200819 CREATED:20221107T203740Z LAST-MODIFIED:20230405T182302Z UID:39285-1680782400-1680784200@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Minyao Wang DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Sticky conductive membrane relieves atrial fibrillation: efficacy analysis\nAbstract: Atrial fibrillation (AF) is the most common form of cardiac arrhythmia\, significantly contributing to public health care expenditure and cardiovascular disease-related mortality. While the mechanisms remain unclear; more evidence has been found to support the spiral wave theory of AF persistence\, stating that a high-frequency reentrant circuit originating from the singularity could act as a relatively stable source of disturbed conduction\, which would eventually lead to the development of the fibrillation burden. Targeting the electrophysiological features of biological tissues\, biomaterial has emerged in recent decades with promising potentials. We have focused on studying the novel conductive biomaterial in cardiac applications to facilitate the propagation of the electrical signals between cardiomyocytes that are physically separated due to structural and functional electrical blockages\, including fibrotic scarring. In this study\, I hypothesized that the use of conductive biomaterial could facilitate the biological action potential propagation between physically isolated cardiomyocytes\, which can then lead to the relief of the rotor-originated spiral electrical waves to relieve the atrial fibrillation burdens. More specifically\, a conductive sticky bilayer Gel-PDA membrane is implanted to the right atrial surface of the Lkb1 knockout transgenic AF mouse models to target the electrophysiological pathogenesis of atrial fibrillation. Here\, the efficacy evaluation is performed by the in Vivo surface electrocardiogram\, echocardiogram\, and the programmed electric stimulation (PES) based arrhythmia susceptibility test.\nSupervisor Name: Dr. Ren-ke Li\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-minyao-wang/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230406T123000 DTEND;TZID=America/Toronto:20230406T130000 DTSTAMP:20260524T200819 CREATED:20220824T165254Z LAST-MODIFIED:20230405T182302Z UID:38507-1680784200-1680786000@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Chun-Yu Lin DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: TBD\nAbstract: TBD\nSupervisor Name: Lidan You\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-chun-yu-lin/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230412T123000 DTEND;TZID=America/Toronto:20230412T130000 DTSTAMP:20260524T200819 CREATED:20220830T170740Z LAST-MODIFIED:20230411T194729Z UID:38594-1681302600-1681304400@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Craig Macsemchuk DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: A Magnetic Resonance Imaging Guided High Intensity Focused Ultrasound Platform for Fetal Interventions\nAbstract:\nBackground:\nCongenital abnormalities cause 20% of all perinatal deaths in North America\, where some\nrequire fetal intervention to improve outcomes . Due to routine ultrasound imaging during\npregnancy\, most fetal anomalies are detected before birth; however\, many are progressive before\nbirth\, leading to fetal death . All current options for fetal therapy involve entering the\namniotic sac for surgical procedures\, which carry a significant risk of premature birth due to\nmembrane rupture . Ultrasound energy creates no incision and is non-ionizing\, therefore\, it\nreduces the risk of infection and does not damage adjacent non-targeted tissues. These attributes\nmake it an ideal modality for fetal surgical interventions. Magnetic resonance-guided high\nintensity focused ultrasound (MRgHIFU) is a non-invasive therapy modality that is clinically\napproved in Canada to treat uterine fibroids\, bone metastasis and essential tremor. All currently\navailable MRgHIFU devices generate ultrasound energy from a transducer integrated into a\npurpose-built MRI table. This ultrasound energy source transmits upward\, focusing into the\npatient\, and creating a thermal lesion as small as a grain of rice (8x2x2mm). This focal point can\nbe mechanically and electronically steered to cover a large treatment volume. However\, in these\napproved devices\, the ultrasound energy sources are situated so they cannot accommodate a\npregnant mother and therefore are not conducive to an ergonomically feasible or safe treatment\nof fetuses. A pregnant mother cannot lay on her stomach in a prone position. Such is the rational\nfor developing an MRgHIFU robot that brings the ultrasound energy source to the pregnant\nmother inside an MRI scanner in such a way that she can lay on her back in a supine position.\nObjective and Hypothesis:\nThe objective of this project is to design and build an MRgHIFU robot for fetal interventions\nthat can accommodate a pregnant mother. My hypothesis is that robotic positioning of\nultrasound energy will demonstrate that MRIgHIFU is safe\, effective\, and feasible for treating\ncongenital fetal defects.\nMethods:\nI will achieve my objective by: 1) Designing and developing an MRgHIFU platform for fetal\napplications. This will incorporate MRgHIFU infrastructure in our laboratory at SickKids and\ncreate an MRgHIFU robot that brings the ultrasound transducer to the patient to accommodate\nprenatal interventions. 2) Assessing the workspace range and targeting accuracy of the produced\nMRgHIFU robot in phantoms to ensure it performs appropriately for fetal interventions.\n3) Demonstrating the safety and efficacy of the produced robot by ablating multiple targets in\nour lab’s established pregnant rabbit model . This will consist of an MRgHIFU survival study\nin a pregnant rabbit model targeting placental and fetal lung\, kidney\, liver\, and heart tissues.\nSignificance of the research:\nDeveloping an MRIgHIFU robot for fetal therapies is critical for making it available to pregnant\npatients. Our lab’s partnership with Profound Medical\, a HIFU device company with experience\nreleasing multiple clinical devices\, will allow the developed robot to become accessible to\npatients in the future. The availability of MRIgHIFU in a clinical setting can decrease the risk of\ncomplications in fetal therapies\, lead to better patient outcomes\, shorter patient recovery times\nand also reduce the average healthcare cost attributed to fetal surgery.\nSupervisor Name: James Drake\nYear of Study: 2\nProgram of Study: MASc\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-craig-macsemchuk/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230413T120000 DTEND;TZID=America/Toronto:20230413T123000 DTSTAMP:20260524T200819 CREATED:20220825T165236Z LAST-MODIFIED:20230412T195231Z UID:38533-1681387200-1681389000@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Chuan Liu DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: TBD\nAbstract: TBD\nSupervisor Name: Milica Radisic\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-chuan-liu/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230413T123000 DTEND;TZID=America/Toronto:20230413T130000 DTSTAMP:20260524T200819 CREATED:20220913T210755Z LAST-MODIFIED:20230412T195231Z UID:38782-1681389000-1681390800@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Liyang Zhong DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Investigating the Molecular Control of Collagen Biomineralization\nAbstract: Mineralized collagen fibrils are the basic building blocks of various mineralized connective tissues. The process of collagen biomineralization is an intricate and highly controlled process which makes it difficult to study in vivo. To date\, many in vitro models have been developed aiming to understand and mimic native collagen biomineralization. However\, despite the recent advances\, the molecular control of collagen biomineralization still remains unclear. I aim to study the effect of chemical and enzymatic collagen crosslinking\, as well as the effect of glycosaminoglycan\, an extracellular biomolecule\, on collagen biomineralization. Findings from this study will result in an effective in vitro model that can highly mimic native collagen. It will also help with the development of collagen-based materials that will benefit tissue repair and regeneration applications.\nSupervisor Name: Eli Sone\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-liyang-zhong/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230414T120000 DTEND;TZID=America/Toronto:20230414T123000 DTSTAMP:20260524T200819 CREATED:20230406T182229Z LAST-MODIFIED:20230413T195231Z UID:41231-1681473600-1681475400@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Gabriel Ng DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: TBD\nAbstract: TBD\nSupervisor Name: Jan Andrysek\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-gabriel-ng/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230414T123000 DTEND;TZID=America/Toronto:20230414T130000 DTSTAMP:20260524T200819 CREATED:20220914T210735Z LAST-MODIFIED:20230413T195231Z UID:38806-1681475400-1681477200@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Qin Ji DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Investigating the relationship between tumour metabolism and nanoparticle accumulation\nAbstract:\nCancer is one of the leading causes of death in the world. The principle has guided nanoparticles designed for\ncancer treatment that nanoparticle transport into the tumour is a passive and concentration-driven process.\nRecent studies have found that nanoparticle transport into tumours is predominantly an active process.\nUnderstanding the driving force of this active transport enables us to design the next generation of\nnanoparticles. Metabolism describes all the energy-producing processes in a biological system. As tumours\ngrow\, their need for nutrients and other building blocks increases. This may lead to nonspecific uptake of\navailable resources circulating in the tumour blood vessels. The objective of the proposed thesis is to answer\nthe question: does tumour metabolism drive nanoparticle accumulation? The result of this project will\ndescribe a relationship between tumour nanoparticle accumulation and tumour metabolic activity. The\nsignificance of this study defines the mechanistic cause of nanoparticle transport into tumours under the new\nparadigm. This understanding enables us to exploit metabolism to increase the effectiveness of nanoparticle\ndrug carriers for cancer treatment. For example\, we may manipulate a patient’s diet to increase nanoparticle\ndelivery to solid tumours. This strategy can lead to higher drug delivery and more effective cancer treatment.\nSupervisor Name: Warren Chan\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-qin-ji/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230418T130000 DTEND;TZID=America/Toronto:20230418T140000 DTSTAMP:20260524T200819 CREATED:20230413T144237Z LAST-MODIFIED:20230414T202721Z UID:41281-1681822800-1681826400@bme.utoronto.ca SUMMARY:BME Faculty Search Seminar - Tian He\, Harvard University DESCRIPTION:Illuminating Bioelectricity in the Brain\nDr. He Tian\,\nPostdoctoral Associate\, Harvard University\nThe brain encodes and processes information through the dynamic membrane voltage of neurons. However\, in vivo electrophysiology\, i.e.\, the study of the membrane voltage of individual cells in live animals\, has been a major challenge for neuroscience. In this seminar\, I will present voltage imaging\, an emerging technology using genetically encoded voltage indicators (GEVIs) to visualize the membrane voltage dynamics of cells. Voltage imaging can be combined with optogenetic stimulation to enable “all-optical electrophysiology”\, a technology that enabled cell membrane voltage to be simultaneously recorded and perturbed with light\, opening a path for high-throughput electrophysiology study in live animals. Thus far\, the performance of GEVIs has been a bottleneck for many applications. I will describe my directed evolution effort to improve a far-red GEVI. In order to optimize the transient voltage response of this biosensor\, I developed a novel video-based pooled screening platform that enabled thousands of genetic variants to be screened expeditiously. Using this platform\, I developed far-red GEVIs with improved signal-to-noise ratios and kinetics. Importantly\, this platform may be adapted for many types of genetic screens where optical readouts are required. I will discuss the application of these new GEVIs for tracking electric signal propagation within neurons. In particular\, I will demonstrate how to use voltage imaging and all-optical electrophysiology to understand neuron network dynamics in the live mouse brain. Together\, these molecular and optical tools will greatly expand our ability to decipher the brain. \nTalk will be in-person and virtual\, see information below. URL:https://bme.utoronto.ca/event/bme-faculty-search-seminar-tian-he-harvard-university/ LOCATION:Donnelly Centre for Cellular and Biomolecular Research\, Red Room\, 160 College Street\, Toronto\, Ontario\, M5S 3E1\, Canada CATEGORIES:BME Faculty Search ATTACH;FMTTYPE=image/jpeg:https://bme.utoronto.ca/wp-content/uploads/2023/04/Tian-He-faculty-search.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230419T120000 DTEND;TZID=America/Toronto:20230419T123000 DTSTAMP:20260524T200819 CREATED:20221003T213809Z LAST-MODIFIED:20230418T200726Z UID:38996-1681905600-1681907400@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Hrishikesh Suresh DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Optimizing Response to Neuromodulation\nAbstract: Epilepsy is the most common and debilitating disorder of childhood. Children with epilepsy have mortality rates three times higher than the general population and experience significant morbidity\, including injuries and hospitalizations. One treatment option for children who have uncontrolled seizures is vagus nerve stimulation (VNS). This surgical procedure involves the implantation of an electric pulse generator to deliver stimulation to the vagus nerve at the level of the neck. However\, only 25-50% of patients achieve meaningful improvement in their seizure burden after VNS. Consequently\, many children undergo the risk of surgery without benefit. Furthermore\, the inability to identify children most likely to benefit results in inefficient allocation of Canadian healthcare resources and precludes care for other children who may be better candidates for VNS. There is\, therefore\, a critical and unmet need to develop novel means to pre-surgically predict seizure reduction following VNS. This work leverages advances in brain network mapping and machine learning to test the hypothesis that differences in brain network organization can predict outcomes following VNS\, and consequently\, identify ideal candidates for surgical intervention.\nSupervisor Name: Dr. George Ibrahim & Dr. James Drake\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-hrishikesh-suresh/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230419T123000 DTEND;TZID=America/Toronto:20230419T130000 DTSTAMP:20260524T200819 CREATED:20230103T200744Z LAST-MODIFIED:20230418T200726Z UID:39640-1681907400-1681909200@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Megh Rathod DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Development of Accurate and Equitable Wearable Non-Invasive Optical Devices for Continuous Hemodynamic Monitoring\nAbstract:\nThe prevalence of heart failure (HF) is increasing with an estimated 26 million people affected worldwide. Current patient monitoring tools are often inconvenient\, uncomfortable\, and limited in application and accuracy. This has led to the rise of non-invasive continuous monitoring devices\, known as wearables. Advances in wearable technologies are led by miniaturized sensors\, predominantly optoelectronic – which leverage light-tissue interactions to monitor physiology.\nHowever\, existing non-invasive tools rely on numerous assumptions about the physiology of the user\, and often do not account for forms of interpersonal variability (e.g. the presence of melanin in the skin). This work aims to develop optoelectronic strategies for continuous remote monitoring of metrics using multiwavelength (MW) photoplethysmography. To achieve this\, I will implement miniaturized MW spectroscopy platforms into wearable electronic devices and develop algorithms that estimate these physiological metrics and account for interpersonal variability. The custom-developed wearable will use MW photoplethysmography via miniature spectrometers and light sources (across 400 nm – 1000 nm) and will be tested via simulations\, phantoms\, and bench tests before clinical validation.\nThis work will demonstrate a methodology for skin-tone invariant cardiovascular metrics relevant to both clinical-grade and commercial health monitors. Optical sensors will serve a major role in the future of physiological monitoring\, however\, correcting this technology is a key refinement needed to prevent the perpetuation of inaccuracies in marginalized groups. Implementation into a wearable device will allow continuous monitoring of cardiac health that may improve patient outcomes and predict catastrophic events.\nSupervisor Name: Dr. Daniel Franklin (BME) and Dr. Heather Ross (Medicine)\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-megh-rathod/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230420T120000 DTEND;TZID=America/Toronto:20230420T123000 DTSTAMP:20260524T200819 CREATED:20220830T170740Z LAST-MODIFIED:20230419T202235Z UID:38596-1681992000-1681993800@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Ana Maria Carmo DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Actin regulation in embryonic wound repair\nAbstract: TBD\nSupervisor Name: Rodrigo Fernandez-Gonzalez\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-ana-maria-carmo/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230420T123000 DTEND;TZID=America/Toronto:20230420T130000 DTSTAMP:20260524T200819 CREATED:20220830T170740Z LAST-MODIFIED:20230419T202235Z UID:38595-1681993800-1681995600@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Negar Balaghi DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Mechanisms of collective cell migration during Drosophila cardiac morphogenesis\nAbstract: TBD\nSupervisor Name: Rodrigo Fernandez-Gonzalez\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-negar-balaghi/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230420T160000 DTEND;TZID=America/Toronto:20230420T170000 DTSTAMP:20260524T200819 CREATED:20230417T185113Z LAST-MODIFIED:20230417T185113Z UID:41314-1682006400-1682010000@bme.utoronto.ca SUMMARY:Copper depletion cancer therapy DESCRIPTION:Speaker: \nJianghong Rao\, PhD\nProfessor\, Department of Radiology\nLucas Imaging Center\nStanford University\, California \nHost: Dr. Gang Zheng URL:https://bme.utoronto.ca/event/copper-depletion-cancer-therapy/ LOCATION:Princess Margaret Cancer Centre\, 610 University Ave\, 6th floor\, Bob Bell Auditorium CATEGORIES:External Speaker Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230421T120000 DTEND;TZID=America/Toronto:20230421T123000 DTSTAMP:20260524T200819 CREATED:20220824T165254Z LAST-MODIFIED:20230420T202244Z UID:38509-1682078400-1682080200@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Kai Slaughter DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: TBD\nAbstract: TBD\nSupervisor Name: Molly Shoichet\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-kai-slaughter/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230421T123000 DTEND;TZID=America/Toronto:20230421T130000 DTSTAMP:20260524T200819 CREATED:20230404T180810Z LAST-MODIFIED:20230420T202244Z UID:41194-1682080200-1682082000@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Katie Doran DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: TBD\nAbstract: TBD\nSupervisor Name: Gang Zheng\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-katie-doran-2/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230421T130000 DTEND;TZID=America/Toronto:20230421T140000 DTSTAMP:20260524T200819 CREATED:20230417T183542Z LAST-MODIFIED:20230417T183542Z UID:41310-1682082000-1682085600@bme.utoronto.ca SUMMARY:BME Faculty Search Seminar - Freeman Lan DESCRIPTION:Revolutionizing biological discovery through ultrahigh-throughput experimentation\nDr. Freeman Lan\,\nPostdoctoral Fellow\, University of Winsconsin-Madison\nBiological assays have for decades been carried out primarily in reaction tubes and microtiter plates\, which are low throughput and difficult to scale. Microfluidics technology can overcome this limitation through miniaturization of reaction volumes and efficient scaling of liquid handling. I will describe my work pioneering droplet microfluidics as a platform to conduct biological assays at ultrahigh-throughput (>10\,000 assays per run) and how I am now applying this technology to study microbial systems. I show that ultrahigh-throughput experimentation can rapidly generate large amounts of data and bring fresh insights that would previously be unattainable using traditional methods. Given our rapidly increasing capacity to analyze large scale data through advances in machine learning\, ultrahigh-throughput experimentation will become an important way of conducting biological research in the future. \nTalk will be in-person and virtual\, see information below. URL:https://bme.utoronto.ca/event/bme-faculty-search-seminar-freeman-lan/ LOCATION:MSB 4171 CATEGORIES:BME Faculty Search ATTACH;FMTTYPE=image/jpeg:https://bme.utoronto.ca/wp-content/uploads/2023/04/Freeman-Lan.jpg END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230425T120000 DTEND;TZID=America/Toronto:20230425T130000 DTSTAMP:20260524T200819 CREATED:20230406T210630Z LAST-MODIFIED:20230406T210630Z UID:41235-1682424000-1682427600@bme.utoronto.ca SUMMARY:BME Student Townhall- Graduate Courses DESCRIPTION:The BME graduate curriculum committee is reviewing all the graduate courses offered as part of your graduate studies in order to determine whether the current offerings serve you well and whether there are gaps in the offerings.\n\nThus\, the committee would like to consult students in all BME Graduate programs via a Townhall on their experience with the course offerings. Specifically\, the committee is looking to (1) Identify courses that are not popular and the reasons why and (2) Identify courses that students want to take but haven’t been able to (e.g. because they don’t exist\, didn’t fit in schedule\, etc). Additionally\, the committee is looking to present their own suggestions and get feedback from you.\n\nThe Townhall is scheduled for April 25th @ 12-1pm. The event will be hybrid with in-person meeting occurring in MS2173 and zoom information as follows:\n\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\n\nWe invite all students to submit their feedback via this form ahead of the meeting or after if you are unable to attend: https://forms.office.com/r/J7LVH3cZDE URL:https://bme.utoronto.ca/event/bme-student-townhall-graduate-courses/ LOCATION:MS2173 CATEGORIES:BME Student Townhall END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230426T120000 DTEND;TZID=America/Toronto:20230426T123000 DTSTAMP:20260524T200819 CREATED:20220930T213740Z LAST-MODIFIED:20230425T202234Z UID:38978-1682510400-1682512200@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Katsiaryna Kazlovich DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: 3D Printing and Surgical Simulation in Thoracic Surgery\nAbstract: Traditional surgical education is changing at a rapid pace. This shift has been influenced by the widespread adoption and availability of rapid manufacturing methods\, such as 3D printing\, and ever-evolving analytical methods for data acquisition and processing. Since the declaration of the COVID-19 global pandemic\, the modern approach to on-site skill development has had to evolve to accommodate limited access to training due to the risk of exposure and scarcity of resources. In many ways\, these changes serve as a catalyst for innovation\, such as the concept of virtual technical skills education. In this seminar\, I am going to showcase various simulation devices and manufacturing methods that are implemented in surgical skill development and address questions associated with the quantitative and qualitative assessment of skills in senior surgical trainees.\nSupervisor Name: Dr. Kazuhiro Yasufuku\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-katsiaryna-kazlovich/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230426T123000 DTEND;TZID=America/Toronto:20230426T130000 DTSTAMP:20260524T200819 CREATED:20220831T170759Z LAST-MODIFIED:20230425T202234Z UID:38609-1682512200-1682514000@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Clinical Stream - Seyed-Youns Sadat-Nejad DESCRIPTION:Graduate Seminar Series: Clinical Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for clinical stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Challenging the Labels of Autism and ADHD – A Data-Driven Graph-Based Approach\nAbstract:\nMore than 600\,000 children in Canada are diagnosed with autism spectrum disorder (ASD) and attention-deficit/hyperactivity disorder (ADHD). These diagnoses are currently based on specific behaviours (e.g.\, social communication difficulties\, inattention)\, which may not correspond to the distinct and unique underlying biology. Moreover\, the labels of ASD and ADHD often do not predict a child’s response to a specific treatment. Instead\, care decisions are made based on each child’s unique behavioural presentation. In many cases\, existing treatments are not effective\, can have adverse side-effects\, and many children continue to experience significant distress and often have poor outcomes as adults (e.g.\, mental health\, employment\, and independence). Collectively\, these challenges suggest that ASD and ADHD may not exist as uniquely-defined diagnostic constructs and highlight the need to discover other groupings that may be more closely aligned with biology and/or response to treatment. To address this need\, the proposed project will perform data-driven approach to question the validity of current diagnostic labels and identify new groupings for children with ASD and ADHD that are biologically relevant. I will do this through an interdisciplinary approach that employs computer science-based machine learning approaches to go beyond traditional analytics methods in this field. The objective of this project is to validate existing groupings or discover new groupings based on unique and distinct biological data. To this\n3\nend\, I will pursue a novel analytical approach: instead of comparing diagnostic groups as currently done\, I use an innovative data-driven approach that looks to the data to discover new groups that transcend the existing diagnostic labels or those that validate the current groups but that also explain why the current treatments are ineffective for many individuals in part because of their adverse side effects. I will do this by use of graph clustering method and graph neural network. This approach is capable of identifying groups who share similar neuroanatomical characteristics/complexities\, regardless of diagnosis.\nSupervisor Name: Dr.Azadeh Kushki\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-clinical-stream-seyed-youns-sadat-nejad-2/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230427T120000 DTEND;TZID=America/Toronto:20230427T123000 DTSTAMP:20260524T200819 CREATED:20220822T165237Z LAST-MODIFIED:20230426T203728Z UID:38457-1682596800-1682598600@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Rida Hasan DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Bioadhesion: Reverse Engineering the Adhesion Mechanism of Freshwater Mussels\, The Dresseinids\nAbstract: Currently\, synthetic biocompatible adhesives have been ineffective due to inflammatory reactions or poor strength1. Researchers have attempted to improve upon these adhesives\, but limitations still exist. A synthetic bioadhesives that can function in wet conditions could be a better alternative for tissue reconnections1-2. On the other hand\, many marine and freshwater organisms have adapted to secrete their own holdfast that is resistant to water3. My research aims to understand how freshwater mussels (of the Dresseina genus) adhere to surfaces underwater. Since the adhesion mechanism is largely underexplored in freshwater mussels\, direct translation to a potential bioadhesives will not be the goal of this project. Rather\, elucidating the adhesion mechanism of the freshwater mussel\, Dresseina bugensis\, will be the primary objective. This report presents a biochemical and biophysical approach to elucidate the molecular mechanism of wet adhesion of freshwater mussels. The Dreisseinid byssal proteome and byssal conditions will be described with emphasis on further characterization of Dresseina bugensis foot protein 7 (Dbfp-7) and other adhesive proteins. Characterization of the byssal proteins will provide insight to a potentially novel mechanism of wet adhesion that may improve upon the design requirements of current synthetic wet adhesives.\nSupervisor Name: Eli Sone\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-rida-hasan/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230427T123000 DTEND;TZID=America/Toronto:20230427T130000 DTSTAMP:20260524T200819 CREATED:20220909T180738Z LAST-MODIFIED:20230426T203728Z UID:38712-1682598600-1682600400@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Cell and Tissue Stream - Joseph Sebastian DESCRIPTION:Graduate Seminar Series: Cell and Tissue Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for cell and tissue stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Listening to engineered tissues: assessing cellularity\, contractility\, and stiffness using high-frequency ultrasound\nAbstract: TBD\nSupervisor Name: Craig A. Simmons\nYear of Study: 4\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-cell-and-tissue-stream-joseph-sebastian/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230428T120000 DTEND;TZID=America/Toronto:20230428T123000 DTSTAMP:20260524T200819 CREATED:20230419T202235Z LAST-MODIFIED:20230419T202235Z UID:41346-1682683200-1682685000@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Christina Jean DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Multimodal Interfaces to Assist Older Adults with Dementia Perform Activities of Daily Living\nAbstract: TBD\nSupervisor Name: Alex Mihailidis\nYear of Study: 2\nProgram of Study: MASc\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-christina-jean-2/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230428T120000 DTEND;TZID=America/Toronto:20230428T123000 DTSTAMP:20260524T200819 CREATED:20230419T202235Z LAST-MODIFIED:20230427T203725Z UID:41344-1682683200-1682685000@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Christina Jean DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: Multimodal Interfaces to Assist Older Adults with Dementia Perform Activities of Daily Living\nAbstract: TBD\nSupervisor Name: Alex Mihailidis\nYear of Study: 2\nProgram of Study: MASc\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-christina-jean/ CATEGORIES:Graduate Seminar Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Toronto:20230428T123000 DTEND;TZID=America/Toronto:20230428T130000 DTSTAMP:20260524T200819 CREATED:20220901T170736Z LAST-MODIFIED:20230427T203725Z UID:38621-1682685000-1682686800@bme.utoronto.ca SUMMARY:Graduate Seminar Series: Molecular Stream - Nafisa Mahbub DESCRIPTION:Graduate Seminar Series: Molecular Stream\nGraduate Seminar Series for the Institute of Biomedical Engineering (BME). This day is for molecular stream presenters.\nIf you would like to invite your Principal Investigator\, please add their email via the ‘Add Guest’ button and they will also be notified of your presentation.\nPresentation Title: TBD\nAbstract: TBD\nSupervisor Name: Dr. Warren Chan\nYear of Study: 2\nProgram of Study: PhD\nZoom link: https://us02web.zoom.us/j/89610372821?pwd=azd4SCtYVWtreVovaGNPV1c2NGY2Zz09\nMeeting ID: 896 1037 2821\nPassword: 483329\nPowered by Calendly.com URL:https://bme.utoronto.ca/event/graduate-seminar-series-molecular-stream-nafisa-mahbub/ CATEGORIES:Graduate Seminar Series END:VEVENT END:VCALENDAR