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DTSTART;TZID=America/Vancouver:20220728T110000
DTEND;TZID=America/Vancouver:20220728T115500
DTSTAMP:20260414T061605
CREATED:20220725T174442Z
LAST-MODIFIED:20220725T174442Z
UID:23347-1659006000-1659009300@scienceinvancouver.com
SUMMARY:Research Lecture: Wen Li
DESCRIPTION:SBME\, UBC ECE\, and the Bionics Network present:\nTalk: Miniaturized\, Hybrid Opto-Electro-Chemo Neuroprosthetic Devices\nOverview:Biomedical microelectromechanical systems (bioMEMS) enable translational engineering solutions for next-generation diagnosis and therapies to address vital unmet medical needs. In particular\, the Microtechnology (µTech) Laboratory at Michigan State University is interested in developing innovative microdevices based on multiple modalities (e.g. electrical\, optical\, and chemical) using bioMEMS technologies. These devices form seamless interfaces with biological tissues for potential applications in fundamental neuroscience research\, biomedical diagnostics\, and therapeutics. This talk will focus on our recent efforts toward developing hybrid opto-electro-chemo implants at the microscale combining novel inorganic materials with polymeric materials. In the first part of this talk\, I will showcase our development of optoelectronics devices consisting of microscale light emitting diodes and transparent microelectrodes\, capable of optogenetic modulation and electrical recording of neural activity. Also highlighted is an ultra-flexible\, highly conductive and transparent microscale electrocorticogram electrode array made of PEDOT:PSS-ITO-Ag-ITO assembly. The second part of this talk will focus on our recent development of boron-doped polycrystalline diamond electrodes for neurotransmitter sensing using a fast scan cyclic voltammetry method. The in-vitro or in-vivo study to validate the efficacy of the above devices will also be discussed.
URL:https://scienceinvancouver.com/event/research-lecture-wen-li/
LOCATION:Life Sciences Centre & Online
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/07/SBME-seminar-Wen-Li-2022.07.28.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220728T110000
DTEND;TZID=America/Vancouver:20220728T115500
DTSTAMP:20260414T061605
CREATED:20220725T174442Z
LAST-MODIFIED:20220725T174442Z
UID:26577-1659006000-1659009300@scienceinvancouver.com
SUMMARY:Research Lecture: Wen Li
DESCRIPTION:SBME\, UBC ECE\, and the Bionics Network present:\nTalk: Miniaturized\, Hybrid Opto-Electro-Chemo Neuroprosthetic Devices\nOverview:Biomedical microelectromechanical systems (bioMEMS) enable translational engineering solutions for next-generation diagnosis and therapies to address vital unmet medical needs. In particular\, the Microtechnology (µTech) Laboratory at Michigan State University is interested in developing innovative microdevices based on multiple modalities (e.g. electrical\, optical\, and chemical) using bioMEMS technologies. These devices form seamless interfaces with biological tissues for potential applications in fundamental neuroscience research\, biomedical diagnostics\, and therapeutics. This talk will focus on our recent efforts toward developing hybrid opto-electro-chemo implants at the microscale combining novel inorganic materials with polymeric materials. In the first part of this talk\, I will showcase our development of optoelectronics devices consisting of microscale light emitting diodes and transparent microelectrodes\, capable of optogenetic modulation and electrical recording of neural activity. Also highlighted is an ultra-flexible\, highly conductive and transparent microscale electrocorticogram electrode array made of PEDOT:PSS-ITO-Ag-ITO assembly. The second part of this talk will focus on our recent development of boron-doped polycrystalline diamond electrodes for neurotransmitter sensing using a fast scan cyclic voltammetry method. The in-vitro or in-vivo study to validate the efficacy of the above devices will also be discussed.
URL:https://scienceinvancouver.com/event/research-lecture-wen-li-2/
LOCATION:Life Sciences Centre & Online
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/07/SBME-seminar-Wen-Li-2022.07.28.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220728T110000
DTEND;TZID=America/Vancouver:20220728T115500
DTSTAMP:20260414T061605
CREATED:20220725T174442Z
LAST-MODIFIED:20220725T174442Z
UID:28192-1659006000-1659009300@scienceinvancouver.com
SUMMARY:Research Lecture: Wen Li
DESCRIPTION:SBME\, UBC ECE\, and the Bionics Network present:\nTalk: Miniaturized\, Hybrid Opto-Electro-Chemo Neuroprosthetic Devices\nOverview:Biomedical microelectromechanical systems (bioMEMS) enable translational engineering solutions for next-generation diagnosis and therapies to address vital unmet medical needs. In particular\, the Microtechnology (µTech) Laboratory at Michigan State University is interested in developing innovative microdevices based on multiple modalities (e.g. electrical\, optical\, and chemical) using bioMEMS technologies. These devices form seamless interfaces with biological tissues for potential applications in fundamental neuroscience research\, biomedical diagnostics\, and therapeutics. This talk will focus on our recent efforts toward developing hybrid opto-electro-chemo implants at the microscale combining novel inorganic materials with polymeric materials. In the first part of this talk\, I will showcase our development of optoelectronics devices consisting of microscale light emitting diodes and transparent microelectrodes\, capable of optogenetic modulation and electrical recording of neural activity. Also highlighted is an ultra-flexible\, highly conductive and transparent microscale electrocorticogram electrode array made of PEDOT:PSS-ITO-Ag-ITO assembly. The second part of this talk will focus on our recent development of boron-doped polycrystalline diamond electrodes for neurotransmitter sensing using a fast scan cyclic voltammetry method. The in-vitro or in-vivo study to validate the efficacy of the above devices will also be discussed.
URL:https://scienceinvancouver.com/event/research-lecture-wen-li-3/
LOCATION:Life Sciences Centre & Online
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/07/SBME-seminar-Wen-Li-2022.07.28.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220728T110000
DTEND;TZID=America/Vancouver:20220728T115500
DTSTAMP:20260414T061605
CREATED:20220725T174442Z
LAST-MODIFIED:20220725T174442Z
UID:31275-1659006000-1659009300@scienceinvancouver.com
SUMMARY:Research Lecture: Wen Li
DESCRIPTION:SBME\, UBC ECE\, and the Bionics Network present:\nTalk: Miniaturized\, Hybrid Opto-Electro-Chemo Neuroprosthetic Devices\nOverview:Biomedical microelectromechanical systems (bioMEMS) enable translational engineering solutions for next-generation diagnosis and therapies to address vital unmet medical needs. In particular\, the Microtechnology (µTech) Laboratory at Michigan State University is interested in developing innovative microdevices based on multiple modalities (e.g. electrical\, optical\, and chemical) using bioMEMS technologies. These devices form seamless interfaces with biological tissues for potential applications in fundamental neuroscience research\, biomedical diagnostics\, and therapeutics. This talk will focus on our recent efforts toward developing hybrid opto-electro-chemo implants at the microscale combining novel inorganic materials with polymeric materials. In the first part of this talk\, I will showcase our development of optoelectronics devices consisting of microscale light emitting diodes and transparent microelectrodes\, capable of optogenetic modulation and electrical recording of neural activity. Also highlighted is an ultra-flexible\, highly conductive and transparent microscale electrocorticogram electrode array made of PEDOT:PSS-ITO-Ag-ITO assembly. The second part of this talk will focus on our recent development of boron-doped polycrystalline diamond electrodes for neurotransmitter sensing using a fast scan cyclic voltammetry method. The in-vitro or in-vivo study to validate the efficacy of the above devices will also be discussed.
URL:https://scienceinvancouver.com/event/research-lecture-wen-li-4/
LOCATION:Life Sciences Centre & Online
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/07/SBME-seminar-Wen-Li-2022.07.28.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220728T110000
DTEND;TZID=America/Vancouver:20220728T115500
DTSTAMP:20260414T061605
CREATED:20220725T174442Z
LAST-MODIFIED:20220725T174442Z
UID:32735-1659006000-1659009300@scienceinvancouver.com
SUMMARY:Research Lecture: Wen Li
DESCRIPTION:SBME\, UBC ECE\, and the Bionics Network present:\nTalk: Miniaturized\, Hybrid Opto-Electro-Chemo Neuroprosthetic Devices\nOverview:Biomedical microelectromechanical systems (bioMEMS) enable translational engineering solutions for next-generation diagnosis and therapies to address vital unmet medical needs. In particular\, the Microtechnology (µTech) Laboratory at Michigan State University is interested in developing innovative microdevices based on multiple modalities (e.g. electrical\, optical\, and chemical) using bioMEMS technologies. These devices form seamless interfaces with biological tissues for potential applications in fundamental neuroscience research\, biomedical diagnostics\, and therapeutics. This talk will focus on our recent efforts toward developing hybrid opto-electro-chemo implants at the microscale combining novel inorganic materials with polymeric materials. In the first part of this talk\, I will showcase our development of optoelectronics devices consisting of microscale light emitting diodes and transparent microelectrodes\, capable of optogenetic modulation and electrical recording of neural activity. Also highlighted is an ultra-flexible\, highly conductive and transparent microscale electrocorticogram electrode array made of PEDOT:PSS-ITO-Ag-ITO assembly. The second part of this talk will focus on our recent development of boron-doped polycrystalline diamond electrodes for neurotransmitter sensing using a fast scan cyclic voltammetry method. The in-vitro or in-vivo study to validate the efficacy of the above devices will also be discussed.
URL:https://scienceinvancouver.com/event/research-lecture-wen-li-5/
LOCATION:Life Sciences Centre & Online
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/07/SBME-seminar-Wen-Li-2022.07.28.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220729T120000
DTEND;TZID=America/Vancouver:20220729T130000
DTSTAMP:20260414T061605
CREATED:20220713T164118Z
LAST-MODIFIED:20220726T003224Z
UID:23169-1659096000-1659099600@scienceinvancouver.com
SUMMARY:Development & Utilization of In Vivo Systems to Optimize Lipid Nanoparticles for Therapeutic Genome Editing
DESCRIPTION:Genetic diseases are a leading cause of death and disability in Canada with immense economic and societal burdens. Gene therapy has emerged as a means to effectively treat genetic diseases; however\, current gene therapies are limited by their high manufacturing costs\, the inability to re-dose\, and the safety concerns of some viral vectors. \nCRISPR genome editing is a new therapeutic approach that aims to directly repair the underlying disease-causing mutations. Conventional CRISPR methods are limited as in vivo therapeutics because they introduce DNA breaks and cause frequent off-target edits. Newer base editors and prime editors overcome the limitations traditional CRISPR genome editing methods because they do not introduce DNA breaks. \nHowever\, the delivery of genome editors to affected tissues remains a challenge. Viral vectors\, such as AAV\, are unsuitable for genome editing because their long expression (years) increases the probability of unintended edits. In contrast\, the transient expression (hours-days) of RNA encoding genome editors via nanoparticles is well suited for genome editing\, and unlike viral vectors\, nanoparticles can be readministered. However\, nanoparticle delivery of complex genome editing cargos (large mRNA + small gRNA) remains a challenge\, especially to extra-hepatic target tissues such as muscle. To address this\, we are developing new ways to safely deliver these new editors using lipid nanoparticles. \nTo efficiently measure the in vivo effectiveness of genome editor delivery via LNPs\, we have developed transgenic mice that carry mutations in reporter genes. Precise gene repair of these mutations produce a functional enzyme that emits light (luminescence) that sensitive imagers can detect to precisely measure the location and extent of gene editing in living animals. We have made progress in our goal towards efficient and safe in vivo genome editing that we will share. \n\n\n\n\n\n\nDr. Colin Ross seeks to incorporate genomics into guiding\, optimising\, and developing novel therapeutics to improve the safety and effectiveness of medications. His research is also exploring the use of genome sequencing to help diagnose and manage the treatment of rare genetic diseases.
URL:https://scienceinvancouver.com/event/development-utilization-of-in-vivo-systems-to-optimize-lipid-nanoparticles-for-therapeutic-genome-editing/
LOCATION:Online
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220729T120000
DTEND;TZID=America/Vancouver:20220729T130000
DTSTAMP:20260414T061605
CREATED:20220713T164118Z
LAST-MODIFIED:20220713T164118Z
UID:26574-1659096000-1659099600@scienceinvancouver.com
SUMMARY:Development & Utilization of In Vivo Systems to Optimize Lipid Nanoparticles for Therapeutic Genome Editing
DESCRIPTION:Genetic diseases are a leading cause of death and disability in Canada with immense economic and societal burdens. Gene therapy has emerged as a means to effectively treat genetic diseases; however\, current gene therapies are limited by their high manufacturing costs\, the inability to re-dose\, and the safety concerns of some viral vectors. \nCRISPR genome editing is a new therapeutic approach that aims to directly repair the underlying disease-causing mutations. Conventional CRISPR methods are limited as in vivo therapeutics because they introduce DNA breaks and cause frequent off-target edits. Newer base editors and prime editors overcome the limitations traditional CRISPR genome editing methods because they do not introduce DNA breaks. \nHowever\, the delivery of genome editors to affected tissues remains a challenge. Viral vectors\, such as AAV\, are unsuitable for genome editing because their long expression (years) increases the probability of unintended edits. In contrast\, the transient expression (hours-days) of RNA encoding genome editors via nanoparticles is well suited for genome editing\, and unlike viral vectors\, nanoparticles can be readministered. However\, nanoparticle delivery of complex genome editing cargos (large mRNA + small gRNA) remains a challenge\, especially to extra-hepatic target tissues such as muscle. To address this\, we are developing new ways to safely deliver these new editors using lipid nanoparticles. \nTo efficiently measure the in vivo effectiveness of genome editor delivery via LNPs\, we have developed transgenic mice that carry mutations in reporter genes. Precise gene repair of these mutations produce a functional enzyme that emits light (luminescence) that sensitive imagers can detect to precisely measure the location and extent of gene editing in living animals. We have made progress in our goal towards efficient and safe in vivo genome editing that we will share. \n\n\n\n\n\n\nDr. Colin Ross seeks to incorporate genomics into guiding\, optimising\, and developing novel therapeutics to improve the safety and effectiveness of medications. His research is also exploring the use of genome sequencing to help diagnose and manage the treatment of rare genetic diseases.
URL:https://scienceinvancouver.com/event/development-utilization-of-in-vivo-systems-to-optimize-lipid-nanoparticles-for-therapeutic-genome-editing-2/
LOCATION:Online
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220729T120000
DTEND;TZID=America/Vancouver:20220729T130000
DTSTAMP:20260414T061605
CREATED:20220713T164118Z
LAST-MODIFIED:20220713T164118Z
UID:28189-1659096000-1659099600@scienceinvancouver.com
SUMMARY:Development & Utilization of In Vivo Systems to Optimize Lipid Nanoparticles for Therapeutic Genome Editing
DESCRIPTION:Genetic diseases are a leading cause of death and disability in Canada with immense economic and societal burdens. Gene therapy has emerged as a means to effectively treat genetic diseases; however\, current gene therapies are limited by their high manufacturing costs\, the inability to re-dose\, and the safety concerns of some viral vectors. \nCRISPR genome editing is a new therapeutic approach that aims to directly repair the underlying disease-causing mutations. Conventional CRISPR methods are limited as in vivo therapeutics because they introduce DNA breaks and cause frequent off-target edits. Newer base editors and prime editors overcome the limitations traditional CRISPR genome editing methods because they do not introduce DNA breaks. \nHowever\, the delivery of genome editors to affected tissues remains a challenge. Viral vectors\, such as AAV\, are unsuitable for genome editing because their long expression (years) increases the probability of unintended edits. In contrast\, the transient expression (hours-days) of RNA encoding genome editors via nanoparticles is well suited for genome editing\, and unlike viral vectors\, nanoparticles can be readministered. However\, nanoparticle delivery of complex genome editing cargos (large mRNA + small gRNA) remains a challenge\, especially to extra-hepatic target tissues such as muscle. To address this\, we are developing new ways to safely deliver these new editors using lipid nanoparticles. \nTo efficiently measure the in vivo effectiveness of genome editor delivery via LNPs\, we have developed transgenic mice that carry mutations in reporter genes. Precise gene repair of these mutations produce a functional enzyme that emits light (luminescence) that sensitive imagers can detect to precisely measure the location and extent of gene editing in living animals. We have made progress in our goal towards efficient and safe in vivo genome editing that we will share. \n\n\n\n\n\n\nDr. Colin Ross seeks to incorporate genomics into guiding\, optimising\, and developing novel therapeutics to improve the safety and effectiveness of medications. His research is also exploring the use of genome sequencing to help diagnose and manage the treatment of rare genetic diseases.
URL:https://scienceinvancouver.com/event/development-utilization-of-in-vivo-systems-to-optimize-lipid-nanoparticles-for-therapeutic-genome-editing-3/
LOCATION:Online
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220729T120000
DTEND;TZID=America/Vancouver:20220729T130000
DTSTAMP:20260414T061605
CREATED:20220713T164118Z
LAST-MODIFIED:20220713T164118Z
UID:31272-1659096000-1659099600@scienceinvancouver.com
SUMMARY:Development & Utilization of In Vivo Systems to Optimize Lipid Nanoparticles for Therapeutic Genome Editing
DESCRIPTION:Genetic diseases are a leading cause of death and disability in Canada with immense economic and societal burdens. Gene therapy has emerged as a means to effectively treat genetic diseases; however\, current gene therapies are limited by their high manufacturing costs\, the inability to re-dose\, and the safety concerns of some viral vectors. \nCRISPR genome editing is a new therapeutic approach that aims to directly repair the underlying disease-causing mutations. Conventional CRISPR methods are limited as in vivo therapeutics because they introduce DNA breaks and cause frequent off-target edits. Newer base editors and prime editors overcome the limitations traditional CRISPR genome editing methods because they do not introduce DNA breaks. \nHowever\, the delivery of genome editors to affected tissues remains a challenge. Viral vectors\, such as AAV\, are unsuitable for genome editing because their long expression (years) increases the probability of unintended edits. In contrast\, the transient expression (hours-days) of RNA encoding genome editors via nanoparticles is well suited for genome editing\, and unlike viral vectors\, nanoparticles can be readministered. However\, nanoparticle delivery of complex genome editing cargos (large mRNA + small gRNA) remains a challenge\, especially to extra-hepatic target tissues such as muscle. To address this\, we are developing new ways to safely deliver these new editors using lipid nanoparticles. \nTo efficiently measure the in vivo effectiveness of genome editor delivery via LNPs\, we have developed transgenic mice that carry mutations in reporter genes. Precise gene repair of these mutations produce a functional enzyme that emits light (luminescence) that sensitive imagers can detect to precisely measure the location and extent of gene editing in living animals. We have made progress in our goal towards efficient and safe in vivo genome editing that we will share. \n\n\n\n\n\n\nDr. Colin Ross seeks to incorporate genomics into guiding\, optimising\, and developing novel therapeutics to improve the safety and effectiveness of medications. His research is also exploring the use of genome sequencing to help diagnose and manage the treatment of rare genetic diseases.
URL:https://scienceinvancouver.com/event/development-utilization-of-in-vivo-systems-to-optimize-lipid-nanoparticles-for-therapeutic-genome-editing-4/
LOCATION:Online
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220729T120000
DTEND;TZID=America/Vancouver:20220729T130000
DTSTAMP:20260414T061605
CREATED:20220713T164118Z
LAST-MODIFIED:20220713T164118Z
UID:32732-1659096000-1659099600@scienceinvancouver.com
SUMMARY:Development & Utilization of In Vivo Systems to Optimize Lipid Nanoparticles for Therapeutic Genome Editing
DESCRIPTION:Genetic diseases are a leading cause of death and disability in Canada with immense economic and societal burdens. Gene therapy has emerged as a means to effectively treat genetic diseases; however\, current gene therapies are limited by their high manufacturing costs\, the inability to re-dose\, and the safety concerns of some viral vectors. \nCRISPR genome editing is a new therapeutic approach that aims to directly repair the underlying disease-causing mutations. Conventional CRISPR methods are limited as in vivo therapeutics because they introduce DNA breaks and cause frequent off-target edits. Newer base editors and prime editors overcome the limitations traditional CRISPR genome editing methods because they do not introduce DNA breaks. \nHowever\, the delivery of genome editors to affected tissues remains a challenge. Viral vectors\, such as AAV\, are unsuitable for genome editing because their long expression (years) increases the probability of unintended edits. In contrast\, the transient expression (hours-days) of RNA encoding genome editors via nanoparticles is well suited for genome editing\, and unlike viral vectors\, nanoparticles can be readministered. However\, nanoparticle delivery of complex genome editing cargos (large mRNA + small gRNA) remains a challenge\, especially to extra-hepatic target tissues such as muscle. To address this\, we are developing new ways to safely deliver these new editors using lipid nanoparticles. \nTo efficiently measure the in vivo effectiveness of genome editor delivery via LNPs\, we have developed transgenic mice that carry mutations in reporter genes. Precise gene repair of these mutations produce a functional enzyme that emits light (luminescence) that sensitive imagers can detect to precisely measure the location and extent of gene editing in living animals. We have made progress in our goal towards efficient and safe in vivo genome editing that we will share. \n\n\n\n\n\n\nDr. Colin Ross seeks to incorporate genomics into guiding\, optimising\, and developing novel therapeutics to improve the safety and effectiveness of medications. His research is also exploring the use of genome sequencing to help diagnose and manage the treatment of rare genetic diseases.
URL:https://scienceinvancouver.com/event/development-utilization-of-in-vivo-systems-to-optimize-lipid-nanoparticles-for-therapeutic-genome-editing-5/
LOCATION:Online
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220730T013000
DTEND;TZID=America/Vancouver:20220730T050000
DTSTAMP:20260414T061605
CREATED:20220721T182947Z
LAST-MODIFIED:20220721T182947Z
UID:23277-1659144600-1659157200@scienceinvancouver.com
SUMMARY:Shim’s Ride
DESCRIPTION:Join Shim’s Ride and Praxis Spinal Cord Institute for a great summer event. Shim’s Ride began in 2020 as a ride among friends to raise awareness and funds for Mathew (Shim) so he could receive treatment and rehabilitation for his spinal cord injury (SCI). Once again\, the team is ready to make their annual event a success. \nThis year\, Shim’s Ride has decided to donate to Praxis. We are so grateful for the team and their support to donate 100% of proceeds to raise awareness and funds for SCI.
URL:https://scienceinvancouver.com/event/shims-ride/
LOCATION:Windsor Park\, 2451 Windsor Rd\, Victoria\, BC\, V8S 5H3\, Canada
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220730T013000
DTEND;TZID=America/Vancouver:20220730T050000
DTSTAMP:20260414T061605
CREATED:20220721T182947Z
LAST-MODIFIED:20220721T182947Z
UID:26576-1659144600-1659157200@scienceinvancouver.com
SUMMARY:Shim’s Ride
DESCRIPTION:Join Shim’s Ride and Praxis Spinal Cord Institute for a great summer event. Shim’s Ride began in 2020 as a ride among friends to raise awareness and funds for Mathew (Shim) so he could receive treatment and rehabilitation for his spinal cord injury (SCI). Once again\, the team is ready to make their annual event a success. \nThis year\, Shim’s Ride has decided to donate to Praxis. We are so grateful for the team and their support to donate 100% of proceeds to raise awareness and funds for SCI.
URL:https://scienceinvancouver.com/event/shims-ride-2/
LOCATION:Windsor Park\, 2451 Windsor Rd\, Victoria\, BC\, V8S 5H3\, Canada
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220730T013000
DTEND;TZID=America/Vancouver:20220730T050000
DTSTAMP:20260414T061605
CREATED:20220721T182947Z
LAST-MODIFIED:20220721T182947Z
UID:28191-1659144600-1659157200@scienceinvancouver.com
SUMMARY:Shim’s Ride
DESCRIPTION:Join Shim’s Ride and Praxis Spinal Cord Institute for a great summer event. Shim’s Ride began in 2020 as a ride among friends to raise awareness and funds for Mathew (Shim) so he could receive treatment and rehabilitation for his spinal cord injury (SCI). Once again\, the team is ready to make their annual event a success. \nThis year\, Shim’s Ride has decided to donate to Praxis. We are so grateful for the team and their support to donate 100% of proceeds to raise awareness and funds for SCI.
URL:https://scienceinvancouver.com/event/shims-ride-3/
LOCATION:Windsor Park\, 2451 Windsor Rd\, Victoria\, BC\, V8S 5H3\, Canada
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220730T013000
DTEND;TZID=America/Vancouver:20220730T050000
DTSTAMP:20260414T061605
CREATED:20220721T182947Z
LAST-MODIFIED:20220721T182947Z
UID:31274-1659144600-1659157200@scienceinvancouver.com
SUMMARY:Shim’s Ride
DESCRIPTION:Join Shim’s Ride and Praxis Spinal Cord Institute for a great summer event. Shim’s Ride began in 2020 as a ride among friends to raise awareness and funds for Mathew (Shim) so he could receive treatment and rehabilitation for his spinal cord injury (SCI). Once again\, the team is ready to make their annual event a success. \nThis year\, Shim’s Ride has decided to donate to Praxis. We are so grateful for the team and their support to donate 100% of proceeds to raise awareness and funds for SCI.
URL:https://scienceinvancouver.com/event/shims-ride-4/
LOCATION:Windsor Park\, 2451 Windsor Rd\, Victoria\, BC\, V8S 5H3\, Canada
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220730T013000
DTEND;TZID=America/Vancouver:20220730T050000
DTSTAMP:20260414T061605
CREATED:20220721T182947Z
LAST-MODIFIED:20220721T182947Z
UID:32734-1659144600-1659157200@scienceinvancouver.com
SUMMARY:Shim’s Ride
DESCRIPTION:Join Shim’s Ride and Praxis Spinal Cord Institute for a great summer event. Shim’s Ride began in 2020 as a ride among friends to raise awareness and funds for Mathew (Shim) so he could receive treatment and rehabilitation for his spinal cord injury (SCI). Once again\, the team is ready to make their annual event a success. \nThis year\, Shim’s Ride has decided to donate to Praxis. We are so grateful for the team and their support to donate 100% of proceeds to raise awareness and funds for SCI.
URL:https://scienceinvancouver.com/event/shims-ride-5/
LOCATION:Windsor Park\, 2451 Windsor Rd\, Victoria\, BC\, V8S 5H3\, Canada
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T040000
DTEND;TZID=America/Vancouver:20220804T045500
DTSTAMP:20260414T061605
CREATED:20220801T234622Z
LAST-MODIFIED:20220801T234622Z
UID:23417-1659585600-1659588900@scienceinvancouver.com
SUMMARY:SBME Presents: Mikhail Shapiro
DESCRIPTION:Talk: Biomolecular Ultrasound for Noninvasive Imaging and Control of Cellular Function\nOverview: The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small\, translucent specimens\, but are limited by the poor penetration of light into deeper tissues. In contrast\, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk\, I will describe our recent development of biomolecular reporters and actuators for ultrasound. The reporters are based on gas vesicles – a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves\, enabling their detection with ultrasound. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules\, engineering their mechanics and targeting at the genetic level\, developing methods to enhance their detection in vivo\, expressing them heterologously as reporter genes\, and turning them into dynamic sensors of enzyme activity. In addition to their applications in imaging\, gas vesicles can be used to control cellular location and function by serving as receivers of acoustic radiation force or seeding localized bubble cavitation. Additional remote control is provided by thermal bioswitches – biomolecules that provide switch-like control of gene expression in response to small changes in temperature. This allows us to use focused ultrasound to remote-control engineered cells in vivo.
URL:https://scienceinvancouver.com/event/sbme-presents-mikhail-shapiro/
LOCATION:Biomedical Research Centre\, Room 351
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/08/SBME-seminar-Mikhail-Shapiro-2022.08.04.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T040000
DTEND;TZID=America/Vancouver:20220804T045500
DTSTAMP:20260414T061605
CREATED:20220801T234622Z
LAST-MODIFIED:20220801T234622Z
UID:26579-1659585600-1659588900@scienceinvancouver.com
SUMMARY:SBME Presents: Mikhail Shapiro
DESCRIPTION:Talk: Biomolecular Ultrasound for Noninvasive Imaging and Control of Cellular Function\nOverview: The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small\, translucent specimens\, but are limited by the poor penetration of light into deeper tissues. In contrast\, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk\, I will describe our recent development of biomolecular reporters and actuators for ultrasound. The reporters are based on gas vesicles – a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves\, enabling their detection with ultrasound. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules\, engineering their mechanics and targeting at the genetic level\, developing methods to enhance their detection in vivo\, expressing them heterologously as reporter genes\, and turning them into dynamic sensors of enzyme activity. In addition to their applications in imaging\, gas vesicles can be used to control cellular location and function by serving as receivers of acoustic radiation force or seeding localized bubble cavitation. Additional remote control is provided by thermal bioswitches – biomolecules that provide switch-like control of gene expression in response to small changes in temperature. This allows us to use focused ultrasound to remote-control engineered cells in vivo.
URL:https://scienceinvancouver.com/event/sbme-presents-mikhail-shapiro-2/
LOCATION:Biomedical Research Centre\, Room 351
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/08/SBME-seminar-Mikhail-Shapiro-2022.08.04.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T040000
DTEND;TZID=America/Vancouver:20220804T045500
DTSTAMP:20260414T061605
CREATED:20220801T234622Z
LAST-MODIFIED:20220801T234622Z
UID:28194-1659585600-1659588900@scienceinvancouver.com
SUMMARY:SBME Presents: Mikhail Shapiro
DESCRIPTION:Talk: Biomolecular Ultrasound for Noninvasive Imaging and Control of Cellular Function\nOverview: The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small\, translucent specimens\, but are limited by the poor penetration of light into deeper tissues. In contrast\, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk\, I will describe our recent development of biomolecular reporters and actuators for ultrasound. The reporters are based on gas vesicles – a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves\, enabling their detection with ultrasound. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules\, engineering their mechanics and targeting at the genetic level\, developing methods to enhance their detection in vivo\, expressing them heterologously as reporter genes\, and turning them into dynamic sensors of enzyme activity. In addition to their applications in imaging\, gas vesicles can be used to control cellular location and function by serving as receivers of acoustic radiation force or seeding localized bubble cavitation. Additional remote control is provided by thermal bioswitches – biomolecules that provide switch-like control of gene expression in response to small changes in temperature. This allows us to use focused ultrasound to remote-control engineered cells in vivo.
URL:https://scienceinvancouver.com/event/sbme-presents-mikhail-shapiro-3/
LOCATION:Biomedical Research Centre\, Room 351
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/08/SBME-seminar-Mikhail-Shapiro-2022.08.04.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T040000
DTEND;TZID=America/Vancouver:20220804T045500
DTSTAMP:20260414T061605
CREATED:20220801T234622Z
LAST-MODIFIED:20220801T234622Z
UID:31277-1659585600-1659588900@scienceinvancouver.com
SUMMARY:SBME Presents: Mikhail Shapiro
DESCRIPTION:Talk: Biomolecular Ultrasound for Noninvasive Imaging and Control of Cellular Function\nOverview: The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small\, translucent specimens\, but are limited by the poor penetration of light into deeper tissues. In contrast\, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk\, I will describe our recent development of biomolecular reporters and actuators for ultrasound. The reporters are based on gas vesicles – a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves\, enabling their detection with ultrasound. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules\, engineering their mechanics and targeting at the genetic level\, developing methods to enhance their detection in vivo\, expressing them heterologously as reporter genes\, and turning them into dynamic sensors of enzyme activity. In addition to their applications in imaging\, gas vesicles can be used to control cellular location and function by serving as receivers of acoustic radiation force or seeding localized bubble cavitation. Additional remote control is provided by thermal bioswitches – biomolecules that provide switch-like control of gene expression in response to small changes in temperature. This allows us to use focused ultrasound to remote-control engineered cells in vivo.
URL:https://scienceinvancouver.com/event/sbme-presents-mikhail-shapiro-4/
LOCATION:Biomedical Research Centre\, Room 351
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/08/SBME-seminar-Mikhail-Shapiro-2022.08.04.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T040000
DTEND;TZID=America/Vancouver:20220804T045500
DTSTAMP:20260414T061605
CREATED:20220801T234622Z
LAST-MODIFIED:20220801T234622Z
UID:32737-1659585600-1659588900@scienceinvancouver.com
SUMMARY:SBME Presents: Mikhail Shapiro
DESCRIPTION:Talk: Biomolecular Ultrasound for Noninvasive Imaging and Control of Cellular Function\nOverview: The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small\, translucent specimens\, but are limited by the poor penetration of light into deeper tissues. In contrast\, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk\, I will describe our recent development of biomolecular reporters and actuators for ultrasound. The reporters are based on gas vesicles – a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves\, enabling their detection with ultrasound. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules\, engineering their mechanics and targeting at the genetic level\, developing methods to enhance their detection in vivo\, expressing them heterologously as reporter genes\, and turning them into dynamic sensors of enzyme activity. In addition to their applications in imaging\, gas vesicles can be used to control cellular location and function by serving as receivers of acoustic radiation force or seeding localized bubble cavitation. Additional remote control is provided by thermal bioswitches – biomolecules that provide switch-like control of gene expression in response to small changes in temperature. This allows us to use focused ultrasound to remote-control engineered cells in vivo.
URL:https://scienceinvancouver.com/event/sbme-presents-mikhail-shapiro-5/
LOCATION:Biomedical Research Centre\, Room 351
ATTACH;FMTTYPE=image/jpeg:https://scienceinvancouver.com/wp-content/uploads/sites/1/2022/08/SBME-seminar-Mikhail-Shapiro-2022.08.04.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T160000
DTEND;TZID=America/Vancouver:20220804T183000
DTSTAMP:20260414T061605
CREATED:20220719T170105Z
LAST-MODIFIED:20220725T174203Z
UID:23250-1659628800-1659637800@scienceinvancouver.com
SUMMARY:D.R.I.N.K.S. Vancouver
DESCRIPTION:The D.R.I.N.K.S. (Discussions Relevant to Inspiring New Knowledge and Science) social is held monthly at Mahoneys on Stamps Landing (Old Monk Mcqueens on False Creek at 601 Stamps Landing – http://mahonyandsons.com/). The purpose is to bring together faculty\, clinicians\, engineers\, nurses\, physio/rehab\, scientists\, residents\, trainees\, staff\, entrepreneurs\, bio/pharm/hospital staff/execs/veterans\, lawyers\, VCs\, journalists/editors\, philanthropists\, visiting scientists\, those on sabbaticals\, and others with common interests in biomedical/translational research & discovery/commercialization once a month to casually interact and meet new people over a beverage of their choice and/or appie. It’s a great way for people that have just moved to\, just visiting Vancouver\, looking for collaborations\, jobs\, funding\, connections for start-ups\, networking/socializing to meet others in medicine/research/bioengineering/industry. All are welcome! \n Integrated Nanotherapeutics will be sponsoring this month.
URL:https://scienceinvancouver.com/event/d-r-i-n-k-s-vancouver-4/
LOCATION:Mahony and Sons\, 601 Stamps Landing\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T160000
DTEND;TZID=America/Vancouver:20220804T183000
DTSTAMP:20260414T061605
CREATED:20220719T170105Z
LAST-MODIFIED:20220719T170105Z
UID:26575-1659628800-1659637800@scienceinvancouver.com
SUMMARY:D.R.I.N.K.S. Vancouver
DESCRIPTION:The D.R.I.N.K.S. (Discussions Relevant to Inspiring New Knowledge and Science) social is held monthly at Mahoneys on Stamps Landing (Old Monk Mcqueens on False Creek at 601 Stamps Landing – http://mahonyandsons.com/). The purpose is to bring together faculty\, clinicians\, engineers\, nurses\, physio/rehab\, scientists\, residents\, trainees\, staff\, entrepreneurs\, bio/pharm/hospital staff/execs/veterans\, lawyers\, VCs\, journalists/editors\, philanthropists\, visiting scientists\, those on sabbaticals\, and others with common interests in biomedical/translational research & discovery/commercialization once a month to casually interact and meet new people over a beverage of their choice and/or appie. It’s a great way for people that have just moved to\, just visiting Vancouver\, looking for collaborations\, jobs\, funding\, connections for start-ups\, networking/socializing to meet others in medicine/research/bioengineering/industry. All are welcome! \n Integrated Nanotherapeutics will be sponsoring this month.
URL:https://scienceinvancouver.com/event/d-r-i-n-k-s-vancouver-4-2/
LOCATION:Mahony and Sons\, 601 Stamps Landing\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T160000
DTEND;TZID=America/Vancouver:20220804T183000
DTSTAMP:20260414T061605
CREATED:20220719T170105Z
LAST-MODIFIED:20220719T170105Z
UID:28190-1659628800-1659637800@scienceinvancouver.com
SUMMARY:D.R.I.N.K.S. Vancouver
DESCRIPTION:The D.R.I.N.K.S. (Discussions Relevant to Inspiring New Knowledge and Science) social is held monthly at Mahoneys on Stamps Landing (Old Monk Mcqueens on False Creek at 601 Stamps Landing – http://mahonyandsons.com/). The purpose is to bring together faculty\, clinicians\, engineers\, nurses\, physio/rehab\, scientists\, residents\, trainees\, staff\, entrepreneurs\, bio/pharm/hospital staff/execs/veterans\, lawyers\, VCs\, journalists/editors\, philanthropists\, visiting scientists\, those on sabbaticals\, and others with common interests in biomedical/translational research & discovery/commercialization once a month to casually interact and meet new people over a beverage of their choice and/or appie. It’s a great way for people that have just moved to\, just visiting Vancouver\, looking for collaborations\, jobs\, funding\, connections for start-ups\, networking/socializing to meet others in medicine/research/bioengineering/industry. All are welcome! \n Integrated Nanotherapeutics will be sponsoring this month.
URL:https://scienceinvancouver.com/event/d-r-i-n-k-s-vancouver-4-3/
LOCATION:Mahony and Sons\, 601 Stamps Landing\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T160000
DTEND;TZID=America/Vancouver:20220804T183000
DTSTAMP:20260414T061605
CREATED:20220719T170105Z
LAST-MODIFIED:20220719T170105Z
UID:31273-1659628800-1659637800@scienceinvancouver.com
SUMMARY:D.R.I.N.K.S. Vancouver
DESCRIPTION:The D.R.I.N.K.S. (Discussions Relevant to Inspiring New Knowledge and Science) social is held monthly at Mahoneys on Stamps Landing (Old Monk Mcqueens on False Creek at 601 Stamps Landing – http://mahonyandsons.com/). The purpose is to bring together faculty\, clinicians\, engineers\, nurses\, physio/rehab\, scientists\, residents\, trainees\, staff\, entrepreneurs\, bio/pharm/hospital staff/execs/veterans\, lawyers\, VCs\, journalists/editors\, philanthropists\, visiting scientists\, those on sabbaticals\, and others with common interests in biomedical/translational research & discovery/commercialization once a month to casually interact and meet new people over a beverage of their choice and/or appie. It’s a great way for people that have just moved to\, just visiting Vancouver\, looking for collaborations\, jobs\, funding\, connections for start-ups\, networking/socializing to meet others in medicine/research/bioengineering/industry. All are welcome! \n Integrated Nanotherapeutics will be sponsoring this month.
URL:https://scienceinvancouver.com/event/d-r-i-n-k-s-vancouver-4-4/
LOCATION:Mahony and Sons\, 601 Stamps Landing\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220804T160000
DTEND;TZID=America/Vancouver:20220804T183000
DTSTAMP:20260414T061605
CREATED:20220719T170105Z
LAST-MODIFIED:20220719T170105Z
UID:32733-1659628800-1659637800@scienceinvancouver.com
SUMMARY:D.R.I.N.K.S. Vancouver
DESCRIPTION:The D.R.I.N.K.S. (Discussions Relevant to Inspiring New Knowledge and Science) social is held monthly at Mahoneys on Stamps Landing (Old Monk Mcqueens on False Creek at 601 Stamps Landing – http://mahonyandsons.com/). The purpose is to bring together faculty\, clinicians\, engineers\, nurses\, physio/rehab\, scientists\, residents\, trainees\, staff\, entrepreneurs\, bio/pharm/hospital staff/execs/veterans\, lawyers\, VCs\, journalists/editors\, philanthropists\, visiting scientists\, those on sabbaticals\, and others with common interests in biomedical/translational research & discovery/commercialization once a month to casually interact and meet new people over a beverage of their choice and/or appie. It’s a great way for people that have just moved to\, just visiting Vancouver\, looking for collaborations\, jobs\, funding\, connections for start-ups\, networking/socializing to meet others in medicine/research/bioengineering/industry. All are welcome! \n Integrated Nanotherapeutics will be sponsoring this month.
URL:https://scienceinvancouver.com/event/d-r-i-n-k-s-vancouver-4-5/
LOCATION:Mahony and Sons\, 601 Stamps Landing\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220816T090000
DTEND;TZID=America/Vancouver:20220816T120000
DTSTAMP:20260414T061605
CREATED:20220627T170732Z
LAST-MODIFIED:20220627T170732Z
UID:22889-1660640400-1660651200@scienceinvancouver.com
SUMMARY:SBME Synergy Research Day
DESCRIPTION:Join us this August to discover the exciting research being conducted by UBC’s undergraduate Synergy award-holders! \nIn the tradition of the CBR-SBME Summer Research Program\, Research Day is an opportunity for Synergy’s students to showcase their summer research projects\, hear an inspirational keynote talk\, and celebrate the end of the Summer Studentship Program (you can learn more about the Synergy program here). \nResearch Day provides an excellent platform for students to practice their presentation skills\, and learn more about the work being done in UBC’s world-class laboratories. Students will have the opportunity to present their summer work through lightning-round talks and a poster presentation.
URL:https://scienceinvancouver.com/event/sbme-synergy-research-day/
LOCATION:Life Sciences Centre\, 2350 Health Sciences Mall\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220816T090000
DTEND;TZID=America/Vancouver:20220816T120000
DTSTAMP:20260414T061605
CREATED:20220627T170732Z
LAST-MODIFIED:20220627T170732Z
UID:26567-1660640400-1660651200@scienceinvancouver.com
SUMMARY:SBME Synergy Research Day
DESCRIPTION:Join us this August to discover the exciting research being conducted by UBC’s undergraduate Synergy award-holders! \nIn the tradition of the CBR-SBME Summer Research Program\, Research Day is an opportunity for Synergy’s students to showcase their summer research projects\, hear an inspirational keynote talk\, and celebrate the end of the Summer Studentship Program (you can learn more about the Synergy program here). \nResearch Day provides an excellent platform for students to practice their presentation skills\, and learn more about the work being done in UBC’s world-class laboratories. Students will have the opportunity to present their summer work through lightning-round talks and a poster presentation.
URL:https://scienceinvancouver.com/event/sbme-synergy-research-day-2/
LOCATION:Life Sciences Centre\, 2350 Health Sciences Mall\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220816T090000
DTEND;TZID=America/Vancouver:20220816T120000
DTSTAMP:20260414T061605
CREATED:20220627T170732Z
LAST-MODIFIED:20220627T170732Z
UID:28182-1660640400-1660651200@scienceinvancouver.com
SUMMARY:SBME Synergy Research Day
DESCRIPTION:Join us this August to discover the exciting research being conducted by UBC’s undergraduate Synergy award-holders! \nIn the tradition of the CBR-SBME Summer Research Program\, Research Day is an opportunity for Synergy’s students to showcase their summer research projects\, hear an inspirational keynote talk\, and celebrate the end of the Summer Studentship Program (you can learn more about the Synergy program here). \nResearch Day provides an excellent platform for students to practice their presentation skills\, and learn more about the work being done in UBC’s world-class laboratories. Students will have the opportunity to present their summer work through lightning-round talks and a poster presentation.
URL:https://scienceinvancouver.com/event/sbme-synergy-research-day-3/
LOCATION:Life Sciences Centre\, 2350 Health Sciences Mall\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220816T090000
DTEND;TZID=America/Vancouver:20220816T120000
DTSTAMP:20260414T061605
CREATED:20220627T170732Z
LAST-MODIFIED:20220627T170732Z
UID:31265-1660640400-1660651200@scienceinvancouver.com
SUMMARY:SBME Synergy Research Day
DESCRIPTION:Join us this August to discover the exciting research being conducted by UBC’s undergraduate Synergy award-holders! \nIn the tradition of the CBR-SBME Summer Research Program\, Research Day is an opportunity for Synergy’s students to showcase their summer research projects\, hear an inspirational keynote talk\, and celebrate the end of the Summer Studentship Program (you can learn more about the Synergy program here). \nResearch Day provides an excellent platform for students to practice their presentation skills\, and learn more about the work being done in UBC’s world-class laboratories. Students will have the opportunity to present their summer work through lightning-round talks and a poster presentation.
URL:https://scienceinvancouver.com/event/sbme-synergy-research-day-4/
LOCATION:Life Sciences Centre\, 2350 Health Sciences Mall\, Vancouver
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Vancouver:20220816T090000
DTEND;TZID=America/Vancouver:20220816T120000
DTSTAMP:20260414T061605
CREATED:20220627T170732Z
LAST-MODIFIED:20220627T170732Z
UID:32725-1660640400-1660651200@scienceinvancouver.com
SUMMARY:SBME Synergy Research Day
DESCRIPTION:Join us this August to discover the exciting research being conducted by UBC’s undergraduate Synergy award-holders! \nIn the tradition of the CBR-SBME Summer Research Program\, Research Day is an opportunity for Synergy’s students to showcase their summer research projects\, hear an inspirational keynote talk\, and celebrate the end of the Summer Studentship Program (you can learn more about the Synergy program here). \nResearch Day provides an excellent platform for students to practice their presentation skills\, and learn more about the work being done in UBC’s world-class laboratories. Students will have the opportunity to present their summer work through lightning-round talks and a poster presentation.
URL:https://scienceinvancouver.com/event/sbme-synergy-research-day-5/
LOCATION:Life Sciences Centre\, 2350 Health Sciences Mall\, Vancouver
END:VEVENT
END:VCALENDAR