Happening @ Michigan https://events.umich.edu/list/rss RSS Feed for Happening @ Michigan Events at the University of Michigan. 2021 BME Symposium (May 10, 2021 12:00pm) https://events.umich.edu/event/82858 82858-21203302@events.umich.edu Event Begins: Monday, May 10, 2021 12:00pm
Location: Off Campus Location
Organized By: Biomedical Engineering

To register please see:
https://myumi.ch/r8GzZ

The 2021 BME symposium will showcase our work in the areas of Imaging, Neural Engineering, Regenerative Medicine, and Precision Health. The event will take place over two days in the afternoons of Monday, May 10, 12:00 PM - 5:00 PM, and Tuesday, May 11, 12:00 PM - 5:00 PM. Each afternoon will include faculty talks, mini student dissertations, a panel discussion, and student poster sessions.

The goal of this event is to bring together faculty and students affiliated with BME from all parts of campus as a step toward building the BME community and celebrating accomplishments through difficult times while having an eye toward the future.

Please sign up and join us!

2021 U-M BME Symposium



May 10, 2021: 12:00 PM - 5:00 PM


Imaging at UM

May 10, 2021 - 12:00pm - 1:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: Doug Noll
12:00 - 12:15 - Zhongming Liu, “Preclinical MRI of brain-gut interactions”
12:15 - 12:30 - Nicole Seiberlich, “Translating Quantitative MRI to the Clinic”
12:30 - 12:45 - Yannis Paulus, “Multimodal Photoacoustic Microscopy, OCT, and Fluorescence Molecular and Cellular Imaging of the Retina”
12:45 - 1:05 - Student Dissertations
1:05 - 1:30 - Panel Discussion - “The Future of Imaging Research at Michigan” - Vikas Gulani, Jeff Fessler, Cheri Deng, Zhen Xu, Xueding Wang


Neural Engineering at UM

May 10, 2021 - 2:00pm - 3:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: Jim Weiland
2:00 - 2:15 - Kamran Diba, TBD
2:15 - 2:30 - Scott Lempka, TBD
2:30 - 2:45 - Deanna Gates, TBD
2:45 - 3:05 - Student Dissertations
3:05 - 3.30 - Panel Discussion - “The Science Fiction Future of Neural Engineering” - Cindy Chestek, Parag Patil, Tim Bruns, Bill Stacey


Poster Session: Imaging & Neural Engineering

May 10, 2021 - 4:00pm - 5:00pm
Location: Virtual/Spatial Chat

This poster session will give BME students a chance to present and discuss their research in the areas of Imaging and Neural Engineering.


May 11, 2021: 12:00 PM - 5:00 PM


Regenerative Medicine at UM

May 11, 2021 - 12:00pm - 1:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: Lonnie Shea
12:00 - 12:15 - Carlos Aguilar, ”Understanding & Re-Writing Stem Cell Programs to Live Forever.”
12:15 - 12:30 - Idse Heemskerk, “Predicting cell fate from signaling history in human pluripotent stem cells”
12:30 - 12:45 - Ariella Shikanov, TBD
12:45 - 1:05 - Student Dissertations
1:05 - 1:30 - Panel Discussion - "Grand Challenges in Regenerative Medicine" - Dave Kohn


Precision Health at UM

May 11, 2021 - 2:00pm - 3:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: TBD
2:00 - 2:15 - Sriram Chandrasekharan, TBD
2:15 - 2: 30 - James Moon, TBD
2:30 - 2:45 - Deepak Nagrath, TBD
2:45 - 3:05 - Student Dissertations
3:05 - 3:30 - Panel Discussion - "Hope or Hype for Treating Diseases" - James Moon, Sriram Chandrasekharan, Deepak Nagrath



Poster Session: Regenerative Medicine & Precision Health


May 11, 2021 - 4:00pm - 5:00pm
Location: Virtual/Spatial Chat


This poster session will give BME students a chance to present and discuss their research in the areas of Regenerative Medicine and Precision Health.

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Conference / Symposium Thu, 22 Apr 2021 13:38:37 -0400 2021-05-10T12:00:00-04:00 2021-05-10T17:00:00-04:00 Off Campus Location Biomedical Engineering Conference / Symposium BME Logo
2021 BME Symposium (May 11, 2021 12:00pm) https://events.umich.edu/event/82858 82858-21555869@events.umich.edu Event Begins: Tuesday, May 11, 2021 12:00pm
Location: Off Campus Location
Organized By: Biomedical Engineering

To register please see:
https://myumi.ch/r8GzZ

The 2021 BME symposium will showcase our work in the areas of Imaging, Neural Engineering, Regenerative Medicine, and Precision Health. The event will take place over two days in the afternoons of Monday, May 10, 12:00 PM - 5:00 PM, and Tuesday, May 11, 12:00 PM - 5:00 PM. Each afternoon will include faculty talks, mini student dissertations, a panel discussion, and student poster sessions.

The goal of this event is to bring together faculty and students affiliated with BME from all parts of campus as a step toward building the BME community and celebrating accomplishments through difficult times while having an eye toward the future.

Please sign up and join us!

2021 U-M BME Symposium



May 10, 2021: 12:00 PM - 5:00 PM


Imaging at UM

May 10, 2021 - 12:00pm - 1:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: Doug Noll
12:00 - 12:15 - Zhongming Liu, “Preclinical MRI of brain-gut interactions”
12:15 - 12:30 - Nicole Seiberlich, “Translating Quantitative MRI to the Clinic”
12:30 - 12:45 - Yannis Paulus, “Multimodal Photoacoustic Microscopy, OCT, and Fluorescence Molecular and Cellular Imaging of the Retina”
12:45 - 1:05 - Student Dissertations
1:05 - 1:30 - Panel Discussion - “The Future of Imaging Research at Michigan” - Vikas Gulani, Jeff Fessler, Cheri Deng, Zhen Xu, Xueding Wang


Neural Engineering at UM

May 10, 2021 - 2:00pm - 3:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: Jim Weiland
2:00 - 2:15 - Kamran Diba, TBD
2:15 - 2:30 - Scott Lempka, TBD
2:30 - 2:45 - Deanna Gates, TBD
2:45 - 3:05 - Student Dissertations
3:05 - 3.30 - Panel Discussion - “The Science Fiction Future of Neural Engineering” - Cindy Chestek, Parag Patil, Tim Bruns, Bill Stacey


Poster Session: Imaging & Neural Engineering

May 10, 2021 - 4:00pm - 5:00pm
Location: Virtual/Spatial Chat

This poster session will give BME students a chance to present and discuss their research in the areas of Imaging and Neural Engineering.


May 11, 2021: 12:00 PM - 5:00 PM


Regenerative Medicine at UM

May 11, 2021 - 12:00pm - 1:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: Lonnie Shea
12:00 - 12:15 - Carlos Aguilar, ”Understanding & Re-Writing Stem Cell Programs to Live Forever.”
12:15 - 12:30 - Idse Heemskerk, “Predicting cell fate from signaling history in human pluripotent stem cells”
12:30 - 12:45 - Ariella Shikanov, TBD
12:45 - 1:05 - Student Dissertations
1:05 - 1:30 - Panel Discussion - "Grand Challenges in Regenerative Medicine" - Dave Kohn


Precision Health at UM

May 11, 2021 - 2:00pm - 3:30pm
Location: Virtual/Zoom
Livestream Available (Visible After Registration)

Moderator: TBD
2:00 - 2:15 - Sriram Chandrasekharan, TBD
2:15 - 2: 30 - James Moon, TBD
2:30 - 2:45 - Deepak Nagrath, TBD
2:45 - 3:05 - Student Dissertations
3:05 - 3:30 - Panel Discussion - "Hope or Hype for Treating Diseases" - James Moon, Sriram Chandrasekharan, Deepak Nagrath



Poster Session: Regenerative Medicine & Precision Health


May 11, 2021 - 4:00pm - 5:00pm
Location: Virtual/Spatial Chat


This poster session will give BME students a chance to present and discuss their research in the areas of Regenerative Medicine and Precision Health.

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Conference / Symposium Thu, 22 Apr 2021 13:38:37 -0400 2021-05-11T12:00:00-04:00 2021-05-11T17:00:00-04:00 Off Campus Location Biomedical Engineering Conference / Symposium BME Logo
Connecting Education Innovation to Activism (May 12, 2021 12:00pm) https://events.umich.edu/event/83807 83807-21538170@events.umich.edu Event Begins: Wednesday, May 12, 2021 12:00pm
Location: Off Campus Location
Organized By: RISE (Research. Innovation. Scholarship. Education.)

R.I.S.E., the Center for Academic Innovation, and the Center for Research on Learning & Teaching (CRLT) invite you to join a Virtual Talking Circle (VTC) to discuss unique connections between education innovation & activism.

This collaboration across the University will serve as a first step in building a community interested in designing and promoting education innovation to improve society.

Anyone interested in education innovation and/or social justice and activism is invited!  We want to learn who is already doing this important work and identify potential collaborations across the University.

Please join us on Wednesday, May 12, 2021 from 12:00 - 1:00 PM

Register via Eventbrite

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Workshop / Seminar Tue, 20 Apr 2021 06:37:52 -0400 2021-05-12T12:00:00-04:00 2021-05-12T13:00:00-04:00 Off Campus Location RISE (Research. Innovation. Scholarship. Education.) Workshop / Seminar RISE Virtual Talking Circle
RNA Seminar featuring: Thomas Martinez, Salk Institute for Biological Studies (May 17, 2021 4:00pm) https://events.umich.edu/event/81303 81303-20881903@events.umich.edu Event Begins: Monday, May 17, 2021 4:00pm
Location: Off Campus Location
Organized By: Center for RNA Biomedicine

Registration Required: https://umich.zoom.us/webinar/register/WN_90RkcQTGQZa7ifQ8kbSdNQ

KEYOWORDS: microprotein, smORF, ribosome profiling

ABSTRACT: Functional protein-coding small open reading frames (smORFs) are emerging as an important class of genes. Several smORF-encoded microproteins have been characterized and implicated in a variety of critical processes, including regulation of mRNA decay, DNA repair, and muscle formation. Thus, rigorous and comprehensive annotation of protein-coding smORFs is critical to our understanding of basic biology and physiology, as well as disease. We recently developed an improved workflow that integrates de novo transcriptome assembly and ribosome profiling to overcome obstacles with previous methods to more confidently annotate thousands of novel smORFs across multiple human cell lines, including hundreds encoded on putative non-coding RNAs. Over 1,500 smORFs are found in two or more cell lines, and ~40% lack a canonical AUG start codon. Evolutionary conservation analyses suggest that hundreds of smORF-encoded microproteins are likely functional. We also find that smORF-derived peptides are detectable on human leukocyte antigen complexes, positioning smORFs as a source of novel antigens. The annotation of protein-coding smORFs radically alters the current view of the human genome’s coding capacity and will provide a rich pool of unexplored, functional human genes.

BIO: Thomas received his B.S. in Biological Engineering from MIT and trained in Prof. JoAnne Stubbe’s laboratory, where he studied the mechanism of ribonucleotide reductase. He then recieved his Ph.D. in Biochemistry & Molecular Biophysics from Caltech as an NIH NRSA predoctoral fellow under the mentorship of Prof. Peter Dervan. His thesis work focused primarily on characterizing the effects of DNA binding pyrrole-imidazole polyamides on DNA replication in prostate cancer cells. Thomas is currently an NIH NRSA postdoctoral fellow in Prof. Alan Saghatelian’s laboratory, where he has developed an integrative platform combining ribosome profiling and de novo transcriptome assembly to discover functional smORF encoded microproteins in the human genome.

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Lecture / Discussion Wed, 14 Apr 2021 12:39:54 -0400 2021-05-17T16:00:00-04:00 2021-05-17T17:00:00-04:00 Off Campus Location Center for RNA Biomedicine Lecture / Discussion Thomas Martinez, Salk Institute for Biological Studies
Precision Health Webinar (May 25, 2021 1:00pm) https://events.umich.edu/event/83924 83924-21617135@events.umich.edu Event Begins: Tuesday, May 25, 2021 1:00pm
Location: Off Campus Location
Organized By: Precision Health

Precision Health at the University of Michigan (U-M) invites you to engage with two outstanding Scholars who have been funded by Precision Health to develop their research.
Arun Subramaniyan, BE, MS (graduate student, College of Engineering): “Hardware-accelerated systems for next-generation sequencing analysis”

Alyse Krausz, BS, MS (graduate student research assistant, Biomedical Engineering): “A Point-of-Care Microfluidic System for Traumatic Brain Injury Diagnosis and Prognosis”

You'll hear more about their work and how they used Precision Health resources in these innovative projects.

**Please register to attend. We will send a link to the virtual presentation a few days in advance. We hope you'll join us!**

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Livestream / Virtual Tue, 04 May 2021 13:45:53 -0400 2021-05-25T13:00:00-04:00 2021-05-25T14:00:00-04:00 Off Campus Location Precision Health Livestream / Virtual May 2021 PH Webinar
PhD Defense: Edward Peter Washabaugh IV (May 27, 2021 10:00am) https://events.umich.edu/event/84050 84050-21619709@events.umich.edu Event Begins: Thursday, May 27, 2021 10:00am
Location: Off Campus Location
Organized By: Biomedical Engineering

Injuries to the neuromusculoskeletal systems often result in muscle weakness, abnormal coordination strategies, and gait impairments. Functional resistance training during walking—where a patient walks while a device increases loading on the leg—is an emerging approach to combat these symptoms. While simple passive devices (i.e., ankle weights and resistance bands) can be applied for this training, rehabilitation robots have more potential upside because they can be controlled to treat multiple gait abnormalities and can be monitored by clinicians. However, the cost of conventional robotic devices limits their use in the clinical or home setting. Hence, in this dissertation, we designed, developed, and tested passive and semi-passive wearable exoskeleton devices as a low-cost solution for providing controllable/configurable functional resistance training during walking.


We developed and tested two passive exoskeleton devices for providing resistance to walking and tested their effects on able-bodied participants and stroke survivors. First, we created a patented device that used a passive magnetic brake to provide a viscous (i.e., velocity-dependent) resistance to the knee. The resistive properties of the device could be placed under computer control (i.e., made semi-passive) to control resistance in real-time. Next, we created a passive exoskeleton that provided an elastic (i.e., position-dependent) resistance. While not controllable, this device was highly configurable. Meaning it could be used to provide resistance to joint flexion, extension, or to both (i.e., bidirectionally). Human subjects testing with these devices indicated they increased lower-extremity joint moments, powers, and muscle activation during training. Training also resulted in significant aftereffects—a potential indicator of therapeutic effectiveness—once the resistance was removed. A separate experiment indicated that individuals often kinematically slack (i.e., reduce joint excursions to minimize effort) when resistance is added to the limb. We also found that providing visual feedback of joint angles during training significantly increased muscle activation and kinematic aftereffects (i.e., reduced slacking).


With passive devices, the type of passive element used largely dictates the muscle groups, types of muscle contraction, joint actions, and the phases of gait when a device is able to apply resistance. To examine this issue, we compared the training effects of viscous and elastic devices that provided bidirectional resistance to the knee during gait. Additionally, we compared training with viscous resistances at the hip and knee joints. While the resistance type and targeted joint altered moments, powers, and muscle activation patterns, these methods did not differ in their ability to produce aftereffects, alter neural excitability, or induce fatigue in the leg muscles. While this may indicate that the resistance type does not have a large effect on functional resistance training during walking, it is possible that an extended training with these devices could produce a different result.


Lastly, we used musculoskeletal modeling in OpenSim to directly compare several strategies that have been used to provide functional resistance training to gait in the clinic or laboratory setting. We found that devices differed in their ability to alter gait parameters during walking. Hence, these findings could help clinicians when selecting a resistive strategy for their patients, or engineers when designing new devices or control schemes.



Date: Thursday, May 27, 2021

Time: 10:00 AM

Zoom: https://umich.zoom.us/meeting/register/tJIufumrrDgtHd3z5Jg3Y_BG4ZC70OPrjTjk (Zoom link requires prior registration)

Chair: Dr. Chandramouli Krishnan

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Lecture / Discussion Fri, 14 May 2021 13:49:26 -0400 2021-05-27T10:00:00-04:00 2021-05-27T11:00:00-04:00 Off Campus Location Biomedical Engineering Lecture / Discussion BME Logo