Xiao Kuang
@XiaoKuang7
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Assistant Professor @ UW-Madison. #Polymer, #Biomaterials, #AdvancedManufacturing, #Ultrasound,#Sustainability, #Bioengineering
Madison, WI
Joined November 2017
Excited and honored to be a part of this event today at the NIH campus with live demos of our recently developed ultrasound printing technology ( https://t.co/oPNsIz7iZQ)
@ScienceMagazine. Thanks again @NIBIBgov @NIH for the support! @BrighamResearch @harvardmed @yaojj02 @DukeU
science.org
Tailored inks allow for focused three-dimensional printing using ultrasound, even in opaque media or at deep penetration.
Today, we showcased some of the cutting-edge work we support, including innovative orthopedic implants, sickle cell disease research, 3D bioprinting with ultrasound, and more to congressional staff. Thanks to @aimbe for helping us make this happen!
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We are now in second round (first on the match list), please help us vote! It is based off our recent technology on deep-penetration acoustic volumetric printing ( https://t.co/oPNsIz6Lai).
@XiaoKuang7 @yaojj02 @BrighamResearch @harvardmed @DukeU
science.org
Tailored inks allow for focused three-dimensional printing using ultrasound, even in opaque media or at deep penetration.
.@shrikezhang’s team developed a way to 3D print inside the body, potentially eliminating the need for external printing & surgical implantation. The project is featured in this year’s STAT Madness: Vote here before round 1 ends on 3/7 at 11:59PM:
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Thanks so much again @NIBIBgov @NIH for the support and the storyline! @yaojj02 @BrighamResearch @harvardmed
Bioengineers @yaojj02 and @shrikezhang showed it’s possible to 3D print biocompatible structures through the skin and other tissues using ultrasound. Learn how this technique could lower the need for invasive procedures in the clinic: https://t.co/b1i1E3aE3n
#EWeek2024
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Years ago, at a DARPA program review, George Whitesides gave a presentation, which has since made a lasting impression on me. One of his slides mentioned “The Heilmeier Catechism” https://t.co/MTWafSH1gQ More concisely— What’s new? Who cares?
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Honored to lead this collaborative work in @ScienceMagazine between @shrikezhang and @yaojj02 groups. We would love to see one day clinicians use preclinical ultrasound to quickly repair/reconstruct tissues in our body without open surgery. https://t.co/sSbX2PL7jt
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This work was led by @XiaoKuang7 with Qiangzhou and Saud. Such a great collaboration from a number of different fields to bring to from conceptualization to reality. Congrats to the team again!
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Our deep penetration acoustic volumetric printing (DAVP) work for through tissue printing in @Science. Appreciate @NIBIBgov for featuring our work. Fantastic teamwork. Big congrats and thanks @shrikezhang @yaojj02
Through-tissue ultrasound 3D printing: NIH-funded researchers @yaojj02 and @shrikezhang have outlined a method in @Science to build biocompatible structures underneath multi-layered tissues. More here: https://t.co/SPCsAOI8ZF
@DukeEngineering @brighamresearch @harvardmed @DukeU
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Our acoustic volumetric 3D printing work on Science. Congrats to our team. Thanks, @shrikezhang and @yaojj02 for the great opportunity and support.
A new approach to #3Dprinting uses ultrasound waves to create objects from sonically cured inks. The approach in Science enables volumetric 3D printing even in opaque media or at deep penetration depths, including, potentially, inside the body. https://t.co/aOw8lMjVbt
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Our paper on coaxial bioprinting of all-natural tough hydrogel-based functional blood vessels as tissue models and implantable grafts is online! Thanks, @shrikezhang, @ProfZhaoMIT, the fantastic team, and the reviewers.
science.org
Rationally designed bioinks enable bioprinting of mechanically and physiologically relevant vascular conduits.
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Grayscale digital light processing 3D printing for highly functionally graded materials
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