Search Results - "Jenna, Usprech"

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  1. 1

    Microdevice arrays with strain sensors for 3D mechanical stimulation and monitoring of engineered tissues by Liu, Haijiao, MacQueen, Luke A., Usprech, Jenna F., Maleki, Hoda, Sider, Krista L., Doyle, Matthew G., Sun, Yu, Simmons, Craig A.

    Published in Biomaterials (01-07-2018)
    “…Native and engineered tissue development are regulated by the integrative effects of multiple microenvironmental stimuli. Microfabricated bioreactor array…”
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    Journal Article
  2. 2

    Combinatorial screen of dynamic mechanical stimuli for predictive control of MSC mechano-responsiveness by Liu, Haijiao, Usprech, Jenna F, Parameshwar, Prabu Karthick, Sun, Yu, Simmons, Craig A

    Published in Science advances (01-05-2021)
    “…Mechanobiological-based control of mesenchymal stromal cells (MSCs) to facilitate engineering and regeneration of load-bearing tissues requires systematic…”
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    Journal Article
  3. 3

    An Anatomy and Physiology Course for Engineers Involving the “Design” of Integrated, Anatomically Unique Creatures by Usprech, Jenna, Krebs, Claudia

    Published in The FASEB journal (01-05-2022)
    “…Overview This focuses on a distinctive group project in an introductory anatomy and physiology course for upper‐year undergraduate and graduate engineering…”
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    Journal Article
  4. 4

    A microfabricated platform with hydrogel arrays for 3D mechanical stimulation of cells by Liu, Haijiao, Usprech, Jenna, Sun, Yu, Simmons, Craig A.

    Published in Acta biomaterialia (01-04-2016)
    “…[Display omitted] Cellular microenvironments present cells with multiple stimuli, including not only soluble biochemical and insoluble matrix cues but also…”
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    Journal Article
  5. 5

    Combinatorial screening of 3D biomaterial properties that promote myofibrogenesis for mesenchymal stromal cell-based heart valve tissue engineering by Usprech, Jenna, Romero, David A., Amon, Cristina H., Simmons, Craig A.

    Published in Acta biomaterialia (01-08-2017)
    “…[Display omitted] The physical and chemical properties of a biomaterial integrate with soluble cues in the cell microenvironment to direct cell fate and…”
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    Journal Article
  6. 6
  7. 7

    Heart valve regeneration: the need for systems approaches by Usprech, Jenna, Chen, Wen Li Kelly, Simmons, Craig A.

    “…Tissue‐engineered heart valves are promising alternatives to address the limitations of current valve replacements, particularly for growing children. Current…”
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    Journal Article
  8. 8

    Utilizing Combinatorial Screening Platforms and Modelling Techniques to Predict Optimal Design Conditions for 3D Mesenchymal Stromal Cell Based Heart Valve Tissue Engineering by Usprech, Jenna

    Published 01-01-2018
    “…Microenvironmental factors such as biomaterial physical and chemical properties, mechanical stimuli, and soluble chemical cues integrate in vivo to direct the…”
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    Dissertation
  9. 9
  10. 10

    The Therapeutic Potential of Exogenous Adenosine Triphosphate (ATP) for Cartilage Tissue Engineering by Usprech, Jenna, Chu, Gavin, Giardini-Rosa, Renata, Martin, Kathleen, Waldman, Stephen D.

    Published in Cartilage (01-10-2012)
    “…Objective: While mechanical stimuli can be used to enhance the properties of engineered cartilage, a promising alternative may be to directly harness the…”
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    Journal Article
  11. 11

    A therapeutic dose of adenosine triphosphate (ATP) for cartilage tissue engineering by Usprech, Jenna Felice

    Published 01-01-2010
    “…Tissue engineering holds great promise for developing functional tissue to repair damaged articular cartilage. However, cartilaginous tissues formed in vitro…”
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    Dissertation
  12. 12

    Microdevice arrays for identifying 3D mechanical stimulation conditions in tissue engineering by Haijiao Liu, Usprech, Jenna, Simmons, Craig, Yu Sun

    “…Current platforms for three dimensional (3D) mechanical stimulation of engineered load-bearing tissues have limited throughput and capability to investigate…”
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    Conference Proceeding
  13. 13

    A therapeutic dose of adenosine triphosphate (ATP) for cartilage tissue engineering by Usprech, Jenna Felice

    “…Tissue engineering holds great promise for developing functional tissue to repair damaged articular cartilage. However, cartilaginous tissues formed in vitro…”
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    Dissertation