Force-Bioreactor for Assessing Pharmacological Therapies for Mechanobiological Targets

Scholp, Austin; Jensen, Jordan; Chinnathambi, Sathivel; Atluri, Keerthi; Mendenhall, Alyssa; Fowler, Timothy P.; Salem, Aliasger K.; Martin, James A.; Sander, Edward A.

doi:10.3389/fbioe.2022.907611

Cited by 3 publications

(1 citation statement)

References 83 publications

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“…For instance, a study by Scholp et al (2022) demonstrated how bioreactors can be utilized to evaluate drug response, toxicity, and pharmacokinetics using humanderived cells or tissues. By mimicking physiological conditions, bioreactors offer a more relevant context for assessing the safety and efficacy of potential therapeutics, potentially reducing the reliance on animal models [288][289][290].…”

Section: Bioreactorsmentioning

confidence: 99%

The Long and Winding Road to Cardiac Regeneration

Sacco,

Castaldo,

Di Meglio

et al. 2023

Applied Sciences

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Cardiac regeneration is a critical endeavor in the treatment of heart diseases, aimed at repairing and enhancing the structure and function of damaged myocardium. This review offers a comprehensive overview of current advancements and strategies in cardiac regeneration, with a specific focus on regenerative medicine and tissue engineering-based approaches. Stem cell-based therapies, which involve the utilization of adult stem cells and pluripotent stem cells hold immense potential for replenishing lost cardiomyocytes and facilitating cardiac tissue repair and regeneration. Tissue engineering also plays a prominent role employing synthetic or natural biomaterials, engineering cardiac patches and grafts with suitable properties, and fabricating upscale bioreactors to create functional constructs for cardiac recovery. These constructs can be transplanted into the heart to provide mechanical support and facilitate tissue healing. Additionally, the production of organoids and chips that accurately replicate the structure and function of the whole organ is an area of extensive research. Despite significant progress, several challenges persist in the field of cardiac regeneration. These include enhancing cell survival and engraftment, achieving proper vascularization, and ensuring the long-term functionality of engineered constructs. Overcoming these obstacles and offering effective therapies to restore cardiac function could improve the quality of life for individuals with heart diseases.

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Section: Bioreactorsmentioning

confidence: 99%

The Long and Winding Road to Cardiac Regeneration

Sacco,

Castaldo,

Di Meglio

et al. 2023

Applied Sciences

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Capsule release surgery temporarily reduces contracture in a rat elbow model of arthrofibrosis

Scholp,

Jensen,

Fowler

et al. 2024

Journal Orthopaedic Research

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Elbow trauma can lead to joint contracture and reduced range of motion (ROM). Nonsurgical interventions can improve ROM, but in some cases capsule release surgery is required. Although surgery can improve ROM, it often does not restore full ROM. Thus, alternatives are needed. One approach is to target activated myofibroblasts, which are commonly associated with fibrotic tissue. Mechanical and biochemical cues drive a feedback loop that can result in normal or pathological healing. We hypothesize that this feedback loop exists in joint contracture and can be manipulated so that myofibroblast activity is reduced, normal healing is achieved, and ROM is improved. We previously demonstrated that blebbistatin can inhibit myofibroblast contractile forces and reduce collagen synthesis in vitro. Thus, the purpose of this study was to assess the use of blebbistatin in an animal model of elbow contracture, which was induced in 7 groups of 4 rats each (n = 28). All elbows were mechanically and histologically tested. The uninjured contralateral elbows of each rat were used as a control group. Capsule release surgery significantly improved (p < 0.01) outcomes 1 week after surgery compared to injury alone and was not significantly different from uninjured elbows. Three weeks after surgery, outcomes worsened, indicating joint stiffening consistent with what is observed clinically. The addition of blebbistatin did not significantly improve outcomes. Future work will investigate relationships among treatment, fibrotic tissue deposition, myofibroblast activity, and biomechanics to determine if blebbistatin is a useful adjunctive therapy for treating joint contracture.

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The Long and Winding Road to Cardiac Regeneration

Sacco¹,

Castaldo²,

Meglio³

et al. 2023

Preprint

View full text Add to dashboard Cite

Cardiac regeneration is a critical endeavor in the treatment of heart diseases, aimed at repairing and enhancing the structure and function of damaged myocardium. This review offers a comprehensive overview of current advancements and strategies in cardiac regeneration, with a specific focus on regenerative medicine and tissue engineering-based approaches. Stem cell-based therapies, which involve the utilization of adult stem cells and pluripotent stem cells hold immense potential for replenishing lost cardiomyocytes and facilitating cardiac tissue repair and regeneration. Tissue engineering also plays a prominent role employing synthetic or natural biomaterials, engineering cardiac patches and grafts with suitable properties, and fabricating upscale bioreactors to create functional constructs for cardiac recovery. These constructs can be transplanted into heart to provide mechanical support and facilitate tissue healing. Additionally, the production of organoids and chips that accurately replicate the structure and function of the whole organ is an area of extensive research. Despite significant progress, several challenges persist in the field of cardiac regeneration. These include enhancing cell survival and engraftment, achieving proper vascularization, and ensuring the long-term functionality of engineered constructs. Overcoming these obstacles offering effective therapies to restore cardiac function could improve the quality of life for individuals with heart diseases.

show abstract

Force-Bioreactor for Assessing Pharmacological Therapies for Mechanobiological Targets

Cited by 3 publications

References 83 publications

The Long and Winding Road to Cardiac Regeneration

The Long and Winding Road to Cardiac Regeneration

Capsule release surgery temporarily reduces contracture in a rat elbow model of arthrofibrosis

The Long and Winding Road to Cardiac Regeneration

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