Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention.

Manisha Singh, Jean Bonnemain, Caglar Ozturk, Brian Ayers, Mossab Y Saeed, Diego Quevedo-Moreno, Meagan Rowlett, Clara Park, Yiling Fan, Christopher T Nguyen, Ellen T Roche

December 2023 Nat Cardiovasc Res

Synopsis of Social media discussions

The discussions showcase enthusiasm for this biohybrid robotic platform, with phrases like 'Really cool stuff' and hashtags such as #MedTwitter and #STEMGirls, reflecting both technical interest and community engagement. The tone is positive and curious, emphasizing the innovation's scientific and medical relevance, but not delving deeply into technical critique or broader implications.

A
Agreement
 Moderate agreement

Most discussions express support or admiration for the technological advancement, with sentiments like 'Really cool stuff' and acknowledgment of the platform's novelty.

I
Interest
 High level of interest

Users are highly intrigued by the innovation, evidenced by enthusiastic language and hashtags emphasizing STEM fields and scientific communication.

E
Engagement
 Moderate level of engagement

The comments show moderate engagement, sharing excitement and basic analysis, such as recognizing the platform's potential and mentioning related fields.

I
Impact
 Moderate level of impact

While the reactions highlight potential significance, they are mostly preliminary and celebratory, indicating perceived but not yet fully realized impact.

Social Mentions

YouTube

5 Videos

Facebook

3 Posts

Twitter

4 Posts

Blogs

3 Articles

News

27 Articles

Metrics

Video Views

327

Total Likes

6

Extended Reach

22,137

Social Features

42

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

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Biohybrid Robotic Model of the Right Ventricle for Medical Research

The study introduces a soft robotic model of the right ventricle that accurately simulates its biomechanics and blood flow, facilitating advancements in RV-focused interventions and research into related health conditions.

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December 12, 2023

162 views

Biohybrid Robotic Right Ventricle for Medical Simulation and Intervention

Biohybrid Robotic Right Ventricle for Medical Simulation and Intervention

The study introduces a soft robotic model of the right ventricle that accurately simulates RV biomechanics and hemodynamics, crucial for advancing RV-focused medical interventions. Validated through tests on a porcine model, it shows potential for innovations in tricuspid valve repair.

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December 12, 2023

98 views

Biohybrid Robotic Model for Right Ventricular Function Simulation

Biohybrid Robotic Model for Right Ventricular Function Simulation

This video introduces a soft robotic model of the right ventricle that accurately simulates biomechanics and blood flow, aiding in medical interventions and research for RV-related health issues.

Дмитрий Кикоть

December 12, 2023

27 views

Robotic Biohybrid Model of the Right Ventricle for Medical Interventions

Robotic Biohybrid Model of the Right Ventricle for Medical Interventions

The robotic right ventricle is a biohybrid platform that simulates RV biomechanics and hemodynamics in health and disease, validated on a porcine model. This innovative model advances RV-focused medical interventions and therapeutic research.

Дмитрий Кикоть

December 12, 2023

24 views

Biohybrid Robotic Model of the Right Ventricle for Medical Research

Biohybrid Robotic Model of the Right Ventricle for Medical Research

The study introduces a soft robotic model that accurately simulates right ventricular biomechanics and hemodynamics, advancing RV-focused medical interventions. Validated through porcine tests, it holds promise for tricuspid valve repair and RV health research.

Дмитрий Кикоть

December 12, 2023

17 views

  • Dr. Monali Y. Desai, M.D.
    @drmonalidesai (Twitter)

    Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention https://t.co/4uPfmdKjad
    view full post

    January 7, 2024

    1

  • Physiology
    @Physiology24x7 (Twitter)

    Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions ... - https://t.co/qNJC0yIKGQ https://t.co/BvixIHKWtW
    view full post

    December 28, 2023

  • Skyler Lentz
    @SkylerLentz (Twitter)

    Wow a “robotic right ventricle” has been invented Really cool stuff “Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention” #MedTwitter #FOAMed #peoplesventricle https://t.co/XENW2bClJz
    view full post

    December 9, 2023

    5

  • ❤️Harold Coxeter is my math hero, prove me wrong.
    @deepgreendesign (Twitter)

    Robotic right ventricle is a biohybrid platform that simulates right ventricular function in (patho)physiological conditions and intervention | Nature Cardiovascular Research #STEMGirls #Mechatonics #SoftMatterPhysics #Design #SciComm https://t.co/OCsUCwI2mE
    view full post

    December 8, 2023

Abstract Synopsis

  • The study introduces a soft robotic model of the right ventricle (RV) that accurately simulates RV biomechanics and hemodynamics, crucial for advancing RV-focused medical interventions.
  • This model incorporates a biohybrid design, combining a chemically treated endocardial scaffold with synthetic materials, allowing it to replicate real-time blood flow scenarios, including both healthy and pathological conditions.
  • Validated through tests on a porcine model, the robotic right ventricle (RRV) demonstrates potential for innovations in tricuspid valve repair and sets the stage for further research into RV-related health issues.