Biohybrid actuators in robotics: recent trends and future perspectives of skeletal and cardiac muscle integration
7.5
来源:
Nature
关键字:
optogenetics
发布时间:
2025-11-07 19:38
摘要:
The article reviews the integration of skeletal and cardiac muscle tissues in biohybrid robotics, highlighting their unique properties and applications. It discusses advancements in bioengineering techniques, such as 3D bioprinting, that enhance tissue functionality and integration. The review identifies challenges in achieving stability and scalability, while proposing future strategies for developing autonomous biohybrid systems. By leveraging the strengths of both muscle types, the potential for innovative applications in medical technology and robotics is emphasized.
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domain_focus
1.0
business_impact
0.5
scientific_rigor
1.5
timeliness_innovation
1.5
investment_perspective
2.5
market_value_relevance
1.0
team_institution_background
0.5
technical_barrier_competition
0.5
关键证据
The integration of living tissues with synthetic components enhances adaptability and energy efficiency in robotics.
Recent advancements in bioengineering, including 3D bioprinting, have addressed challenges in tissue fabrication.
The article identifies critical obstacles and proposes strategies for next-generation biohybrid robotic systems.
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AI评分总结
The article reviews the integration of skeletal and cardiac muscle tissues in biohybrid robotics, highlighting their unique properties and applications. It discusses advancements in bioengineering techniques, such as 3D bioprinting, that enhance tissue functionality and integration. The review identifies challenges in achieving stability and scalability, while proposing future strategies for developing autonomous biohybrid systems. By leveraging the strengths of both muscle types, the potential for innovative applications in medical technology and robotics is emphasized.