NIR-Propelled Biomimetic Nanomotors for Photothermal/Chemodynamic/NO Synergistic Tumor Therapy [0.03%]
近红外驱动的仿生纳米马达用于光热/化学动力/一氧化氮协同肿瘤治疗
Ming Yang,Jian Hu,Zerui Li et al.
Ming Yang et al.
Multimodal nanotherapeutic systems capable of integrating photothermal, catalytic, and gas-mediated strategies offer powerful opportunities to overcome the limitations of single-mode cancer therapies. Here, we develop a near-infrared (NIR) ...
Hierarchical Tissue-Specific Modeling of Pathology Images Predicts Response in HER2+ Breast Cancer [0.03%]
HER2阳性乳腺癌病理图像的层次组织特异性建模预测响应
Wensheng Cui,Tao Tan,Ming Fan et al.
Wensheng Cui et al.
The structural and spatial heterogeneity of the tumor microenvironment in human epidermal growth factor receptor 2-positive (HER2+) breast cancer (HER2+BC) poses major challenges for predicting pathologic complete response (pCR) to neoadjuv...
Space Physiology and Technology: Adaptations, Countermeasures, and Opportunities for Wearable Systems [0.03%]
空间生理学与技术:适应性、应对措施及可穿戴系统的机会
Shamas U E Khan,Rejin J Varghese,Panagiotis Kassanos et al.
Shamas U E Khan et al.
Space poses substantial challenges for humans, leading to physiological adaptations in response to an environment vastly different from Earth. A comprehensive understanding of these physiological adaptations is necessary to develop effectiv...
Jellyfish-Inspired Ultrafast and Versatile Magnetic Soft Robots for Biomedical Applications [0.03%]
受水母启发的用于生物医学应用的超快多功能磁控软体机器人
Yuxuan Sun,Ruiqi Liu,Chiyuan Ma et al.
Yuxuan Sun et al.
Achieving rapid and adaptive locomotion in soft robots is essential for navigating complex environments and enabling diverse real-world functions. Here, we present a jellyfish-inspired magnetic soft robot (J-MSR) capable of ultrafast swimmi...
Wearable Fabric Electrotactile System with Stimulation-Inhibition Electrode Units [0.03%]
具有刺激抑制电极单元的可穿戴织物电触觉系统
Hongbo Yao,Delong Li,Wenjun Zhang et al.
Hongbo Yao et al.
Tactile feedback is crucial for enhancing the virtual-reality (VR) interaction experience. However, current electrotactile devices suffer from issues such as current diffusion and electrode crosstalk, limiting spatial accuracy. To address t...
Octopus-Inspired Underwater Gripper with Rapid Stiffness Tuning and Robot Enabling Upward Transport [0.03%]
Mingxin Wu,Yurong Liu,Jiaxi Wu et al.
Mingxin Wu et al.
Underwater operations-such as marine environmental protection, resource recovery, and seabed exploration-require grippers with high adaptability. Existing rigid and soft grippers are constrained by their inherent material limitations, restr...
Pinecone-Inspired Water-Responsive Curling Adhesive Conduit for Peripheral Nerve Repair [0.03%]
受松果启发的水响应卷曲粘合导管外周神经修复
Xiaolei Guo,Jinwei Li,Hongyu Xu et al.
Xiaolei Guo et al.
Neural guidance conduits represent a promising approach for treating peripheral nerve injuries. However, challenges remain, including the complexity of microsuturing, potential iatrogenic damage, and variations in nerve dimensions. Inspired...
Construction, Control, and Application of Cyborg Animal Composed of Biological and Electromechanical Systems [0.03%]
生物与机电系统融合的仿生机器动物的构建、控制及应用研究进展
Yue Ma,Chuang Zhang,Fei Nie et al.
Yue Ma et al.
The limitations of biohybrid and mechanical robots, including insufficient control accuracy, limited flexibility, long-term stability, and endurance, have spurred considerable research interest in cyborg animals, which leverage the innate l...
A High-Speed Visual BCI Based on Hybrid Frequency-Phase-Space Encoding and High-Density EEG Decoding [0.03%]
一种基于混合频率-相位空间编码和高密度脑电解码的高速视觉BCI系统
Gege Ming,Weihua Pei,Sen Tian et al.
Gege Ming et al.
Brain-computer interface (BCI) technology establishes a direct communication pathway between the brain and external devices. Current visual BCI systems suffer from insufficient information transfer rates (ITRs) for practical use. Spatial in...
A Mechanotransduction-Aware Strategy for Enhancing MSC Potency via 3D Culture and Localized Delivery [0.03%]
一种通过三维培养和局部递送增强间充质干细胞潜能的机械转导意识策略
Xuyu Gu,Jijun Sun,Yifei Zhou et al.
Xuyu Gu et al.
Acute lung injury (ALI) is characterized by uncontrolled inflammation, oxidative stress, and fibrotic remodeling, yet mesenchymal stem cell (MSC) therapies remain limited by poor retention and insufficient microenvironmental adaptation. Her...