A self-powered implantable and bioresorbable electrostimulation device for biofeedback bone fracture healing

Yao, Guang; Kang, Lei; Li, Cuicui; Chen, Sihong; Wang, Qian; Yang, Junzhe; Long, Yin; Li, Jun; Zhao, Kangning; Xu, Weina; Cai, Weibo; Lin, Yuan; Wang, Xudong

doi:10.1073/pnas.2100772118

Cited by 89 publications

(92 citation statements)

References 42 publications

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“…S3). These results reveal the good mechanical properties of MCL [ 25 ]. The flexible and mechanical properties ensure that the MCL can be conformally and seamlessly attached to the rabbit eyeball (Fig.…”

Section: Resultsmentioning

confidence: 93%

Multifunctional flexible contact lens for eye health monitoring using inorganic magnetic oxide nanosheets

et al. 2022

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As a non-invasive innovative diagnosis platform, advanced flexible contact lenses can dynamically monitor vital ocular indicators, spot abnormalities and provide biofeedback guidance for real-time diagnosis and rehabilitation tracking of chronic eye diseases. However, most of the state-of-the-art reported contact lenses either can only monitor a single indicator at a time or realize multifunctional integration based on multiple materials. Herein, we developed a flexible multifunctional contact lens based on inorganic γ-Fe2O3@NiO magnetic oxide nanosheets, which can be attached conformally and seamlessly to the eyeball to simultaneously monitor glucose level in tears, eyeball movement, and intraocular pressure. The optimized contact lens has a reliable glucose detection limit (0.43 μmol), superior eye movement measurement accuracy (95.27%) and high intraocular pressure sensitivity (0.17 MHz mmHg− 1). This work presents a concept in the biochemical and biophysical integrated sensing of ocular signals using contact lens via an innovative material, and provides a personalized and efficient way for health management. Graphical Abstract

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Section: Resultsmentioning

confidence: 93%

Multifunctional flexible contact lens for eye health monitoring using inorganic magnetic oxide nanosheets

et al. 2022

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“…When implementing in biological systems, the device platform serves a tool to optically and non-genetically interrogate neural activities, with possible utilities in drug screening 74 , brain-machine interfaces 75, 76 and prosthesis 77 . These wirelessly generated electrical signals can also possibly interrogate neurological disorders 78 , guide stem cell migration, modulate progenitor cell development 79, 80 and promote cell growth and regeneration 81, 82 . Additionally, the junction-dependent photovoltage could target electro-sensitive designer cells expressing voltage-dependent receptors for more cell-specific stimulations 83 .…”

Section: Discussionmentioning

confidence: 99%

Silicon Diode based Flexible and Bioresorbable Optoelectronic Interfaces for Selective Neural Excitation and Inhibition

Huang

Cui

Deng

et al. 2022

Preprint

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The capability to selectively and precisely modulate neural activities represents a powerful tool for neuroscience research and clinical therapeutics. Traditional electrical stimulations associate with bulky and tethered implants, and optogenetic methods rely on genetic modification for cell targeting. Here, we report an optoelectronic, non-genetic strategy for exciting and inhibiting neural activities, accomplished by bioresorbable, thin-film silicon (Si) diodes. Under illumination, these devices establish polarity-dependent, positive or negative voltages at the semiconductor/solution interface. Such photovoltaic signals enable deterministic depolarization and hyperpolarization of cultured neurons, upregulating and downregulating intracellular calcium dynamics in vitro. Furthermore, flexible, thin-film Si based devices mounted on the nerve tissue selectively activate and silence in vivo activities, both in the peripheral nerve and the brain. Finally, these Si membranes naturally dissolve within the animal body. Such a Si-based material and device platform offers broad potential for biomedical applications.

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“…Moreover, the negatively charged implant could promote preosteoblast adhesion and the osteogenic differentiation of MC3T3-E1 cells (Figure 4c). Yao et al designed an implantable and bioresorbable TENG that could be attached to living tissue and generate bidirectional electric pulses (Figure 4d) [41]. An island-bridge magnesium (Mg) layer served as both the bottom electrode and a triboelectric layer.…”

Section: Teng For Bone Repairmentioning

confidence: 99%

Electromechanical Nanogenerators for Cell Modulation

Liu

Wang

2022

Nanoenergy Advances

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Bioelectricity is an indispensable part of organisms and plays a vital role in cell modulation and tissue/organ development. The development of convenient and bio-safe electrical stimulation equipment to simulate endogenous bioelectricity for cell function modulation is of great significance for its clinical transformation. In this review, we introduce the advantages of an electromechanical nanogenerator (EMNG) as a source of electrical stimulation in the biomedical field and systematically overview recent advances in EMNGs for cell modulation, mainly including cell adhesion, migration, proliferation and differentiation. Finally, we emphasize the significance of self-powered and biomimetic electrostimulation in cell modulation and discuss its challenges and future prospects in both basic research and clinical translation.

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A self-powered implantable and bioresorbable electrostimulation device for biofeedback bone fracture healing

Cited by 89 publications

References 42 publications

Multifunctional flexible contact lens for eye health monitoring using inorganic magnetic oxide nanosheets

Multifunctional flexible contact lens for eye health monitoring using inorganic magnetic oxide nanosheets

Silicon Diode based Flexible and Bioresorbable Optoelectronic Interfaces for Selective Neural Excitation and Inhibition

Electromechanical Nanogenerators for Cell Modulation

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