A multi-depth spiral milli fluidic device for whole mount zebrafish antibody staining

IF 3 4区 医学 Q3 ENGINEERING, BIOMEDICAL Biomedical Microdevices Pub Date : 2023-08-15 DOI:10.1007/s10544-023-00670-2
Songtao Ye, Wei-Chun Chin, Chih-Wen Ni
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Abstract

Whole mount zebrafish antibody staining (ABS) is a common staining technique used to localize protein information in a zebrafish embryo or larva. Like most biological assays, the whole mount zebrafish ABS is still largely conducted manually through labor intensive and time-consuming steps which affect both consistency and throughput of the assay. In this work, we develop a milli fluidic device that can automatically trap and immobilize the fixed chorion-less zebrafish embryos for the whole mount ABS. With just a single loading step, the zebrafish embryos can be trapped by the milli fluidic device through a chaotic hydrodynamic trapping process. Moreover, a consistent body orientation (i.e., head point inward) for the trapped zebrafish embryos can be achieved without additional orientation adjustment device. Furthermore, we employed a consumer-grade SLA 3D printer assisted method for device prototyping which is ideal for labs with limited budgets. Notably, the milli fluidic device has enabled the optimization and successful implementation of whole mount zebrafish Caspase-3 ABS. We demonstrated our device can accelerate the overall procedure by reducing at least 50% of washing time in the standard well-plate-based manual procedure. Also, the consistency is improved, and manual steps are reduced using the milli fluidic device. This work fills the gap in the milli fluidic application for whole mount zebrafish immunohistochemistry. We hope the device can be accepted by the zebrafish community and be used for other types of whole mount zebrafish ABS procedures or expanded to more complicated in situ hybridization (ISH) procedure.

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一种用于斑马鱼抗体染色的多深度螺旋微流体装置。
全量斑马鱼抗体染色(ABS)是一种常见的染色技术,用于定位斑马鱼胚胎或幼虫中的蛋白质信息。与大多数生物测定一样,整个斑马鱼ABS在很大程度上仍然是通过劳动密集和耗时的步骤手动进行的,这会影响测定的一致性和产量。在这项工作中,我们开发了一种微流体设备,该设备可以自动捕获和固定固定的无绒毛斑马鱼胚胎,用于整个安装ABS。只需一个加载步骤,斑马鱼胚胎就可以通过混沌流体动力学捕获过程被微流体装置捕获。此外,捕获的斑马鱼胚胎可以在没有额外定向调节装置的情况下实现一致的身体定向(即头部向内)。此外,我们采用了一种消费级SLA 3D打印机辅助的设备原型设计方法,非常适合预算有限的实验室。值得注意的是,该微流体装置实现了斑马鱼Caspase-3 ABS的优化和成功实施。我们证明,在基于标准井板的手动程序中,我们的设备可以通过减少至少50%的洗涤时间来加速整个程序。此外,使用毫流体装置提高了一致性,并且减少了手动步骤。这项工作填补了全斑斑马鱼免疫组织化学在微流体应用方面的空白。我们希望该设备能被斑马鱼社区接受,并用于其他类型的全马斑马鱼ABS程序,或扩展到更复杂的原位杂交(ISH)程序。
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来源期刊
Biomedical Microdevices
Biomedical Microdevices 工程技术-工程:生物医学
CiteScore
6.90
自引率
3.60%
发文量
32
审稿时长
6 months
期刊介绍: Biomedical Microdevices: BioMEMS and Biomedical Nanotechnology is an interdisciplinary periodical devoted to all aspects of research in the medical diagnostic and therapeutic applications of Micro-Electro-Mechanical Systems (BioMEMS) and nanotechnology for medicine and biology. General subjects of interest include the design, characterization, testing, modeling and clinical validation of microfabricated systems, and their integration on-chip and in larger functional units. The specific interests of the Journal include systems for neural stimulation and recording, bioseparation technologies such as nanofilters and electrophoretic equipment, miniaturized analytic and DNA identification systems, biosensors, and micro/nanotechnologies for cell and tissue research, tissue engineering, cell transplantation, and the controlled release of drugs and biological molecules. Contributions reporting on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices and nanotechnology are encouraged. A non-exhaustive list of fields of interest includes: nanoparticle synthesis, characterization, and validation of therapeutic or imaging efficacy in animal models; biocompatibility; biochemical modification of microfabricated devices, with reference to non-specific protein adsorption, and the active immobilization and patterning of proteins on micro/nanofabricated surfaces; the dynamics of fluids in micro-and-nano-fabricated channels; the electromechanical and structural response of micro/nanofabricated systems; the interactions of microdevices with cells and tissues, including biocompatibility and biodegradation studies; variations in the characteristics of the systems as a function of the micro/nanofabrication parameters.
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