Development of Multiplex Force-Field Organ-On-A-Chip for Exploring Mechanical Stimuation on Glial Cell and Endothelial Cells and Their Interaction with Glioblastoma Cells in Mimicked Brain Cancer Microvascular Environment

Project: National Science and Technology CouncilNational Science and Technology Council Academic Grants

Project Details

Abstract

本計畫將開發一多重力場之微流體生物晶片平台,將在平台上水凝膠重現血管微環境與膠質母細胞瘤細胞共培養,並施以力學拉伸與電刺激,建立新穎血管之微器官平台,並用以研究腦癌中造成內皮機能障害之機轉。微環境晶片平台未來有望藉由使用人類細胞重現組織微環境,可以提供比動物模式更可信賴的臨床轉譯結果,可以在新藥篩選、罕見疾病研究、個人化藥劑調配上提供幫助。另外,本計畫同時會開發一人工智慧影像分析軟體搭載之顯微鏡,輔助長時間的細胞觀察與即時表現型分析與預測;此一顯微鏡未來可以進一步成為不同的生醫與臨床研究的應用平台,技術可能轉移至新創生技公司或循開放模式提供學術社群用此一平台加速研究成果的產出。

Project IDs

Project ID:PB11110-0290
External Project ID:NSTC111-2222-E182-004
StatusFinished
Effective start/end date01/10/2230/09/23

Keywords

  • Mechanobiology
  • Microfluidics
  • Organ-on-chip
  • Endothelial dysfunction
  • Electrical stimulation
  • Mechanical stretching
  • Glia
  • Glioblastoma
  • Convolutional neural network
  • Deep learning
  • Phenotype analysis
  • Cell tracking

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