13 research outputs found
Microfluidics and Bio-MEMS for Next Generation Healthcare.
Ph.D. Thesis. University of Hawaiʻi at Mānoa 2018
Medical Imaging of Microrobots: Toward In Vivo Applications
Medical microrobots (MRs) have been demonstrated for a variety of non-invasive biomedical applications, such as tissue engineering, drug delivery, and assisted fertilization, among others. However, most of these demonstrations have been carried out in in vitro settings and under optical microscopy, being significantly different from the clinical practice. Thus, medical imaging techniques are required for localizing and tracking such tiny therapeutic machines when used in medical-relevant applications. This review aims at analyzing the state of the art of microrobots imaging by critically discussing the potentialities and limitations of the techniques employed in this field. Moreover, the physics and the working principle behind each analyzed imaging strategy, the spatiotemporal resolution, and the penetration depth are thoroughly discussed. The paper deals with the suitability of each imaging technique for tracking single or swarms of MRs and discusses the scenarios where contrast or imaging agent's inclusion is required, either to absorb, emit, or reflect a determined physical signal detected by an external system. Finally, the review highlights the existing challenges and perspective solutions which could be promising for future in vivo applications
Microdevices and Microsystems for Cell Manipulation
Microfabricated devices and systems capable of micromanipulation are well-suited for the manipulation of cells. These technologies are capable of a variety of functions, including cell trapping, cell sorting, cell culturing, and cell surgery, often at single-cell or sub-cellular resolution. These functionalities are achieved through a variety of mechanisms, including mechanical, electrical, magnetic, optical, and thermal forces. The operations that these microdevices and microsystems enable are relevant to many areas of biomedical research, including tissue engineering, cellular therapeutics, drug discovery, and diagnostics. This Special Issue will highlight recent advances in the field of cellular manipulation. Technologies capable of parallel single-cell manipulation are of special interest
Lab-on-a-Chip Fabrication and Application
The necessity of on-site, fast, sensitive, and cheap complex laboratory analysis, associated with the advances in the microfabrication technologies and the microfluidics, made it possible for the creation of the innovative device lab-on-a-chip (LOC), by which we would be able to scale a single or multiple laboratory processes down to a chip format. The present book is dedicated to the LOC devices from two points of view: LOC fabrication and LOC application
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Engineering Micro/Nanorobots Towards Biomedical Applications: Targeted Delivery, Surgery and Detoxification
Over the past decade, micro/nanomotors have emerged as novel and versatile nanotools demonstrating considerable promise for many environmental and biological applications. This dissertation aims to demonstrate unique advantages of micro/nanorobot platforms.The first theme focuses on developing the use of ultrasound propelled nanostructures for diverse applications, including “on-the-move” capture and the transport of multiple cargoes and internalization and movement inside live MCF-7 cancer cells.The second theme explores the use of acoustically triggered microcannons. This principle was tested towards mechanochemical blood clot degradation and enhancing drug permeability through the epidermis.The third theme describes the use of biohybrid robotics systems for detoxification and decontamination of environmental pollutants, including bacteria (E. coli), nerve agent (methyl paraoxon) and heavy metal ions (Cd and Pb) from aqueous solutions.In the not-so-distant future, Micro/nanorobots could serve as robust and versatile platform for potentially improving medical diagnosis and treatment
Proceedings of the 2018 Canadian Society for Mechanical Engineering (CSME) International Congress
Published proceedings of the 2018 Canadian Society for Mechanical Engineering (CSME) International Congress, hosted by York University, 27-30 May 2018
Engineering derivatives from biological systems for advanced aerospace applications
The present study consisted of a literature survey, a survey of researchers, and a workshop on bionics. These tasks produced an extensive annotated bibliography of bionics research (282 citations), a directory of bionics researchers, and a workshop report on specific bionics research topics applicable to space technology. These deliverables are included as Appendix A, Appendix B, and Section 5.0, respectively. To provide organization to this highly interdisciplinary field and to serve as a guide for interested researchers, we have also prepared a taxonomy or classification of the various subelements of natural engineering systems. Finally, we have synthesized the results of the various components of this study into a discussion of the most promising opportunities for accelerated research, seeking solutions which apply engineering principles from natural systems to advanced aerospace problems. A discussion of opportunities within the areas of materials, structures, sensors, information processing, robotics, autonomous systems, life support systems, and aeronautics is given. Following the conclusions are six discipline summaries that highlight the potential benefits of research in these areas for NASA's space technology programs