Microneedles array based on micro electro-mechanical system (MEMS) technology is one of important applications in biomedicine and brings a new means in biomedicine field. The prospect for the development of microneedles technology in precision drug injection, clinical monitoring and biochemistry test is and save broad. This paper describes three important applications of MEMS microneedles array in biomedicine field: biomedicine microneedles electrode, transdermal delivery of drugs and fluid extraction, and then summarizes their application elements and recent development. It explains the characteristics of microneedles, which provide painless, effective and save biomedical method in accordance with human requirements. In addition, a series of the fabrication technology of microneedles array is discussed.
Drug Delivery Systems ; instrumentation ; Equipment Design ; Humans ; Microelectrodes ; Microinjections ; instrumentation ; Miniaturization ; Nanotechnology ; Needles

We present the construction of the lab-on-a-chip (LOC) system, a state-of-the-art technology that uses polymer materials (i.e., poly[dimethylsiloxane]) for the miniaturization of conventional laboratory apparatuses, and show the potential use of these microfluidic devices in clinical applications. In particular, we introduce the independent unit components of the LOC system and demonstrate how each component can be functionally integrated into one monolithic system for the realization of a LOC system. In specific, we demonstrate microscale polymerase chain reaction with the use of a single heater, a microscale sample injection device with a disposable plastic syringe and a strategy for device assembly under environmentally mild conditions assisted by surface modification techniques. In this way, we endeavor to construct a totally integrated, disposable microfluidic system operated by a single mode, the pressure, which can be applied on-site with enhanced device portability and disposability and with simple and rapid operation for medical and clinical diagnoses, potentially extending its application to urodynamic studies in molecular level.
Disposable Equipment ; Lab-On-A-Chip Devices ; Micro-Electrical-Mechanical Systems ; Microfluidics ; Miniaturization ; Plastics ; Polymerase Chain Reaction ; Polymers ; Syringes ; Urodynamics

Heptamethine cyanine dyes are categorized as a class of near infrared fluorescent (NIRF) dyes which have been discovered to have tumor targeting and accumulation capability. This unique feature of NIRF dye makes it a promising candidate for imaging, targeted therapy and also as a drug delivery vehicle for various types of cancers. The favored uptake of dyes only in cancer cells is facilitated by several factors which include organic anion-transporting polypeptides, high mitochondrial membrane potential and tumor hypoxia in cancer cells. Currently nanotechnology has opened possibilities for multimodal or multifunctional strategies for cancer treatment. Including heptamethine cyanine dyes in nanoparticle based delivery systems have generally improved its theranostic ability by several fold owing to the multiple functionalities and structural features of heptamethine dyes. For this reason, nanocomplexes with NIRF heptamethine cyanine dye probe are preferred over non-targeting dyes such as indo cyanine green (ICG). This review sums up current trends and progress in NIRF heptamethine cyanine dye, including dye properties, multifunctional imaging and therapeutic applications in cancer.
Anoxia ; Coloring Agents ; Drug Delivery Systems ; Fluorescent Dyes ; Membrane Potential, Mitochondrial ; Nanoparticles ; Nanotechnology ; Peptides ; Theranostic Nanomedicine

No abstract available.
Theranostic Nanomedicine

No abstract available.
Theranostic Nanomedicine

Minimized extracorporeal circulation improved in the postoperative side effects of conventional extracorporeal circulation is a kind of new extracorporeal circulation. This paper introduces the principle, characteristics, applications and related research of minimized extracorporeal circulation. For the problems of systemic inflammatory response syndrome and limited assist time, the article proposes three development direction including system miniaturization and integration, pulsatile blood pump and the adaptive control by human parameter identification.
Extracorporeal Circulation ; instrumentation ; Heart-Assist Devices ; Humans ; Miniaturization

Endoscopic investigation has a critical role in the diagnosis and treatment of gastrointestinal (GI) diseases. Since 2001, capsule endoscopy (CE) has been available for small-bowel exploration and is under continuous development. During the past decade, CE has achieved impressive improvements in areas such as miniaturization, resolution, and battery life. As a result, CE is currently a first-line tool for the investigation of the small bowel in obscure gastrointestinal bleeding and is a useful alternative to wired enteroscopy. Nevertheless, CE still has several limitations, such as incomplete examination and limited diagnostic and therapeutic capabilities. To resolve these problems, many groups have suggested several models (e.g., controlled CO2 insufflation system, magnetic navigation system, mobile robotic platform, tagging and biopsy equipment, and targeted drug-delivery system), which are in development. In the near future, new technological advances will improve the capabilities of CE and broaden its spectrum of applications not only for the small bowel but also for the colon, stomach, and esophagus. The purpose of this review is to introduce the current status of CE and to review the ongoing development of solutions to address its limitations.
Biopsy ; Capsule Endoscopy* ; Colon ; Diagnosis ; Esophagus ; Hemorrhage ; Insufflation ; Miniaturization ; Stomach

Nanobiological technology is an important research field in nanotechnology and has extensive applications in medicine. Although initiated lately, application of nanobiological technology in medicine is advancing in good pace in China, mainly involves in fields including nano-scale pharmaceutical carrier, nanoscale diagnostic technology, nanobiomaterials, and nano-scale traditional Chinese medicine.
Humans ; Nanomedicine ; trends ; Nanotechnology ; trends

BACKGROUND: Blood typing is an essential test for transfusion. Generally, blood typing is performed using a slide test, tube test or microcolumn agglutination test. The aims of this study were to develop a new blood typing kit using micromachining, microfluidics and microseparation methods, and to evaluate the clinical usefulness of the new blood typing kit. METHODS: We designed and manufactured a blood typing microchip using polydimethylsiloxane (PDMS), which contained a microchannel (25~200 micrometer). The blood sample and antisera to be tested were dropped on the microwell for movement and mixing by capillary action. Once agglutination occurred, the microchannel acts as a filter and the blood type was determined by observation by the naked eye. To evaluate the newtyping kit, we tested sensitivity using artificially diluted blood and compared the results of the new typing method with the slide and tube methods using 70 samples. RESULTS: The new blood typing kit could differentiate a +4~+2 agglutination reaction, but could not detect a +1 agglutination reaction as observed by the naked eye. Among 70 samples, the results of ABO and Rh typing by the new typing method (n=66, > or = +2 agglutination reaction by the column agglutination method) were in accord with the results of the tube and slide methods, but couldnot detect agglutination in all 4 clinical samples, below a +1 agglutination reaction. CONCLUSION: The new blood typing kit is inadequate for routine use in the clinical laboratory due to low sensitivity, but with further improvement, it can be used economically, conveniently and objectively for blood typing without any special equipment. Moreover, the microfludics and separation method may be broadly applicable in other tests using the hemagglutination method.
Agglutination ; Agglutination Tests ; Blood Grouping and Crossmatching* ; Capillary Action ; Hemagglutination ; Immune Sera ; Microfluidics* ; Microtechnology

Focused on nanobiology and nanomedicine, this article elucidates its main research targets and contents, discusses the important of researches in this field, introduces the tasks and objectives of the corresponding researches in the national long- and mid-term science and technology development planning, and also describes the present research status in China.
Biology ; trends ; China ; Nanomedicine ; trends ; Nanotechnology ; trends