http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Lab-on-Chip Technology: A Review on Design Trends and Future Scope in Biomedical Applications
Shagun Gupta,Kritika Ramesh,Suhaib Ahmed,Vipan Kakkar 보안공학연구지원센터 2016 International Journal of Bio-Science and Bio-Techn Vol.8 No.5
Lab-on-Chip (LoC) integrates various analyses such as biochemical operations, chemical synthesis, DNA sequencing onto a single chip which otherwise would have been performed in laboratory taking sufficient amount of time. Due to the miniaturization of these biochemical operations, better diagnostic speed, cost efficiency, ergonomy, sensitivity and so on can be achieved. This paper gives the detailed description of Lab-on-Chip technology including its system components. Ongoing worldwide research projects based on LoC technology have been investigated and various constraints that need to be fulfilled for designing a LoC system are presented. The biomedical applications of LoC in different fields like in diagnostics, cellomics, in environmental studies to control the effect of pathogens, to check the food quality such as for the detection of various antibiotic families in raw milk have also been discussed. Finally, the current open research issues of this technology along with the possible future research scope in the biomedical area have been presented.
A Comprehensive Study on Design Trends and Future Scope of Implantable Drug Delivery Systems
Kritika Ramesh,Shagun Gupta,Suhaib Ahmed,Vipan Kakkar 보안공학연구지원센터 2016 International Journal of Bio-Science and Bio-Techn Vol.8 No.6
Implantable Drug Delivery System (IDDS) emerges as an achievement in healthcare that promises to optimize the therapeutic properties of drug and reduce the risks in life threatening disorders like cancer, ischemic heart attack, brain stroke, aids. The design of an implantable drug delivery system that has been made viable by the convergence of a controller for decision making and a drug delivery mechanism that delivers drug at the site of action has been discussed. This paper presents a first of its kind survey on the need for an implantable drug delivery system along with the research projects being carried out in the area of control design and drug delivery mechanisms. The advantages of IDDS are detailed with the challenges and design constraints that are faced while designing these systems. With IDDS, the patient compliance and quality of life can be enhanced considerably. This paper also investigates the possible future research scope and applications of IDDS such as for chronic disorders that need to be regularly monitored and timely treated.