This document provides a summary and comparison of two microfluidic biomolecular separation techniques using dielectrophoresis (DEP): 1) A screen-printed microfluidic DEP chip uses a low-cost layer-by-layer screen printing process to construct electrodes and channels for separating yeast cells from polystyrene microspheres. 2) A contactless DEP chip generates an electrical field using fluidic electrode channels containing conductive fluid, allowing separation based on intrinsic cell properties without labeling. Both techniques offer improvements over conventional methods but have different strengths for applications.
NANOTECHNOLOGY IN DEVELOPMENT OF DRUG DELIVERY SYSTEMMakrani Shaharukh
Nanotechnology is science of matter and material that deal with particle size in nanometers. Nanotechnology has established a lot of devotion with never seen-before eagerness because of its upcoming potential. It has delivered fine lined diagnosis and attention treatment of disease at molecular level. This technology compromises the improvement of protecting drugs from degradation; reduce the number of doses required. In this review, a discussion was passed out on different techniques for the preparation of nanodrug delivery systems like nanoparticles, solid lipid nanoparticles, nanocrystals, nanosuspensions, nanoemulsions. The idea of nanotechnology is widely prolonged and applied to many drugs to the present. The vital application goal of nano drug delivery system is to develop clinically useful formulation for treating diseases in patients.
NANOTECHNOLOGY IN DEVELOPMENT OF DRUG DELIVERY SYSTEMMakrani Shaharukh
Nanotechnology is science of matter and material that deal with particle size in nanometers. Nanotechnology has established a lot of devotion with never seen-before eagerness because of its upcoming potential. It has delivered fine lined diagnosis and attention treatment of disease at molecular level. This technology compromises the improvement of protecting drugs from degradation; reduce the number of doses required. In this review, a discussion was passed out on different techniques for the preparation of nanodrug delivery systems like nanoparticles, solid lipid nanoparticles, nanocrystals, nanosuspensions, nanoemulsions. The idea of nanotechnology is widely prolonged and applied to many drugs to the present. The vital application goal of nano drug delivery system is to develop clinically useful formulation for treating diseases in patients.
What are the specific laboratory techniques and procedures taught in the DMLT...AnooskaGupta
DMLT (Diploma in Medical Lab Technology) is a program that trains students in various laboratory techniques used in the field of medical laboratory technology.
introduction to Nanobiotechnology
what is nanotechnology
bionanotechnology
classical biotechnology industrial production using biological system
modern biotechnology from industrial processes to noval therapeutics
modern biotechnology immunological enzymatic and neucleic acid based technology
Dna based technology
self assembly and supramolecular chemistry
formation of ordered structure at nano scale
In Depth Review on Nanogel and its Applicationsijtsrd
Nanogel have emerged as a versatile drug delivery system for encapsulation of guest molecules. A nanoparticle which is composed of hydrophilic polymer network known as Nanogel having range from 100 1000 nm. With a high drug loading capacity, high stability, sustained and targetable approach, and huge surface area, nanogel has swell able and degradation characteristics. Therefore, nanogel are more productive than conventional and micro sized delivery. Recent years have seen a significant increase in the use of nanogel in the fields of genetics, enzyme fixation, and protein synthesis. Moreover, it has productive asset for the development of novel therapeutic system in medicine. These soft materials can contain therapeutics, inorganic nanoparticles, and small molecular biomacromolecules within their crosslinked networks, enabling them to be used for imaging as well as therapy for a range of disease conditions. This review aims to highlight the distinct and unique capabilities of nanogels as carrier system, Types of Physical and chemical crosslinked nanogels, the applications of nanogels in various diseases diabetes, auto immune diseases, local anaesthesia, nasal drug delivery and anticancer treatment for specially targeting the cancer cells, thereby reducing uptake into healthy cells. This phenomenal drug delivery method using nanogels needs more in depth research to better understand how cells and molecules interact with them and how to overcome limitations. Pallavi S. Borase | Dr. V. U. Barge "In Depth Review on Nanogel and its Applications" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-7 | Issue-2 , April 2023, URL: https://www.ijtsrd.com.com/papers/ijtsrd55172.pdf Paper URL: https://www.ijtsrd.com.com/pharmacy/novel-drug-delivery-sys/55172/in-depth-review-on-nanogel-and-its-applications/pallavi-s-borase
Design of MEMS Biosensor for Pathogenic Bacterial Disease DetectionAI Publications
In situations of a critical disease outbreak, any time delay in identifying the pathogen can prove to be risky and has its far-reaching effects on public health systems. There is a need for pathogenic bacteria detection at the point‐of‐care (POC) using a fast, sensitive, inexpensive, and easy‐to‐use method that does not require complex infrastructure and well‐trained technicians. For instance, detection of pneumonia, tuberculosis at acute infection stage has been challenging, since current antibody‐based POC technologies are not effective due to low concentration of antibodies. In this study, we demonstrated for the first time a label‐free electrical sensing method that can detect pathogenic bacteria, through MEMS cantilever technology. The presented method offers a rapid and portable tool that is MEMS biosensor, can be used as a bacteria detection technology at the hospital and primary care settings.
Introduction of Organ-On-A-Chip - Creative BiolabsCreative-Biolabs
Creative Biolabs has established a complete microfluidic technology platform. We provide customers with one-stop services in all aspects of microfluidic research and evaluation, including Organ-on-a-Chip design and manufacturing and personalized, customized solutions.
This slide provides a brief introduction to OOC. If you need more information, products, and services about OOC, please follow us to stay informed.
Univ of IL Micro + Nanotechnology Lab highlightsLaura Schmitt
The latest advances from one of the premier university-based photonics, microelectronics, biotechnology, and nanotechnology research facilities in the country.
What are the specific laboratory techniques and procedures taught in the DMLT...AnooskaGupta
DMLT (Diploma in Medical Lab Technology) is a program that trains students in various laboratory techniques used in the field of medical laboratory technology.
introduction to Nanobiotechnology
what is nanotechnology
bionanotechnology
classical biotechnology industrial production using biological system
modern biotechnology from industrial processes to noval therapeutics
modern biotechnology immunological enzymatic and neucleic acid based technology
Dna based technology
self assembly and supramolecular chemistry
formation of ordered structure at nano scale
In Depth Review on Nanogel and its Applicationsijtsrd
Nanogel have emerged as a versatile drug delivery system for encapsulation of guest molecules. A nanoparticle which is composed of hydrophilic polymer network known as Nanogel having range from 100 1000 nm. With a high drug loading capacity, high stability, sustained and targetable approach, and huge surface area, nanogel has swell able and degradation characteristics. Therefore, nanogel are more productive than conventional and micro sized delivery. Recent years have seen a significant increase in the use of nanogel in the fields of genetics, enzyme fixation, and protein synthesis. Moreover, it has productive asset for the development of novel therapeutic system in medicine. These soft materials can contain therapeutics, inorganic nanoparticles, and small molecular biomacromolecules within their crosslinked networks, enabling them to be used for imaging as well as therapy for a range of disease conditions. This review aims to highlight the distinct and unique capabilities of nanogels as carrier system, Types of Physical and chemical crosslinked nanogels, the applications of nanogels in various diseases diabetes, auto immune diseases, local anaesthesia, nasal drug delivery and anticancer treatment for specially targeting the cancer cells, thereby reducing uptake into healthy cells. This phenomenal drug delivery method using nanogels needs more in depth research to better understand how cells and molecules interact with them and how to overcome limitations. Pallavi S. Borase | Dr. V. U. Barge "In Depth Review on Nanogel and its Applications" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-7 | Issue-2 , April 2023, URL: https://www.ijtsrd.com.com/papers/ijtsrd55172.pdf Paper URL: https://www.ijtsrd.com.com/pharmacy/novel-drug-delivery-sys/55172/in-depth-review-on-nanogel-and-its-applications/pallavi-s-borase
Design of MEMS Biosensor for Pathogenic Bacterial Disease DetectionAI Publications
In situations of a critical disease outbreak, any time delay in identifying the pathogen can prove to be risky and has its far-reaching effects on public health systems. There is a need for pathogenic bacteria detection at the point‐of‐care (POC) using a fast, sensitive, inexpensive, and easy‐to‐use method that does not require complex infrastructure and well‐trained technicians. For instance, detection of pneumonia, tuberculosis at acute infection stage has been challenging, since current antibody‐based POC technologies are not effective due to low concentration of antibodies. In this study, we demonstrated for the first time a label‐free electrical sensing method that can detect pathogenic bacteria, through MEMS cantilever technology. The presented method offers a rapid and portable tool that is MEMS biosensor, can be used as a bacteria detection technology at the hospital and primary care settings.
Introduction of Organ-On-A-Chip - Creative BiolabsCreative-Biolabs
Creative Biolabs has established a complete microfluidic technology platform. We provide customers with one-stop services in all aspects of microfluidic research and evaluation, including Organ-on-a-Chip design and manufacturing and personalized, customized solutions.
This slide provides a brief introduction to OOC. If you need more information, products, and services about OOC, please follow us to stay informed.
Univ of IL Micro + Nanotechnology Lab highlightsLaura Schmitt
The latest advances from one of the premier university-based photonics, microelectronics, biotechnology, and nanotechnology research facilities in the country.
1.
Comparative Analysis of Microfluidic Biomolecular Separation
Techniques With An Emphasis on Dielectrophoresis
Word Count: 1264
Prepared for
Leo Banuelos
Biomedical Engineering Master’s Student
California Polytechnic State University
San Luis Obispo, California
Prepared by
Keyon Keshtgar
Biomedical Engineering
March 4, 2016