Biosensors Congress 2019 invites all the interested participants to join 2nd World Congress on Biosensors and Bioelectronics which will be held during June 17-18, 2019, in Washington, USA. Biosensors 2019 will emphasize on the theme "Research and Innovations of Biosensors Technologies and Bioelectronics". This Congress will serve an excellent experience and opportunities to enhance one's career. Join us in Washington to learn about the quick and urgent process Biosensors. It supports broad scope research and peer review at a broad range of specialists around the world.
Track-1: Biosensors and Biosensing technologies:
Biosensor/biosensing research involves many disciplines and therefore relevant activity tends to be distributed across various academic departments and across research groups both within and between universities. Because of this the guide is structured by academic group rather than by research activity or application area. There are various research area related to Biosensors:
- Chemistry Engineering
- Medical Engineering
Biological properties can be estimated and modified utilizing electronics devices, magnetics, photonics, sensors, circuits, and calculations. Applications extend from fundamental Biological science through clinical medication, and empower new revelations, conclusions, and medicines by making novel gadgets, frameworks, and investigations. Biomolecular Electronics is a branch of Nano-science and innovation managing the examination and the mechanical misuse of electron transport properties in extraordinary classes of biomolecules.Bio analysis is one of the sub classifications of Chemistry that aides in estimating Xenobiotics (unnatural fixation or area of medications, Metabolites and natural atoms) in biological system. Biomedicine is a branch of medical sciences that arrangements with applying biological and natural science standards to clinical practices. It examines our capacity to adapt to the natural changes.
- Circuits for biomedical applications/devices
- Automation science and engineering
- Biomolecular electronics and bio analysis
- Implantable electronics
Micro- scale/Nano-electromechanical systems (MEMS/NEMS) Micro- scale/Nano-electromechanical systems (MEMS/NEMS) should be intended to perform expected capacities in brief spans, regularly in the millisecond to picosecond extend. Most mechanical properties are known to be scale subordinate, subsequently the properties of Nano scale structures should be estimated. Bionics is the use of organic strategies and systems found in nature to the examination and plan of designing systems and present day innovation. Bionics implies the substitution or upgrade of organs or other body parts by mechanical renditions. Bionic inserts contrast from minor prostheses by copying the first capacity intently, or notwithstanding outperforming it. Bio mechanical autonomy is the utilization of natural qualities in living life forms as the learning base for growing new robot outlines. The term can likewise allude to the utilization of natural examples as practical robot segments. Bio mechanical technology converges the fields of computer science, bionics, science, physiology, and hereditary building.
- Biosensor Controlled Gene Therapy
- Biosensors for Theranostics
- Photothermal Blade and Nanodelivery System
- Bio-MEMS for diagnostics
Track-4: Commercial biosensors, manufacturing and markets/ Biosensors & Global Market: Biosensors organizations and market examination clarifies us the most critical changes in the worldwide market. The single industrially best natural biosensor is the biochemical oxygen request (BOD) sensor. The aggregate market was esteemed at $11.39 Billion of every 2013 and is required to reach $22.68 Billion by 2020, at an expected CAGR of 10.00% from 2014 to 2020. The report likewise talks about the eventual fate of the worldwide market with guide, up and coming advances, markets, and applications as for biosensors.
- Market by Product: The market by item composes incorporates wearable and non-wearable biosensors. The wearable biosensors are additionally portioned as wrist wear, eye wear, foot wear, neck wear, body wear, and others (ingestible and brilliant inserts).
- Market by Technology: The innovation showcase incorporates electrochemical biosensors, piezoelectric biosensors, optical biosensors, heat biosensors, and others (Luminometric and fiber optics).
- Market by Application: Market by Application: The biosensors showcase is for the most part sorted into applications, for example, the purpose of-mind, home diagnostics, inquire about labs, biodefense, natural observing, and nourishment businesses.
- Commercial Biosensors, assembling and markets
- Biosensors Market Analysis
- Economic & Business Influence
Aptamers are oligonucleotide or peptide particles that bind to a particular target molecules. Aptamers are generally made by choosing them from a vast irregular sequence pool, however normal aptamers likewise exist inriboswitches. Immunosensors are worked by methods for the fitting blend of the biomolecules with the transducer utilized together, they can be connected in particular logical circumstances. Immunosensors ordinarily depend on the reuse of a similar receptor surface for some estimations. A Biochip is a mix of moment DNA spots snared to a hard surface. Researchers utilize DNA Biochips to check the articulation levels of immense number of qualities in the meantime. Every DNA spot contains picomoles of a precised DNA succession known as a test. These can be minor area of a quality or a DNA molecule that are utilized to cross breed a cDNA or cRNA. Test target cross reproducing is typically measured and identified by identification of fluorophore. Silver or chemiluminescence-named focuses to recognize relating plenitude of nucleic corrosive arrangements in the objective. Sensors are gadgets that react to physical or substance jolts and create recognizable signs. They are a basic expansion of human view of the world in numerous parts of the cutting edge society. This is to a great extent since we are considerably less delicate to the synthetic or natural condition than to the physical condition (e.g., light, weight, temperature, or moistness). Be that as it may, suitable synthetic or organic arrangements are firmly connected to the personal satisfaction.
- Aptamers and their biological applications
- Proteomics, single cell analysis, and electronic noses
- Natural & synthetic receptors (including Molecularly imprinted polymers)
- Organism and whole cell-based biosensors
Track-6: Enzyme-based biosensors:
Enzyme - based sensors are more particular than cell based sensors. They have speedier reacts because of shorter dispersion ways. They are costly to deliver because of the issue of separating the protein. Glucose biosensor is for the most part utilized biosensor. A protein biosensor is a logical gadget that joins a chemical with a transducer keeping in mind the end goal to deliver a flag corresponding to target analyte focus. Ideal chemical action is fundamental for support of physiological homeostasis. Both non-hereditary and hereditary disturbances can too much activate or silence intrinsic enzyme activities, with pathological results.
Immunosensor, is intended to distinguish the immediate binding of a antibody or antigen to shape an immunocomplex at the transducer surface. Despite the fact that immunosensor innovation remains to a great extent in innovative work, immunosensors are imagined to replace substantial, clinical immunoassay instrument system, for example, those in light of enzymelinked immunosorbent examine (ELISA) and other indirect-detection technologies.
A lab-on-a-chip (LOC) is a gadget that coordinates one or a few research center capacities on a single integrated circuit (regularly called a "chip") of just millimeters to a couple of square centimeters to accomplish automation and high-throughput screening. LOCs can deal with to very little fluid volumes down to less than Pico-liters. Lab-on-a-chip gadgets are a subset of microelectromechanical system (MEMS) gadgets and in some cases called "micro total analysis systems" (µTAS). LOCs may utilize microfluidics, the material science, control and investigation of moment measures of fluids.
Microfluidic systems gives throughput handling, upgrade transport for controlling the stream conditions, increment the blending rate of various reagents, lessen test and reagents volume (down to Nano liter), increment sensitivity of discovery, and use a same platform for both sample preparation and detection. In perspective of these focal points, the integration of microfluidic and biosensor innovations gives the capacity to consolidate concoction and natural segments into a single platform and offers new open doors for future biosensing applications including versatility, disposability, real-time detection, exceptional accuracies, and concurrent investigation of various analytes in a single devices.
Track-10: Mobile diagnostics and personal health:
Mobile health applications are increasingly being used as tools of medicine. Outside of the clinic, some of these applications may contribute to diagnoses made absent a physician's care. Numbers of health applications are capable of drawing associations between symptoms and disease.
Nanobiosensors are essentially the sensors which are comprised of nanomaterials and curiously these are not the specific sensors which can identify the Nano scale occasions and happenings. They can play a very major role in the detecting system of the biosensor innovation. Incorporated devices of the nanomaterials with electrical systems offer ascent to nanoelectromechanical systems (NEMS), which are extremely dynamic in their electrical transduction instruments.
MIPs can recognize target analytes not only by their shape and size, because introducing a dedicated set of recognizing sites into the imprinted cavity increases both the affinity of the cavity for the analyte and its selectivity with respect to interferences.
Different functional monomers have been introduced to provide selective chemical recognition that involves the formation of covalent bonds, hydrogen bonds, and coulombic and supramolecular interactions, as well as metal chelation and π-π stacking.
MIPs are prepared as bulk polymers, which can then be ground, or, alternatively, can be prepared as beads with the desired shape and size. However, for chemo sensor fabrication, these MIPs should be deposited as thin films. Electro polymerization or electrochemically inducted polymerization is best suited for depositing both conducting and nonconducting MIP films.
Track-13: Organism- and whole cell-based biosensors:
Specific research endeavors are presently engaged upon the recognition of entire microorganisms. It is seen that as far as entire microscopic organisms, impedimetric and optical strategies are most usually utilized. The improvement of biosensors for entire microorganisms is testing since it requires recognition of analytes that are substantially bigger (micrometer scale) than run of the mill atomic analytes, for example, proteins (nanometer scale), and microscopic organisms show many surface epitopes that can prompt nonspecific communications with the sensor surface. Polyclonal antibodies raised against particular bacterial strains are the most generally utilized bioreceptors for entire bacterial cell detection, where the coupling focuses on the cell envelope are normally obscure. To expand the specificity and sensitivity of the sensor, confined surface epitopes can be utilized to create monoclonal antibodies.
Track-14: Printed biosensors and micro fabrication:
Microfabrication forms for chemical and biochemical sensors are inspected. Standard handling steps beginning from semiconductor innovation are detailed, and particular micromachining steps to manufacture three-dimensional mechanical structures are explained. Basic chemical sensor standards are quickly abstracted and relating cutting edge cases of microfabricated chemical sensors and biosensors are given. The favorable circumstances and burdens of either manufacturing gadgets in IC creation innovation with extra microfabrication steps, or of utilizing hand crafted nonstandard microfabrication process streams are discussed. At long last, solid incorporated synthetic and organic microsensor systems are introduced, which incorporate transducer structures and activity hardware on a single chip.
Track-15: Biosensor Applications in various fields:
Biosensors have become very popular in recent years. They are widely used in various fields. Biosensors are small in size and can be easily handled. They are specific and sensitive, and work in a cost-effective manner. The tentative market share of biosensor applications are:
- Applications in Medicine and Health
- Applications in Industry
- Applications in Pollution Control
- Applications in Military
- Applications in Defence
- Applications in Research
- Applications in Agriculture and veterinary
- Applications in Robotics
- Applications in others
Genetic changes and environmental differences result in cell heterogeneity among growth cells inside a similar tumor, accordingly confounding treatment results. Ongoing advances in single-cell advances have opened new roads to portray the intra-tumor cell heterogeneity, distinguish rare cell types, measure change rates, and, at last, manage conclusion and treatment.
To survive, a living being must always adjust its internal state to changes in the earth. To track ecological changes, the living being must get signals. These might be as chemicals form, for example, hormones or supplements, or may take another form, for example, light, heat, or sound. A signal itself once in a while causes a basic, direct chemical change inside the cell. Rather, the signal sets off a chain of occasions that may include a few or even many advances. The signal is in this way transduced, or changed in form. Signal transduction shows the whole arrangement of pathways and connections by which ecological signals are received and reacted to by single cells.
Track-18: Theranostics & implantable sensors:
Now days most implants have been of the purely passive type – a typical example is orthopedic devices for bone repair. But there is a growing interest in active “theranostic” implants that combine therapeutic and diagnostic functions in a single medical device. These devices create a closed feedback loop in which vital parameters are recorded and provide the input for therapeutic intervention. Pacemakers, for example, are capable of responding to the need for increased blood flow to the muscles, for instance during physical exercise, by adjusting the stimulation pulse rate. Theranostic implants record numerous different biosignals, which they process, analyze and transmit to an external receiver. These signals then provide the basis for therapeutic intervention, which can take the form of electrical, biochemical or mechanical stimulation.
Track-19: Biomedical Engineering:
Biomedical engineering having different works: Design biomedical equipment and devices, such as artificial internal organs, replacements for body parts, and machines for diagnosing medical problems. Install, adjust, maintain, repair, or provide technical support for biomedical equipment.
Track-20: Biophotonics & Photonic Sensor Technologies:
Photonic Sensors publishes original, peer-reviewed articles that report on new developments of interest to members of the photonics and sensor communities in all fields of photonic-sensing science and technology, including but not limited to topics on:
- Optical fiber sensors
- Planar waveguide sensors
- Laser-based sensors
- Biophotonic sensors and instruments
- Sensor multiplexing and networking
- Materials and devices for photonic sensing.
As per the new statistical surveying report "Biosensors Market by Application (POC, Home Diagnostics, Research Labs, Biodefense, Environmental Monitoring, Food and Beverages Industry), Technology, Product (Wearable and Non-Wearable), and Geography - Global Forecast to 2022", the market is required to be esteemed at USD 27.06 Billion by 2022, developing at a CAGR of 8.84% somewhere in the range of 2017 and 2022. The market development is driven by the persistent innovative headways in the biosensors biological community, increment in the utilization of biosensors for nonmedical applications, lucrative development in POC diagnostics, and ascend in the interest for glucose checking frameworks.
The market in APAC anticipated that would develop at a high rate somewhere in the range of 2017 and 2022:
The market in APAC is relied upon to develop at a high rate somewhere in the range of 2017 and 2022. The expanding number of individuals experiencing diabetes and government activities toward the change of the social insurance segment in the locale are boosting the interest for glucose screens, in which biosensors are utilized, in APAC.
A portion of the real players working in the biosensors advertise incorporate Abbott Point of Care Inc. (US), Medtronic, Inc. (US), F. Hoffman-La Roche Ltd. (Switzerland), Siemens AG (Germany), LifeScan, Inc. (US), LifeSensors Inc. (US), Nova Biomedical Corp. (US), Acon Laboratories Inc. (US), Universal Biosensors (Australia), Pharmaco-Kinesis Corporation (PKC) (US), Bayer Healthcare AG (Germany), Biacore (UK), Bio-Rad Laboratories Inc. (US), Biosensors International Ltd. (Singapore), Ercon, Inc. (US), DuPont (US), and Sysmex Corporation (Japan).
Top institutes in USA :
- Stanford University
- Harvard University
- California Institute of Technology (Caltech)
- University of Chicago
- Princeton University
- Cornell University
- Yale University
- Columbia University
- University of Pennsylvania
Top institutes in Asia:
- Nanyang Technological University (NTU) Singapore
- National University of Singapore (NUS)
- The Hong Kong University of Science and Technology (HKUST)
- KAIST - Korea Advanced Institute of Science and Technology
- University of Hong Kong (HKU)
- Tsinghua University, China
- Fudan University, China
- City University of Hong Kong
- Peking University, China
- The Chinese University of Hong Kong (CUHK), Hong Kong
Top institutes in Europe:
- Massachusetts Institute of Technology (MIT), United States
- Stanford University, Stanford University
- University of California, Berkeley (UCB), United States
- University of Cambridge, United Kingdom
- National University of Singapore (NUS), Singapore
- California Institute of Technology (Caltech), United States
- Delft University of Technology, The Netherlands
- Imperial College London, United Kingdom
- Kyoto University, Japan
- University of Oxford, United Kingdom
Top institutes in UAE:
- Al Ghurair University (AGU)
- University of Dubai (UD)
- Zayed University
- Biotechnology University College Dubai (BUC)
- The Higher Colleges of Technology (HCT)
- American University in Dubai (AUD)
- University of Wollongong in Dubai (UOWD)
- British University in Dubai (BUiD)
- American University in the Emirates (AUE)