Development Of Highly Sensitive Bulk Acoustic Wave Device Biosensor Arrays For Screening And Early Detection Of Prostate Cancer PDF Download
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| Author | : |
| Publisher | : |
| Total Pages | : 269 |
| Release | : 2009 |
| Genre | : |
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Download Development of Highly Sensitive Bulk Acoustic Wave Device Biosensor Arrays for Screening and Early Detection of Prostate Cancer Book in PDF, ePub and Kindle
In this research, I present several novel contributions to the field of microelectronic acoustic biosensors that approach the goal of developing a cost-effective, highly sensitive and highly selective sensor array for the detection of early cancer proliferation. First I report on the development of a novel solidly mounted shear-mode resonator employing piezoelectric ZnO as an appropriate base device for liquid-phase sensing applications. Second I report on the development of a novel and appropriate chemical surface preparation protocol for the covalent immobilization of monoclonal IgG antibodies to the surface of this device, thereby functionalizing it as a biosensor. Proof of functionality is demonstrated employing these sensors for the detection of various known cancer biomarkers in complex media as well as progress towards developing a packaged disposable sensor array system is also reported.
| Author | : Adam Daniel Wathen |
| Publisher | : |
| Total Pages | : |
| Release | : 2011 |
| Genre | : Acoustic surface wave devices |
| ISBN | : |
Download Acoustic Wave Biosensor Arrays for the Simultaneous Detection of Multiple Cancer Biomarkers Book in PDF, ePub and Kindle
The analysis and development of robust sensing platforms based on solidly-mounted ZnO bulk acoustic wave devices was proposed. The exploitation of acoustic energy trapping was investigated and demonstrated as a method to define active sensing areas on a substrate. In addition, a new "hybrid" acoustic mode experiencing acoustic energy trapping was studied theoretically and experimentally. This mode was used as an explanation of historical inconsistencies in observed thickness-shear mode velocities. Initial theoretical and experimental results suggest that this mode is a coupling of thickness-shear and longitudinal particle displacements and, as such, may offer more mechanical and/or structural information about a sample under test. Device development was taken another step further and multi-mode ZnO resonators operating in the thickness-shear, hybrid, and longitudinal modes were introduced. These devices were characterized with respect to sample viscosity and conductivity and preliminary results show that, with further development, the multi-mode resonators provide significantly more information about a sample than their single-mode counterparts. An alternative to resonator-based platforms was also presented in the form of bulk acoustic delay lines. Initial conceptual and simulation results show that these devices provide a different perspective of typical sensing modalities by using properly designed input pulses, device tuning, and examining overall input and output signal spectra.
| Author | : Marwan Saoud |
| Publisher | : |
| Total Pages | : 198 |
| Release | : 2010 |
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Download Development and Utilization of Shear Mode Acoustic Wave Biosensors for the Detection of Ovarian Cancer Book in PDF, ePub and Kindle
Recent proteome studies have discovered the presence of heat shock protein 10 (HSP- 10) as an immunosuppressant in ovarian cancer patients. Due to the severity of ovarian cancer, the development of highly sensitive techniques for the early detection of this cancer is well in demand. In this manuscript, the thickness shear mode (TSM) acoustic wave biosensor will be used for the real-time and label-free detection of HSP-10 in buffer. The TSM sensitivity for HSP-10 is evaluated based on resonance frequency shifts generated by the biosensor. A nucleic acid aptamer, which is specifically engineered by in vitro selection to target HSP-10, is employed as the biosensing element of the biosensor. Alkylthiol-based self-assembling monolayers (SAMs), composed of various linker/diluent molar ratios, are used to immobilize the aptamer onto gold-coated piezoelectric quartz substrates. The TSM biosensing properties for avidin-biotin interactions are also evaluated in order to assess the biosensor response to HSP-10 protein-aptamer interaction.
| Author | : Desmond Dion Stubbs |
| Publisher | : |
| Total Pages | : |
| Release | : 2005 |
| Genre | : Biosensors |
| ISBN | : |
Download Development of an Acoustic Wave Based Biosensor for Vapor Phase Detection of Small Molecules Book in PDF, ePub and Kindle
For centuries scientific ingenuity and innovation have been influenced by Mother Natures perfect design. One of her more elusive designs is that of the sensory olfactory system, an array of highly sensitive receptors responsible for chemical vapor recognition. In the animal kingdom this ability is magnified among canines where ppt (parts per trillion) sensitivity values have been reported. Today, detection dogs are considered an essential part of the US drug and explosives detection schemes. However, growing concerns about their susceptibility to extraneous odors have inspired the development of highly sensitive analytical detection tools or biosensors known as electronic noses. In general, biosensors are distinguished from chemical sensors in that they use an entity of biological origin (e.g. antibody, cell, enzyme) immobilized onto a surface as the chemically-sensitive film on the device. The colloquial view is that the term biosensors refers to devices which detect the presence of entities of biological origin, such as proteins or single-stranded DNA and that this detection must take place in a liquid. Our biosensor utilizes biomolecules, specifically IgG monoclonal antibodies, to achieve molecular recognition of relatively small molecules in the vapor phase.
| Author | : Zvi Liron |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 322 |
| Release | : 2012-12-06 |
| Genre | : Science |
| ISBN | : 146151231X |
Download Novel Approaches in Biosensors and Rapid Diagnostic Assays Book in PDF, ePub and Kindle
In the medical, food, and environmental fields there is a continuous demand for inexpensive and sensitive analytical devices that are reliable, rapid, capable of high-throughput screening, and have low cost per test unit. Small and portable biosensor devices are designed to fulfill most of these requirements, and can be used in laboratory and on-site field testing. This volume discusses major issues in optical, acoustic and electrochemical-based biosensors, biochips, sensing recognition elements, and biosensors for medical and environmental applications. The papers presented at the conference represent basic and applied research studies in the fields of diagnostic assays and biosensor development. Novel technologies, such as arrays of sensors using high-density fiber optics to sense labeled or unlabeled oligonucleotides, and patterned arrays of recognition elements, demonstrated the capability of biosensors to analyze multiple analytes.
| Author | : Raju Khan |
| Publisher | : Academic Press |
| Total Pages | : 439 |
| Release | : 2021-08-25 |
| Genre | : Technology & Engineering |
| ISBN | : 0128236515 |
Download Biosensor Based Advanced Cancer Diagnostics Book in PDF, ePub and Kindle
Early diagnosis of cancer and other non-oncological disorders gives a significant advantage for curing the disease and improving patient’s life expectancy. Recent advances in biosensor-based techniques which are designed for specific biomarkers can be exploited for early diagnosis of diseases. Biosensor Based Advanced Cancer Diagnostics covers all available biosensor-based approaches and comprehensive technologies; along with their application in diagnosis, prognosis and therapeutic management of various oncological disorders. Besides this, current challenges and future aspects of these diagnostic approaches have also been discussed. This book offers a view of recent advances and is also helpful for designing new biosensor-based technologies in the field of medical science, engineering and biomedical technology. Biosensor Based Advanced Cancer Diagnostics helps biomedical engineers, researchers, molecular biologists, oncologists and clinicians with the development of point of care devices for disease diagnostics and prognostics. It also provides information on developing user friendly, sensitive, stable, accurate, low cost and minimally invasive modalities which can be adopted from lab to clinics. This book covers in-depth knowledge of disease biomarkers that can be exploited for designing and development of a range of biosensors. The editors have summarized the potential cancer biomarkers and methodology for their detection, plus transferring the developed system to clinical application by miniaturization and required integration with microfluidic systems. Covers design and development of advanced platforms for rapid diagnosis of cancerous biomarkers Takes a multidisciplinary approach to sensitive transducers development, nano-enabled advanced imaging, miniaturized analytical systems, and device packaging for point-of-care applications Offers an insight into how to develop cost-effective diagnostics for early detection of cancer
| Author | : Pranjal Chandra |
| Publisher | : Springer |
| Total Pages | : 403 |
| Release | : 2017-12-30 |
| Genre | : Medical |
| ISBN | : 981104726X |
Download Next Generation Point-of-care Biomedical Sensors Technologies for Cancer Diagnosis Book in PDF, ePub and Kindle
This book presents recent research on cancer detection methods based on nanobiosensors, which offer ultrasensitive point-of-care diagnosis. Several methods for diagnosing cancer have been discovered and many more are currently being developed. Conventional clinical approaches to detecting cancers are based on a biopsy followed by histopathology, or on the use of biomarkers (protein levels or nucleic acid content). Biopsy is the most widely used technique; however, it is an invasive technique and is not always applicable. Furthermore, biomarker-based detection cannot be relied on when the biomarkers are present in an extremely low concentration in the body fluids and in malignant tissues. Thus, in recent years highly sensitive and robust new cancer diagnosis techniques have been developed for clinical application, and may offer an alternative strategy for cancer diagnosis. As such, this book gathers the latest point-of-care cancer diagnostic methods and protocols based on biomedical sensors, microfluidics, and integrated systems engineering. It also discusses recent developments and diagnostics tests that can be conducted outside the laboratory in remote areas. These technologies include electrochemical sensors, paper-based microfluidics, and other kit-based diagnostic methods that can be adapted to bring cancer detection and diagnostics to more remote settings around the globe. Overall, the book provides students, researchers, and clinicians alike a comprehensive overview of interdisciplinary approaches to cancer diagnosis.
| Author | : Farasat Munir |
| Publisher | : |
| Total Pages | : |
| Release | : 2012 |
| Genre | : Biochemical markers |
| ISBN | : |
Download A Fast, Scalable Acoustic Resonator-based Biosensor Array System for Simultaneous Detection of Multiple Biomarkers Book in PDF, ePub and Kindle
This thesis is about the design of a biosensor system for detection of multiple cancer biomarkers. Accurate diagnosis and prognosis of cancer requires early detection. Equally important, though, is the measurement of biomarker-velocity and detection of multiple biomarkers. Early detection requires highly sensitive biosensors capable of detection at very low concentrations of target molecules. Biomarker-velocity can be measured by monitoring concentration of target molecule over a period of time. This requires a system which is very easy to use, fast, flexible, inexpensive and portable, thus enabling its ubiquitous presence at the point of care. For detection of multiplexed biomarkers, biosensors which easily lend to array configuration are required. Conventional techniques do not fulfill either all or some aspects of the requirements listed above. In this work, we present the design of a biosensor system, keeping in view the desired features described above, to achieve the ultimate goal of enabling ubiquitous presence of biosensor at the point of care. We focus on acoustic transducer based biosensors. The two fundamental components of design in an acoustic biosensor are the design of an acoustic transducer and the design of a novel electrical interface for the transducer. For transducer design, we introduce and present the design of a single structure, GHz range, multi-mode acoustic resonator. We present this as a suitable transducer for liquid phase biosensors, which is the preferred medium for sensing of cancer biomarkers. We explore the underlying physics and do experimental and theoretical characterization of this device. The transducer needs to be functionalized with a chemically sensitive layer which performs the molecular recognition of cancer biomarkers. We present the experimental exploration of a reversible and oriented immobilization based Histidine-Ni(2+) interaction which used NTA as the chelator for anchoring onto the device. Then we discuss the microfluidic design to enable liquid phase operation. We used SU-8 polymer barriers for liquid containment and addressed the challenges of making it compatible with ZnO based devices. An electrical interface is needed to excite and extract the sensor response. We have presented here a novel method to measure and track a resonator's response and extract its characteristic parameters. This method measures the wideband frequency response of the resonator with a much simpler setup as compared to conventional methods. We have proposed and demonstrated the use of a white noise signal as a viable signal for broadband excitation of resonator-based sensing platforms. We have also established, shown through simulation and prototype measurements, the feasibility of the proposed method. The accuracy and speed of the system can be further greatly improved by FFT-based digital implementation of the spectral analysis system. We have presented an example hardware implementation of FFT-based signal analyzer, and have discussed the hardware resources required for actual implementation in a chip form. Lastly we discuss the measurement protocol and sensor results for head and neck cancer and prostate cancer biomarkers. These results demonstrate the usability of the proposed sensor system for detection of cancer biomarkers.
| Author | : Gorachand Dutta |
| Publisher | : Springer Nature |
| Total Pages | : 316 |
| Release | : 2021-01-04 |
| Genre | : Technology & Engineering |
| ISBN | : 9811596123 |
Download Modern Techniques in Biosensors Book in PDF, ePub and Kindle
This book focusses on recent advances and different research issues in the biosensor technology and also presents theoretical, methodological, well-established and validated empirical work dealing with the technology. The book addresses challenges for the development of a point-of-care test platform. The book also describes printed chip-based assay (Lab-on-a-Chip, Lab-on-a-PCB) for rapid, inexpensive, multiplex detection of disease biomarkers in real samples. It aims to overcome existing barriers for Lab-on-a-Chip commercialization (lack of cost effective mass manufacturing methods, self-contained, fully autonomous operation and user-friendliness). Different advanced techniques including electrochemical, optical, mass, colorimetric and signal amplification strategies describe early stage disease diagnosis. The book gathers scientific and technological novelties and advancements already developed or under development in the academic and research communities. It covers a vast audience from basic science to engineering and technology experts and learners.
| Author | : Waqas Ali |
| Publisher | : |
| Total Pages | : 100 |
| Release | : 2019 |
| Genre | : Biosensors |
| ISBN | : |
Download Electronic Biosensors for Early Cancer Detection Book in PDF, ePub and Kindle
Nanotechnology is an emerging field that holds promise to improved disease diagnosis and better health care. It has revolutionized the medical industry and is continuing to mesmerize in other research areas as well. Even after tremendous advancements in disease detection and treatment techniques, high mortality rate due to cancer necessitates the need for new sensing platforms for early cancer detection.The focus of this dissertation is development of new sensing platforms that are highly sensitive and selective and are able to detect the tumor at an early stage i.e.cellular or molecular level. We demonstrated that breast cancer tumor cells and lung cancer tumor cells could be successfully differentiated with the micropore biosensor.This biosensor was fabricated using standard device fabrication technology. Micropore sensor differentiated tumor cells using the difference in their cell properties. Since the cell properties of tumor cells are different than the normal cells, this property was used as an inherent cell marker alleviating the need of any external cell markers that are conventionally being used for tumor detection. With micropore sensor tumor can be detected even before it gets metastasized: a primary requirement for early cancer detection. With nanopore sensor epidermal growth factor receptor (EGFR) was detected with high sensitivity and selectivity. Selectivity was imparted using the anti-EGFR aptamer. These devices are easy to use, require minimal processing of the sample andcan potentially be used at point-of-care.
