Birmingham, : Packt Pub., 2013

9781782169420

1782169423

1 online resource (78 p.)

005.712762

Telecommunication - Message processing - Computer programs

Electronic mail systems - Computer programs

Open source software

Inglese

"Instant: short, fast, focused"--Cover.

Cover; Copyright; Credits; About the Author; About the Reviewer; www.PacktPub.com; Table of Contents; Preface; Instant Apache ActiveMQ Messaging Application Development How-to; Installing ActiveMQ (Simple); Setting up our development environment (Simple); Creating ActiveMQ applications (Simple); Dividing up work with queues (Simple); Event processing with topics (Simple); Selecting messages (Simple); Using the JMS request/response pattern (Intermediate); Scheduling message delivery (Advanced); Activity monitoring in ActiveMQ (Advanced); Application testing using embedded brokers (Advanced)

Using ActiveMQ connection pools (Advanced)Using Virtual Destinations (Advanced); Using Failover transport (Advanced)

Filled with practical, step-by-step instructions and clear explanations for the most important and useful tasks.This is a Packt Instant How-to guide, which provides concise and practical recipes to help you get started writing applications with ActiveMQ using practical examples.Instant ActiveMQ Application Development How-to is for the developers who are new to Java Message Service application development or new to JMS development using ActiveMQ. Readers will come away ready to solve complicated messaging related problems

using the JMS API and ActiveMQ.

Singapore : , : Springer Singapore : , : Imprint : Springer, , 2017

981-10-4726-X

1 online resource (XII, 396 p. 164 illus., 149 illus. in color.)

614.5999

Cancer - Research

Biomedical engineering

Biology—Technique

Nanotechnology

Nanochemistry

Cancer Research

Biomedical Engineering/Biotechnology

Biological Techniques

Nanotechnology and Microengineering

Inglese

Includes bibliographical references at the end of each chapters.

Cancer Biomarkers: Important Tools for Cancer Diagnosis and Prognosis -- Transcription factors as detection and diagnostic biomarkers in cancer -- Cancer biomarkers immunosensing strategies based on graphene surface engineered materials -- Label-free biosensors for early diagnosis of cancer based on G-quadruplex and isothermal amplification -- Point-of-care and implantable biosensors in cancer research and diagnosis -- Electrochemical Redox Cycling Amplification Technology for Point-of-Care Cancer Diagnosis -- Hyperbolic metamaterials-based ultra-sensitive plasmonic biosensors for early stage cancer detection -- SERS-based biosensors as potential next generation point-of-care cancer diagnostic platforms -- Nucleic

acid-based aptasensors for cancer diagnostics - An insight into immobilisation strategies -- Nanobiosensing technologies for prostate cancer diagnostics/prognostics:  Tiny smart medicine -- Developments in the  Electrochemical Bionanosensors for the Predictive Diagnosis of Prostate and Breast Cancer -- Oligopeptides for Cancer and other Biomedical Sensing Applications -- Microfluidic immunoassay devices as next generation cancer and medical diagnostics platform -- Point-of-care device with plasmonic gold nanoarray sensing chip for biomarker detections -- Sers Biosensing and Bioimaging: Design and Applications in Cancer Diagnostics -- Microfluidic Paper-based Analytical Devices  for Point-of-Care Diagnosis.

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.