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Summary:

Abstract: "This book is an authoritative reference source for emerging scholarly research on trends, techniques, and future directions in the field of biomedical engineering technologies. Highlighting a comprehensive range of topics such as nanotechnology, biomaterials, and robotics"--Provided by publisher.

Table of Contents:

• Volume I. Section 1. Fundamental concepts and theories. Chapter 1. Convergence of nNanotechnology and microbiology ; Chapter 2. A Brief insight into nanorobotics ; Chapter 3. Nanobiotechnology and therapeutics ; Chapter 4. The need for global standards in biomedical ethics and the qualitative methodology
• Section 2. Development and design methodologies. Chapter 5. Text mining on big and complex biomedical literature ; Chapter 6. Nucleic acids-based nanotechnology: engineering principals and applications ; Chapter 7. Modeling, mathematical and numerical studies of a new biventricular model for artificial heart powered by an electromagnet subjected to sinusoidal and square voltages ; Chapter 8. Population-based feature selection for biomedical data classification ; Chapter 9. Two-directional two-dimensional principal component analysis based on wavelet decomposition for high-dimensional biomedical signals classification ; Chapter 10. Creativity development through inquiry-based learning in biomedical sciences ; Chapter 11. Up-converting nanoparticles: promising markers for biomedical applications ; Chapter 12. Re-engineering a medical devices management software system: the web approach ; Chapter 13. NBIC-convergence and technoethics: common ethical perspective ; Chapter 14. Functional coatings for bone tissue engineering ; Chapter 15. Quality of service and radio management in biomedical wireless sensor networks ; Chapter 16. Baseline drift removal of ECG signal: comparative analysis of filtering techniques ; Chapter 17. Humsocial mean voice waveform analysis for categorization of healthy and Parkinson subjects
• Section 3. Tools and technologies. Chapter 18. Signal-adaptive analog-to-digital converters for ULP wearable and implantable medical devices: a survey ; Chapter 19. Biomechanical properties of the foot sole in diabetic mellitus patients: a preliminary study to understand ulcer formation ; Chapter 20. Mineralized nanofibers for bone tissue engineering
• Volume II. Chapter 21. Self-assembled biomimetic scaffolds for bone tissue engineering ; Chapter 22. A case study of a laboratory information system developed at the Institute for Cancer Research at Candiolo ; Chapter 23. Ventricular assist device and its necessity for elderly population ; Chapter 24. UMLS Semantic Network as a UML metamodel for improving biomedical ontology and application modeling ; Chapter 25. Uberveillance, standards, and anticipation: a case study on nanobiosensors in U.S. cattle ; Chapter 26. Unified wavelet transform analysis adapted to different biomedical applications ; Chapter 27. Biomedical watermarking: an emerging and secure tool for data security and better telediagnosis in modern health care system ; Chapter 28. Hybrid integration technology for wearable sensor systems ; Chapter 29. Information services to biomedical science through mobile technology applications ; Chapter 30. Parameter estimation of nonlinear biomedical systems using extended Kalman Filter Algorithm: development of patient specific models ; Chapter 31. Extending lifetime of biomedical wireless sensor networks using energy-aware routing and relay nodes ; Chapter 32. Robotics in surgical techniques robotics in surgical techniques: present and future trends ; Chapter 33. Searching bioinformatics information strategies for effective use of search engine ; Chapter 34. Smart technology for non invasive biomedical sensors to measure physiological parameters
• Section 4. Utilization and applications . Chapter 35. Applications of gold nanoparticles in cancer ; Chapter 36. Brain-computer interfaces for control of upper extremity neuroprostheses in individuals with high spinal cord injury ; Chapter 37. Biomedical applications of gold nanoparticles: recent advances and future prospects ; Chapter 38. Articulating biomaterials: surface engineering, tribology, and biocompatibility ; Chapter 39. Nanotechnology-based studies in systems biology ; Chapter 40. Nanotechnology for the management of respiratory disease ; Chapter 41. Nanomedicine as a newly emerging approach against Multidrug-Resistant Tuberculosis (MDRTB)
• Volume III. Chapter 42. Detection and conditioning of EMG ; Chapter 43. Setting priorities for the development of medicinal plants sector in J&K (Kashmir) and their progress towards nanotechnology ; Chapter 44. Laser additive manufacturing of titanium-based implants: a review ; Chapter 45. A review on noninvasive beat-to-beat systemic and pulmonary blood pressure estimation through surrogate cardiovascular signals ; Chapter 46. Bioinspired materials and biocompatibility ; Chapter 47. Intracellular behavior of nanoparticles based on their physicochemical properties ; Chapter 48. Personalized approach in nanomedicine: understanding adverse effects and their risk assessment ; Chapter 49. Optimized clustering techniques with special focus to biomedical datasets ; Chapter 50. Trends and new advances on wearable and mobile technologies for Parkinson's disease monitoring and assessment of motor symptoms: how new technologies can support Parkinson's disease ; Chapter 51. Therapeutic applications of nanobiomaterials ; Chapter 52. HOD2 MLC: hybrid ontology design and development model with lifecycle
• Section 5. Organizational and social implications. Chapter 53. Introduction to bio-inspired hydrogel and their application: hydrogels ; Chapter 54. Innovative teaching practice and assessment with technology applications in international biomedical engineering education ; Chaper 55. Nanotechnology and its use in tissue engineering ; Chapter 56. Information security-based nano- and bio-cryptography ; Chapter 57. Biomedical librarianship in the post-genomic era
• Section 6. Emerging trends. Chapter 58. Vaccine nanocarriers: the future ahead ; Chapter 59. Preclinical challenges and clinical target of nanomaterials in regenerative medicine ; Chapter 60. Recent advances in synthesis and biomedical applications of magnetic nanoparticles: magnetic nanoparticles for biomedical applications ; Chapter 61. Single electronics for biomedical applications

Contributors:

IGI Global , publisher, http://id.loc.gov/vocabulary/relators/pbl

Information Resources Management Association , editor, http://id.loc.gov/vocabulary/relators/edt

Languages:

English

Language Notes:

Item content: English

Main Work:

Biomedical engineering (Information Resources Management Association)

Subjects:

Biomedical engineering

Nanotechnology

Diagnostic imaging — Equipment and supplies

Diagnostic imaging

General Notes:

Includes bibliographical references and index.
Description based on online resource; title from title screen (IGI Global, viewed 07/18/2017).

Physical Description:

1 online resource (3 volumes

Digital Characteristics:

text file

Call Numbers:

R857.M3 2018eb

ISBNs:

9781522531586 (hardcover) [Invalid]
9781522531593 (ebook)

Other Standard Numbers:

Digital Object Identifier: 10.4018/978-1-5225-3158-6

OCLC Numbers:

994502904

Other Control Numbers:

slc19576725 (source: CaBNVSL)
101703150 (source: DNLM)
[Unknown Type]: igi00179833