Kooperativer Bibliotheksverbund

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Umfang: 1 online resource (816 pages)

Ausgabe: 1st ed.

ISBN: 9780443215933 , 0443215936

Anmerkung: Front Cover -- APPLICATIONS OF BIOSENSORS IN HEALTHCARE -- APPLICATIONS OF BIOSENSORS IN HEALTHCAREVOLUME 3EDITED BYMD SAQUIB HASNAINMARWADI UNIVERSITY RESEARCH CENTER, MARWADI UNIVE ... -- Copyright -- Contents -- Contributors -- Preface -- 1 - Biosensors in medical devices -- 1. Introduction -- 2. Medical device and biosensor -- 3. How can biosensors be integrated into medical devices? -- 4. Kinds of biosensors in medical devices -- 5. Current use of biosensors in medical devices in clinical medicine -- 6. Quality control and standardization for biosensors in medical devices in clinical medicine -- 7. Limitations for biosensors in medical devices in clinical medicine -- 8. Future trends for biosensors in medical devices in clinical medicine -- 9. Conclusion -- References -- 2 - Biosensors as emerging tools in cancer theranostics: Recent progress -- 1. Introduction -- 2. Biosensors as efficient diagnostics tools: basic principle and application -- 2.1 Molecular recognition element -- 2.2 Transducers -- 3. Types of biosensors -- 3.1 Electrochemical biosensors -- 3.2 Optical biosensor -- 3.3 Enzyme biosensors -- 3.4 Colorimetric biosensors -- 4. Cancer biomarkers and their significance in disease prognosis -- 4.1 Breast cancer -- 4.2 Prostate cancer -- 4.3 Colorectal cancer -- 4.4 Lung cancer -- 5. Recent theranostic applications of biosensors in cancer -- 6. Challenges in applications of biosensors -- 6.1 Sensitivity analysis -- 6.2 Continual in vivo monitoring -- 7. Integration and commercialization of biosensing device -- 8. Sustainability to the ecosystem -- 9. Conclusion -- Acknowledgments -- Disclosure statement -- References -- 3 - Recent developments in biosensor based transdermal drug delivery systems -- 1. Introduction -- 2. Understanding of basic structure of human skin -- 3. Overview of transdermal drug delivery systems. , 3.1 Drug delivery mechanism -- 4. Biosensors -- 5. Bioresponsive TDDS -- 5.1 Classification of biosensors -- 5.2 Classification based on advancements in drug delivery, there are several other types of biosensor-based TDDS -- 6. Applications of biosensor-based TDDS -- 6.1 Pain management -- 6.2 Diabetes -- 6.2.1 Optical glucose sensors -- 6.2.2 Enzyme-based electrochemical sensors -- 6.2.3 Glucose dehydrogenase-based sensors -- 6.2.4 Nonenzymatic sensors -- 6.3 Obesity -- 6.4 Tumor and cancer -- 6.5 Neurological disorders -- 6.6 Topical diseases -- 6.7 Hormone replacement therapy -- 6.8 Wound healing -- 6.9 Miscellaneous -- 7. Conclusions -- References -- 4 - Biosensors for targeted therapeutics -- 1. Introduction -- 2. Principles of biosensors -- 2.1 Components of biosensors -- 2.2 Working mechanisms of biosensors -- 2.3 Types of biosensors used in targeted therapeutics -- 2.3.1 Optical biosensors -- 2.3.2 Electrochemical biosensors -- 2.3.3 Piezoelectric biosensors -- 2.3.4 Thermal biosensors -- 2.3.4.1 Uses of a thermal biosensor in targeted therapy -- 2.3.5 Magnetic biosensor -- 2.3.5.1 Uses of a magnetic biosensor in targeted therapy -- 3. Applications of biosensors in targeted therapeutics -- 4. Challenges and future perspectives -- 5. Conclusion -- Funding -- Conflict of interests -- Acknowledgments -- References -- 5 - Biosensors used for anticancer therapeutics -- 1. Introduction -- 2. Biosensor fundamentals -- 2.1 Types of biosensors -- 2.1.1 Electrochemical biosensors -- 2.1.2 Optical biosensors -- 2.1.3 Mass-based biosensors -- 3. Biomarkers in anticancer biosensing -- 4. Biosensors for early cancer diagnosis -- 5. Conclusion and future perspective -- References -- 6 - Biosensors for pulmonary drug delivery -- 1. Introduction -- 2. Pulmonary drug delivery and associated barriers -- 3. Biosensor-based pulmonary drug delivery systems. , 4. Smart microelectromechanical system (MEMS)-based drug delivery -- 5. Electrochemical sensors-based drug delivery -- 6. Stimuli responsive biopolymers -- 7. Conclusions and future prospective -- References -- 7 - Biosensors used for minimally invasive drug delivery monitoring -- 1. Introduction -- 2. Drug delivery methods -- 2.1 Invasive methods for drug delivery -- 2.1.1 Parenteral drug delivery -- 2.1.2 Subcutaneous -- 2.1.3 Intramuscular injections -- 2.1.4 Intravenous administration -- 2.1.5 Intra-arterial -- 2.2 Noninvasive methods for drug delivery -- 2.2.1 Transdermal drug delivery -- 2.2.2 Oral drug delivery -- 2.2.3 Inhalation delivery -- 2.2.4 Nasal drug delivery -- 2.2.5 Buccal drug delivery -- 2.3 Minimally invasive methods of drug delivery -- 3. Materials used to fabricate biosensors in drug delivery monitoring systems -- 3.1 Metal-organic frameworks -- 3.2 Polymers -- 3.3 Nanomaterials -- 4. Biosensor-based devices for drug delivery -- 4.1 Transdermal patches -- 4.2 Microneedles -- 4.3 DNA-based biosensors -- 4.4 Wearable biosensors -- 4.5 Iontophoresis-based biosensors -- 4.6 Cell-penetrating peptides -- 5. Type of samples -- 5.1 Saliva-based sensors -- 5.2 Tear-based sensors -- 5.3 Sweat-based sensors -- 5.4 Breath sensors -- 6. Biosensor-based technologies for noninvasive drug delivery monitoring -- 6.1 Optical biosensor-based drug delivery monitoring -- 6.1.1 Spectrophotometry -- 6.1.2 Fluorimetry -- 6.1.3 Surface-enhanced Raman scattering -- 6.1.4 Surface plasmon resonance spectroscopy -- 6.1.5 Chemiluminescence -- 6.1.6 Total internal reflection fluorescence spectroscopy -- 6.2 Electrochemical biosensor for drug delivery monitoring -- 6.2.1 Microneedle-based electrochemical biosensors -- 6.2.2 Pencil-graphite-based electrochemical biosensors -- 6.2.3 Field-effect transistor-based electrochemical biosensors. , 6.2.4 Printed electrode-based electrochemical biosensor -- 7. Treatment of diseases using biosensors -- 7.1 Parkinson disease -- 7.2 Cancer -- 7.3 Diabetes -- 7.4 Cardiovascular diseases -- 7.5 Respiratory diseases -- 8. Current challenges and future prospects -- References -- Further readings -- 8 - Biosensors for protein and peptide delivery -- 1. Introduction -- 2. Proteins and peptides as molecule recognition elements -- 2.1 Peptide-based protein sensors -- 2.2 Protein and peptide-based metallic ion sensors -- 2.3 Protein and peptide-based nucleic acid and other sensor types -- 3. Types of biosensors -- 3.1 Optical biosensors -- 3.2 Electrochemical biosensors -- 3.3 Mass-based biosensors -- 3.4 Magnetic biosensors -- 3.5 Thermal biosensors -- 3.6 Microfluidic biosensors -- 4. Design of protein and peptide-based biosensors -- 5. Applications of protein and peptide-based biosensors -- 6. Latest developments in the applications of (bio)sensors methods for detection of important analytes in real samples -- 7. Challenges and future directions -- 8. Conclusion -- References -- 9 - Biosensors for detection of hormones and growth factors -- 1. Introduction -- 2. Overview of hormones and growth factors -- 2.1 Hormones -- 2.2 Growth factors -- 3. Biosensors for detection of hormones -- 3.1 Pancreatic hormones -- 3.1.1 Insulin -- 3.1.1.1 Insulin pumps -- 3.2 Thyroid hormones -- 3.2.1 T3 and T4 -- 3.2.2 PTH -- 3.2.3 Procalcitonin and calcitonin -- 3.3 Sex hormones -- 3.3.1 Estrogen -- 3.3.2 Progesterone -- 3.3.3 Testosterone -- 3.4 Adrenal hormones -- 3.4.1 Cortisol -- 3.4.2 Aldosterone -- 3.4.3 Adrenaline (epinephrine) -- 3.4.4 Norepinephrine -- 3.5 Hypothalamus -- 3.5.1 Dopamine -- 3.5.2 Somatostatin -- 3.5.3 Vasopressin -- 3.6 Pituitary glands -- 3.6.1 LH, FSH, ACTH, TSH -- 3.6.2 Oxytocin -- 3.6.3 Prolactin -- 3.7 Pineal -- 3.7.1 Melatonin. , 4. Biosensors for detection of growth factors -- 4.1 Vascular endothelial growth factor -- 4.2 Epidermal growth factor -- 4.3 Platelet-derived growth factor -- References -- 10 - Biosensors used in diabetes management -- 1. Introduction -- 2. Diabetes mellitus: a 21st-century challenge -- 3. Biomarkers for diabetes -- 3.1 Glucose -- 3.2 Insulin -- 3.3 Exhaled breath acetone -- 3.4 Mannose -- 3.5 Circulating MicroRNAs -- 3.6 α-hydroxybutyric acid -- 4. Biosensors used in diabetes -- 4.1 History -- 4.2 Nanobiosensors for glucose detection -- 4.3 Biosensors for insulin -- 4.3.1 Label-free insulin biosensors -- 4.3.2 Sandwich-type electrochemiluminescent (ECL) biosensors -- 4.3.3 Aptamer-based electrochemical biosensors -- 4.4 Transdermal amperometric glucose biosensors -- 4.5 Microneedle-based glucose sensor platform -- 5. Hurdles for diabetes biosensors -- 6. Commercial biosensors -- 7. Conclusion -- References -- 11 - Biosensors for cardiovascular applications -- 1. Introduction about cardiac diseases and their mortality rates -- 2. Cardiac biomarkers: guidelines and categories -- 2.1 Established cardiac-specific biomarkers -- 2.1.1 Established biomarker utility for acute coronary syndrome and myocardial infarction -- 2.1.2 Established biomarker utility for heart failure -- 2.1.3 Established biomarker utility for risk prognostication in a chronic stage -- 2.2 Emerging cardiac biomarkers -- 2.3 Cardiac biomarkers that provide add-on value for cardiovascular disease -- 2.4 Multiplex panels of cardiac biomarkers and their clinical benefits -- 3. An overview of sensing technologies for cardiovascular disease -- 3.1 Biosensors -- 3.1.1 Colorimetric multiplexed biosensors -- 3.1.2 Fluorescence multiplexed biosensors -- 3.1.3 Electrochemical and photoelectrochemical multiplexed biosensors. , 3.1.4 Chemiluminescence and electrochemiluminescence multiplexed sensors.

Weitere Ausg.: ISBN 9780443215926

Weitere Ausg.: ISBN 0443215928

Sprache: Englisch