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Microfluidics and Multi Organs on Chip (2022)

Mohanan, P. V. [editor.]

Singapore :Springer Nature Singapore :

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Keywords: Medicine Research. ; Biology Research. ; Biomedical engineering. ; Toxicology. ; Cytology. ; Biomedical Research. ; Biomedical Devices and Instrumentation. ; Toxicology. ; Cell Biology.

Description / Table of Contents: Chapter 1. A Historical and Technological Background to Organs-on-a-Chip -- Chapter 2. Applications of microfluidics -- Chapter 3. Microfluidics based Organ-on-a-chip for cell biology studies -- Chapter 4. Microfluidics in Chemical biology -- Chapter 5. Role of microfluidics in drug delivery -- Chapter 6. Microfluidics in drug discovery -- Chapter 7. Microfludic based sensors -- Chapter 8. Background and Organs-on-a-Chip -- Chapter 9. Culture and co-culture of cells for multi organ on chip -- Chapter 10.Cells and organs on a chip in biomedical sciences -- Chapter 11. Futuristic aspects of organ on a chip -- Chapter 12. Development of Human on a chip -- Chapter 13. Multi-organ on a chip for personalized medicine -- Chapter 14. Development and application of Microfluids in organoid formation -- Chapter 15. Liver on a chip -- Chapter 16. Placenta on Chip: A Modern approach to probe feto-maternal interface -- Chapter 17. Microfluidic retina-on-chip -- Chapter 18. Heart on a chip -- Chapter 19. Kidney on a chip -- Chapter 20. Lungs on a chip -- Chapter 21. Brain on a chip -- Chapter 22. Skin on a chip -- Chapter 23. Organs-on-a-chip in preclinical studies -- Chapter 24. Application of organ on chip in blood brain barrier model -- Chapter 25. Multi organs on a chip in disease modeling -- Chapter 26. Prospects of Medical device on a chip -- Chapter 27. Lab on a chip for precision Medicine -- Chapter 28. Tumour-on-a-chip : Perfusion systems to model the extracellular breast tumour microenvironment:from tumour progression to metastasis formation -- Chapter 29. Building Human In Vitro 3D Models to Replace Animal Studies: During Drug Discovery Reearch: Scientific, Ethical and Regulatory Considerations.

Abstract: This book highlights the application of microfluidics in cell biology research, chemical biology, and drug discovery. It covers the recent breakthroughs and prospects of organ-on-a-chip, human-on-a-chip, multi-organ-on-a-chip for personalized medicine. The book presents the preclinical studies of organs-on-a-chip, concepts of multiple vascularized organ-on-chips, application of organ-on-a-chip in blood-brain barrier model, culture and co-culture of cells on multi-organ-on-chip and parameter measurements in microfluidic devices. It underscores the advantage of microfluidic devices for developing efficient drug carrier particles, cell-free protein synthesis systems, and rapid techniques for direct drug screening. Further, it entails human-on-a-chip for measuring the systemic response as well as immediate effects of an organ reaction on other organs. In summary, this book reviews the development of a microfluidic-based organ-on-a-chip device for the preclinical evaluation, ADME studies of drugs, chemicals, and medical devices. This book is a valuable source for pharma companies, product developers, students, researchers, academicians, and practitioners.

Type of Medium: Online Resource

Pages: IX, 717 p. 1 illus. , online resource.

Edition: 1st ed. 2022.

ISBN: 9789811913792

URL: https://doi.org/10.1007/978-981-19-1379-2

DOI: 10.1007/978-981-19-1379-2

DDC: 610.72

Language: English

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Biomedical Applications and Toxicity of Nanomaterials (2023)

Mohanan, P. V. [editor.] ; Kappalli, Sudha. [editor.]

Singapore :Springer Nature Singapore :

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Keywords: Pharmacology. ; Nanobiotechnology. ; Nanomedicine. ; Pharmacology. ; Nanobiotechnology. ; Nanomedicine and Nanotoxicology.

Description / Table of Contents: Chapter 1. Macroporous cryogel-based systems for water treatment applications and Safety: nanocomposite-based cryogels and bacteria-based bioreactors -- Chapter 2. One dimensional Semiconducting Nanomaterials: Toxicity and Clinical Applications -- Chapter 3. Prospects of Safe use of Nanomaterials in Biomedicalapplications -- Chapter 4. Hyaluronic acid-based nanotechnologies for delivery and treatment -- Chapter 5. Theranostics nanomaterials for safe cancer treatment -- Chapter 6. Cardiovascular safety assessment of new chemical entities: current perspective and emerging technologies -- Chapter 7. Toxicology of pharmaceutical products during drug development -- Chapter 8. Safety and Risk assessment of food items -- Chapter 9. Non toxic Natural products as regulators of tumour suppressor gene function -- Chapter 10. Advancements in the safety of Plant medicine: Back to nature -- Chapter 11. Chemicals and their interaction in the aquaculture system -- Chapter 12. Zebrafish as a biomedical model to define developmental origins of chemical toxicity -- Chapter 13. Green synthesis of non toxic nanoparticles -- Chapter 14. Synthesis, characterisation and safety of titanium oxide nanoparticles -- Chapter 15. Characterisation of non toxic nanomaterials for biological applications -- Chapter 16. Toxicity assessment of nanoparticle -- Chapter 17. Safety of nanoparticles: emphasis on antimicrobial properties -- Chapter 18. Quantum dots for imaging and its safety -- Chapter 19. Genotoxicity evaluation of nanosized materia -- Chapter 20. Scaffoldmaterials and toxicity -- Chapter 21 Biological Safety and Cellular interactions of nanoparticles -- Chapter 22. Role of artificial intelligence in the toxicity prediction of drugs -- Chapter 23. Chemicals and rodent models for the safety study of alzheimer’s disease -- Chapter 24. Mitochondria-targeted liposomal delivery in Parkinson's disease: safety concerns -- Chapter 25. Routes of Nano-drug Administration and Nano-based drug delivery system and toxicity -- Chapter 26. Green Synthesised silver nanoparticles phytotoxicity and applications in agriculture: An overview -- Chapter 27 status of safety concerns of microplastic detection strategies -- Chapter 28. Impact of insecticides on man and environment.

Abstract: This book covers the recent trends on the biological applications of nanomaterials, methods for their preparation, and techniques for their characterization. Further, the book examines the fundamentals of nanotoxicity, methods to assess the toxicity of engineered nanomaterials, approaches to reduce toxicity during synthesis. It also provides an overview of the state of the art in the application of Artificial intelligence-based methodologies for evaluation of toxicity of drugs and nanoparticles. The book further discusses nanocarrier design, routes of various nanoparticle administration, nano based drug delivery systems, and the toxicity challenges associated with each drug delivery method. It presents the latest advances in the interaction of nanoparticles with the cellular environment and assess nanotoxicity of these engineered nanoparticles. The book also explores the comparative and mechanistic genotoxicity assessment of the nanomaterials. This book is useful source of information for industrial practitioners, policy makers, and other professionals in the fields of toxicology, medicine, pharmacology, food, and drugs.

Type of Medium: Online Resource

Pages: XVIII, 768 p. 1 illus. , online resource.

Edition: 1st ed. 2023.

ISBN: 9789811978340

URL: https://doi.org/10.1007/978-981-19-7834-0

DOI: 10.1007/978-981-19-7834-0

DDC: 615

Language: English

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Amphotericin B-Gum Arabic Conjugates: Synthesis, Toxicity, Bioavailability, and Activities Against Leishmania and Fungi (2007)

Nishi, K. K. ; Antony, M. ; Mohanan, P. V. ; [et al.]

Springer

In: Pharmaceutical Research. 2007; 24(5): 971-980. Published 2007 Mar 20. doi: 10.1007/s11095-006-9222-z.

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Publication Date: 2007-03-20

Print ISSN: 0724-8741

Electronic ISSN: 1573-904X

Topics: Chemistry and Pharmacology

Published by Springer

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Organ distribution and biological compatibility of surface-functionalized reduced graphene oxide (2019)

Cherian, R S ; Anju, S ; Paul, Willi ; [et al.]

Institute of Physics

In: Nanotechnology. 2019; 31(7): 075303. Published 2019 Nov 20. doi: 10.1088/1361-6528/ab4bff.

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Publication Date: 2019-11-20

Print ISSN: 0957-4484

Electronic ISSN: 1361-6528

Topics: Physics

Published by Institute of Physics

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Toxicokinetics and biodistribution of dextran stabilized iron oxide nanoparticles in rats (2015)

Easo, S L ; Neelima, R ; Mohanan, P V

Institute of Physics

In: Materials Research Express. 2015; 2(7): 075401. Published 2015 Jul 21. doi: 10.1088/2053-1591/2/7/075401.

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Publication Date: 2015-07-21

Electronic ISSN: 2053-1591

Topics: Chemistry and Pharmacology , Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Published by Institute of Physics

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Nano-bio compatibility of PEGylated reduced graphene oxide on mesenchymal stem cells (2017)

Syama, S ; Aby, C P ; Maekawa, Toru ; [et al.]

Institute of Physics

In: 2D Materials. 2017; 4(2): 025066. Published 2017 Apr 03. doi: 10.1088/2053-1583/aa65c2.

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Publication Date: 2017-04-03

Electronic ISSN: 2053-1583

Topics: Physics

Published by Institute of Physics

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Assessment of Immunotoxicity and Oxidative Stress Induced by Zinc Selenium/Zinc Sulphide Quantum Dots (2021)

Reshma, V. G. ; Mohanan, P. V.

Frontiers Media

In: Frontiers in Nanotechnology. 2021; 2: Published 2021 Feb 19. doi: 10.3389/fnano.2020.597382.

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Publication Date: 2021-02-19

Description: Although ZnSe/ZnS quantum dots (QDs) have emerged as apparently less hazardous substitute to cadmium-based QDs, their toxicity has not been fully understood. Huge levels of ROS production and associated difficulties comprise the underlying reason for nanomaterial toxicity in cells. This will cause both immunotoxicity and genotoxicity. In the current work, Zinc Selenium/Zinc Sulphide (ZnSe/ZnS) QDs was synthesized, characterized and analyzed for its role in oxidative stress induction in two cell lines (HepG2 and HEK) and Swiss Albino mice. ROS production and influence of catalase activity in ROS production measured by DCFHDA assay in both HepG2 and HEK cells after exposure to ZnSe/ZnS QDs. Assessment of nitrile radical formation carried out by griess reagent. Level of GSH is assessed as a marker for oxidative stress induced by QDs. Cell death induced after exposure to ZnSe/ZnS QDs investigated by Calcein AM-PI live dead assay. Apoptotic DNA ladder assay carried out for studying the potential of ZnSe/ZnS QDs to induce DNA fragmentation. In vivo bio-nano interaction was studied by exposing Swiss Albino mice to ZnSe/ZnS QDs via i.v. and i.p. injection. Antioxidant assays were carried out in brain and liver homogenates to study the oxidative stress. LPO, GSH, GPx, GR and SOD are considered as biomarkers for the stress analysis. Blood brain barrier (BBB) integrity also studied. Spleenocytes proliferation assay was carried out to study the immunotoxicity response. ZnSe/ZnS QDs do not induce visible oxidative stress upto a concentration of 50 μg/ml. Cell death occurs at higher concentration (100 μg/ml) caused by ROS production. Overall study apparently provide attentive information that ZnSe/ZnS QDs is not capable of eliciting any serious damages to liver and brain tissues which in turn substantiates its applicability in biomedical applications.

Electronic ISSN: 2673-3013

Topics: Physics

Published by Frontiers Media

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