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Heart Valves : From Design to Clinical Implantation (2023)

Iaizzo, Paul A. [editor.] ; Iles, Tinen L. [editor.] ; Griselli, Massimo. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Cardiovascular system. ; Physiology. ; Biomedical engineering. ; Heart Surgery. ; Cardiology. ; Cardiovascular Physiology. ; Biomedical Engineering and Bioengineering. ; Cardiac Surgery. ; Cardiology.

Description / Table of Contents: ANATOMY, PHYSIOLOGY, CONGENITAL DEFECTS, and DISEASE. - The anatomy and function of the atrioventricular valves -- The anatomy and function of the semilunar valves -- Congenital heart defects that include cardiac valve abnormalities -- Acquired valve disease and processes -- Complex repair of CHD requiring conduits OR valve replacement outside of the ROSS procedure -- VALVE REPAIR AND REPLACEMENT -- Heart valve disease -- History of heart valve repair -- The Ross Procedure -- The Use of Echocardiographic imaging of Valves -- Advanced 3D imaging (CT and MRI) and transcatheter valve repair/ implantation -- Transcatheter mitral repair and replacement -- Percutaneous pulmonary valve implantation: the first transcatheter valve -- Transcatheter aortic valve implantation -- Post TAVR PCI -- Complex Procedures in TAV, SAV, HARPOON, BASILICA w/ case studies -- Tissue engineered heart valves -- New trends for valve replacement like the Ozaki procedure -- Post-operative management of valves: On-X valve in post anticoagulation management -- TESTING, REGULATORY and TRAINING ISSUES -- In vitro testing of heart valve substitutes -- Numerical methods for design and evaluation of prosthetic heart valves -- Animal models for cardiac valve research -- The use of isolated heart models and anatomic specimens as means to enhance the design and testing of cardiac valve therapies -- Successful development and regulatory approval of replacement cardiac valves -- Clinical trial requirements for cardiac valves -- Virtual Prototyping and 3D Printing For Simulation -- Computational Modeling, Validation, Verification and Uncertainty: Device simulation in Valvular Anatomies -- Procedural Training and Education: Mixed Realities.

Abstract: This state-of-the-art handbook is dedicated to cardiac valve anatomy, models for testing and research methods, clinical trials; and clinical needs and applications. In this new edition, chapters are updated with the latest research in addition to new chapters on complex repair of CHD requiring conduits, new trends for valve replacement like the Ozaki procedure, as well as complex procedures in TAV, SAV, HARPOON, and BASILICA, with case studies for each type of procedure. This volume serves as a helpful reference for patients, educators, students, device designers and developers, clinical study specialists, clinicians, and other associated healthcare providers.

Type of Medium: Online Resource

Pages: XVII, 615 p. 252 illus., 206 illus. in color. , online resource.

Edition: 2nd ed. 2023.

ISBN: 9783031255410

URL: https://doi.org/10.1007/978-3-031-25541-0

DOI: 10.1007/978-3-031-25541-0

DDC: 573.1

Language: English

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Nano-Biofortification for Human and Environmental Health (2023)

Rajput, Vishnu D. [editor.] ; El-Ramady, Hassan. [editor.] ; Upadhyay, Sudhir K. [editor.] ; [et al.]

Cham :Springer International Publishing :

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Keywords: Nanotechnology. ; Biomaterials. ; Biology Technique. ; Agriculture. ; Biotechnology. ; Molecular biology. ; Nanotechnology. ; Plant Materials. ; Biological Techniques. ; Agriculture. ; Biotechnology. ; Molecular Biology.

Description / Table of Contents: Preface -- 1. Nano-Biofortification: Finding an Alternative Approach -- 2. Soil ecosystem services and environmental health -- 3. Malnutrition and human health -- 4. Nano-Biofortification: an environmental health overview -- 5. Phytomedicine and medicinal plants -- 6. Role of phytomedicines and medicinal plants in bacterial and viral diseases -- 7. Plant-based diets and cardiovascular health -- 8. Nano-Biofortified crop plants with selenium for human health -- 9. Biofortified crop plants with iodine for human health -- 10. Nano-Biofortified crop plants with copper for human health -- 11. Nano-Biofortified crop plants with zinc for human health -- 12. Nano-Biofortified crop plants with iron for human health -- 13. Plant leaf protein concentrate for human health -- 14. Plant secondary metabolites and human health -- 15. Plant nano-remediation and human health -- 16. Plant nano-nutrition management for human health -- 17. Physiological functions of plant nano-nutrients in human health -- 18. Nanofertilizers in Agriculture -- 19. Biofortification to Improve Micronutrient-Dense Plants -- 20. Nano-Biofortification of vegetables for nutritive values and qualitative traits -- Bibliography -- Index.

Abstract: Nanotechnology has shown great potential to alleviate increasing pressure to meet food needs for our increasing human population, Novel agricultural innovations are required to enhance the health of edible crops and per unit area yield without impacting the associated environment in a negative way. Recent advancements in nanotechnology-based agricultural solutions have proven to help overcome the problems in agriculture that are associated with run-off of essential fertilizers from agricultural soils, low nutrient accumulation by crops, as well as to control insects, pests, and seasonal biotic factors, treatment of wastewater used for irrigation, plant uptake of xenobiotics (heavy metals, pesticides, industrial chemicals, drugs, and so on) that may be present in contaminated soils. Additionally, the consumption of such food crops may result in malnourishment and plant-mediated transfer of toxic substances among humans especially in underprivileged and rural populations. Agents to stimulate plant growth include various types of nanomaterials such as carbon nanotubes, metal, and metal-oxide nanoparticles. Applications of particular nutrients or elements in crop plants can be shown to aid human nourishment (either by directly inducing its uptake or indirectly through enhancing the intracellular levels of other associated elements that ultimately boost the synthesis of the desired nutrient in plants). It is also important to consider the competence and fate of nanomaterials in soil ecosystems. The entry route of nanomaterials into the environment includes both natural and anthropogenic sources. In order to achieve sustainable and safe use of nanotechnological products in agriculture, similar environmental conditions must be simulated on lab scale with the careful selection of organisms related to agriculture. Thus, emphasis should be placed on the judicial use of nano-enabled products without compromising the sustainability of the environment and human health. This comprehensive book highlights recent field research as well as contributions from academicians in the lab. This book addresses the major aspects related to nanotechnology, biofortification of crops, and human and environmental health.

Type of Medium: Online Resource

Pages: XII, 349 p. 57 illus., 54 illus. in color. , online resource.

Edition: 1st ed. 2023.

ISBN: 9783031351471

Series Statement: Sustainable Plant Nutrition in a Changing World,

URL: https://doi.org/10.1007/978-3-031-35147-1

DOI: 10.1007/978-3-031-35147-1

DDC: 620.5