Smart nanomaterials in biomedical applications:
With the start of 2020, the wrath of pandemic challenged the scientific community to develop more advanced drug delivery approaches for biomedical applications, endowing conventional drugs with additional therapeutic benefits and minimum side effects. Although significant advancements have been done...
Gespeichert in:
| Weitere Verfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cham, Switzerland
Springer
[2021]
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| Schriftenreihe: | Nanotechnology in the Life sciences
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| Schlagworte: | |
| Zusammenfassung: | With the start of 2020, the wrath of pandemic challenged the scientific community to develop more advanced drug delivery approaches for biomedical applications, endowing conventional drugs with additional therapeutic benefits and minimum side effects. Although significant advancements have been done in the field of drug delivery, there is a need to focus towards strategizing novel and improved drug delivery systems that should be convenient and cost-effective to the patients, and simultaneously they should also provide financial benefits to pharmaceutical companies. Controlled drug delivery technology offers ample opportunities and scope for improvising the therapeutic efficacy of drugs via optimizing the drug release rate and time. For this endeavour, smart nanomaterials have served as remarkable candidates for biomedical applications, owing to their ground-breaking properties and design. The development of such nanomaterials requires a broad knowledge related to their physio-chemical properties, molecular structure, mechanisms by which the nanomaterials interact with the cells, and methods by which drugs are released at the site of action. This knowledge must also be allied with the knowledge of signaling crosstalk mechanisms that are modulated by the nanomaterial-drugs composite. It can be anticipated that these emerging drug delivery technologies can facilitate the world to successfully encounter such pandemic outbursts in the future in a cost-effective and time-effective manner. The chapters in this book deal with the advanced technologies and approaches that can benefit advanced students, researchers, and industry experts in developing smart and intelligent nanomaterials for future biomedical applications, and development, manufacturing, and commercialization for controlled and targeted drug delivery |
| Beschreibung: | xiii, 600 Seiten Illustrationen, Diagramme 235 mm |
| ISBN: | 9783030842611 |
Internformat
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| 520 | |a With the start of 2020, the wrath of pandemic challenged the scientific community to develop more advanced drug delivery approaches for biomedical applications, endowing conventional drugs with additional therapeutic benefits and minimum side effects. Although significant advancements have been done in the field of drug delivery, there is a need to focus towards strategizing novel and improved drug delivery systems that should be convenient and cost-effective to the patients, and simultaneously they should also provide financial benefits to pharmaceutical companies. Controlled drug delivery technology offers ample opportunities and scope for improvising the therapeutic efficacy of drugs via optimizing the drug release rate and time. For this endeavour, smart nanomaterials have served as remarkable candidates for biomedical applications, owing to their ground-breaking properties and design. The development of such nanomaterials requires a broad knowledge related to their physio-chemical properties, molecular structure, mechanisms by which the nanomaterials interact with the cells, and methods by which drugs are released at the site of action. This knowledge must also be allied with the knowledge of signaling crosstalk mechanisms that are modulated by the nanomaterial-drugs composite. It can be anticipated that these emerging drug delivery technologies can facilitate the world to successfully encounter such pandemic outbursts in the future in a cost-effective and time-effective manner. The chapters in this book deal with the advanced technologies and approaches that can benefit advanced students, researchers, and industry experts in developing smart and intelligent nanomaterials for future biomedical applications, and development, manufacturing, and commercialization for controlled and targeted drug delivery | ||
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| spelling | Smart nanomaterials in biomedical applications Jin-Chul Kim, Madhusudhan Alle, Azamal Husen, editors Cham, Switzerland Springer [2021] xiii, 600 Seiten Illustrationen, Diagramme 235 mm txt rdacontent n rdamedia nc rdacarrier Nanotechnology in the Life sciences With the start of 2020, the wrath of pandemic challenged the scientific community to develop more advanced drug delivery approaches for biomedical applications, endowing conventional drugs with additional therapeutic benefits and minimum side effects. Although significant advancements have been done in the field of drug delivery, there is a need to focus towards strategizing novel and improved drug delivery systems that should be convenient and cost-effective to the patients, and simultaneously they should also provide financial benefits to pharmaceutical companies. Controlled drug delivery technology offers ample opportunities and scope for improvising the therapeutic efficacy of drugs via optimizing the drug release rate and time. For this endeavour, smart nanomaterials have served as remarkable candidates for biomedical applications, owing to their ground-breaking properties and design. The development of such nanomaterials requires a broad knowledge related to their physio-chemical properties, molecular structure, mechanisms by which the nanomaterials interact with the cells, and methods by which drugs are released at the site of action. This knowledge must also be allied with the knowledge of signaling crosstalk mechanisms that are modulated by the nanomaterial-drugs composite. It can be anticipated that these emerging drug delivery technologies can facilitate the world to successfully encounter such pandemic outbursts in the future in a cost-effective and time-effective manner. The chapters in this book deal with the advanced technologies and approaches that can benefit advanced students, researchers, and industry experts in developing smart and intelligent nanomaterials for future biomedical applications, and development, manufacturing, and commercialization for controlled and targeted drug delivery Nanomedicine Drug delivery systems Nanotechnology Cancer Hardcover, Softcover / Medizin/Nichtklinische Fächer (DE-588)4143413-4 Aufsatzsammlung gnd-content Kim, Jin-Chul edt Alle, Madhusudhan edt Husen, Azamal (DE-588)1212265769 edt Erscheint auch als Online-Ausgabe 978-3-030-84262-8 |
| spellingShingle | Smart nanomaterials in biomedical applications Nanomedicine Drug delivery systems Nanotechnology Cancer |
| subject_GND | (DE-588)4143413-4 |
| title | Smart nanomaterials in biomedical applications |
| title_auth | Smart nanomaterials in biomedical applications |
| title_exact_search | Smart nanomaterials in biomedical applications |
| title_exact_search_txtP | Smart nanomaterials in biomedical applications |
| title_full | Smart nanomaterials in biomedical applications Jin-Chul Kim, Madhusudhan Alle, Azamal Husen, editors |
| title_fullStr | Smart nanomaterials in biomedical applications Jin-Chul Kim, Madhusudhan Alle, Azamal Husen, editors |
| title_full_unstemmed | Smart nanomaterials in biomedical applications Jin-Chul Kim, Madhusudhan Alle, Azamal Husen, editors |
| title_short | Smart nanomaterials in biomedical applications |
| title_sort | smart nanomaterials in biomedical applications |
| topic | Nanomedicine Drug delivery systems Nanotechnology Cancer |
| topic_facet | Nanomedicine Drug delivery systems Nanotechnology Cancer Aufsatzsammlung |
| work_keys_str_mv | AT kimjinchul smartnanomaterialsinbiomedicalapplications AT allemadhusudhan smartnanomaterialsinbiomedicalapplications AT husenazamal smartnanomaterialsinbiomedicalapplications |