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Resource identifiers

http://hdl.handle.net/2117/361892

10.17863/CAM.45844

Origin

(Universitat Politècnica de Catalunya. UPCommons - Recerca)

File

Subject:: Àrees temàtiques de la UPC::Enginyeria mecànica::Mecànica de fluids; Àrees temàtiques de la UPC::Enginyeria biomèdica; Biotechnology; Biotechnological process control; Oncology; Vibration in antibacterial; Oncological therapy; Vibration bioreactor prototypes; Biotecnologia; Control de processos biotecnològics; Oncologia
Description:: The main topic for 2019 is vibration in antibacterial and oncological therapy. Many effects of mechanical vibration on tissue have been discovered so far. Clinical applications relying on vibration exist for a variety of conditions. The intracellular processes however are still largely not understood. And reproducibility remains a matter of potential for improvement. During the last year, we have worked on building vibration bioreactor prototypes for the controlled exposure of in-vitro cell cultures to resonance vibration. We see great potential for piezoelectric patches (PZTp) as mechanical actuators. Compared to ultrasound, the controllability of vibration frequency and local vibration energy density is an important advantage; Peer Reviewed; Objectius de Desenvolupament Sostenible::3 - Salut i Benestar; Postprint (author's final draft)
Idioma:: English
Other collaborators/producers:: Presas Batlló, Alexandre; Bosbach, Wolfram A.; Ana, Mieczakowski; Heiss, Christian
Rights:: Attribution-NonCommercial-NoDerivs 3.0 Spain; http://creativecommons.org/licenses/by-nc-nd/3.0/es/; Open Access
Date:: 2019-11-01
Resource type:: Conference lecture
Format:: application/pdf

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2. < dc:contributor > Bosbach, Wolfram A. </ dc:contributor >
3. < dc:contributor > Ana, Mieczakowski </ dc:contributor >
4. < dc:contributor > Heiss, Christian </ dc:contributor >
5. < dc:subject > Àrees temàtiques de la UPC::Enginyeria mecànica::Mecànica de fluids </ dc:subject >
6. < dc:subject > Àrees temàtiques de la UPC::Enginyeria biomèdica </ dc:subject >
7. < dc:subject > Biotechnology </ dc:subject >
8. < dc:subject > Biotechnological process control </ dc:subject >
9. < dc:subject > Oncology </ dc:subject >
10. < dc:subject > Vibration in antibacterial </ dc:subject >
11. < dc:subject > Oncological therapy </ dc:subject >
12. < dc:subject > Vibration bioreactor prototypes </ dc:subject >
13. < dc:subject > Biotecnologia </ dc:subject >
14. < dc:subject > Control de processos biotecnològics </ dc:subject >
15. < dc:subject > Oncologia </ dc:subject >
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10. < dc:subject > Biotecnologia </ dc:subject >
11. < dc:subject > Control de processos biotecnològics </ dc:subject >
12. < dc:subject > Oncologia </ dc:subject >
13. < dc:subject type =" dcterms:LCSH " > Biotechnology </ dc:subject >
14. < dc:subject type =" dcterms:LCSH " > Biotechnological process control </ dc:subject >
15. < dc:subject type =" dcterms:LCSH " > Oncology </ dc:subject >
16. < dc:description > Objectius de Desenvolupament Sostenible::3 - Salut i Benestar </ dc:description >
17. < dcterms:abstract > The main topic for 2019 is vibration in antibacterial and oncological therapy. Many effects of mechanical vibration on tissue have been discovered so far. Clinical applications relying on vibration exist for a variety of conditions. The intracellular processes however are still largely not understood. And reproducibility remains a matter of potential for improvement. During the last year, we have worked on building vibration bioreactor prototypes for the controlled exposure of in-vitro cell cultures to resonance vibration. We see great potential for piezoelectric patches (PZTp) as mechanical actuators. Compared to ultrasound, the controllability of vibration frequency and local vibration energy density is an important advantage </ dcterms:abstract >
18. < dcterms:dateAccepted > 2022-02-07T21:01:39Z </ dcterms:dateAccepted >
19. < dcterms:available > 2022-02-07T21:01:39Z </ dcterms:available >
20. < dcterms:issued > 2019-11-01 </ dcterms:issued >
21. < dc:type > Conference lecture </ dc:type >
22. < dc:identifier > 10.17863/CAM.45844 </ dc:identifier >
23. < dc:identifier type =" dcterms:URI " > http://hdl.handle.net/2117/361892 </ dc:identifier >
24. < dc:language > eng </ dc:language >
25. < dc:rights > Attribution-NonCommercial-NoDerivs 3.0 Spain </ dc:rights >
26. < dc:rights > http://creativecommons.org/licenses/by-nc-nd/3.0/es/ </ dc:rights >
27. < dcterms:accessRights > Open Access </ dcterms:accessRights >
28. < dcterms:identifier > https://upcommons.upc.edu/bitstream/2117/361892/3/2019-Giessen-DFG-proceedings-v24%20%281%29.pdf.jpg </ dcterms:identifier >
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  1. < dc:subject > Àrees temàtiques de la UPC::Enginyeria mecànica::Mecànica de fluids </ dc:subject >
  2. < dc:subject > Àrees temàtiques de la UPC::Enginyeria biomèdica </ dc:subject >
  3. < dc:description > The main topic for 2019 is vibration in antibacterial and oncological therapy. Many effects of mechanical vibration on tissue have been discovered so far. Clinical applications relying on vibration exist for a variety of conditions. The intracellular processes however are still largely not understood. And reproducibility remains a matter of potential for improvement. During the last year, we have worked on building vibration bioreactor prototypes for the controlled exposure of in-vitro cell cultures to resonance vibration. We see great potential for piezoelectric patches (PZTp) as mechanical actuators. Compared to ultrasound, the controllability of vibration frequency and local vibration energy density is an important advantage </ dc:description >
  4. < dc:date > 2022-02-07T21:01:39Z </ dc:date >
  5. < dc:date > 2022-02-07T21:01:39Z </ dc:date >
  6. < dc:date > 2019-11-01 </ dc:date >
  7. < dc:type > Conference lecture </ dc:type >
  8. < dc:identifier > http://hdl.handle.net/2117/361892 </ dc:identifier >
  9. < dc:identifier > 10.17863/CAM.45844 </ dc:identifier >
  10. < dc:language > eng </ dc:language >
  11. < dc:rights > http://creativecommons.org/licenses/by-nc-nd/3.0/es/ </ dc:rights >
  12. < dc:rights > Open Access </ dc:rights >
  13. < dc:rights > Attribution-NonCommercial-NoDerivs 3.0 Spain </ dc:rights >
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