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Aurel Stodola Lecture

Veranstaltungen am D-MAVT

Distinguished Lecture Series D-MAVT

20. April 2015, HG F 30

27. April 2015, HG F 30

Podcast

Informationsveranstaltungen für Studierende

Präsentationen Fokus-Vertiefungen 2015: 20.-23. April 2015

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aurel_stodola
Mit den „Aurel Stodola Lectures“ wird an das Leben und Werk von ETH-Professor Aurel Stodola erinnert, der im frühen 20. Jahrhundert durch seine Arbeit über angewandte Thermodynamik eine ganze Generation von Ingenieuren weltweit beeinflusst hat. Das Departement für Maschinenbau und Verfahrenstechnik (D-MAVT) hat Prof. Dr. Mauro Ferrari als diesjährigen Laureat der Aurel Stodola Lecture gewählt:


                                         
Mauro_Ferrari
Prof. Dr. Mauro Ferrari - Preisträger der Aurel Stodola Medaille 2015


                                         

Aurel Stodola Lecture 1. April 2015

MultiStage Vectors and Transport OncoPhysics

Prof. Dr. Mauro Ferrari

Houston Methodist Research Institute, Houston Methodist Hospital, Houston, Texas

The advent of novel engineering technologies affords unprecedented advances toward long-elusive objectives of medical research. Individualized medicine responds to the basic but generally unattainable question of identifying the right therapy, reaching the right therapeutic target in the body at the right time, and securing immediate feedback as for its efficacy and undesired collateral effect. Finally, individualized medicine appears to be a credible general objective in many pathologies, owing to the integration of classical disciplines of clinical medicine, methods of molecular biology, and novel technology platforms.

Nanotechnologies are of great interest in the context of the drive toward individualized medicine, and may prove to be the necessary catalyst for its large-scale implementation. In this talk I will present nanoporous-silicon-based approaches for the individualization of medical intervention: MultiStage Vectors (MSV) for the preferential localization of therapeutic agents; therapeutic monitoring nanotextured chips for the proteomic and peptidomic content profiling of biological samples; nanochannel delivery systems for intelligent time-release from implants, and bionanoscaffolds for post-traumatic osteo-regeneration.

While novel nanoplatforms engender direct clinical applications, at the same time they afford the formulation of novel frameworks and hypotheses for the basic understanding of pathological processes. In particular, multistage particulates are the probes that afford the exploration of a new perspective of cancer, that is, that the unifying aspect of the canonical ‘hallmarks of cancers’ all relate to dys-regulation of mass transport at scales including the molecular, cellular, microenvironmental, and systemic. These considerations are the starting point for “Transport OncoPhysics”.

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