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Twenty-five years ago, micro- and nanotechnology were barely in their infancy. Today, technological advancements at the lower end of the nanoscale have radically changed the field of medicine, allowing for innovative and more personalized approaches to numerous pathologies. The initial cascade of advancements was triggered by the herculean efforts of a few pioneers in the field. Dr. Mauro Ferrari is one such visionary; his work over the past two decades has set the stage for medical innovation through nanotechnology. Written by world-renowned experts in the field, this book pays tribute to Dr. Mauro Ferrari's vast contribution to the field of nanotechnology and nanomedicine. It covers the multifaceted and fundamental aspects of biomedical research, including technological innovation, ethics, patient advocacy, and clinical translation, all areas where Dr. Ferrari's contribution has been and continue to be fundamental. Additionally, it presents recent advances in micro- and nanotechnologies. Chapter 2 and Chapters 9 through 27 were originally published in Biomedical Microdevices in the Topical Collection "Biomedical Micro-Nanotechnologies toward Translation"
Less than twenty years ago photolithography and medicine were total strangers to one another. They had not yet met, and not even looking each other up in the classi?eds. And then, nucleic acid chips, micro?uidics and microarrays entered the scene, and rapidly these strangers became indispensable partners in biomedicine. Asrecentlyastenyearsagothenotionofapplyingnanotechnologytothe?ghtagainstd- ease was dominantly the province of the ?ction writers. Thoughts of nanoparticle-vehicled deliveryoftherapeuticalstodiseasedsiteswereanexerciseinscienti?csolitude,andgrounds for questioning one's ability to think "like an established scientist". And today we have nanoparticulate paclitaxel as the prime option against metastatic breast cancer, proteomic pro?lingdiagnostictoolsbasedontargetsurfacenanotexturing,nanoparticlecontrastagents for all radiological modalities, nanotechnologies embedded in high-distribution laboratory equipment, and no less than 152 novel nanomedical entities in the regulatory pipeline in the US alone. Thisisatransformingimpact,byanymeasure,withclearevidenceoffurtheracceleration, supported by very vigorous investments by the public and private sectors throughout the world. Even joining the dots in a most conservative, linear fashion, it is easy to envision scenarios of personalized medicine such as the following: patient-speci?c prevention supplanting gross, faceless intervention strategies; early detection protocols identifying signs of developing disease at the time when the disease is most easily subdued; personally tailored intervention strategies that are so routinely and inexpensively realized, that access to them can be secured by everyone; technologies allowing for long lives in the company of disease, as good neighbors, without impairment of the quality of life itself.
Less than twenty years ago photolithography and medicine were total strangers to one another. They had not yet met, and not even looking each other up in the classi?eds. And then, nucleic acid chips, micro?uidics and microarrays entered the scene, and rapidly these strangers became indispensable partners in biomedicine. Asrecentlyastenyearsagothenotionofapplyingnanotechnologytothe?ghtagainstd- ease was dominantly the province of the ?ction writers. Thoughts of nanoparticle-vehicled deliveryoftherapeuticalstodiseasedsiteswereanexerciseinscienti?csolitude,andgrounds for questioning one's ability to think "like an established scientist". And today we have nanoparticulate paclitaxel as the prime option against metastatic breast cancer, proteomic pro?lingdiagnostictoolsbasedontargetsurfacenanotexturing,nanoparticlecontrastagents for all radiological modalities, nanotechnologies embedded in high-distribution laboratory equipment, and no less than 152 novel nanomedical entities in the regulatory pipeline in the US alone. Thisisatransformingimpact,byanymeasure,withclearevidenceoffurtheracceleration, supported by very vigorous investments by the public and private sectors throughout the world. Even joining the dots in a most conservative, linear fashion, it is easy to envision scenarios of personalized medicine such as the following: patient-speci?c prevention supplanting gross, faceless intervention strategies; early detection protocols identifying signs of developing disease at the time when the disease is most easily subdued; personally tailored intervention strategies that are so routinely and inexpensively realized, that access to them can be secured by everyone; technologies allowing for long lives in the company of disease, as good neighbors, without impairment of the quality of life itself.
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