Read more
List of contents
An Introduction of Key Concepts in Drug Delivery. An Introduction to Pharmacokinetics: From Conventional to Advanced Systemic Drug Delivery Systems. Transporters and Enzymes Targeted Prodrugs for Improved Oral Drug Delivery. Gastroretentive Delivery: Physicochemical, Biopharmaceutical, Technological and Regulatory Considerations. Invasive vs. Non-Invasive Delivery of Insulin. Artificial Pancreas Drug Delivery. Micro/Nano Devices for Drug Delivery. Microneedle-Mediated Vaccines. Application of Nanoparticle Tracking Analysis in Drug Delivery. Microsponges for Drug Delivery. Chitosan for Advancing Drug Delivery. Gene Delivery by Electroporation. Drug Delivery Systems for Infectious Diseases. Nanotechnology in Drug Delivery to Chronic Inflammatory Diseases. Intrathecal Drug Delivery. Cancer Stem Cell Drug Delivery. Cardiac Drug Delivery. Current Developments in Nano-Therapeutics for Airway Diseases. Intravitreal Drug Delivery. Drug Delivery in Obstetrics and Gynecology. Drug Delivery Systems: A Regulatory Perspective.
About the author
Dr. Yitzhak Rosen, MD, is a graduate of the Tel Aviv University of Medicine. He is currently working in the Cardiology Department at SUNY Downstate Medical Center. He was previously a visiting research scientist at the Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology. He is also the president and CEO of Superior NanoBioSystems LLC, a biomedical company. He has served in the Israel Defense Forces (IDF) as a medical officer and physician in militarily active areas. He completed a medical internship at the Rabin Medical Center and has worked at the Oncology Institutes of both the Rabin and the Sheba Medical Centers in Israel. He has invented a microfluidic chip platform, funded by the Defense Advanced Research Projects Agency (DARPA), for effecting extremely rapid blood typing and cross-matching for mass casualties in collaboration with the MEMS and Nanotechnology Exchange. In addition, he is the inventor of several medical ultrasound technologies.
Dr. Pablo Gurman received his MD from Buenos Aires University School of Medicine in 2002, where he worked at the Pharmacology Department for 10 years. Dr. Gurman is currently the Chief Medical Officer of GearJump Technologies, a biotechnology company dedicated to develop innovative solutions to public health problems. Prior to this appointment, Dr. Gurman was a research scientist at the Materials Science and Engineering Department at the University of Texas-Dallas, as well as research collaborator at Dr. Elman’s group at the Institute for Soldiers Nanotechnologies at the Massachusetts Institute of Technology (MIT). Dr. Gurman was a visiting scientist at Argonne National Laboratory, where he worked under the artificial retina program. Dr. Gurman’s primary research interests involves micro and nanotechnology for medical diagnostics and therapeutics, controlled release technologies and biomaterials.
Dr. Noel Elman is the CEO and Founder of GearJump Technologies, LLC, a company dedicated to development of biotechnological solutions for public health applications. GearJump has received support from DoD, US Army, US Navy, USDA, as well as Global Grand Challenges via the Bill and Melinda Gates Foundation. Dr. Elman is also an adjunct professor in Technology and Innovation at Buenos Aires Institute of Technology. Dr. Elman worked at Draper Labs, an MIT-affiliated DoD-supported R&D, where he was appointed as Distinguished Member of the Technical Staff. Prior to that appointment, he was a research scientist and principal investigator at the Institute for Soldier Nanotechnologies at MIT, leading a translational research group focused on developing technologies for biotech, biomed and public health applications. In addition, Dr. Elman was appointed an Innovation Fellow at Massachusetts General Hospital. Dr. Elman’s research focus is on rapid translation from idea conceptualization to experimental realization. Dr. Elman received his Bachelor’s and Master’s degrees in Electrical Engineering applied to microsystems from Cornell University, PhD in Physical Electronics applied to lab-on-chip microsystems from the Electrical Engineering Department at Tel-Aviv University and performed postdoctoral studies at MIT, investigating several micro- and nanodevices for therapeutics and diagnostics.
Summary
The book integrates clinical and engineering aspects of drug delivery. It discusses methods for improved drug delivery in clinical settings using clinical end points, clinical trials, and simulations, and describes the latest drug delivery advances involving nanotechnology, hydrogels, microencapsulation, lipids, stem cells, patches, and ultrasound.
Additional text
"This book is an excellent approach to the state of art in drug delivery, with the advantage of the clinical view. It is a good starting point to connect very distant spheres of knowledge in a hot spot of advanced molecular controlled release."—Guillermo R. Castro, Universidad Nacional de La Plata, Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Buenos Aires, Argentina
"…unique compilation of information in the area of drug delivery, and readers will find useful information not only for their present use but also for furthering science in this area." —Ambikanandan Misra, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat, India
