Dr. Robert Lanza is Head of Astellas Global Regenerative Medicine & Ocata Chief Scientific Officer, and Adjunct Professor at Wake Forest University School of Medicine. He has hundreds of publications and inventions, and over 30 scientific books: among them, "Principles of Tissue Engineering," which is recognized as the definitive reference in the field. Others include One World: The Health & Survival of the Human Species in the 21st Century (Foreword by former President Jimmy Carter), and the "Handbook of Stem Cells" and "Essentials of Stem Cell Biology," which are considered the definitive references in stem cell research.
Dr. Lanza received his BA and MD degrees from the University of Pennsylvania, where he was both a University Scholar and Benjamin Franklin Scholar. He was also a Fulbright Scholar, and was part of the team that cloned the world's first human embryo, as well as the first to successfully generate stem cells from adults using somatic-cell nuclear transfer (therapeutic cloning). Dr. Lanza's work has been crucial to our understanding nuclear transfer and stem cell biology. In 2001 he was also the first to clone an endangered species (a Gaur), and in 2003, he cloned an endangered wild ox (a Banteng) from the frozen skin cells of an animal that had died at the San Diego Zoo nearly a quarter-of-a-century earlier.
Lanza and his colleagues were also the first to demonstrate that nuclear transplantation could be used to reverse the aging process and to generate immune-compatible tissues, including the first organ tissue-engineered from cloned cells. One of his greatest early achievements came from his demonstration that techniques used in preimplantation genetic diagnosis could be used to generate human embryonic stem (hES) cells without embryonic destruction.
He and colleagues have also succeeded in differentiating human pluripotent stem cells into retinal (RPE) cells, and has shown that they provide long-term benefit in animal models of vision loss. Using this technology some forms of blindness may be curable, including macular degeneration and Stargardt disease, a currently untreatable form eye disease that causes blindness in teenagers and young adults. Lanza's company (ACT) received FDA approval to begin clinical trials using them to treat degenerative eye diseases. These two clinical trials began in July 2011. Recently, ACT received similar approval for the first human embryonic stem cell trial in Europe. Surgeons at Moorfields Eye Hospital in London will inject healthy retinal cells into the eyes of patients with Stargardt's macular dystrophy, hoping to slow, halt or even reverse the effects of the disease. The first person received the embryonic stem cell treatment earlier this year. The patient reports improved vision in the eye treated with the cells, which The Guardian said "represents a huge scientific achievement."
Dr. Lanza and his colleagues published the first-ever report of human embryonic stem cells transplanted into human patients. Two clinical studies were initiated to establish the safety and tolerability of subretinal transplantation of hESC-derived RPE in patients with Stargardt's macular dystrophy and dry age-related macular degeneration (AMD). After surgery, evidence confirmed cells had attached and continued to persist during the study. There were no signs of tumorigenicity or rejection in either patient. The patients who received the stem cell transplants say their lives have been transformed by the experimental procedure. During the observation period visual acuity improved from hand motions to 20/800 (and improved from 0 to 5 letters on the standard visual acuity chart) in the study eye of the patient with Stargardt's disease, and vision also seemed to improve in the patient with dry AMD. One of the patients no longer needs a large magnifying glass to read and can reportedly thread a needle and has begun to go shopping on her own. The future therapeutic goal will of these studies will be to treat patients earlier in the disease processes, potentially increasing the likelihood of visual rescue.
Lanza has been a major player in the scientific revolution that has led to the documentation that nuclear transfer/transcription factors can restore developmental potential in a differentiated cell. One of his recent successes was showing that it is feasible to generate functional oxygen-carrying red blood cells from human pluripotent stem cells. The blood cells were comparable to normal transfusable blood and could serve as a potentially inexhaustible source of "universal" blood. His team also discovered how to generate functional hemangioblasts - a population of "ambulance" cells - from hES cells. In animals, these cells quickly repaired vascular damage, cutting the death rate after a heart attack in half and restoring the blood flow to ischemic limbs that might otherwise have to be amputated.
Recently, Lanza and a team lead by Kwang-Soo Kim at Harvard University reported a safe method for generating induced pluripotent stem (iPS) cells. Human iPS cells were created from skin cells by direct delivery of proteins, thus eliminating the harmful risks associated with genetic manipulation. This new method provides a potentially safe and non-controversial source of patient-specific stem cells for translation into the clinic. The Editors of the prestigious journal Nature selected Lanza and Kim's paper on protein reprogramming as one of five "Research Highlights" of 2009. Discover magazine stated, "Lanza's single-minded quest to usher in this new age has paid dividends in scientific insights and groundbreaking discoveries."
Dr. Lanza has received numerous awards, including being named one of TIME Magazine's "100 Most Influential People in the World"; the 2013 Il Leone di San Marco award in Medicine (The Italian Heritage and Culture Committee, along with Regis Philbin [in Entertainment]); including an NIH Director's Award (2010) for "Translating Basic Science Discoveries into New and Better Treatments"; the 2010 'Movers and Shakers' Who Will Shape Biotech Over the Next 20 Years (BioWorld)(along with Craig Venter and President Barack Obama); the 2007 100 Most Inspiring People in the Life-Sciences Industry (PharmaVOICE, "For his discoveries 'behind the medicines making a significant impact on the pipelines of today and of the future'"; the 2007 Outstanding Contribution in Contemporary Biology Award (Brown University, "For his groundbreaking research and contributions in stem cell science and biology"; the 2006 All-Star Award for Biotechnology (MA High Tech, for "pushing stem cells' future"); the 2005 Rave Award for Medicine (Wired magazine, "For eye-opening work on embryonic stem cells"); and Lanza is listed in Who's Who in America, Who's Who in the World, Who's Who in Medicine and Healthcare, Who's Who in Science and Engineering; Who's Who in American Education, and Who's Who in Technology, among others. Dr. Lanza has served in numerous national and international leadership capacities, including Conference Co-Chairman, International Symposium on Stem Cells (Tianjin, China 2008); Stem Cell Advisory Committee, International Stem Cell Registry; He has given keynote addresses at dozens of national and international societies, including ASAIO (2001), Annual Molecular & Cellular Biology Symposium (2002), Biotechniques Live/Drug Discovery Technology & Development World Congress (2005), International Stem Cell Conference (2007), Tissue Engineering & Regenerative Medicine International Society (TERMIS)(2007), Translational Regenerative Medicine Forum (2010), among others.
Dr. Lanza and his research have been featured in almost every media outlet in the world, including CNN, TIME, Newsweek, People, as well as the front pages of the New York Times, Wall Street Journal, Washington Post, among others. Lanza has worked with some of the greatest thinkers of our time, including Nobel laureates Gerald Edelman and Rodney Porter, renowned Harvard psychologist B.F. Skinner (the "Father of modern behaviorism"), Jonas Salk (discoverer of the Polio vaccine), and heart transplant pioneer Christiaan Barnard. His current research and work at Advanced Cell Technology focuses on stem cells and regenerative medicine and their potential to provide therapies for some of the world's most deadly and debilitating conditions.
In 2007, Lanza published a feature article, "A New Theory of the Universe" in The American Scholar, a leading intellectual journal which has previously published works by Albert Einstein, Margaret Mead, and Carl Sagan, among others. His theory places biology above the other sciences in an attempt to solve one of nature's biggest puzzles, the theory of everything that other disciplines have been pursuing for the last century. This new view has become known as Biocentrism. In 2009, he co-authored a book "Biocentrism: How Life and Consciousness are the Keys to Understanding the True Nature of the Universe" with leading astronomer Bob Berman. In biocentrism, space and time are forms of animal sense perception, rather than external physical objects. Understanding this more fully yields answers to several major puzzles of mainstream science, and offers a new way of understanding everything from the microworld (for instance, the reason for Heisenberg's uncertainty principle and the double-slit experiment) to the forces, constants, and laws that shape the universe. Nobel laureate E. Donnall Thomas stated "Any short statement does not do justice to such a scholarly work. The work is a scholarly consideration of science and philosophy that brings biology into the central role in unifying the whole."
You can read more about Dr. Robert Lanza's work at: