There should be, and in the best of cases there is, a synergy between basic research and patient care. However, this synergy is hard to develop because the techniques required to be a successful researcher are so different from the skills required to be an outstanding physician. Harold R. Roberts, M.D., of the University of North Carolina at Chapel Hill, is an example of a physician-researcher who has benefited from having his feet in both the world of patient care and the world of the laboratory: he has let clinical problems direct his basic research effort and conversely has adopted research advances in his care of patients. Dr. Roberts's long and continuing career has included many research and clinical advances. He was part of the first group to determine the amino acid sequence of the important thrombin inhibitor hirudin and part of the group that prepared the first cryoprecipitates which were the first alternative to plasma as therapy in hemophilia A. Dr. Roberts has made significant advances in understanding the protein chemistry behind hemophilia B; he was among the first researchers to identify some patients as not being completely deficient but instead as having measurable levels of protein and subsequently demonstrated that this protein was dysfunctional. This important advance led him to a classification scheme for patients into Cross Reacting Material (CRM) positive, negative, and reduced. Dr.

There should be, and in the best of cases there is, a synergy between basic research and patient care. However, this synergy is hard to develop because the techniques required to be a successful researcher are so different from the skills required to be an outstanding physician. Harold R. Roberts, M.D., of the University of North Carolina at Chapel Hill, is an example of a physician-researcher who has benefited from having his feet in both the world of patient care and the world of the laboratory: he has let clinical problems direct his basic research effort and conversely has adopted research advances in his care of patients. Dr. Roberts's long and continuing career has included many research and clinical advances. He was part of the first group to determine the amino acid sequence of the important thrombin inhibitor hirudin and part of the group that prepared the first cryoprecipitates which were the first alternative to plasma as therapy in hemophilia A. Dr. Roberts has made significant advances in understanding the protein chemistry behind hemophilia B; he was among the first researchers to identify some patients as not being completely deficient but instead as having measurable levels of protein and subsequently demonstrated that this protein was dysfunctional. This important advance led him to a classification scheme for patients into Cross Reacting Material (CRM) positive, negative, and reduced. Dr.

Treating Life-Threatening Bleedings: Development of Recombinant Coagulation Factor VIIa provides a comprehensive understanding of the first new drug within the area of hemostasis, describing a new mechanism of action that has resulted in a modified concept of the whole hemostasis mechanism. As the treatment of life-threatening bleedings is a serious challenge for clinicians, this powerful and historic case study presents a detailed roadmap on how a new medicine can be developed, stressing the interaction between science and clinical work. The book stresses the importance of patient care in the learning process and provides new ideas on how to approach diseases and their treatment. Users will find a real world example that will act as a timely resource for those learning about, or engaged in, performing and supervising research across the biomedical sciences.