Pharmaceutical and Biotech Patent Law provides you with the legal, scientific, and technical information you need to help clients obtain, defend, and challenge patents in these important business areas. This practical guide shows you how to craft problem-free patent applications, including how to partner with the government to bring patented inventions quickly to the marketplace - invalidate competitors' patents by proving that they fail to meet key requirements - protect against various forms of patent infringement - and successfully rebut charges of infringement. It includes detailed checklists that help you resolve thorny patent problems in the complex pharmaceutical and biotech fields, and is regularly updated to reflect Federal Circuit rulings and other significant court decisions.
'The art of editing is to bring contributions together, which melt into one book. This is what Emanuela Arezzo and Gustavo Ghidini have achieved with their own critical mind by composing a book of papers, in which internationally renowned experts measure the tensions created for the patent system by the needs and problems of protecting biotechnological and software inventions. All together, they present a comparative law challenge to the very fundaments of patent protection. As such, they are or may become a "must read".' Hanns Ullrich, College of Europe, Bruges, Belgium 'Arezzo and Ghidini have put together a fine collection of essays addressing developments in patent law from general themes to emerging ones in the infotech and biotech sectors. It is notable that the international array of authors includes contributions from both established and rising young scholars, all of them ably tackling difficult issues that merit our attention.' Rudolph J.R. Peritz, New York Law School, US The new millennium has carried several challenges for patent law. This up-to-date book provides readers with an important overview of the most critical issues patent law is still facing today at the beginning of the twenty first century, on both sides of the Atlantic. New technological sectors have emerged, each one with its own features with regard to innovation process and pace. From the most controversial cases in biotech to the most recent decisions in the field of software and business methods patent, patent law has tried to stretch its boundaries in a way to accommodate such new and controversial subject matters into its realm. Biotechnology and Software Patent Law will strongly appeal to postgraduate students specializing in IP law, international law, commercial and business law, competition law as well as IP scholars, academics and lawyers.
American patent law has reached an unprecedented crossroads, prodded by a landmark Supreme Court decision this spring and the prospect of sweeping new federal legislation this fall. At this critical time, Biotechnology and the Patent System: Balancing Innovation and Property Rights provides a timely look at the complex issues involved in making patent law for cutting-edge high-tech industries such as the biotechnology and computer software sectors.
This book is a highly readable and entertaining account of the co-evolution of the patent system and the life science industries since the mid-19th century. The pharmaceutical industries have their origins in advances in synthetic chemistry and in natural products research. Both approaches to drug discovery and business have shaped patent law, as have the lobbying activities of the firms involved and their supporters in the legal profession. In turn, patent law has impacted on the life science industries. Compared to the first edition, which told this story for the first time, the present edition focuses more on specific businesses, products and technologies, including Bayer, Pfizer, GlaxoSmithKline, aspirin, penicillin, monoclonal antibodies and polymerase chain reaction. Another difference is that this second edition also looks into the future, addressing new areas such as systems biology, stem cell research, and synthetic biology, which promises to enable scientists to OC inventOCO life forms from scratch.
The nature and origins of patent rights -- Historical developments -- Harmonization of patent law -- What can be patented -- Filing a patent application -- Obtaining a granted patent : patent cooperation treaty procedure -- Obtaining a granted patent : European patent office procedure -- Obtaining a granted patent : national procedures -- Maintaining a patent in force and extending the patent term -- Enforcing patent rights -- Invalidity and amendment of granted patents -- Chemical inventions -- Pharmaceutical inventions -- Biotechnological inventions -- Patenting of genes, plants, and animals -- The patent practitioner and his function -- Drafting the patent specification -- Drafting the claims -- Prosecution of the patent application to grant -- Inventorship, ownership, and compensation -- Commercial exploitation of patents -- How to catch the infringer and how not to be caught -- Patent aspects of licensing -- Patents and competition law : United Kingdom and European Union -- Patents and competition law : United States
Previous editions, 1st and 2nd, published under titles : 1st (1982) Patents for chemists ; 2nd (1986) Patents in chemistry and biotechnology ; 3rd edition published in 1999.
This volume assembles papers commissioned by the National Research Council's Board on Science, Technology, and Economic Policy (STEP) to inform judgments about the significant institutional and policy changes in the patent system made over the past two decades. The chapters fall into three areas. The first four chapters consider the determinants and effects of changes in patent "quality." Quality refers to whether patents issued by the U.S. Patent and Trademark Office (USPTO) meet the statutory standards of patentability, including novelty, nonobviousness, and utility. The fifth and sixth chapters consider the growth in patent litigation, which may itself be a function of changes in the quality of contested patents. The final three chapters explore controversies associated with the extension of patents into new domains of technology, including biomedicine, software, and business methods.
Following decades in which China's approach to technology has been to imitate, the country is now transforming itself to become innovation-oriented. This pioneering study examines whether patents play a similar role in promoting innovation in China as they do in the West, exploring the interplay between patents and China's biotechnology and pharmaceutical industries in particular.
As technological developments multiply around the globeâ€"even as the patenting of human genes comes under serious discussionâ€"nations, companies, and researchers find themselves in conflict over intellectual property rights (IPRs). Now, an international group of experts presents the first multidisciplinary look at IPRs in an age of explosive growth in science and technology. This thought-provoking volume offers an update on current international IPR negotiations and includes case studies on software, computer chips, optoelectronics, and biotechnologyâ€"areas characterized by high development cost and easy reproducibility. The volume covers these and other issues: Modern economic theory as a basis for approaching international IPRs. U.S. intellectual property practices versus those in Japan, India, the European Community, and the developing and newly industrializing countries. Trends in science and technology and how they affect IPRs. Pros and cons of a uniform international IPRs regime versus a system reflecting national differences.
In The Global Politics of Pharmaceutical Monopoly Power, researcher and global advocate Ellen 't Hoen explains how new global rules for pharmaceutical patenting impact access to medicines in the developing world. The book gives an account of the current debates on intellectual property, access to medicines, and medical innovation, and provides historical context that explains how the current system emerged. This book supports major policy changes in the management of pharmaceutical patents and the way medical innovation is financed in order to protect public health and, in particular, promote access to essential medicines for all. The Open Society Institute provided support to translate this report into Russian.
