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Research Methodology and Project Management in Biotechnology is a vital resource addressing core concepts in the dynamic field of biotechnology. This comprehensive textbook focuses on research methodology, techniques, and project management, and provides essential knowledge for students and faculty in life sciences and allied disciplines. Key features of the book include learning objectives, self-assessments and exercises, and a simple presentation (using bullet points, tables, and figures) designed to assist comprehension and retention of key information. The book is split into 5 units with 12 focused chapters: Unit I: Molecular Biology Techniques Covers various techniques used in molecular biology, including nucleic acid isolation, DNA fragmentation, PCR, DNA sequencing, and more. Unit II: Scientific Communication and Literature Introduces the process of research writing. Unit III: Biotechnology Entrepreneurship and Marketing Covers the role of funding, intellectual property rights, and regulations. Unit IV: Genomics, Proteomics, and Bioinformatics Explores DNA sequencing strategies, gene expression analysis, and the role of bioinformatics in drug discovery. Unit V: Advanced Biotechnological Techniques Covers topics such as antisense technology, molecular cytogenetics, pharmacogenomics, next-generation DNA sequencing, and ethical considerations in science and technology. Unit VI: Medical Biotechnology Covers disease detection and diagnosis, genetic diseases, personalized medicine, nanotechnology, gene therapy, regenerative medicine, and the Human Genome Project. This textbook is suitable for courses aimed to enhance biotechnology project planning and execution skills and building a professional career path in biotechnology. Readership Students and faculty in life sciences and allied courses.
This book describes the way that pharmaceutical projects and programs are currently managed, and offers views from many highly experienced practitioners from within the industry on future directions for drug program management. The book integrates portfolio, program, and project management processes as fundamental for effective and efficient drug product development. Contributing expert authors provide their view of how the projectization approach can be taken forward by the drug industry over the coming years.
A seminal collection of research methodology themes, this two-volume work provides a set of key scholarly developments related to robustness, allowing scholars to advance their knowledge of research methods used outside of their own immediate fields. With a focus on emerging methodologies within management, key areas of importance are dissected with chapters covering statistical modelling, new measurements, digital research, biometrics and neuroscience, the philosophy of research, computer modelling approaches and new mathematical theories, among others. A genuinely pioneering contribution to the advancement of research methods in business studies, Innovative Research Methodologies in Management presents an analytical and engaging discussion on each topic. By introducing new research agendas it aims to pave the way for increased application of innovative techniques, allowing the exploration of future research perspectives. Volume II explores a range of research methodologies including the Spatial Delphi and Spatial Shang, Virtual Reality, the Futures Polygon and Neuroscience research.
Graduate research is a complicated process which many engineering and science students aspire to undertake. The complexity of the process can lead to failures for even the most brilliant students. Success with graduate level research requires not only a high level of intellectual ability, but also a high level of program management skills. After many years of supervising several graduate students, I have found that most of them have the same basic problems of planning and implementing their research programs. Even the advanced graduate students need the same 'mentoring and management' guidance that has little to do with actual classroom performance. It is my conjecture that graduate students could make a better job of their research programs if a self-paced guide were available to them. The guide provided in this book covers topics ranging from how to select an appropriate research problem to how to schedule and execute research tasks. The book takes a project management approach to planning and implementing graduate research in engineering, science and manufacturing disciplines. It is a self paced guide that will help graduate students and advisors answer most of the basic questions about 'how to do this and how to do that'. There is a need for such a guide book. The book will alleviate frustration on the part of the student and the research advisor.
This study focuses on determining the best project management software solution for a small sized scientific marketing consulting company that did not have a well-established system in place prior to this study. The methods of this study involved background research on the company's needs, thorough research into different project management software options available, an evaluation of the options, a presentation of the top options to the company, and a final recommendation on the best fit option for the company's needs. The results of this study found that with one of the best fit options presented, in a post presentation survey a majority of the team agreed they felt confident a project management software would improve the pain points that were identified initially. These pain points included knowing how many hours were left on a project, what steps needed to be completed to move forward, the status of a project, and how to better manage their time with multiple projects. Based on this study there is not a best fit project management software recommendation for all small to mid-sized marketing or consulting companies, instead this study found the best fit software depends on company specific needs. In this case the best fit project management software solution for the specific needs of the company was Paymo. Future hopes for this study are that similar sized companies can use the methods outlined to determine the best fit software solution for their project management needs.
As the field of medical biotechnology grows with new products and discoveries, so does the need for a holistic view of biotechnology in medicine. Biotechnology in Medical Sciences fulfills that need by delivering a detailed overview of medical biotechnology as it relates to human diseases and epidemiology, bacteriology and antibiotics, virology and vaccines, immunology and monoclonal antibodies, recombinant DNA technology and therapeutic proteins, stem cell technology, tissue engineering, molecular diagnostics and forensic science, gene therapy, synthetic biology and nanomedicine, pharmacogenomics, bioethics, biobusiness and intellectual property rights, and career opportunities. Organized to follow the chronology of major medical biotechnology research, breakthroughs, and events, this first-of-its-kind text: Covers all aspects of medical biotechnology, from labs to clinics and basic to advanced applications Describes historical perspectives and modern discoveries in medical biotechnology Explains how various biotechnology products are used to treat and prevent disease Discusses the tools and techniques currently employed in medical biotechnology Includes a bibliography at the end of each chapter to encourage further study Complete with colorful illustrations and examples, Biotechnology in Medical Sciences provides a comprehensive yet accessible treatment of this growing field.
Unique in approach, exhaustive in coverage: this book provides information usually not available to scientists. It explains the basic scientific and technical requirements which apply to the patenting and registration of human or veterinary vaccines and therapeutic biomedicinal products. Pragmatic and practice-oriented, it helps users select and manage successfully the most attractive research and development projects. An impressive number of topics is covered, including: * planning and managing product development * product development phases * requirements for a patentable invention * patent costs * user safety * ecotoxicity The book will rapidly pay for itself by more successful fund applications,increased protection and remuneration of intellectual property, and by faster and more efficient product development.
This comprehensive Handbook is aimed at both academic researchers and practitioners in the field of research. The book's 8 chapters, provide in-depth coverage of research methods based on the revised syllabus of various universities especially considering the students of under graduate, post graduate and doctorate level. This book is a product of extensive literature survey made by the authors. The authors have made sincere efforts to write the book in simple language. The book comprises all the aspects according to new syllabus of PCI and APJ Abdul Kalam Technical University, Lucknow. Though this book is intended for the use of pharmacy students of any level yet it can also be useful to students of applied fields and medical students. The book deals with interdisciplinary fields such as finding research problems, writing research proposals, obtaining funds for research, selecting research designs, searching the literature and review, collection of data and analysis, preparation of thesis, writing research papers for journals, citation and listing of references, preparation of visual materials, oral and poster presentation in conferences, minutes of meetings, and ethical issues in research. At the end of every chapter and book some questions related to chapter have been mentioned for the support of students to understand the subject. Valuable suggestions for the improvement of this book are most welcome.