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Exam board: SQA Level: Advanced Higher Subject: Biology First teaching: August 2019 First exam: Summer 2021 Trust Scotland's most popular revision guides to deliver the results you want. The How to Pass series is chosen by students, parents and teachers again and again. This is the only study book that addresses the skills for Advanced Higher Biology, as well as the knowledge. B” Recap and remember course content. B” Test your skills and knowledge. B” Practise exam-style questions. /BFormal questions with mark allocations are provided at the end of each Key Area, reflecting the types of questions you will face in the exam. Three course assessments are also included.brbrB” Get expert tips for exam success. /BHints on how to achieve top marks and avoid mistakes are based on feedback in the SQA examiners' Course Reports, giving you insight into the marking process.brbrB” Teach yourself with confidence. /BIndependent study has never been easier with clear explanations, definitions of technical terms and answers to all questions at the back of the book.br
This book aims to gather the current knowledge regarding different aspects of brain and spinal cord tumors in order to more efficiently help the patients. Brain tumors comprise about 5–9% of all human neoplasms; and the central nervous system (CNS) neoplasms are ranked among the most prevalent neoplasms of childhood as well. The more we know about the nature and characteristic of brain and spinal cord tumors, the more precise decision could be made for each patient, in order to reach the best outcome. While surgical resection, chemotherapy, and radiotherapy have been considered as the standards of care for benign and/or malignant CNS tumors since a long time ago, new therapeutic approaches such as immunotherapy have been recently proposed to be considered for treatment of CNS tumors, especially as in some cases, the tumors might be inoperable or the patient may not benefit from other treatment modalities after several recurrences. The second volume of the book focuses on clinical aspects of these tumors. Accordingly, the most important brain and spinal cord tumors are specifically discussed in each chapter based on a rational outlining for all chapter in this volume: Background and epidemiology, genetics, immunology and molecular biology, histopathology and morphology, imaging and radiologic features, clinical manifestations, therapeutic approaches, surgical intervention, chemotherapy and radiotherapy, new therapeutic modalities, follow-up, and prognosis. The chapters of this volume discuss the following pathologies of brain and spinal cord tumors: malignant glioma, benign glioma, meningiomas and other meningeal tumors, ependymomas, medulloblastomas, pineal tumors, choroid plexus and ventricular tumors, neuroectodermal tumors of CNS, neuroepithelial tumors of CNS, pituitary gland tumors, craniopharyngioma, schwannomas and nerve-sheet tumors, hemangioblastomas and other vascular originating tumors, brain and spinal tumors of embryonic origin, germ line cell tumors, malignant bone or cartilage-originating tumors of brain and spine, benign bone or cartilage-originating tumors of brain and spine, brain tumors affecting the orbit globe and orbit tumors affecting the brain, CNS lymphomas, metastatic lesions of the brain and spine, malignant spinal tumors, benign spinal tumors, brain and/or spinal cord tumors accompanied with other diseases or syndromes, psychological and psychiatric aspects of brain and spinal cord tumors, a brief explanation on surgical approaches for treatment of different brain tumors. This volume of book is useful for physicians of different specialties, mainly neurosurgeons, neurologists, neuropathologists, and neuroradiologists.
Advanced Chemical Biology The modern approach to teaching chemical biology Advanced Chemical Biology is organized around the central dogma of life, progressing from genes to proteins and higher-order cellular structures, including core application areas such as imaging, chemical genetics, activity-based protein profiling, and natural product discovery and biosynthesis. Advanced topics and applications in, e. g., microbiology, developmental biology, and neurobiology, are covered in separate sections. Every chapter is homogeneous in style and layout, consisting of a short historical introduction followed by a description of the underlying concepts and a selection of recent examples of how the concept has been turned into practice. The subdivision of the contents into core and supplemental chapters enables a flexible use in teaching, both for a one-semester and a two-semester course. Written by authors and editors coming from the leading scientific institutions that have developed the concepts and technologies for this discipline, Advanced Chemical Biology includes specific information on topics like: DNA function, synthesis and engineering, chemical approaches to genome integrity, and RNA function, synthesis, and probing Chemical approaches to transcription and RNA regulation in vivo, chemical biology of genome engineering, and peptide/protein synthesis and engineering Directed evolution for chemical biology, chemical biology of cellular metabolism, chemical biology of lipids, and protein post-translational modifications Chemical glycobiology, chemical and enzymatic modification of proteins, genetic code expansion, bio-orthogonal chemistry, and cellular imaging With its broad scope and focus on turning concepts into applications, Advanced Chemical Biology is an excellent starting point for anyone entering the field and looking for a guide to the wide range of available methods and strategies that chemical biology has to offer. With a Foreword by Nobel Laureate Carolyn Bertozzi.
Systems biology is the inevitable outcome of long years of knowledge acquisition and data accumulation. The aim of systems biology is to integrate in a seamless way all existing knowledge in interconnected disciplines, stretching from modern biomedical research to physics, chemistry, and mathematics. The main integration tool of such complex biomedical systems is via computational and mathematical modeling. In this direction, a series of state-of-the-art computer science techniques are used, namely, data mining and fusion, machine learning, and deep learning all under the prism of big data. All in all, systems biology is at the arrowhead of modern and state-of-the-art biomedical research by attempting to address key biological questions describing holistically complex biological systems.
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Much research has focused on the basic cellular and molecular biological aspects of stem cells. Much of this research has been fueled by their potential for use in regenerative medicine applications, which has in turn spurred growing numbers of translational and clinical studies. However, more work is needed if the potential is to be realized for improvement of the lives and well-being of patients with numerous diseases and conditions. This book series 'Cell Biology and Translational Medicine (CBTMED)' as part of Springer Nature’s longstanding and very successful Advances in Experimental Medicine and Biology book series, has the goal to accelerate advances by timely information exchange. Emerging areas of regenerative medicine and translational aspects of stem cells are covered in each volume. Outstanding researchers are recruited to highlight developments and remaining challenges in both the basic research and clinical arenas. This current book is the 17th volume of a continuing series.