This practical book features more than 1000 questions and answers with illustrations for pediatric neurologists, adult neurologists, general pediatricians and students taking their initial board examination and maintenance of certification. All questions are in multiple choice format and followed by the correct answer with a full explanation and appropriate references. Chapters are sectioned by different topics in pediatric neurology, including Epilepsy, Metabolic Disorders and Movement Disorders and other topics. Timely and thorough, this is a handy and succinct resource.
Zusammenfassung: This book offers a clinical and surgical overview on congenital brain malformations, which are abnormalities that occur during fetal development, leading to brain defects and disorders. The fetal brain begins to develop shortly after conception and continues to grow throughout pregnancy. This book covers the various congenital brain malformations, their aetiologies and development, diagnosis and management including possible surgical interventions and details of these procedures. Since many of these disorders are rare, they do not have a final cure and their management is important - their consequences on the physical, psychological and developmental condition of the patient are great. This book is of interest to pediatric surgeons and neurologists
Bacterial meningitis (BM) remains a major global challenge. Globally, Hib, S. pneumoniae, and N. meningitidis cause about 90% of cases of BM beyond the neonatal period. After colonization of the upper respiratory tract by one of these pathogens, invasion occurs across the epithelium. Following entry into the bloodstream, bacteria survive through evasion of the complement system. Once into the CSF, bacteria multiply very actively. The clinical features of BM depend on the age of the patient, duration of illness, the pathogen involved, and host response to infection. Major neurological findings include meningeal signs, altered consciousness, increased intracranial pressure, seizures, and focal findings. Complications such as prolonged fever, seizures, subdural effusions, subdural empyema, and brain abscesses occur with variable frequencies. History, physical examination, and lumbar puncture are essential steps to establish the diagnosis of BM and should be performed before the initiation of antimicrobial therapy. Blood tests and CSF examination are essential for the diagnosis of BM. Various clinical scores have been recently developed to predict the risk of BM. Children with BM should be monitored for anticipated complications. Prompt initiation of therapy with appropriate antimicrobial agents given at correct dosage is essential in the management of these patients.
The child is neither an adult miniature nor an immature human being: at each age, it expresses specific abilities that optimize adaptation to its environment and development of new acquisitions. Diseases in children cover all specialties encountered in adulthood, and neurology involves a particularly large area, ranging from the brain to the striated muscle, the generation and functioning of which require half the genes of the whole genome and a majority of mitochondrial ones. Human being nervous system is sensitive to prenatal aggression, is particularly immature at birth and development may be affected by a whole range of age-dependent disorders distinct from those that occur in adults. Even diseases more often encountered in adulthood than childhood may have specific expression in the developing nervous system. The course of chronic neurological diseases beginning before adolescence remains distinct from that of adult pathology – not only from the cognitive but also motor perspective, right into adulthood, and a whole area is developing for adult neurologists to care for these children with persisting neurological diseases when they become adults. Just as pediatric neurology evolved as an identified specialty as the volume and complexity of data became too much for the general pediatician or the adult neurologist to master, the discipline has now continued to evolve into so many subspecialties, such as epilepsy, neuromuscular disease, stroke, malformations, neonatal neurology, metabolic diseases, etc., that the general pediatric neurologist no longer can reasonably possess in-depth expertise in all areas, particularly in dealing with complex cases. Subspecialty expertise thus is provided to some trainees through fellowship programmes following a general pediatric neurology residency and many of these fellowships include training in research. Since the infectious context, the genetic background and medical practice vary throughout the world, this diversity needs to be represented in a pediatric neurology textbook. Taken together, and although brain malformations (H. Sarnat & P. Curatolo, 2007) and oncology (W. Grisold & R. Soffietti) are covered in detail in other volumes of the same series and therefore only briefly addressed here, these considerations justify the number of volumes, and the number of authors who contributed from all over the world. Experts in the different subspecialties also contributed to design the general framework and contents of the book. Special emphasis is given to the developmental aspect, and normal development is reminded whenever needed – brain, muscle and the immune system. The course of chronic diseases into adulthood and ethical issues specific to the developing nervous system are also addressed. - A volume in the Handbook of Clinical Neurology series, which has an unparalleled reputation as the world's most comprehensive source of information in neurology - International list of contributors including the leading workers in the field - Describes the advances which have occurred in clinical neurology and the neurosciences, their impact on the understanding of neurological disorders and on patient care
Surgery of focal epilepsies in childhood has largely benefited from the recent advances of the noninvasive functional imaging techniques, particularly SPECT which presurgically contributes to the localization of the seizure onset zone, in order to select the patients, decide the optimal placement of intracranial electrodes, and plan the resection. Peri-ictal SPECT (ictal and postictal) proved especially useful when video-EEG is not contributory, when MRI looks normal or shows multiple abnormalities, or in cases of discrepant findings within the presurgery workup. Because of a poor temporal resolution, peri-ictal SPECT must be coupled with video-EEG. Multimodal imaging so-called SISCOM (peri-ictal – interictal SPECT subtraction image superimposed on MRI) increases the sensitivity of peri-ictal SPECT by about 70% and makes it a good predictor of seizure-free outcome after surgery. In addition, interictal SPECT occasionally provides some interesting results regarding functional cortical maturation and learning disorders in childhood.
Since the last century, remarkable advances at both the basic and clinical levels have considerably improved our ability to evaluate and treat children with neurological disorders. Many cases seen by general pediatricians are primarily neurological accounting for up to 30% of all consultations to pediatrics with a high ratio of follow-up visits to new patients of about 3:1. This manual is a neurology reference for medical students and pediatric residents and is intended to supplement larger textbooks on pediatric neurology already available. Many of undergraduate medical students refer to deficient and oversimplified references that do not enable them to deal with pediatric neurology patients adequately. The manual presents a simplified, organized, and comprehensive problem based approach to common pediatric neurological disorders directed to the level of medical students, pediatric residents, general practitioners and general pediatricians. This e-book is thus a concise outline with practical tips to facilitate proper diagnosis and management of various neurological disorders. -- Publisher.
This Gold Standard in clinical child neurology presents the entire specialty in the most comprehensive, authoritative, and clearly written fashion. Its clinical focus, along with relevant science, throughout is directed at both the experienced clinician and the physician in training. New editor, Dr. Ferriero brings expertise in neonatal neurology to the Fourth Edition. New chapters: Pathophysiology of Hypoxic Ischemic Encephalopathy, Congenital Disorders of Glycosylation, Pediatric Neurotransmitter Diseases, Neurophysiology of Epilepsy, Genetics of Epilepsy, Pediatric Neurorehabilitation Medicine, Neuropsychopharmacology, Pain and Palliative Care Management, Ethical Issues in Child Neurology
Swaiman’s Pediatric Neurology, by Drs. Kenneth Swaiman, Stephen Ashwal, Donna Ferriero, and Nina Schor, is a trusted resource in clinical pediatric neurology with comprehensive, authoritative, and clearly-written guidance. Extensively updated to reflect advancements in the field, this fifth edition covers new imaging modalities such as pediatric neuroimaging, spinal fluid examination, neurophysiology, as well as the treatment and management of epilepsy, ADHD, infections of the nervous system, and more. The fully searchable text is now available online at www.expertconsult.com, along with downloadable images and procedural videos demonstrating intraventricular hemorrhage and white matter injury, making this an indispensable multimedia resource in pediatric neurology. Gain a clear visual understanding from the numerous illustrations, informative line drawings, and summary tables. Tap into the expertise of an authoritative and respected team of editors and contributors. Get comprehensive coverage of all aspects of pediatric neurology with a clinical focus useful for both the experienced clinician and the physician-in-training. Access the fully searchable text online at www.expertconsult.com, along with 16 additional online-only chapters, downloadable images, videos demonstrating intraventricular hemorrhage and white matter injury, and links to PubMed. Stay current on recent developments through extensive revisions: a new chapter on paraneoplastic syndromes in children; a new section on congenital brain malformations written by leading international authorities; and another one on cutting-edge pediatric neuroscience concepts relating to plasticity, neurodegeneration of the developing brain, and neuroinflammation. Apply the latest information on diagnostic modalities, including pediatric neuroimaging, spinal fluid examination, and neurophysiology