Abstract
The basal ganglia occupy a commanding place in neuroscience research, in clinical neurology and in biomedical education. The paucity of our understanding of the role of the basal ganglia in normal everyday life combined with our more extensive knowledge of their deficiencies in a variety of clinical syndromes is a potent spur to continuing investigation. That some of these neurodegenerative syndromes-such as Parkinson's disease-are already common only heightens the need for insight in the face of a population with increasing expectations of longevity. About a decade ago an explosion of information on the connectivity and immunocytochemistry of forebrain structures gave rise to concepts which have shaped the fabric of basal ganglia theory-'patch and matrix', 'disinhibition', 'parallel circuits'. Some of these ideas seemed to facilitate an understanding of the basal ganglia, others to render them more complex and impenetrable. Perhaps unsurprisingly, the work of the last decade has tended towards consolidation and refinement. However, several new developments are receiving attention, many of them related to disorders of the basal ganglia. The realisation that some forms of Parkinson's disease have a genetic determinant is gaining strength. The molecular biology of the dopaminergic synapse on the one hand and of the production of insoluble proteins on the other will clearly influence future research into therapeutic options and neuroprotection. The importance of apoptosis, neural plasticity and free radical formation remains unresolved but these are potential areas of promise. Meanwhile, scanning techniques for brain imaging are allowing real time investigation of the working striatum in normal and disordered humans and animals.We believe that the time is opportune for a broad review of current thinking on the basal ganglia in health and disease. The following articles are based on presentations given at a Symposium on the Neurobiology of the Basal Ganglia held at Glasgow University in July 1999 as part of the Summer Meeting of the Anatomical Society of Great Britain and Ireland. The invited speakers were chosen to be wide ranging and contributions encompassed evolution, circuitry and receptors of the basal ganglia, striatal remodelling after dopamine loss, striatal functioning in humans with Huntington's disease and in primate models after midbrain fetal transplants, and the genetics of basal ganglia disorders. Short presentations and posters of current results supplemented the main presentations and some are also included amongst these reviews.
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