A superb collection of time-tested, key techniques for investigating nervous system function, as well as the actions of drugs on the nervous system. The methods range from authoritative treatment of such well-established techniques as recording electrical activity in the brain, to practical coverage of state-of-the-art methods, including neural transplantation and antisense technology. The techniques described are particularly suitable for studying the mechanisms of action of psychotropic drugs and drugs of abuse, as well as the etiology and pharmacotherapy of neuropsychiatric diseases and neurodegenerative disorders. Several of the methods detailed are highly useful in screening potential drugs for the treatment of depression, anxiety disorders, schizophrenia, and Parkinson's and Alzheimer's disease.

The cutting-edge techniques detailed here include those that are particularly popular in multidisciplinary neuroscience research. There are readily reproducible methods for establishing neural cell cultures, measuring enzymes and their inhibitors, and using quantitative autoradiography to study monoamine uptake sites and receptors in the brain. Additional methods cover the use of flow cytometry to study developmental neurobiology, applications of magnetic resonance spectroscopy (MRS) to human brain metabolism, and the study of drug metabolism. Together with its companion volumes, In Vivo Neuromethods and In Vitro Neurochemical Techniques, all three cutting-edge works will prove exceptionally useful to those basic and clinical neuroscientists who want to expand the range of their current research or develop competence in complementary methods.

In Vitro Neurochemical Techniques is one of three volumes that rep- sent an update of the original Volume 1 of Neuromefkods, General Neu- chemical Techniques The expansion to three volumes was necessitated by the rapidly increasing number of techniques being used by neuroscrentists and the general tendency of neuroscience research to become more multidisciplrnary and collaborative in recent years. The two companion volumes are concerned primarily with In Vwo Neurometkods in one case, and with Cell Neurobiology Techniques in the other case. Even with three volumes, the coverage of General Neuvometkods is obviously not exhaustive. We have attempted to cover those techniques that seem particularly popular in multidisciplinary neuroscience research. Though some important techniques may have been omitted, we believe that most of these have been covered in detail in other recent volumes of Neurometkods or will be the subjects of upcommg volumes The editors anticipate that these volumes will prove unusually useful to neuroscientists across a wide range of fields-e.g., neurochemistry, neuropsychopharmacology, neurology, psychiatry, and neuroanatomy. Each chapter has been written by well-known neuroscientists with - tive research programs. Experienced researchers in the specific areas treated will appreciate the present updates on those topics, and neuros- entists expecting their research programs to become more multidisciplinary or to expand into new areas of research should find these volumes of enormous value, particularly those sections offering protocols with u- ful hints about the advantages and potential pitfalls of a particular te- nique.

The cutting-edge techniques detailed here include those that are particularly popular in multidisciplinary neuroscience research. There are readily reproducible methods for establishing neural cell cultures, measuring enzymes and their inhibitors, and using quantitative autoradiography to study monoamine uptake sites and receptors in the brain. Additional methods cover the use of flow cytometry to study developmental neurobiology, applications of magnetic resonance spectroscopy (MRS) to human brain metabolism, and the study of drug metabolism. Together with its companion volumes, In Vivo Neuromethods and In Vitro Neurochemical Techniques, all three cutting-edge works will prove exceptionally useful to those basic and clinical neuroscientists who want to expand the range of their current research or develop competence in complementary methods.

In Vitro Neurochemical Techniques is one of three volumes that rep- sent an update of the original Volume 1 of Neuromefkods, General Neu- chemical Techniques The expansion to three volumes was necessitated by the rapidly increasing number of techniques being used by neuroscrentists and the general tendency of neuroscience research to become more multidisciplrnary and collaborative in recent years. The two companion volumes are concerned primarily with In Vwo Neurometkods in one case, and with Cell Neurobiology Techniques in the other case. Even with three volumes, the coverage of General Neuvometkods is obviously not exhaustive. We have attempted to cover those techniques that seem particularly popular in multidisciplinary neuroscience research. Though some important techniques may have been omitted, we believe that most of these have been covered in detail in other recent volumes of Neurometkods or will be the subjects of upcommg volumes The editors anticipate that these volumes will prove unusually useful to neuroscientists across a wide range of fields-e.g., neurochemistry, neuropsychopharmacology, neurology, psychiatry, and neuroanatomy. Each chapter has been written by well-known neuroscientists with - tive research programs. Experienced researchers in the specific areas treated will appreciate the present updates on those topics, and neuros- entists expecting their research programs to become more multidisciplinary or to expand into new areas of research should find these volumes of enormous value, particularly those sections offering protocols with u- ful hints about the advantages and potential pitfalls of a particular te- nique.

A superb collection of time-tested, key techniques for investigating nervous system function, as well as the actions of drugs on the nervous system. The methods range from authoritative treatment of such well-established techniques as recording electrical activity in the brain, to practical coverage of state-of-the-art methods, including neural transplantation and antisense technology. The techniques described are particularly suitable for studying the mechanisms of action of psychotropic drugs and drugs of abuse, as well as the etiology and pharmacotherapy of neuropsychiatric diseases and neurodegenerative disorders. Several of the methods detailed are highly useful in screening potential drugs for the treatment of depression, anxiety disorders, schizophrenia, and Parkinson's and Alzheimer's disease.