Edythe D London
Imaging Drug Action in the Brain
Edythe D London
Imaging Drug Action in the Brain
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Imaging Drug Action in the Brain is an outstanding reference that provides detailed methodological information and presents a current review of information obtained using various methods to delineate the neuroanatomy of drug action
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Imaging Drug Action in the Brain is an outstanding reference that provides detailed methodological information and presents a current review of information obtained using various methods to delineate the neuroanatomy of drug action
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 432
- Erscheinungstermin: 21. Dezember 1992
- Englisch
- Abmessung: 239mm x 163mm x 25mm
- Gewicht: 794g
- ISBN-13: 9780849388439
- ISBN-10: 0849388430
- Artikelnr.: 23402627
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 432
- Erscheinungstermin: 21. Dezember 1992
- Englisch
- Abmessung: 239mm x 163mm x 25mm
- Gewicht: 794g
- ISBN-13: 9780849388439
- ISBN-10: 0849388430
- Artikelnr.: 23402627
London, Edythe D.
Preface, Chapter 1. Neurobiological Substrates Mediating the Reinforcing
Effects of Psychomotor Stimulant and Opiate Drugs, Chapter 2. Receptor
Autoradiography as an Aid in Explaining Drug Action, Chapter 3. In Vitro
Autoradiographic Studies of Drugs Acting at Dopamine Receptor Sites,
Chapter 4. Studies of Benzodiazepine Receptors Using In Vivo
Autoradiography, Chapter 5. CNS Receptors for Opioids, Chapter 6. Imaging
Neuroreceptors to Study Drug Action in Living Human Brain, Chapter 7.
Metabolic Mapping with Deoxyglucose Autoradiography as an Approach for
Assessing Drug Action in the Central Nervous System, Chapter 8. Metabolic
Mapping of the Effects of Psychomotor Stimulants, Chapter 9. Positron
Emission Tomographic Studies on the Acute Effects of Psychoactive Drugs on
Brain Metabolism and Mood, Chapter 10. Use of PET to Study Addiction in
Humans, Chapter 11. Inter-Rater Reliability in Positron Emission Tomography
Image Analysis, Chapter 12. Immunohistochemistry as a Strategy for
Investigating the Functional Neuroanatomy of Drug Actions in the Brain,
Chapter 13. In Situ Hybridization Histochemistry, Chapter 14. Identifying
and Localizing Gene Expression Important for the Actions of Abused Drugs,
Chapter 15. Advanced Electrophysiological Imaging Techniques for Studying
Drug Effects, Index
Effects of Psychomotor Stimulant and Opiate Drugs, Chapter 2. Receptor
Autoradiography as an Aid in Explaining Drug Action, Chapter 3. In Vitro
Autoradiographic Studies of Drugs Acting at Dopamine Receptor Sites,
Chapter 4. Studies of Benzodiazepine Receptors Using In Vivo
Autoradiography, Chapter 5. CNS Receptors for Opioids, Chapter 6. Imaging
Neuroreceptors to Study Drug Action in Living Human Brain, Chapter 7.
Metabolic Mapping with Deoxyglucose Autoradiography as an Approach for
Assessing Drug Action in the Central Nervous System, Chapter 8. Metabolic
Mapping of the Effects of Psychomotor Stimulants, Chapter 9. Positron
Emission Tomographic Studies on the Acute Effects of Psychoactive Drugs on
Brain Metabolism and Mood, Chapter 10. Use of PET to Study Addiction in
Humans, Chapter 11. Inter-Rater Reliability in Positron Emission Tomography
Image Analysis, Chapter 12. Immunohistochemistry as a Strategy for
Investigating the Functional Neuroanatomy of Drug Actions in the Brain,
Chapter 13. In Situ Hybridization Histochemistry, Chapter 14. Identifying
and Localizing Gene Expression Important for the Actions of Abused Drugs,
Chapter 15. Advanced Electrophysiological Imaging Techniques for Studying
Drug Effects, Index
Preface, Chapter 1. Neurobiological Substrates Mediating the Reinforcing
Effects of Psychomotor Stimulant and Opiate Drugs, Chapter 2. Receptor
Autoradiography as an Aid in Explaining Drug Action, Chapter 3. In Vitro
Autoradiographic Studies of Drugs Acting at Dopamine Receptor Sites,
Chapter 4. Studies of Benzodiazepine Receptors Using In Vivo
Autoradiography, Chapter 5. CNS Receptors for Opioids, Chapter 6. Imaging
Neuroreceptors to Study Drug Action in Living Human Brain, Chapter 7.
Metabolic Mapping with Deoxyglucose Autoradiography as an Approach for
Assessing Drug Action in the Central Nervous System, Chapter 8. Metabolic
Mapping of the Effects of Psychomotor Stimulants, Chapter 9. Positron
Emission Tomographic Studies on the Acute Effects of Psychoactive Drugs on
Brain Metabolism and Mood, Chapter 10. Use of PET to Study Addiction in
Humans, Chapter 11. Inter-Rater Reliability in Positron Emission Tomography
Image Analysis, Chapter 12. Immunohistochemistry as a Strategy for
Investigating the Functional Neuroanatomy of Drug Actions in the Brain,
Chapter 13. In Situ Hybridization Histochemistry, Chapter 14. Identifying
and Localizing Gene Expression Important for the Actions of Abused Drugs,
Chapter 15. Advanced Electrophysiological Imaging Techniques for Studying
Drug Effects, Index
Effects of Psychomotor Stimulant and Opiate Drugs, Chapter 2. Receptor
Autoradiography as an Aid in Explaining Drug Action, Chapter 3. In Vitro
Autoradiographic Studies of Drugs Acting at Dopamine Receptor Sites,
Chapter 4. Studies of Benzodiazepine Receptors Using In Vivo
Autoradiography, Chapter 5. CNS Receptors for Opioids, Chapter 6. Imaging
Neuroreceptors to Study Drug Action in Living Human Brain, Chapter 7.
Metabolic Mapping with Deoxyglucose Autoradiography as an Approach for
Assessing Drug Action in the Central Nervous System, Chapter 8. Metabolic
Mapping of the Effects of Psychomotor Stimulants, Chapter 9. Positron
Emission Tomographic Studies on the Acute Effects of Psychoactive Drugs on
Brain Metabolism and Mood, Chapter 10. Use of PET to Study Addiction in
Humans, Chapter 11. Inter-Rater Reliability in Positron Emission Tomography
Image Analysis, Chapter 12. Immunohistochemistry as a Strategy for
Investigating the Functional Neuroanatomy of Drug Actions in the Brain,
Chapter 13. In Situ Hybridization Histochemistry, Chapter 14. Identifying
and Localizing Gene Expression Important for the Actions of Abused Drugs,
Chapter 15. Advanced Electrophysiological Imaging Techniques for Studying
Drug Effects, Index