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Visualization Techniques: From Immunohistochemistry to Magnetic Resonance Imaging
ISBN-13: 9781617798962 / Angielski / Twarda / 2012 / 316 str.
Visualization Techniques: From Immunohistochemistry to Magnetic Resonance Imaging
ISBN-13: 9781617798962 / Angielski / Twarda / 2012 / 316 str.
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Visualization of chemicals in tissues has seen incredible advances in the past several years. Visualization Techniques: From Immunohistochemistry to Magnetic Resonance Imaging provides practical advice from experts in the field as well as an excellent overview of some of the most important recent advances in visualization. This timely volume explores topics from immunohistochemistry for multiple neurochemicals, detecting expression levels of neurochemicals, following cellular processes and ionic movement, identifying polysynaptic pathways subserving physiological responses to identifying functional changes in vivo. Written for the popular Neuromethods series, this work includes the kind of detailed description and implementation advice that is crucial for getting optimal results in the lab. Meticulous and concise, Visualization Techniques: From Immunohistochemistry to Magnetic Resonance Imaging will prove invaluable for scientists seeking to gain a greater understanding of the practical skills, strengths, and pitfalls that these wonderful and exciting visualization techniques provide.
Wydanie ilustrowane
From the reviews:
"This is an excellent overview of advances in visualization techniques in neuroscience, particularly at the molecular level. The book is written for neuroscientists, basic neuroresearchers, and students of medical science. It is also appropriate for clinical and academic specialists in neurobiology, neuropharmacology, neurology, neuro-oncology, neuroradiology, and neurosurgery. ... It is an inspiration for investigators interested in furthering their knowledge of the visualization of the nervous system not only in its entirety, but also at the neuronal level." (Ramsis Farid Ghaly, Doody's Book Reviews, August, 2012)1. Multiple Immunohistochemical Labelling of Peripheral Neurons
Ian L. Gibbins
2. Combined In Situ Hybridization and Immunohistochemistry in Tat Brain Tissue Using Digoxigenin Labelled Riboprobes
Natasha N. Kumar, Belinda R. Bowman and Ann K. Goodchild
3. In Situ Hybridization within the CNS Tissue: Combining In Situ Hybridization with Immunofluorescence
Dominic Bastien and Steve Lacroix
4. Visualizing GABAB Receptor Internalization and Intracellular Trafficking
Paola Ramoino, Paolo Bianchini, Alberto Diaspro, and Cesare Usai
5. Using Total Internal Reflection Fluorescence Microscopy (TIRFM) to Visualize Insulin Action
James G. Burchfield, Jamie A. Lopez, and William E. Hughes
6. Live-Cell Quantification of Mitochondrial Functional Parameters
Marco Nooteboom, Marleen Forkink, Peter H.G.M. Willems, and Werner J.H. Koopman
7. Functional Imaging Using Two-Photon Microscopy in Living Tissue
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Ian L. Gibbins
2. Combined In Situ Hybridization and Immunohistochemistry in Tat Brain Tissue Using Digoxigenin Labelled Riboprobes
Natasha N. Kumar, Belinda R. Bowman and Ann K. Goodchild
3. In Situ Hybridization within the CNS Tissue: Combining In Situ Hybridization with Immunofluorescence
Dominic Bastien and Steve Lacroix
4. Visualizing GABAB Receptor Internalization and Intracellular Trafficking
Paola Ramoino, Paolo Bianchini, Alberto Diaspro, and Cesare Usai
5. Using Total Internal Reflection Fluorescence Microscopy (TIRFM) to Visualize Insulin Action
James G. Burchfield, Jamie A. Lopez, and William E. Hughes
6. Live-Cell Quantification of Mitochondrial Functional Parameters
Marco Nooteboom, Marleen Forkink, Peter H.G.M. Willems, and Werner J.H. Koopman
7. Functional Imaging Using Two-Photon Microscopy in Living Tissue
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Natasha N. Kumar, Belinda R. Bowman and Ann K. Goodchild
3. In Situ Hybridization within the CNS Tissue: Combining In Situ Hybridization with Immunofluorescence
Dominic Bastien and Steve Lacroix
4. Visualizing GABAB Receptor Internalization and Intracellular Trafficking
Paola Ramoino, Paolo Bianchini, Alberto Diaspro, and Cesare Usai
5. Using Total Internal Reflection Fluorescence Microscopy (TIRFM) to Visualize Insulin Action
James G. Burchfield, Jamie A. Lopez, and William E. Hughes
6. Live-Cell Quantification of Mitochondrial Functional Parameters
Marco Nooteboom, Marleen Forkink, Peter H.G.M. Willems, and Werner J.H. Koopman
7. Functional Imaging Using Two-Photon Microscopy in Living Tissue
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Paola Ramoino, Paolo Bianchini, Alberto Diaspro, and Cesare Usai
5. Using Total Internal Reflection Fluorescence Microscopy (TIRFM) to Visualize Insulin Action
James G. Burchfield, Jamie A. Lopez, and William E. Hughes
6. Live-Cell Quantification of Mitochondrial Functional Parameters
Marco Nooteboom, Marleen Forkink, Peter H.G.M. Willems, and Werner J.H. Koopman
7. Functional Imaging Using Two-Photon Microscopy in Living Tissue
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
James G. Burchfield, Jamie A. Lopez, and William E. Hughes
6. Live-Cell Quantification of Mitochondrial Functional Parameters
Marco Nooteboom, Marleen Forkink, Peter H.G.M. Willems, and Werner J.H. Koopman
7. Functional Imaging Using Two-Photon Microscopy in Living Tissue
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Marco Nooteboom, Marleen Forkink, Peter H.G.M. Willems, and Werner J.H. Koopman
7. Functional Imaging Using Two-Photon Microscopy in Living Tissue
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Ivo Vanzetta, Thomas Deneux, Attila Kaszás, Gergely Katona, and Balazs Rozsa
8. Calcium Imaging Techniques In Vitro to Explore the Role of Dendrites in Signaling Physiological Action Potential Patterns
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Audrey Bonnan, Benjamin Grewe, and Andreas Frick
9. Juxtacellular Labeling in Combination with Other Histological Techniques to Determine Phenotype of Physiologically Identified Neurons
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Ruth L. Stornetta
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
10. Visualization of Activated Neurons Involved in Endocrine and Dietary Pathways Using GFP-Expressing Mice
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Rim Hassouna, Odile Viltart, Lucille Tallot, Karine Bouyer, Catherine Videau, Jacques Epelbaum, Virginie Tolle, and Emilio Badoer
11. Use and Visualization of Neuroanatomical Viral Transneuronal Tracers
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
J. Patrick Card and Lynn W. Enquist
12. Visualization of Thermal Changes in Freely Moving Animals
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Daniel M.L. Vianna and Pascal Carrive
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
13. Perfusion Magnetic Resonance Imaging Quantification in the Brain
Fernando Calamante
Fernando Calamante
Visualization of chemicals in tissues has seen incredible advances in the past several years. Visualization Techniques: From Immunohistochemistry to Magnetic Resonance Imaging provides practical advice from experts in the field as well as an excellent overview of some of the most important recent advances in visualization. This timely volume explores topics from immunohistochemistry for multiple neurochemicals, detecting expression levels of neurochemicals, following cellular processes and ionic movement, identifying polysynaptic pathways subserving physiological responses to identifying functional changes in vivo. Written for the popular Neuromethods series, this work includes the kind of detailed description and implementation advice that is crucial for getting optimal results in the lab.
Meticulous and concise, Visualization Techniques: From Immunohistochemistry to Magnetic Resonance Imaging will prove invaluable for scientists seeking to gain a greater understanding of the practical skills, strengths, and pitfalls that these wonderful and exciting visualization techniques provide.
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