This is the first atlas to depict in high-resolution images the fine structure of the spinal canal, the nervous plexuses, and the peripheral nerves in relation to clinical practice. The Atlas of Functional Anatomy for Regional Anesthesia and Pain Medicine contains more than 1500 images of unsurpassed quality, most of which have never been published, including scanning electron microscopy images of neuronal ultrastructures, macroscopic sectional anatomy, and three-dimensional images reconstructed from patient imaging studies. Each chapter begins with a short introduction on the covered subject but then allows the images to embody the rest of the work; detailed text accompanies figures to guide readers through anatomy, providing evidence-based, clinically relevant information. Beyond clinically relevant anatomy, the book features regional anesthesia equipment (needles, catheters, surgical gloves) and overview of some cutting edge research instruments (e.g. scanning electron microscopy and transmission electron microscopy).
Of interest to regional anesthesiologists, interventional pain physicians, and surgeons, this compendium is meant to complement texts that do not have this type of graphic material in the subjects of regional anesthesia, interventional pain management, and surgical techniques of the spine or peripheral nerves.
Recenzijas
The Atlas of Functional Anatomy for Regional Anesthesia and Pain Medicine serves as a photographic atlas of actual human images and tissue samples. this textbook has accomplished what it was intended to do. it is intended to provide information not found previously in anatomical and histological atlases. an excellent addition to any departmental library or personal library of the dedicated regionalist; the reader will certainly not be disappointed with the illustrations provided in this book. (Rejean Gareau, Canadian Journal of Anesthesia, Journal canadien d'anesthésie, November, 2015)
Part I. Human Peripheral Nerve.-
1. Ultrastructure of Myelinated and
Unmyelinated Axons.-
2. Macrophages, Mastocytes, and Plasma Cells.-
3.
Ultrastructure of the Endoneurium.-
4. Ultrastructure of the Perineurium.-
5.
Ultrastructure of the Epineurium .-
6. Origin of the Fascicles and
Intraneural Plexus.-
7. Macroscopic View of the Cervical Plexus and Brachial
Plexus.-
8. Anna Carrera, Francisco Reina.-
9. Macroscopic View of the Lumbar
Plexus and Sacral Plexus.-
10. Cross-sectional Microscopic Anatomy of the
Sciatic Nerve and its Dissected Branches.-
11. Cross-sectional Microscopic
Anatomy of the Sciatic Nerve and Paraneural Sheaths.-
12. Computerized
Tomographic Images of Unintentional Intraneural Injection.-
13. Ultrasound
View of Unintentional Intraneural Injection.-
14. Histologic Features of
Needle-Nerve and Intraneural Injection Injury as Seen on Light Microscopy.-
15. Structure of Nerve Lesions after In Vitro Punctures.-
16. Scanning
Electron Microscopy View of In Vitro Intraneural Injections.-
17. Injection
of Dye Inside the Paraneural Sheath of the Sciatic Nerve in the Popliteal
Fossa.-
18. High-Definition and Three-Dimensional Volumetric Ultrasound
Imaging of the Sciatic Nerve.- Part II. Component of the Spinal Canal.-
19.
Spinal Dural Sac, Nerve Root Cuffs, Rootlets, and Nerve Roots.-
20.
Ultrastructure of Spinal Dura Mater.-
21. Ultrastructure of the Spinal
Arachnoid Layer.-
22. Three-Dimensional Reconstruction of Spinal Dural Sac.-
23. Three-dimensional Reconstruction of Spinal Epidural Fat.-
24.
Ultrastructure of Human Spinal Trabecular Arachnoid.-
25. Ultrastructure of
Spinal Pia Mater.-
26. Ultrastructure of Spinal Subdural Compartment: Origin
of Spinal Subdural Space.-
27. Unintentional Subdural and Intradural
Placement of Epidural Catheters.-
28. Ultrastructure of Human Spinal Nerve
Roots.-
29. Three-dimensional Reconstruction of Cauda Equine Nerve Roots.-
30. Spinal Nerve Root Lesions after In Vitro Needle Puncture.-
31. Nerve
Root Cuff Lesions after In Vitro Needle Puncture and Model of In Vitro
Nerve Stimuli Caused by Epidural Catheters.-
32. Ligamentum Flavum and
Related Spinal Ligaments.-
33. The Ligamentum Flavum.-
34. Subarachnoid
(Intrathecal) Ligaments.-
35. Displacement of the Nerve Roots of Cauda Equina
in Different Positions.-
36. Nerve Root and Types of Needles Used in
Transforaminal Injections.-
37. Three-Dimensional Visualization of Spinal
Cerebrospinal Fluid and Cauda Equina Nerve Roots, and Estimation of a Related
Vulnerability Ratio.-
38. Ultrastructure of Nerve Root Cuffs: Dura-Epineurium
Transition Tissue.-
39. Ultrastructure of Nerve Root Cuffs: Arachnoid
LayerPerineurium Transition Tissue at Preganglionic, Ganglionic, and
Postganglionic Levels.-
40. Spinal Cord Stimulation.-
41. Ultrastructure of
Dural Lesions Produced in Lumbar Punctures.-
42. Injections of Particulate
Steroids for Nerve Root Blockade: Ultrastructural Examination of Complicating
Factors.-
43. Nerve Root and Types of Needles Used in Transforaminal
Injections.- Part III. Materials.-
44. Needles in Regional Anesthesia.-
45.
Catheters in Regional Anesthesia.-
46. Epidural Filters and Particles from
Surgical Gloves.- Part IV. Research Techniques.-
47. Three-dimensional
Reconstruction of Spinal Cerebrospinal Fluid, Roots, and Surrounding
Structures.-
48. Cerebrospinal Fluid and Root Volume Quantification from
Magnetic Resonance Images.-
49. Scanning Electron Microscopy.-
50.
Transmission Electron Microscopy.
Miguel Angel Reina, MD, PhD Department of Clinical Medical Sciences and Institute of Applied Molecular Medicine
School of Medicine
University of CEU San Pablo
Madrid, Spain
Department of Anesthesiology
Madrid-Monteprķncipe University Hospital
Madrid, Spain
