E-Book, Englisch, 294 Seiten, ePub
Singh Spine Essentials Handbook
1. Auflage 2019
ISBN: 978-1-63853-465-5
Verlag: Thieme
Format: EPUB
Kopierschutz: 6 - ePub Watermark
A Bulleted Review of Anatomy, Evaluation, Imaging, Tests, and Procedures
E-Book, Englisch, 294 Seiten, ePub
ISBN: 978-1-63853-465-5
Verlag: Thieme
Format: EPUB
Kopierschutz: 6 - ePub Watermark
The management of patients with spinal conditions involves a team-based approach, with professionals and trainees contributing through their respective roles. As such, medical trainees need resources that enable them to quickly and adeptly learn spine "basics," such as performing spinal examinations. This handbook is a concise, compact guide on key principles of spine surgical knowledge — from the atlanto-occipital joint to the coccyx. It provides both professionals and medical trainees with user-friendly, insightful text gleaned from the hands-on insights of seasoned spinal surgeons.
Core fundamentals cover spine anatomy, clinical evaluations, spine imaging, diagnostic spine tests, and select spine procedures. Common surgical approaches are delineated in succinct bulleted text, accompanied by case studies and radiographic pathology. This format is conducive to learning and provides an ideal spine surgery review for medical students, postgraduate trainees participating in spine rotations, and residents.
Key Highlights
- The only book on spinal pathology and management created with contributions from medical students and residents
- High-impact citations and questions at the end of each chapter highlight key topics
- Detailed drawings, diagrams, radiographic images, and MRIs elucidate and expand upon chapter topics
- Tables provide a quick reference, with concise information including impacted anatomy, nerves, and procedural maneuvers utilized in exams
is a must-have resource for orthopaedic and neurosurgery residents and medical students. It will also benefit physiatrists, spine practitioners, orthopaedic and neurosurgical trainees and nurses, and chiropractors.
This book includes complimentary access to a digital copy on https://medone.thieme.com.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
1 Neuroanatomy and Physiology
2 General Spine Anatomy and Long Tract Pathways
3 Atlanto-Occipital Anatomy
4 Cervical Spine Anatomy
5 Thoracic Spine
6 Lumbar Spine Anatomy
7 Sacral Spine
8 Spinal History and Physical Examination
9 Common Radiographic Measurements
10 Cervical Disk Disease
11 Lumbar Disk Disease
12 Scoliosis
13 Spinal Trauma and Fractures
14 Primary and Metastatic Spinal Tumors
15 Spinal Infections
16 Pediatrics
17 Anterior Cervical Diskectomy and Fusion
18 Posterior Cervical Laminoplasty with Instrumentation
19 Posterior Cervical Laminectomy and Fusion
20 Open Posterolateral Lumbar Fusion
21 Anterior Lumbar Interbody Fusion
22 Minimally Invasive Transforaminal Lumbar Interbody Fusion
23 Lateral Lumbar Interbody Fusion
24 Surgical Complications
25 Common Medical Complications Following Routine Spinal Surgery
1 Neuroanatomy and Physiology
1.1 Neuron Anatomy
• Basic components (Table 1.1, Fig. 1.1).
• Synaptic junction and signal transmission:
– Mechanism of basic chemical synapses (Fig. 1.3).
° Action potential (depolarization) reaches terminal branch of the presynaptic neuron.
° N-type Ca2+ channels open, Ca2+ influx.
? Lambert–Eaton myasthenic syndrome.
° Ca2+ facilitates vesicle docking, neurotransmitter released into synaptic cleft.
? botulism, tetanus (lockjaw).
° Neurotransmitter binds neurotransmitter receptor (postsynaptic neuron).
? myasthenia gravis.
° Depending on its function, the neurotransmitter receptor creates either an excitatory postsynaptic potential (EPSP) or an inhibitory postsynaptic potential (IPSP).
Table 1.1 Basic anatomy of the neuron
| Component | Function |
| Dendrites | Receive signals from other neurons for transfer toward the cell body |
| Cell body (soma) | Contains cell nucleus. Site of protein and ATP production |
| Axon hillock | Portion of cell body that connects to axon. Final site of action potential summation (trigger zone) |
| Axon | Carries action potential from cell body to terminal branches |
| Myelin sheath | Fatty insulating layer around axon that facilitates action potential through saltatory conduction. • Oligodendrocytes myelinate neurons of the central nervous system (CNS). A single oligodendrocyte myelinates multiple neurons (Fig. 1.2a). • Schwann’s cells myelinate neurons of the peripheral nervous system (PNS). Multiple Schwann’s cells myelinate a single neuron (Fig. 1.2b). |
| Nodes of Ranvier | Occasional interruptions in the myelin sheath that expose the axonal membrane. Contain a high density of voltage-gated Na+ and K+ channels and Na+/K+ ATPases, which act to regenerate the action potential. |
| Terminal branches (boutons) of axon | Branched terminal portion of an axon. Site of neurotransmitter release into the synaptic cleft. Often referred to as the presynaptic terminal. |
Fig. 1.1 Basic components of the neuron.
? EPSPs depolarize the postsynaptic neuron and increase the probability of action potential formation.
? IPSPs either hyperpolarize or resist depolarization of the postsynaptic neuron and decrease the probability of action potential formation.
° The potentials across all dendrites are integrated in the cell body and axon hillock, determining whether or not an action potential will fire in the postsynaptic neuron.
° A variety of mechanisms, including enzymatic degradation (i.e., acetylcholine) and presynaptic reuptake (i.e., serotonin), remove neurotransmitters from the synaptic cleft to end the postsynaptic stimulus.
– Neuromuscular junction:
° Specialized chemical synapse between motor neuron and muscle fiber.
° Cholinergic synapse containing mainly nicotinic acetylcholine receptors.
° Nerve impulse results in contraction of muscle fiber(s).
Fig. 1.2 (a) Oligodendrocyte (central nervous system). (b) Schwann’s cell (peripheral nervous system).
– Motor unit:
° A motor neuron and all muscle fibers that it innervates.
? A small motor unit contains three to six muscle fibers and controls muscles of fine control.
? A large motor unit contains 100 to 1,000 muscle fibers and controls muscles of crude control and strength (i.e., biceps, quadriceps).
° All muscle fibers of a single motor unit are of the same fiber type (types 1, 2a, and 2b).
• Neuron types (Table 1.2).
• Nerve fiber organization (Table 1.3, Fig. 1.4).
• Nervous system organization (Fig. 1.5).
• Afferent and efferent nerves (Table 1.4, Fig. 1.6):
– Afferent nerve fibers carry sensory information and arrive at the spinal cord through dorsal roots.
– Efferent nerve fibers carry motor information and exit the spinal cord through ventral roots.
– Efferent motor neurons (Table 1.5, Fig. 1.7):
° Upper motor neurons (UMNs)
? Cell bodies originate within the primary motor cortex or brainstem nuclei.
? Convey motor information by synapsing with lower motor neurons (LMNs, or interneurons) in the brainstem or spinal cord.
Fig. 1.3 Synaptic transmission at a chemical synapse.
Table 1.3 Hierarchical organization of nerve fibers
| Component | Covering |
| Deep |
| Axon (of individual neuron) | Endoneurium |
| Fascicle (bundle of axons) | Perineurium |
| Nerve (bundle of fascicles) | Epineurium |
| Superficial |
Fig. 1.4 Nerve fiber structure.
° LMNs:
? Cell bodies originate in brainstem nuclei or the ventral horn of spinal cord gray matter.
? Convey motor information from UMNs by synapsing with skeletal muscle in the periphery via neuromuscular junctions.
– Afferent sensory receptors (Table 1.6).
– Afferent sensory neurons (Table 1.7).
• Reflex arcs (Table 1.8):
– General principles:
° A reflex arc is a neural pathway that controls a reflex action.
° It involves the spinal cord only, allowing for a fast, subconscious response.
° Sensory information is processed by the brain the reflex has occurred.
Fig. 1.5 Summary of central and peripheral nervous systems.
Fig. 1.6 Components of spinal nerves. (Reproduced with permission from Baaj AA, Mummaneni PV, Uribe JS, Vaccaro AR, Greenberg MS, eds. Handbook of Spine Surgery. 2nd ed. New York, NY: Thieme; 2016.)
– Types:
° Monosynaptic: contains two neurons (sensory and motor) with a single chemical synapse (Fig. 1.9):
? That is, patellar reflex, Achilles reflex.
° Polysynaptic: contains one or more interneurons that connect a sensory neuron to a motor neuron:
? Represents the majority of reflex arcs.
? Allows for higher order processing and control.
? That is, pain withdrawal reflex.
° Somatic: affects skeletal muscle.
° Autonomic: affects internal viscera.
– Components:
° Stimulus (muscle stretch, pain, temperature, stretch, etc.).
° Sensory receptor (muscle spindle, free nerve ending, etc.).
Fig. 1.7 Depiction of upper and lower motor neurons.
° Afferent pathway: sensory neuron (dorsal root ganglia).
° Interneuron(s) (dorsal horn):
? Polysynaptic reflex arcs only.
° Efferent pathway: motor neuron (ventral horn).
° Skeletal muscle:
? Effector response ? muscle contraction.
– Inhibitory interneurons:
° Activated by sensory neurons of a reflex...
