E-Book, Englisch, 648 Seiten, ePub
E-Book, Englisch, 648 Seiten, ePub
ISBN: 978-1-63853-527-0
Verlag: Thieme
Format: EPUB
Kopierschutz: Wasserzeichen (»Systemvoraussetzungen)
An anatomical, patient-oriented approach to neurologic diagnosis from renowned neurosurgeons
Despite strides in advanced neuroimaging techniques, what remains constant in the practice of neurology and neurosurgery is the enduring value of observing and interpreting patient signs and symptoms at bedside. Authored by renowned neurosurgeons Cary D. Alberstone, Edward C. Benzel, Michael P. Steinmetz and distinguished colleagues, Anatomic Basis of Neurologic Diagnosis, Second Edition details neuroanatomy in an organized, thorough manner, tipping its hat to the art and science of neurologic diagnosis. Like the widely acclaimed first edition, the updated volume emphasizes a logical, patient-oriented approach to neurologic diagnosis, conspicuously absent from most standard neuroanatomy texts.
New to this second edition are a portfolio of carefully curated MRI images and sections on neuroplasticity, peripheral nerve architecture, peripheral nerve injury and recovery, electrodiagnostic diagnosis of radiculopathy, tremor, deep brain stimulation targets (and side effects), autonomic disorders, altered states of consciousness, and spontaneous intracerebral hemorrhage. Two sophisticated new chapters address our current understanding of Memory and Neural Networks.
Key Features:
- Clinically pertinent anatomy is described succinctly and in plain language
- The cardinal manifestations of regional nervous system disorders facilitate localization of lesions
- Logical approaches to system-based complaints aid in differential diagnosis
- Learning objectives begin each chapter, graced by a variety of easy-to-grasp conceptual drawings
- MRI images, new to this edition, enrich and amplify the text
The authors present a practical, reader-friendly, and patient-centric approach to diagnosing neurological disorders. Residents, fellows, and practitioners in neurology, neurosurgery, and neuroradiology, and those studying for board examinations, will enjoy reading this indispensable resource.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Section I: Development and Developmental Disorders
1. Neuroembryology
Section II: Regional Anatomy and Related Syndromes
2. Peripheral Nerves
3. Plexuses
4. Nerve Roots and Spinal Nerves
5. Spinal Cord
6. Brainstem
7. Cranial Nerves
8. Cerebellum
9. Thalamus
10. Hypothalamus
11. Basal Ganglia
12. Limbic System
13. Cerebral Cortex
Section III: System-based Anatomy and Differential Diagnosis
14. Somatosensory System
15. Visual System
16. Auditory System
17. Vestibular System
18. Oculomotor System
19. Motor System
20. Autonomic Nervous System
21. Consciousness
22. Memory
23. Neural Networks
Section IV: Fluid-System Anatomy and Function
24. Vascular System
25. Cerebrospinal Fluid
2 Peripheral Nerves Learning Objectives •Describe the origin and course of the major peripheral nerves. •Describe the major peripheral nerve entrapment syndromes. •Compare radial nerve and posterior interosseous nerve entrapment syndromes. •Compare median nerve entrapment at the forearm (i.e., pronator teres syndrome and anterior interosseous nerve syndrome) with entrapment at the wrist (i.e., carpal tunnel syndrome). •Compare ulnar nerve entrapment at the elbow (i.e., cubital tunnel syndrome) with entrapment at the wrist (i.e., Guyon’s canal syndrome). •Identify the significance of Benediction attitude, abnormal pinch attitude, claw hand, and Froment’s sign. •Describe the architecture of peripheral nerves and their fibers. •Classify peripheral nerve injuries and their implications for nerve recovery. •Define the role of surgery in peripheral nerve injury. •Describe the importance of axonal degeneration and regeneration. This chapter discusses the functional anatomy and clinical correlation of the peripheral nerves of the upper and lower extremities. The discussion is limited to those nerves that are susceptible to “entrapment” neuropathies in which the involved nerve is lesioned by extrinsic compression. For each nerve described, there is a discussion of its origin, course, and motor and sensory innervation, as well as the clinical syndrome or syndromes with which the nerve is most closely associated. A significant number of these syndromes may be amenable to surgical treatment. Therefore, accurate and timely clinical diagnosis is imperative. Important nerves not covered in this chapter, because they are not associated with common entrapment syndromes, are noted at the beginning of the two major sections. Upper Extremity The nerves of the upper extremity discussed in the following sections include the radial, the median, and the ulnar nerves. Omitted from the discussion are (1) the axillary nerve, which supplies the deltoid muscle and the skin overlying the muscle, and (2) the musculocutaneous nerve, which supplies the biceps and the brachialis muscles and the skin overlying the radial aspect of the forearm. Radial Nerve Anatomy See Fig. 2.1. The radial nerve receives contributions from the C5–C8 spinal nerves. These contributions pass through the upper, middle, and lower trunks and posterior cord of the brachial plexus. The radial nerve supplies the extensor muscles of the arm and forearm as well as the skin covering them. Radial Nerve in the Upper Arm As it winds around the humerus, or just proximal to this section, the radial nerve supplies the triceps muscle. After its course in the spiral groove, it then supplies the brachioradialis and the extensor carpi radialis longus and brevis muscles. The nerve then bifurcates into a superficial (sensory) branch and a deep (motor) branch. Radial Nerve in the Forearm The superficial branch passes distally into the hand, where it supplies the skin of the radial aspect of the dorsum of the hand and the dorsum of the first four fingers. The sensory autonomous zone of the radial nerve is the skin over the first interosseous space. The deep branch of the radial nerve passes deep through the fibrous arch of the supinator muscle (the arcade of Frohse) to enter the posterior compartment of the forearm. The nerve continues in this compartment as the purely motor posterior interosseous nerve, which innervates the remaining wrist and finger extensors. These include the following: (1) supinator, a forearm supinator; (2) extensor digitorum, an extensor of the second through the fifth metacarpophalangeal joints; (3) extensor digiti minimi, an extensor of the fifth metacarpophalangeal joint; (4) extensor carpi ulnaris, an ulnar extensor of the wrist; (5) abductor pollicis longus, an abductor of the carpometacarpal joint of the thumb; (6) extensor pollicis longus, an extensor of the interphalangeal joint of the thumb; (7) extensor pollicis brevis, an extensor of the metacarpophalangeal joint of the thumb; and (10) extensor indicis, an extensor of the second finger. Fig. 2.1 Radial nerve anatomy. Clinical Syndromes Two of the most common clinical syndromes of the radial nerve are radial nerve palsy and the posterior interosseous nerve syndrome. Radial Nerve Palsy See Fig. 2.2. This syndrome may be caused by a humeral fracture or a lesion due to prolonged pressure on the nerve. The term radial nerve palsy refers to the latter mechanism of injury, also known as Saturday night palsy because it is classically associated with a drunkard who falls asleep with his arm hyperabducted across a park bench. The site of compression in either case is in the region of the spiral groove. The syndrome consists of a wrist drop, inability to extend the fingers, weakness of the supinator muscle, and sensory loss involving the radial nerve–innervated areas of the forearm and hand. Wrist drop is the most impressive and typical sign. Weakness of supination is only partial because supination may be accomplished with either biceps or supinator. Note that the triceps is preserved in these lesions because the branches of the radial nerve that innervate the triceps originate proximal to the spiral groove. Fig. 2.2 Radial nerve palsy. Functions or responses marked with an “X” are impaired or absent. Posterior Interosseous Nerve Syndrome See Fig. 2.3. The posterior interosseous nerve (PIN) syndrome is the most common syndrome caused by compression at the arcade of Frohse. As the PIN passes under the arcade of Frohse, a fibrous arch at the origin of the supinator muscle, the nerve may be pathologically constricted. The cardinal features of this syndrome are an inability to extend the fingers at the metacarpophalangeal joint, the absence of wrist drop, and normal sensation. Because the finger extensors at the interphalangeal joint are median and ulnar innervated, the patient is able to extend the fingers at this joint. Branches to the supinator muscle are given off proximal to the nerve entering the arcade of Frohse, causing the supinator muscle to be spared. Although no wrist drop is present because the extensor carpi radialis is preserved, the extensor carpi ulnaris is a PIN-innervated muscle, and thus any attempt to extend the wrist results in a radial deviation of the hand. Because the PIN is a pure motor nerve, sensation in this syndrome is entirely normal. Fig. 2.3 Posterior interosseous nerve syndrome. Functions or responses marked with an “X” are impaired or absent. Median Nerve Anatomy See Fig. 2.4. The median nerve receives contributions from the C6 to T1 spinal nerves. These pass through the upper, middle, and lower trunks and the lateral and medial cords of the brachial plexus. There are no median nerve branches that originate proximal to the elbow. Median Nerve at the Elbow At the elbow, the median nerve lies behind the bicipital aponeurosis (lacertus fibrosus), providing supply to the following muscles: (1) pronator teres, a forearm pronator; (2) flexor carpi radialis, a radial wrist flexor; (3) palmaris longus, a wrist flexor; and (4) flexor digitorum superficialis, a flexor at the interphalangeal joint for the second, third, fourth, and fifth fingers. Median Nerve in the Forearm From beneath the lacertus fibrosus, the nerve then passes into the forearm between the two heads of the median-innervated pronator teres muscle. As it passes deep to the pronator teres muscle, the median nerve gives off the anterior interosseous nerve. The anterior interosseous nerve is a purely motor branch, which supplies the (1) flexor pollicis longus, (2) pronator quadratus, and (3) flexor digitorum profundus I and II. Median Nerve in the Hand The median nerve then continues deep to the flexor retinaculum through the so-called carpal tunnel to innervate the LOAF muscles of the hand. These include the (1) lumbricals I and II, (2) opponens pollicis, (3) abductor pollicis brevis, and (4) flexor pollicis brevis. Sensory branches also originate from the median nerve as it emerges from the carpal tunnel. These palmar digital nerves supply the skin of the palmar aspect of the thumb, second, third, and half of the fourth fingers; the radial aspect of the palm; and the dorsal aspect of the distal and middle phalanges of the second, third, and half of the fourth fingers. A palmar cutaneous branch originates from the median nerve just proximal to the carpal tunnel, where it crosses the wrist to enter the hand superficial to the flexor retinaculum. It supplies the skin over the median eminence and the proximal palm on the radial aspect of the hand. Fig. 2.4 Median nerve anatomy. Clinical Syndromes Three major entrapment syndromes involving the median nerve and its branches are described: (1) the pronator teres syndrome, (2) the anterior interosseous nerve syndrome, and (3) the carpal tunnel syndrome. Pronator Teres Syndrome See Fig. 2.5. The pronator teres syndrome results from entrapment...
