the muscle spindle · kinesiology: the mechanics and pathomechanics of human movement....

© SLACK Incorporated 2006. Moffat M, Rosen E, Rusnak-Smith S. Musculoskeletal Essentials: Applying the Preferred Physical Therapist Practice Patterns. SM which contains only actin (thin) filaments. The darker area is the A-band, which contains alternating actin and myosin (thick) filaments. The Z-line consists of a connective tissue network that bisects the I-band, anchors the thin filaments, and provides structural integrity to the sarcomere. The H- zone, located in the middle of the A-band, is the region of thick filaments not overlapped by thin filaments. The M- band bisects the H-zone and represents the middle of the sarcomere. The M-band consists of protein structures that support the arrangement of the myosin filaments. During muscle contraction, the sarcomere I-band and H-zone decrease in length while the length of the A-band remains constant. 2,3 THE MUSCLE SPINDLE The muscle spindle is a long, thin structure located adjacent and parallel to muscle fibers and is composed of multiple components that have both afferent and efferent innervation (Figures 3-4a and 3-4b). The muscle spindle functions as a stretch receptor and responds to static and dynamic length changes of skeletal muscle. 4-6 This complex receptor is found in all muscles, primarily in extremity, inter- costal, and cervical muscles. Anatomical Structures of the Spindle Apparatus Intrafusal muscle fibers are generally only 2 to 4 mm in length. They are fusiform in shape, widest in the center and tapered at ends. These fibers are composed of two types of fibers: 56 Chapter Three Figure 3-1. Successive connective tissue sheaths with- in muscle. Reprinted with permission from Oatis CA. Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:47. Figure 3-2. Organization of muscle from macro- scopic to microscopic levels. Reprinted with permission from Oatis CA. Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:46. Figure 3-3. Actin-myosin organization of two successive sarcomeres showing A, H, and I bands as well as Z-lines. Reprinted with permission from Oatis CA. Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:46.

Upload: others

Post on 14-Aug-2020

5 views

Category:

Documents

0 download

Report

Download

Embed Size (px):

TRANSCRIPT

Page 1: THE MUSCLE SPINDLE · Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:47. Figure 3-2. Organization of muscle

which contains only actin (thin) filaments. The darker area is the A-band, which contains alternating actin and myosin (thick) filaments. The Z-line consists of a connective tissue network that bisects the I-band, anchors the thin filaments, and provides structural integrity to the sarcomere. The H-zone, located in the middle of the A-band, is the region of thick filaments not overlapped by thin filaments. The M-band bisects the H-zone and represents the middle of the sarcomere. The M-band consists of protein structures that support the arrangement of the myosin filaments. During muscle contraction, the sarcomere I-band and H-zone decrease in length while the length of the A-band remains constant.2,3

THE MUSCLE SPINDLE The muscle spindle is a long, thin structure located

adjacent and parallel to muscle fibers and is composed of multiple components that have both afferent and efferent innervation (Figures 3-4a and 3-4b). The muscle spindle functions as a stretch receptor and responds to static and dynamic length changes of skeletal muscle.4-6 This complex receptor is found in all muscles, primarily in extremity, inter-costal, and cervical muscles.

Anatomical Structures of the Spindle Apparatus Intrafusal muscle fibers are generally only 2 to 4 mm in

length. They are fusiform in shape, widest in the center and tapered at ends. These fibers are composed of two types of fibers:

56 Chapter Three

Figure 3-1. Successive connective tissue sheaths with-in muscle. Reprinted with permission from Oatis CA. Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:47.

Figure 3-2. Organization of muscle from macro-scopic to microscopic levels. Reprinted with permis-sion from Oatis CA. Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:46.

Figure 3-3. Actin-myosin organization of two succes-sive sarcomeres showing A, H, and I bands as well as Z-lines. Reprinted with permission from Oatis CA. Kinesiology: The Mechanics and Pathomechanics of Human Movement. Philadelphia, Pa: Lippincott Williams & Wilkins; 2004:46.

The Pathomechanics of Plantar Fasciitis...the pathomechanics of plantar fasciitis. Alternative mechanisms including ‘stress-shielding’, vascular and metabolic disturbances, the

Lippincott Williams & Wilkins

Student’s Guide The Pathomechanics of Degenerative Joint ... - djd - student... · The Pathomechanics of Degenerative Joint Disease: A One Health Comparative Case Study Approach

Pathomechanics of parkinson disease gait

Biomechanics & Pathomechanics of Hand

Mechanics and Pathomechanics of Gait for Lower Extremity

Shoulder Anatomy Biomechanics Pathomechanics … Anatomy Biomechanics Pathome… · 1 Ed Mulligan, PT, DPT, OCS, SCS, ATC Anatomy, Biomechanics, and Pathomechanics of the Shoulder

Cranial osteopathic biomechanics, pathomechanics and diagnostics for practitioners

MCQ - Pharmacology Lippincott

LWW Health Library - OvidColección Lippincott Illustrated Reviews (LIR) ... • Lippincott Illustrated Reviews: Cell and Molecular Biology, 1ª Edición • Lippincott Illustrated

Anatomy & Pathomechanics of the Sacrum & Pelvis

Lippincott work