Review of the functional anatomy of the spinal ligaments and the lumbar erector spinae muscles

A reassessment is presented of the functional anatomy of the spine and associated musculature. Recent detailed anatomical studies of the erector spinae muscle group have shown a complex organization which is not well explained by traditional models of the mechanical behavior of the spine. In an arch‐like model for the spine this complexity is required to control the curvature and the compressive thrust along the spine to ensure mechanical stability. This model also assigns a biomechanical function to the erector spinae muscles that is consistent with their anatomical description, unlike previous lever models. Implications are that posture, the many‐curved configuration of the spine adopted during maneuvers, is important when assessing spinal function and that the spine forms a dynamic structure in which all the muscles, ligaments, discs, and vertebrae must be considered synergistically. © 1992 Wiley‐Liss, Inc.

[1]  T Hansson,et al.  The Loads on the Lumbar Spine During Extreme Weight Lifting , 1987, Spine.

[2]  S Gracovetsky,et al.  A mathematical model of the lumbar spine using an optimized system to control muscles and ligaments. , 1977, The Orthopedic clinics of North America.

[3]  D. S. Hickey,et al.  Relation Between the Structure of the Annulus Fibrosus and the Function and Failure of the Intervertebral Disc , 1980, Spine.

[4]  S Gracovetsky,et al.  The Mechanism of the Lumbar Spine , 1981, Spine.

[5]  S. Gracovetsky,et al.  The Abdominal Mechanism , 1985, Spine.

[6]  B. Bresler,et al.  Role of the Trunk in Stability of the Spine , 1961 .

[7]  R W Norman,et al.  Measurement of the trunk musculature of active males using CT scan radiography: implications for force and moment generating capacity about the L4/L5 joint. , 1988, Journal of biomechanics.

[8]  M. Adams,et al.  Physical Activity and the Strength of the Lumbar Spine , 1989, Spine.

[9]  D W Hukins,et al.  Comparison of Structure, Mechanical Properties, and Functions of Lumbar Spinal Ligaments , 1990, Spine.

[10]  David W.L. Hukins,et al.  Composition and properties of connective tissues , 1985 .

[11]  N Bogduk,et al.  The morphology of the human lumbar multifidus. , 1986, Clinical biomechanics.

[12]  N Bogduk,et al.  The biomechanics of the lumbar multifidus. , 1986, Clinical biomechanics.

[13]  R. Aspden Constraining the lateral dimensions of uniaxially loaded materials increases the calculated strength and stiffness: application to muscle and bone , 1990 .

[14]  M Gagnon,et al.  Orientation and Moment Arms of Some Trunk Muscles , 1991, Spine.

[15]  Tesh Km,et al.  The abdominal muscles and vertebral stability. , 1987 .

[16]  H Tkaczuk,et al.  Tensile properties of human lumbar longitudinal ligaments. , 1968, Acta orthopaedica Scandinavica.

[17]  A. Burstein,et al.  THE VISCOELASTIC PROPERTIES OF SOME BIOLOGICAL MATERIALS * , 1968, Annals of the New York Academy of Sciences.

[18]  M. Jayson,et al.  Intervertebral discs: nuclear morphology and bursting pressures. , 1973, Annals of the rheumatic diseases.

[19]  Nikolai Bogduk,et al.  The biomechanics of the thoracolumbar fascia. , 1987, Clinical biomechanics.

[20]  T. Hansson,et al.  The Bone Mineral Content and Ultimate Compressive Strength of Lumbar Vertebrae , 1980, Spine.

[21]  T P Leskinen,et al.  A dynamic analysis of spinal compression with different lifting techniques. , 1983, Ergonomics.

[22]  D. Bartelink The role of abdominal pressure in relieving the pressure on the lumbar intervertebral discs. , 1957, The Journal of bone and joint surgery. British volume.

[23]  W. Floyd,et al.  The function of the erectores spinae muscles in certain movements and postures in man * , 1955, The Journal of physiology.

[24]  R W Norman,et al.  Effects of an anatomically detailed erector spinae model on L4/L5 disc compression and shear. , 1987, Journal of biomechanics.

[25]  A. Nachemson,et al.  Some mechanical properties of the third human lumbar interlaminar ligament (ligamentum flavum). , 1968, Journal of biomechanics.

[26]  O. Perey,et al.  Fracture of the vertebral end-plate in the lumbar spine; an experimental biochemical investigation. , 1957, Acta orthopaedica Scandinavica. Supplementum.

[27]  R M Aspden,et al.  The Spine as an Arch A New Mathematical Model , 1989, Spine.

[28]  N. Bogduk,et al.  The Applied Anatomy of the Thoracolumbar Fascia , 1984, Spine.

[29]  W. Horton Further observations on the elastic mechanism of the intervertebral disc. , 1958, The Journal of bone and joint surgery. British volume.

[30]  R W Norman,et al.  Reassessment of the role of intra-abdominal pressure in spinal compression. , 1987, Ergonomics.

[31]  Richard M. Aspden,et al.  Relation between structure and mechanical behaviour of fibre-reinforced composite materials at large strains , 1986, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[32]  A B Schultz,et al.  Large compressive preloads decrease lumbar motion segment flexibility , 1991, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[33]  R. Norman,et al.  1986 Volvo Award in Biomechanics: Partitioning of the L4 - L5 Dynamic Moment into Disc, Ligamentous, and Muscular Components During Lifting , 1986, Spine.

[34]  N. Bogduk,et al.  1987 Volvo Award in Basic Science: The Morphology of the Lumbar Erector Spinae , 1987, Spine.

[35]  R M Aspden,et al.  Collagen organisation in the interspinous ligament and its relationship to tissue function. , 1987, Journal of anatomy.

[36]  R M Aspden,et al.  Intra-abdominal pressure and its role in spinal mechanics. , 1987, Clinical biomechanics.

[37]  P. Rissanen,et al.  The surgical anatomy and pathology of the supraspinous and interspinous ligaments of the lumbar spine with special reference to ligament ruptures. , 1960, Acta orthopaedica Scandinavica. Supplementum.

[38]  D. S. Hickey,et al.  Thorecolumlbar fascia can increase the efficiency of the erector spinae muscles. , 1990, Clinical biomechanics.

[39]  D W Hukins,et al.  Structure and mechanical properties of the longitudinal ligaments and ligamentum flavum of the spine. , 1989, Journal of biomedical engineering.

[40]  Jacques Heyman,et al.  The masonry arch , 1982 .

[41]  R M Aspden,et al.  A new mathematical model of the spine and its relationship to spinal loading in the workplace. , 1988, Applied ergonomics.

[42]  A L Yettram,et al.  Equilibrium Analysis for the Forces in the Human Spinal Column and Its Musculature , 1980, Spine.

[43]  M. Adams,et al.  Can the Lumbar Spine Be Crushed in Heavy Lifting? , 1982, Spine.