Pelvis

Description[edit | edit source]

Bones of the pelvis

The pelvis consists of the sacrum, the coccyx,the ischium, the ilium, and the pubis. [1][2] The structure of the pelvis supports the contents of the abdomen while also helping to transfer the weight from the spine to the lower limbs.[3] During gait, the joints within the pelvis work together to decrease the amount of force transferred from the ground and lower extremities to the spine and upper extremities.[3]

Anatomy[edit | edit source]

Osteology[edit | edit source]

Innominate bone.jpg
  • sacrum
  • coccyx
  • two innominate bones, which consist of the:
    • ischium
    • ilium
    • pubis[1]

Joint Articulations[edit | edit source]

There are three articulations within the pelvis:

  • inferiorly between the sacrum and the coccyx
  • posteriorly between the sacrum and each ilium (sacroiliac (SI) joint)
  • anteriorly between the pubic bodies (pubic symphysis).[2]

Other articulations:

  • the pelvis and femur articulate via the acetabulum[1]

Ligaments[edit | edit source]

Bony-pelvis-2.jpg

Ligaments of the Pelvis[edit | edit source]

  • Iliolumbar ligament
  • Lateral lumbosacral ligament
  • Sacrotuberous ligament
  • Sacrospinous ligament

Sacroiliac Ligaments[edit | edit source]

  • Ventral/Anterior sacroiliac ligament
  • Dorsal/Posterior sacroiliac ligament
  • Interosseous sacroiliac ligament

Sacrococcygeal Ligaments[edit | edit source]

  • Ventral/Anterio sacrococcygeal ligament
  • Dorsal sacrococcygeal ligament
  • Lateral sacrococcygeal ligament

Pubic Symphysis Ligaments[edit | edit source]

  • Superior pubic ligament
  • Inferior pubic ligament
  • Anterior pubic ligament
  • Posterior pubic ligament

Muscles[edit | edit source]

There are 36 muscles that attach to the sacrum or innominates. The purpose of these muscles is primarily to provide stability to the joint not to produce movement.[4]

Muscles that attach to the sacrum or innominates are:

Adductor brevis Adductor longus Adductor magnus Biceps femoris - long head Coccygeus
Erector spinae External oblique Gluteus maxiumus Gluteus medius Gluteus minimus
Gracilis Iliacus Inferior gemellus Internal oblique Latissimus dorsi
Levator ani Multifidus Obturator internus Obturator externus Pectineus
Levator ani Piriformis Psoas minor Pyramidalis Quadratus femoris
Quadratus lumborum Rectus abdominis Rectus femoris Sartorius Semimembranosus
Semitendonosus Sphincter urethrae Superficial transverse perineal ischiocavernous Superior gemellus Tensor fascia lata
Transversus abdominus

Sex-specific differences[edit | edit source]

The female pelvis consists of a wider sacrum and a wider subpubic angle when compared to males. The female pelvis’ ischial spines are also less prominent than the male’s ischial spines.[5][6][7] The male pelvis’ sacrum is generally longer and more curved with a narrower sub-pubic arch.[7] In females a wider pelvic aperture is needed as it functions as the birth canal during labour.[8][5][9][6][10]

Clinical Examination[edit | edit source]

Assessment[edit | edit source]

  • Prior to the assessment of the sacroiliac joint both the lumbar spine and hip should be assessed and any underlying pathologist should be ruled out.

Special Tests[edit | edit source]

SI Joint stress tests[edit | edit source]

Leg Length tests[edit | edit source]

  • Prone test
  • Standing leg length test
  • Functional leg length test

Other Special Tests[edit | edit source]

Outcome Measures[edit | edit source]

Pathology/Injury[edit | edit source]

Resources[edit | edit source]

  1. 1.0 1.1 1.2 White, TD., Black, MT., Folkens, PA. Human osteology. Academic press; 2011.
  2. 2.0 2.1 Lewis CL, Laudicina NM, Khuu A, Loverro KL. The human pelvis: Variation in structure and function during gait. The Anatomical Record. 2017 Apr;300(4):633-42.
  3. 3.0 3.1 Magee DJ. Orthopedic physical assessment. Elsevier Health Sciences; 2013 Dec 4.
  4. Calvillo O., Skaribas I., Turnispeed J., Anatomy and pathophysiology of the SIJ, current science, 2000 (LOE 2A)
  5. 5.0 5.1 Kurki HK. Pelvic dimorphism in relation to body size and body size dimorphism in humans. Journal of Human Evolution. 2011 Dec 1;61(6):631-43.
  6. 6.0 6.1 Meindl RS, Lovejoy CO, Mensforth RP, Carlos LD. Accuracy and direction of error in the sexing of the skeleton: implications for paleodemography. American Journal of Physical Anthropology. 1985 Sep;68(1):79-85.
  7. 7.0 7.1 Tague RG. Sexual dimorphism in the human bony pelvis, with a consideration of the Neandertal pelvis from Kebara Cave, Israel. American Journal of Physical Anthropology. 1992 May;88(1):1-21.
  8. Abitbol MM. The shapes of the female pelvis. Contributing factors. The Journal of reproductive medicine. 1996 Apr;41(4):242-50.
  9. Lovejoy CO. The natural history of human gait and posture: part 2. Hip and thigh. Gait & posture. 2005 Jan 1;21(1):113-24.
  10. Rosenberg KR. The evolution of modern human childbirth. Am J Phys Anthropol. 1992;35(S15):89–124.