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Anatomy Of The Pelvis

Updated on April 14, 2020
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Niall is a Master of Osteopathy working from private clinics in Yorkshire. He provides strength & conditioning and anatomy learning online.

General anatomy of the pelvis

The pelvis is made up of four bones, the two large innominate bones, the sacrum which is wedge shaped and fits between the two innominates' posteriorly. As well as the coccyx, a small "tail" like bone attaching to the underside of the sacrum. The joining of the sacrum and innominate bones forms the two sacroiliac joints of the pelvis, hence the joints name. The sacrum is a solid bone, which was once thought to be a continuation of the spinal joints. It's thought that it was once separated into multiple vertebral joints with an intervertebral disc in between each. Evolution seems to have found more use for a stable bone used to support the rest of the pelvis and act as an anchorage for ligaments and muscles. The bones have therefore fused over time.

The innominate bones are interesting, as before the age of about 15, each innominate is actually made up of three bones which begin to fuse together during the early teenage years. The illum, the posterior most bone which articulates with the sacrum. The ischium which forms part of the acetabular fossa where the acetabulum head sits to form the hip joint. The third bone is the pubis, which forms the rest of the acetabular fossa and joins the medial anterior cartilage that makes the pubic symphysis. The pubic symphysis has an important role in pregnancy which will be discussed later.

The ligaments of the pelvis, are amongst the strongest in the human body. They form what can be described as a "basket weave" formation, in order to create strength and tensegrity within the structure. This is part of the "forced closure" method that the pelvis adopts in order to keep itself secure. This will be explored further on.

The pelvis is one of the largest muscular attachment points in the human body, partly due to its central position and crucial link between the upper and lower body. The muscles also contribute to "forced closure", anchoring themselves in a way that when contracted, push the bones of the pelvis together. The largest muscle in the body, Gluteus Maximus attaches directly into the pelvis.

The bones of the pelvis, with addition of the coccyx sat directly below the sacrum
The bones of the pelvis, with addition of the coccyx sat directly below the sacrum | Source

Formed & forced closure

When observing the bones of the pelvis, you'll notice that they fit together in a very congruent way. They fit almost like a jigsaw, giving the structure support and a good foundation for keeping itself locked in place. However, it is also manoeuvrable during times when the body needs it to have a little freedom of movement, such as pregnancy. This jigsaw affect of the bones interlocking, is whats known as formed closure and is the first phenomenon of the pelvis.

The second and equally important phenomenon is that of forced closure. This concerns itself with the structures that act on the pelvic bones to "force" them closed. After all, it doesn't take much to break a jigsaw back into its original pieces. These structures are the muscles and ligaments. They act as the glue and sticky tape that hold the jigsaw together and prevent it from moving, if accidentally nudged or pushed. As described earlier on in the article, the ligaments of the pelvis form a basket weave pattern which further forces the pelvis into its sturdy, closed postion.

A visual representation of formed and forced closure

A fantastic graphic highlighting how the bones' congruent shape + the forces acting on them through the ligaments and muscles equal a stable pelivs
A fantastic graphic highlighting how the bones' congruent shape + the forces acting on them through the ligaments and muscles equal a stable pelivs | Source

The ligaments

The pelvis is made up of multiple ligaments. I have grouped them together in a table below to highlight their role. Labelled images are also below which help to visulaise the positioning and structural support they offer. Groupings I've developed are: Structural, ovarian (attach to the ovarys), utero (attach to the uterus), fillopian (attach to the fallopian tubes).

Obviously, some ligaments are found in the female pelvis but not the male. Some, namely the suspensory ligament amongst others, are not true ligaments. They're blends of fascias and other ligaments that form an independent structure.

Structural ligaments
Ovarian
Utero
Fallopian
Iliolumbar
Broad ligament (Mesovarium)
Broad ligament (Mesometrium)
Broad ligament (Mesosalpinx)
Sacrospinous
Ovarian
Round
 
Sacrotuberous
Suspensory
Cardinal
 
Posterior sacroiliac
 
Pubocervical
 
Anterior sacroiliac
 
Uterosacral
 
The broad ligament is a sheet of ligament that spans across the pelvis, much like the diaphragm of the chest. Its function is to stabilise and protect certain organs as specified in the table
The broad ligament
The broad ligament
Structural ligaments
Structural ligaments | Source

Bony prominences

It’s worth noting the most prominent of the pelvis’s bony prominences before discussing the muscles.
These prominences include;

Ischial tuberosity (sitting bone)

Posterior superior iliac spine (PSIS)

Posterior inferior iliac spine (PIIS)

Anterior inferior iliac spine (AIIS)

Anterior superior iliac spine (ASIS)

Iliac crest

Pubic ramus

The muscles

The pelvis offers one of the largest muscular attachment bases of the human body. The strongest and largest muscles attach there tendons directly into the bony landmarks of the pelvis in order to lever off it. Below is a table with the muscle along with their origin and insertions. These contribute to forced closure, core stability, the pelvic floor and human movement and biomechanics.

Muscle
Origin
Insertion
Gluteus Maximus
Ilium, lumbar fascia, sacrum, sacrotuberous ligament
Gluteal tuberosity of femur
Gluteus Minimus
Outer ilium between anterior and inferior gluteal lines
Greater trochanter
Gluteus Medius
Outer ilium between posterior and middle gluteal lines
Greater trochanter
Piriformis
Anterior Sacrum
Medial greater trochanter
Biceps Femoris
Long head: Ischial tuberosity. Short head: Linea Aspera and supracondylar ridge
Styloid process fibula, LCL and lateral tibial condyle
Semitendinosus
Ischial tuberosity
Shaft of tibia
Semimembranosus
Ischial tuberosity
Medial tibial condyle and fascia of popliteus
Gracilis
Ischiopubic ramus
Shaft of tibia
Sartorius
Just below anterior superior iliac spine
Shaft of tibia
Rectus Femoris
Anterior inferior iliac spine
Tibial tuberosity boa ligamentum patellae
Rectus Abdominis
Pubic symphysis and pubic crest
Costal cartilage of ribs 5,6,7 and xiphoid process
Internal abdominal oblique
Lumbar fascia, inguinal ligament, iliac crest
Costal margin, aponeurosis rectus sheath, pubic crest
External abdominal oblique
Lower 8 ribs
Iliac crest, inguinal ligament, pubic tubercle, aponeurosis of rectus sheath
Transversus abdominis
Costal margin, lumbar fascia, iliac crest, inguinal ligament
Aponeurosis rectus sheath, pubic crest
Quadratus Lumborum
Transverse processes of L1-4, iliolumbar ligament, iliac crest
12th rib
Iliocostalis
Iliac crest, sacrum, lumbar vertebrae
Transverse processes of cervical spine, ribs
Latissimus dorsi
Spinous processes of all thoracic, lumbar and sacral vertebrae, including and below T7, lumbar fascia, iliac crest, last 4 ribs and scapula
Bicipital groove of humerus
Tensor fascia lata
Just above anterior superior iliac spine
Iliotibial band

Muscles of the pelvic floor

The pelvic floor is a bowl shaped collection of muscles, ligaments and fascia. It can be described as one of the bodies diaphragms. The pelvic floor muscles include; Coccygeus, ilyococcygeus, puborectali, pubococygeus. The function of the pelvic floor is to help assist with child birth, prevent incontinence and support organs within the pelvis.

Muscles of the pelvic floor
Muscles of the pelvic floor

The male and female pelvis

The pelvis of males and females differ for obvious reasons. The male pelvis tends to be slimmer, with a smaller inner area. The females on the other hand tend to be wider with a larger inner area. However, female pelvis’ differ amongst themselves significantly. This can have either a positive or negative effect during pregnancy depending on shape. The different shapes are shown below along with a male pelvis. Try to picture how the different shapes would affect a baby being delivered.

Male vs female pelvis
Male vs female pelvis
Four alternative female pelvic shapes. Android is considered the most masculine of the female pelvis and is least desirable for childbirth
Four alternative female pelvic shapes. Android is considered the most masculine of the female pelvis and is least desirable for childbirth

Pregnancy

Pregnancy is a phenomenal process which would only be possible with the bodies fascinating ability to change at different stages of its life. No place is better to observe this than the pelvis during pregnancy and labour. During pregnancy the female body secretes a hormone called “relaxin” into the body. This allows the ligaments of the body to express further extensibility, which is why pregnant women tend to become slightly hypermobile. There is however, a reason for this. As discussed previously, the pelvis fits together in a congruent fashion to increase tensegrity. Relaxin, allows the forced closure of the muscles and ligaments to reduce, reducing the tight hold on the pelvic joints. This makes labour possible. A fascinating photo was taken of a lady during labour which highlights just how much the bones separate to allow the baby to be delivered. Notice in the photo below just how high the sacrum has risen, and how far the innominates separate! The process of relaxin release can however be linked to injury and pain during pregnancy. It’s the main reason many women suffer from sacroiliac dysfunction, low back pain and pubic symphysis disorder.

Movement of the pelvis during
Movement of the pelvis during

Comments

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    • Deborah Demander profile image

      Deborah Demander Reno 

      7 weeks ago from First Wyoming, then THE WORLD

      Very informative article. Thanks for the detail on musculature origin and insertion points. As a massage therapist and yoga instructor, it serves as a great reminder.

      Thank you for writing.

      Namaste

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