Hip and Gluteal Region PDF

Summary

These notes cover the hip and gluteal region, including bones, ligaments, muscles, and movements. The document includes diagrams and illustrations, and aims to help readers understand the key features and functions of this region of the human body.

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©
 The Hip and
Gluteal Region
Dr. Sean McWatt, PhD
[email protected]

Mehau Kulyk / SPL / Getty
Learning Outcomes
By the end of this lesson, you will be able to…

Identify and describe the bones related to the hip
joint and the ligaments that stabilize it

Explain the basic movements that occur at the hip

Identify the intrinsic muscles of the hip and gluteal
region, explain their innervations, and describe their
functions

Predict functional implications of nervous and
musculoskeletal injuries to the hip and gluteal region
Regions of the Lower Limb
Gluteal region
Hip

Thigh
As we did in the upper limb Anterior, medial, and
posterior compartments
unit, we will run through the
lower limb from proximal to
distal, covering the important Knee
anatomical structures and Popliteal fossa

relationships along the way
Leg
Anterior, posterior, and
lateral compartments

Foot
Dorsal surface
Plantar surface

Drake, Gray’s Anatomy for Students, 2nd Ed., Copyright © 2009 by Churchill Livingstone
Bones of the Lower Limb
Sacroiliac joint

Coxal bone
Ilium, ischium, pubis
Hip joint
The coxal (hip) bone is made up of three Pubic
symphysis
separate bones that fuse to become one.

The left and right coxal bones articulate Femur
at the pubic symphysis and sacroiliac joints
to form the pelvic girdle.

The coxal bone articulates with the Knee joint Patella
femur to form the hip joint.

The femur articulates with the patella Tibia
and tibia to form the knee joint. The non-
Fibula
weightbearing fibula also articulates
with the tibia there.
Ankle joint
Tarsal bones
The tibia and fibula articulate with each
Bones of the
other and the tarsal bones at the ankle joint. Joints of the
foot and digits foot and digits
Anterior view Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Bones, Joints, and Ligaments
Bones of the Hip and Pelvis
The left and right coxal bones articulate with the sacrum, posteriorly
(at the sacroiliac joints), and with each other, anteriorly (at the pubic
symphysis), forming the pelvic girdle
The coccyx
articulates with Coxal bone
Ilium, ischium, pubis
the inferior aspect
of the sacrum.

Sacrum
Five fused
vertebrae

Coccyx
Three-five fused
vertebrae
The femur
articulates
with the coxal
Pubic symphysis
bone to form Femur
the hip joint Head, neck, greater
trochanter, lesser trochanter Posterior view
Anterior view Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Coxal Bone: Ilium
Anterior superior
Iliac
iliac spine (ASIS) tuberosity

Posterior gluteal
The coxal
bones (a.k.a., the Posterior superior Auricular surface

hip bones) are iliac spine (PSIS) Sacroiliac joint

also known as Posterior inferior PIIS
the innominate iliac spine (PIIS) Anterior inferior
bones because iliac spine (AIIS)
they are made Ilium
from the fusion
of three smaller
bones: the
ilium, ischium,
and pubis Acetabulum The coxal bones have many important
bony features that serve as spatial
Ischium Pubis landmarks and muscle attachments
Medial view (right)
Lateral views (right) Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Coxal Bone: Ischium
The ischium has two major
landmarks, the ischial spine
and ischial tuberosity, which
are major muscle attachments
and landmarks for the greater
and lesser sciatic notches
PIIS
through which several Ilium
neurovascular structures pass Greater
sciatic notch
Body
Ischial spine

Lesser
sciatic notch

Ischial tuberosity

Ischium
Medial view (right)
Lateral views (right) Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Coxal Bone: Pubis
In proper anatomical position
the anterior superior iliac
spine and the pubic tubercle
are in alignment

Superior
pubic ramus

Pubic
Body
tubercle
ASIS
Body weight

Inferior
pubic ramus
Ischiopubic ramus Obturator
Pubic foramen
tubercle
Medial view (right)
Lateral views (right) Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
 Pelvic Joints and Ligaments
Lumbosacral joint
The pelvic girdle is supported Supported by anterior
longitudinal ligament and
by ligaments, which offer iliolumbar ligaments
stability while maintaining
Sacroiliac joints
some mobility of the joints Supported by
sacroiliac ligaments

Although these
joints are very Posterior view
stable, a traumatic
event such as a
difficult childbirth or
Pubic
car accident can tear symphysis
the supporting separation
ligaments and lead Pubic symphysis ‘Open book’
fracture
to separation Anterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Pelvic Ligaments

Sacrospinous
ligament
Inguinal
‘ligament’ Sacrotuberous
ligament
Posterior view
Anterior view

These ligaments serve as major
landmarks and/or attachment
points for muscles, as well as Obturator
Lesser
membrane
stabilizing the pelvic joints sciatic
foramen

Medial view (right)
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Hip Joint and Proximal Femur
Head of
the femur

Neck of
Greater
the femur
trochanter
Lesser
trochanter Gluteal Articular
tuberosity surface
…of acetabulum
The head of the femur
articulates with the
acetabulum of the coxal
bone to form the hip joint Acetabular
fossa

Major landmarks on the
proximal femur serve as
muscle attachments Lateral view (right)
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Surface Anatomy

Several landmarks on
the coxal bone and
femur can be palpated
from the skin

These serve as surface
landmarks for various
clinical assessments and
interventions

Can you locate all of
these on yourself?

Posterior view
Anterior view Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
The ‘Femur Gun’
How do you tell a left
femur from a right femur
in the lab?

Try using the ‘femur gun’!
Greater trochanter Shaft

Neck Lesser trochanter

Head

The lesser Hammer Barrel
trochanter is the
‘trigger’, and should
be easier to reach if Grip Trigger
you’re holding the
femur in the
matching hand Butt Anterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
 Hip Joint
Shoulder Hip

Anterior view Superior view

Acetabulum
Head of femur
Like the shoulder, the hip
joint is a ball-in-socket
joint; however, it is much
deeper, giving it more
stability but less mobility
Ball-in-socket joint Anterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
 Movements at the Hip
Lateral flexion
Abduction of the trunk
Same movement and
Extension Flexion muscles as abduction

Adduction

Rotation
Lateral view Medial and lateral

As a ball-in-socket joint,
the hip can perform a
range of different actions
that can be used in
combination to provide Circumduction
Combination of
complex movements everything
like circumduction Anterior views
Drake, Gray’s Anatomy for Students, 2nd Ed., Copyright © 2009 by Churchill Livingstone
Hip Joint and Femur: Sex Differences
Q-angle
Females > males
Angle of inclination
Males > females

Although sex and gender exist on a
spectrum, anatomists and clinicians
examine the extremes of phenotypical
sex to predict structure-function
relationships and their clinical implications

Knee problems in people
with large Q-angle
Lateral meniscus and medial collateral
ligament (MCL) of the knee

Anterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
 Hip Joint and Ligaments
Iliofemoral ligament

Pubofemoral ligament

Ischiofemoral ligament

Synovial membrane
Ligament of the head
of the femur

The spiral appearance of
these ligaments is a result
of medial twisting of the
lower limb during
embryological
Sagittal view (right)
development
Posterior view
Anterior view Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Hip Joint Injury Two common hip injuries are
dislocation and femoral neck fracture

Anterior
dislocation or
femoral neck
fracture

Posterior
dislocation
https://tinyurl.com/y536bh83 https://tinyurl.com/yxqezd59

Hip
replacement
https://sgbonedoctor.com/
Gluteal Region Muscles
NOTE!
I have given you very detailed information
about the muscles’ attachments. These are
there for your reference and explanation
purposes, but you do not need memorize
them. You will find a muscle chart at the end
of the lecture with the detail that you are
expected to know.
Fascia Gluteal fascia
Covering the
gluteal region

Iliotibial band
Thickening of fascia lata
from muscle
attachments
Fascia lata
Encircling the thigh

The iliotibial (IT) band
is a thickening of the
fascia lata, which Crural facia
encases the muscles Encircling the leg

of the thigh and
separates them into
compartments
Plantar facia
On the plantar
surface of the foot
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Superficial Gluteal Muscles
Gluteus maximus m.
Origin:
Tensor fasciae latae m. Posterior sacrum,
Origin: sacrotuberous ligament
Anterior superior iliac spine Insertion:
Insertion: Iliotibial band, gluteal
Iliotibial band → Tibia tuberosity (femur)
Innervation: Innervation:
Superior gluteal n. Inferior gluteal n.

Gluteus medius m.
Origin:
Gluteal fossa (ilium)
Insertion:
Greater trochanter (femur)
Innervation:
Lateral view (left) Superior gluteal n.
Copyright © Giovanni Rimasti

The gluteus medius m. Greater
trochanter
is positioned such that it
contributes to many
actions at the hip
Gluteal
Sagittal view (left) tuberosity
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme Posterior view Posterior view
 Deep Gluteal Muscles
Gluteus
minimis m.
Origin:
Gluteal fossa
Insertion:
Greater trochanter
Innervation:
Superior gluteal n.

The gluteus minimus m. Lateral view (left)

is similar to gluteus
Copyright © Giovanni Rimasti

medius m., but deeper.

Note the many lateral hip Lateral hip rotators
rotators – far more Piriformis m.
Gemellus superior m.
muscles contribute to Obturator internus m.
Gemellus inferior m.
lateral rotation than Quadratus femoris m.
medial rotation of the hip Obturator externus m. (not visible)

Posterior view Posterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Lateral Hip Rotator Muscles
Innervated by direct branches
from the sacral plexus Piriformis m.
Origin:
e.g., N. to piriformis,
Anterior sacrum
n. to quadratus femoris, etc.
Insertion:
Greater trochanter

Although they all contribute to lateral
rotation at the hip, some muscles also
contribute to contradictory actions, Obturator internus m.
Origin:
like abduction by the piriformis m. Obturator membrane
Insertion:
versus adduction by the quadratus Greater trochanter
femoris m.

The obturator internus m. takes a Quadratus femoris m.
unique 90˚ turn through the lesser Origin:
Ischial tuberosity
sciatic foramen as it travels between Insertion:
Intertrochanteric crest
its origin and insertion
Posterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Lateral Hip Rotator Muscles
Innervated by direct branches
from the sacral plexus
e.g., N. to piriformis, Gemellus superior m.
n. to quadratus femoris, etc. Origin:
Ischial spine
Insertion:
Obturator internus tendon
The gemellus superior and inferior
mm. are special because they attach
onto the tendon of obturator internus
m. on its way to the greater trochanter

In cadaveric specimens, this gives
the appearance of a cream filling Gemellus inferior m.
Origin:
(obturator internus m.) between Ischial tuberosity
Insertion:
two cookies (gemellus superior and Obturator internus tendon
inferior mm.), like an Oreo
Posterior view
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Lateral Hip Rotator Muscles

The obturator externus m.
attaches on the anterior
aspect of the obturator
membrane, but crosses to
the posterior side of the
femur to reach the greater
trochanter

Unlike the other lateral hip
rotators, which are back-to- Anterior view
back muscles, this front-to-
Obturator externus m.
back muscle also contributes Origin:
to lateral rotation at the hip Obturator membrane
Insertion:
Greater trochanter
Innervation:
Obturator n.
Posterior view
Agur and Dalley, Grant’s Atlas of Anatomy, 13th Ed. Copyright © 2013 by Lippincott Williams and Wilkins
Neurovasculature
 Aorta

Arteries of the Lower Limb
External
The blood supply to the lower limb iliac a.
Popliteal a.
all starts anteriorly with the femoral
Femoral a.
a., which crosses posteriorly at the Deep femoral a. Anterior thigh
popliteal fossa (behind the knee) Posterior thigh via

Adductor magnus m.
perforating branches
before splitting to supply the
different compartments of the leg
and the foot

Sagittal view
Femoral a.
Posterior
tibial a.
Its major branch, the deep Posterior leg

femoral a., gives branches that

Posterior view
perforate (i.e., pierce) the adductor Fibular a.

Anterior view
Lateral leg Anterior
magnus m. to supply the posterior
tibial a. Perforating
compartment of the thigh Anterior leg branches

The medial compartment of
Dorsalis
the thigh is supplied by the Medial pedis a.
obturator a. (not shown) plantar a. Dorsal foot
Plantar foot
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Gluteal Region Arteries Abdominal
(descending)
Branch from
aorta
obturator a.
Small amount of Common
Anterior view blood supply to iliac a. Superior
head of femur and
its ligament
gluteal a.
Gluteal region

External Internal iliac a.
iliac a.

Branches from Inferior gluteal a.
femoral a. Femoral a. Gluteal region
Primary blood supply to Anterior thigh
head and neck of femur
Obturator a.
Medial thigh

The gluteal region Deep femoral a.
is supplied by the Posterior thigh via
perforating branches Perforating branches
superior and of deep femoral a.
inferior gluteal aa. Posterior thigh
Posterior view
Anterior view Agur and Dalley, Grant’s Atlas of Anatomy, 13th Ed. Copyright © 2013 by Lippincott Williams and Wilkins
 Veins of the Lower Limb
Inferior vena cava
Lateral view
Common iliac v.
External
iliac v. External iliac v.

Deep veins follow the
Femoral v. same pathways and
Great naming as arteries
saphenous v.
Popliteal v.

Great
saphenous v.
Small
saphenous v.
Like in the upper limb,
Anterior view

however, the superficial
veins are a bit different…
Dorsal
venous arch
Drake, Gray’s Anatomy for Students, 2nd Ed., Copyright © 2009 by Churchill Livingstone Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
Lumbosacral Plexus
Don’t worry!
We will not go into the same detail as we
did for the brachial plexus… we will only
examine the terminal branches

Lumbosacral plexus (L1 – S4)
Lumbar plexus (L1 – L4)
Femoral n. (L2 – L4)
Anterior thigh (hip flexors, knee extensors)
All of the innervation Obturator n. (L2 – L4)
to the lower limb Medial thigh (hip adductors)

comes from the
lumbosacral plexus,
which is formed by
two different Sacral plexus (L4 – S4)
plexuses, the lumbar Sciatic n. (L4-S3)
Posterior thigh (hip extensors, knee flexors)
plexus and the sacral
plexus, which are Tibial n. (L4 – S3)
Posterior leg (knee flexors, plantarflexors, intrinsic foot)
connected by the Common fibular n. (L4 – S2)
lumbosacral trunk Anterior and lateral leg (dorsiflexors, evertors, digit extensors)

Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme
 Gluteal Region Nerves
The superior gluteal n. and a., emerge
through the greater sciatic foramen
superior to the piriformis m., while
Lumbar plexus
the inferior gluteal n. and a.
emerge inferior to it

Lumbosacral
trunk
Superior
gluteal n.
Sacral plexus
Inferior
gluteal n.

Sciatic n.
Common fibular n.
Tibial n.

Posterior view Anterior view (right)
Gilroy, Anatomy: An Essential Textbook, Copyright © 2013 by Thieme Posterior view (left) Agur and Dalley, Grant’s Atlas of Anatomy, 13th Ed. Copyright © 2013 by Lippincott Williams and Wilkins
Dermatomes vs. Nerve Maps
Remember, nerves can
contribute to more than one
dermatome, and more than
one nerve can contribute to
Obturator n.
the same dermatome!
Both contain
For example, look how this L2 – L4
nerve map compares to the Femoral n.
dermatome map when we Anterior femoral
cutaneous n.
overlay the two, paying
specific attention to the
obturator n. and femoral n.,
which both contain fibers
from L2 – L4 and, therefore,
have overlapping
contributions Anterior views
Drake, Gray’s Anatomy for Students, 2nd Ed.,
Copyright © 2009 by Churchill Livingstone
Simplified Muscle Chart
Attachments
Muscle Group Muscle Origin Insertion Main action(s) @ hip Innervation

Gluteus maximus Proximal femur, IT band Extension, lateral rotation Inferior gluteal n.

Gluteus medius Gluteal fossa
Gluteal Greater trochanter Abduction, rotation
Gluteus minimis Superior gluteal n.

Tensor fascia lattae ASIS IT band Abduction, medial rotation

Gemellus superior Ischial spine
Obturator internus
tendon
Gemellus inferior Lateral rotation
Ischial tuberosity Direct branches from
Quadratus femoris the sacral plexus
Lateral hip rotators (e.g., nerve to ___)
Abduction, lateral rotation,
Piriformis Anterior sacrum
extension
Greater trochanter
Obturator internus
Obturator
Lateral hip rotation
membrane
Obturator externus Obturator n.
Upper vs. Lower Limb

Use this chart to compare and
contrast the upper and lower
limbs. There are a lot of
similarities, but also a lot of
differences, which highlight
important functional
differences between the limbs
Learning Outcomes
By now, you should better understand how to…

Identify and describe the bones related to the hip
joint and the ligaments that stabilize it

Explain the basic movements that occur at the hip

Identify the intrinsic muscles of the hip and gluteal
region, explain their innervations, and describe their
functions

Predict functional implications of nervous and
musculoskeletal injuries to the hip and gluteal region