Sacroiliac Dysfunction PDF

Summary

This presentation discusses the sacroiliac joint (SIJ), its dysfunction, contributing factors, clinical evaluation, and treatment strategies. The document highlights the anatomy, function, and associated pathologies, along with diagnostic procedures. It emphasizes biomechanical aspects and how to address these clinical concerns.

Full Transcript

Dr. Mona Selim Faggal

DR. Mona Selim
 SACROILIAC JOINT (SIJ) dysfunction
The sacroiliac joint (SIJ) is a pain generator

 It refers to an abnormal function (e.g. hypo- or
hypermobility) at the joint due to altered mechanics
, which places stresses on structures in or around
the joint and cause pain and discomfort.

 Therefore, SIJ dysfunction may contribute to:
 lumbar,
buttock,
hamstring
or groin pain.
DR. Mona Selim
 The sacrum vertebrae.
 Five sacral vertebrae are fused to
form the triangular or wedge-
shaped bone that is the sacrum.

 The base of the triangle, supports
two articular facets that face
posteriorly for articulation with
the inferior facets of the fifth
lumbar vertebra (that face
anteriorly).

 The apex of the triangle, formed
by the fifth sacral vertebra,
articulates with the coccyx. DR. Mona Selim
the S1 segment may be mobile. This occurrence is called
lumbarization of S1, and it results in a sixth “lumbar”
vertebra.
At other times, the fifth lumbar segment may be fused to
the sacrum or ilium, resulting in a sacralization

The lumbosacral angle
It is determined by measuring the angle formed by a line drawn parallel
to the superior aspect of the sacrum and a horizontal line.
Shear stresses at the lumbosacral joint increases with
increased lumbosacral angle.
DR. Mona Selim
 SACROILIAC JOINT

The two SIJs are articulations
between the first three sacral segments
and the two ilia of the pelvis

SACRUM:
Auricular (C)-shaped on sides of
fused sacral vertebrae (concave)

Covered with hyaline cartilage
Thicker than iliac cartilage

 ILIA:(convex)
Covered with fibrocartilage
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 The SIJs are unique in that both the structure and function of
these joints change significantly from birth through adulthood.

 The sacroiliac joints are relatively mobile in young people, they become
progressively stiffer with age.

 The child and pre-pubertal:

 The articular surfaces are Flat and smooth (can consider as
Plane synovial joint with gliding motion in all direction.

 Post pubertal:

 Become irregular as, the joint surfaces of the ilium develop a
central ridge that corresponds to the grooves on the sacrum,
fitting together like pieces of a puzzle (form closure)

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1. Interosseous SI ligament
Strong & massive
Superficial & Deep

2.Anterior Sacroiliac Ligament

3. Posterior Sacroiliac Ligament
Stronger than anterior ligament and connects sacrum to PSIS.

4. Sacrospinous Ligament
Connects ischial spines to lateral borders of sacrum and coccyx
Forms inferior border of greater sciatic notch

5. Sacrotuberous Ligament
Connects the ischial tuberosities to lateral sacrum and coccyx
Forms inferior border of lesser sciatic notch.
 FUNCTION OF SACROILIAC JOINT

1- Connects spine to pelvis.

2- Absorbs vertical forces
from spine and transmitting
them to pelvis and lower
extremities (stress relive
junction)
 Close pack: Nutation (with the
base moving forward and the apex
moving posterior)

 Loose pack: Counter-nutation DR. Mona Selim
 KINEMATICS
Very slight motion is available and it is best regarded as a stress-relieving
joint

Rotational motion : 2.5°
Translation motion : 0.3 to 0.7 mm or 1 cm

 The SIJs are linked to symphysis pubis.
Any motion at symphysis pubis is accompanied by motion at SIJs
and vice versa

During pregnancy: ROM increase in which all ligaments of pelvis
become loose under influence of hormones, to facilitate delivery of
fetus
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Movements of the sacrum
Nutation (sacral locking): is the forward motion of the base of the
sacrum into the pelvis or the backward rotation of the ilium on the
sacrum

It is the most stable position of the sacroiliac joint and is an example of form
closure.

Nutation is limited by:
 the anterior sacroiliac ligaments
 the sacrospinous ligament,
 the sacrotuberous ligament

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Pathologically, if nutation occurs only on one
side:

 Normally it should occur bilaterally

you will find that the anterior superior iliac spine
(ASIS) is higher and the posterior superior iliac spine
(PSIS) is lower on that side.

 The result is an apparent or functional short leg on
the same side.
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 Counternutation (sacral unlocking), or contra-nutation
 It is the opposite movement to nutation.
 It is an anterior rotation of the ilium on the sacrum or
backward motion of the base of the sacrum out of
the pelvis
 Counternutation is limited by:
the posterior sacroiliac ligaments.
 Counternutation occurs:
when a person assumes a “lordotic” or “anterior pelvic tilt” position.

 Pathological or abnormal counternutation on one side
occurs
when the ASIS is lower and the PSIS is higher on one side.
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 Kinetics
 Stability of the SIJs is extremely important because these joints must support a
large portion of the body weight.

 Form closure: describes how specifically shaped, closely fitting
contacts provide inherent stability independent of external load.

 Force closure: describes how external compression forces add
additional stability.
 The force of the body weight creates a nutation torque on the sacrum.

 Stability of the SIJs is provided by the ligamentous tension and from adjacent
muscles that reinforce the joint capsules and blend with the ligaments.
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 Active Stability of SIJ
 The sacroiliac ligaments, are reinforced by fibrous expansions from the
quadratus lumborum, erector spinae, gluteus maximus,
gluteus minimus, piriformis, and iliacus muscles

A connection between the biceps femoris muscle and the
sacrotuberous ligament allowing the hamstring to play an
integral role in the intrinsic stability of the SIJ.

The biceps femoris, which is frequently found to be shortened on
the side of the SIJ dysfunction, may act to compensate to help
stabilize the joint.
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 The cross-like configuration demonstrating the force closure of the sacroiliac joint
This load transfer is critical during rotation of the trunk, helping to
stabilize the lower lumbar spine and pelvis.
Dorsally Ventrally

The anterior oblique muscle system of the outer group
The posterior oblique muscle system of the outer group (includes the external and internal obliques, and transverse
(includes the latissimus dorsi, gluteus maximus, and abdominals with contralateral adductors of the thigh, and
thoracolumbar fascia). anterior abdominal fascia).
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 Precipitating factors for the SIJ disorders

Muscle imbalance:
Hip flexors and extensors. ( the most common found
abnormality is tight psoas and rectus femoris muscles)
Hip external and internal rotators of the hip.

 leg length imbalance. (True leg length discrepancies will
generally cause asymmetry and pain, whereas a functional leg length
discrepancy is usually the result of SIJ and/or pelvic dysfunction)
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 Clinical Evaluation
Where is the pain ?
SIJ pain classically describes as: deep, dull, undefined pain
tends to be unilateral
 low back pain below L5.
Pain can refer to the buttock, groin and posterolateral thigh.
History:
Onset:
Acute or insidious
**Mechanism: Was there any known mechanism of
injury?
stepping off a curb or fall on the buttocks
Prolonged stress DR. Mona Selim
 Biomechanical abnormalities: e.g. excessive subtalar
pronation & scoliosis.

 Postpartum women: It may take 3 to 4 months or longer for
the ligaments to return to normal state ( Relaxin hormones
which is responsible for the softening of the ligaments
supporting the SIJs and the symphysis pubis.)

 Rheumatoid arthritis, or ankylosing spondylitis

 Anxiety, depression, and other psychosocial issues
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 Symptoms

 Stiffness and pain with prolonged walking or
standing(specially unilateral), single leg squat

Pain with standing from a sitting position

Difficulty & pain in climbing or descending the stairs
 Pain in turning in bed, getting out of bed, or stepping up
with the affected leg.
Tenderness over SI joints and PSIS

Pain reproduction over the pubic symphysisDR. Mona Selim
◦ Inspection:
 Levels of iliac crests, ASIS, PSIS.
 Leg length discrepancy should be assessed.
◦ Palpation:
 Pain over SI joints and PSIS
◦ Functional tests
◦ Full assessment of the hips and lumbar spine should also be performed.

◦ Neurological testing:
 Lower quarter screen
◦ Special tests:
 Mobility tests (Standing, Seated Flexion , Gillet’s tests)

 Pain Provocation Tests (SI compression and distraction; straight leg raising;

 FABRE; Gaenslen’s; quadrant tests)
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 Palpation

 Anteriorly:
 Iliac crest and Symphysis pubis and ASIS

Posteriorly:
 PSIS and ischial tuberosity
 The S2 spinous process is at the level of a line
joining the two PSISs (“posterior dimples”).

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Mobility testing of the sacroiliac joint:
1-Active Motion Tests

1-Forward flexion test
Aim:
 to test mobility of the sacroiliac joint

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2-Seated Flexion Test (mobility of the sacrum)
Aim:
 This is a mobility test for the sacrum moving on the ilium.
 This test eliminates the influence of the lower extremities.

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3-Gillet’s (Sacral Fixation) Test.
( mobility of the ilium)

 This test is also called the ipsilateral
posterior rotation test.
Aim:
 to test sacroiliac hypomobility

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A, Examiner places the left thumb on the posterior superior iliac spine (PSIS) and the right thumb
over one of the sacral spinous processes.
B, With normal movement, the examiner’s left thumb moves downward as the patient raises the
left leg with full hip flexion.
C, If the joint is fixed, the examiner’s left thumb moves upward as the patient raises the left leg.

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 Passive movement—hip quadrant. The hip joint is placed into the quadrant position,
 which consists of flexion, adduction and internal rotation

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 Test Position:
 Patient standing with feet shoulder width apart
 Examiner stands behind the patient, grasping
the patient’s shoulders
 Action:
 Patient extends the spine as far as possible,
than side bends and rotates to affected side
 Examiner provides overpressure through the
shoulders, supporting the patient as needed
 Positive Findings:
 Reproduction of patient’s symptoms
 Symptoms isolated to the area of the
PSIS may indicate SI joint dysfunction
 Anterior gapping (Distraction)Test:
◦ Test position:
 Subject supine; examiner stands next to
subject and with arms crossed, places heel
of both hands on the subject’s ASISs
◦ Action:
 Examiner applies outward and downward
pressure with the heels of both hands
◦ Positive finding:
 Unilateral pain at SI joint or in gluteal
region is indicative of anterior SI ligament
sprain

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 Sacroiliac Joint Stress Test
(Compression in sideling):
◦ Test position:
 Subject side-lying; examiner stands
next to patient and places both hands
(one on top of the other) directly over
the subject’s iliac crest
◦ Action:
 Apply downward pressure
◦ Positive finding:
 Increased pain indicative of SI
pathology (possible involvement of
posterior SI ligament)

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 Sacroiliac Joint Stress Test:
◦ Test position:
 Subject lying supine; examiner
places both hands on lateral aspect
of subject’s iliac crests
◦ Action:
 Apply inward and downward
pressure
◦ Positive finding:
 Increased pain indicative of SI
pathology (possibly involving
posterior SI ligaments)

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 Patrick or FABER Test:
◦ Test position:
 Subject supine
◦ Action:
 Examiner passively flexes, abducts, and
externally rotates the involved leg until the
foot rests on the top of the knee of
uninvolved lower extremity; examiner slowly
abducts the involved lower extremity towards
the table
◦ Positive test:
 Involved lower extremity does not abduct
below level of uninvolved side
 iliopsoas tightness
 Pain with downward pressure indicates a
sacroiliac joint problem

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 Gaenslen’s Test:
◦ Test position:
 Subject supine, lying close to edge of
table; examiner stands at side
◦ Action:
 Slide patient to edge of table; patient
pulls far knee up to the chest; near leg
allowed to hang over edge of table
 Examiner applies downward pressure
on near leg, forcing it into
hyperextension
◦ Positive finding:
 Pain in SI region in the
hyperextended side indicating SI
joint dysfunction

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 Clinical prediction rule (CPR)

Clinical probability assessment specifies how to use
medical signs, symptoms, and other findings to
estimate the probability of a specific disease or
clinical outcome.

For SIJD, three or more positive tests had high levels
of sensitivity and specificity.

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 Treatment

􀂄􀂄 Muscle energy techniques
􀂄􀂄 Joint mobilization
􀂄􀂄 Joint manipulation
􀂄􀂄 Muscle stretching
􀂄􀂄 Trunk stabilization (Core stability)
Sacroiliac belts have not been shown to be
particularly helpful.
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 The most common soft tissue abnormalities found
with unilateral anterior tilt are tight psoas and
rectus femoris muscles.
Ischemic pressure with the elbow to the hip
abductors Sustained longitudinal pressure is applied to the
psoas muscle with the hip initially flexed and slowly
moved into increased extension
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 SIJ Mobilization techniques
Aims:
To increase ROM at the sacroiliac joint

 To decrease pain

To increase accessory motion in the sacroiliac joint

Correction of positional faults.

To examine for sacroiliac joint impairment
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 Grade I
◦ Small amplitude movement at the beginning range of joint play
◦ Used when pain and spasm limit movements early in ROM
 Grade II
◦ Large amplitude movement at the midrange of the joint play
◦ Used for pain control, spasm reduction which inhibit movement
 Grade III
◦ Large amplitude movement at the end-range of joint play
◦ Reduce pain, increase periarticular extensibility, and correct positional faults
 Grade IV
◦ Small amplitude movement at the end-range of joint play
◦ Reduce pain, increase periarticular extensibility, and correct positional faults
 POSTERIOR GLIDE OF THE ILIAC CREST

 Correction of an ilio-sacral joint anterior
rotation positional fault.

 Procedures:

 The mobilizing/manipulating hand glides the anterior
superior iliac spine and the anterior surface of the
iliac crest in a posterior direction.
 The guiding hand guides the ischium anteriorly.

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 ANTERIOR GLIDE OF THE ILIAC CREST

Correction of an ilio-sacral joint
posterior rotation positional fault.

The mobilizing/manipulating hand glides
the iliac crest anteriorly.

 The guiding hand guides the anterior and
lateral surface of the pelvis posteriorly.
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 SACRAL ANTERIOR GLIDE

The mobilizing hand (the base ) of the
sacrum anteriorly, directing the sacrum
into flexion (nutation).

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 SACRAL POSTERIOR GLIDE

The mobilizing/manipulating hand glides
(the apex) of the sacrum anteriorly,
directing the sacrum into extension
(counternutation).

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 Correction of Bilateral Anterior Nutated Sacrum

􀂄􀂄􀂄􀂄 Patient seated
􀂄􀂄􀂄􀂄 Feet apart
􀂄􀂄􀂄􀂄 Patient flexes forward
􀂄􀂄􀂄􀂄 Your hands on sacral apex

Maintain pressure on sacral apex and
resist trunk extension with full inhalation

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 Correction of Bilateral Posterior Nutated Sacrum

􀂄􀂄􀂄􀂄 Patient seated
􀂄􀂄􀂄􀂄 Feet together
􀂄􀂄􀂄􀂄 Arms crossed
􀂄􀂄􀂄􀂄 Your hands on sacral base

Maintain pressure on sacral base and
resist trunk flexion with full exhalation.

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DR. Mona Selim