Assessment methods in rehabilitation, 23.11.2020
Mgr. Veronika Mrkvicová
Department of Physiotherapy and Rehabilitation –  MF MU
Muscle shortening

Content
1.Muscle Shortening
2. The Importance of Shortened Muscle
3.Postural Muscles
4.The Assessment of Shortened Muscle Groups
Assessment and Treatment of Muscle Imbalance

 Muscle Shortening
ümuscle at rest does not reach its normal length
ü
üpassive stretching does not allow a full range of physiological motion of the joint
ühas increased muscle tone, the state is not accompanied by evidence of increased electrical
activity
üthis is a functional disorder of the motor system – it is reversible
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http://www.thblack.com/fitness/CharacteristicsofShortenedMuscleWebsite498x373.jpg


 The Importance of Shortened Muscle
ümuscle activation is greater than is economical, leads to overloading
ülimit the range of
motion in the joint
üleads to:
üdecentred joint
üthighness weakness
ü
ümuscle imbalance
üaffects:
üthe body statics
ülocomotive programs
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http://www.muscleimbalancesyndromes.com/wp-content/uploads/2010/11/joint-imbalance.jpg

http://www.muscleimbalancesyndromes.com/what-is-muscle-imbalance/
Human movement and function requires a balance of muscle length and strength between opposing
muscles surrounding a joint. Normal amounts of opposing force between muscles are necessary to keep
the bones centered in the joint during motion; this would be considered ‘muscle balance’. On the
other hand, ‘muscle imbalance’ occurs when opposing muscles provide different directions of tension
due to tightness and/or weakness. When a muscle it too tight, the joint tends to move in that
direction and is limited in the opposite direction since this is typically ‘the path of least
resistance.’ For example, the quadriceps and hamstrings of the knee joint perform opposite motions;
an imbalance between the two could put undue stress on the joint. A tight hamstring would not allow
the joint to glide normally or fully extend, which could put extra stress on the quadriceps muscle
and patella (knee cap).
Muscle imbalances can be characterized by either side-to-side (right versus left) or front-to-back
(agonist versus antagonist) differences in muscle length or strength. Most musculoskeletal pain
syndromes are caused by front-to-back differences, or imbalances of muscles surrounding a joint,
rather than side-to-side differences.
There are also 2 recognized causes of muscle imbalance. The first is a biomechanical cause from
repeated movements in one direction or sustained postures. The biomechanical causes of muscle
imblance have been popularized by Kendall and Sahrmann. The second cause is a neuromuscular
imbalance due to the predisposition of certain muscle groups to be either tight or weak. The
neuromuscular approach was popularized by Janda, and is based on movement patterns that evolve from
birth. Dr. Janda noted that the ‘tonic’ group of muscles are prone to tightness and the ‘phasic’
group is prone to weakness:

Representation of the shift of actin and myosin microfilaments in the sarcomere when stretched
muscle contraction, by easy contraction and strong contraction
(www.smw.ch/content/smw-2011-13319)
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EASY CONTRACTION
STRETCHED MUSCLE CONTRACTION
CONTRACTION IN SHORTENING
 = weakness in thighness

Overlap, bridges, the strenght of contraction is less

Scheme of muscle strength depending on the length of
the sarcomere (Janura, 2003)
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Weakness in tighness
The mechanism of formation is as follows: in the resting length of
the muscle is to create the maximum number of cross-bridges. Sarcomere length reaches 2-2.5
microns. This way you can achieve maximum muscle strength. With the stretching of
the muscle fiber number of cross-linking decreases, because there is a reduced overlap of actin and
myosin. And therefore reduces
the potential strength. Otherwise - in sarcomere shortening below
2 microns – begin to overlap thin actin filaments. And there is again a decreased active tension.

Postural Muscles
§
§A tendency of muscle shortening is noticeable not only during illness but also as an apparently
typical reaction by some muscle groups even in normal circumstances.
§
§These muscles are responsible for standing position, and above all standing on one leg. This is
the most common postural position for human
§
§Those muscles with a postural function are genetically older and demonstrate less reaction to
different injuries.
§
§They have different physiological and probably also biochemical qualities than muscles with mainly
phasic function.
http://www.istoppain.com/physical-therapy/assets/images/Treatments/IMS/ims_short1a.jpg

Postural Muscles
–muscles with a predominance of tonic function (= muscles with
a tendency to shorten and hypertrophy) – ensure upright posture (because they have permanent
working resting tension)
–contain mostly red muscle fibers, rich in myoglobin
–
–are evolutionarily older, have a low threshold of irritation, characterized by a slower process of
contraction, longer latency and greater resistance to stress (slower fatigue)
–
–its function often replace muscle activity of weakened phasic muscles (they discard them of the
muscle interplay and may cause muscle imbalances)
§
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http://www.muscleimbalancesyndromes.com/what-is-muscle-imbalance/
Human movement and function requires a balance of muscle length and strength between opposing
muscles surrounding a joint. Normal amounts of opposing force between muscles are necessary to keep
the bones centered in the joint during motion; this would be considered ‘muscle balance’. On the
other hand, ‘muscle imbalance’ occurs when opposing muscles provide different directions of tension
due to tightness and/or weakness. When a muscle it too tight, the joint tends to move in that
direction and is limited in the opposite direction since this is typically ‘the path of least
resistance.’ For example, the quadriceps and hamstrings of the knee joint perform opposite motions;
an imbalance between the two could put undue stress on the joint. A tight hamstring would not allow
the joint to glide normally or fully extend, which could put extra stress on the quadriceps muscle
and patella (knee cap).
Muscle imbalances can be characterized by either side-to-side (right versus left) or front-to-back
(agonist versus antagonist) differences in muscle length or strength. Most musculoskeletal pain
syndromes are caused by front-to-back differences, or imbalances of muscles surrounding a joint,
rather than side-to-side differences.
There are also 2 recognized causes of muscle imbalance. The first is a biomechanical cause from
repeated movements in one direction or sustained postures. The biomechanical causes of muscle
imblance have been popularized by Kendall and Sahrmann. The second cause is a neuromuscular
imbalance due to the predisposition of certain muscle groups to be either tight or weak. The
neuromuscular approach was popularized by Janda, and is based on movement patterns that evolve from
birth. Dr. Janda noted that the ‘tonic’ group of muscles are prone to tightness and the ‘phasic’
group is prone to weakness:

The Assessment of Shortened Muscle Groups
§Must be exact as a muscle function test for a weakened muscles, and the same standardized routine
must be maintained.
§As it is difficult to determine the exact grade of many muscles,
a general estimate is considered sufficient.
§Where it is possible we measure the angle between two extremities
§To obtain a reliable evaluation, the assessment of shortened muscles can be very accurate: the
starting position, method of fixation and direction of movement must be observed extremely
carefully
§As in muscle function testing the prime mover must not be exposed to external pressure

The Assessment of Shortened Muscle Groups
§If possible, the force exerted on the tested muscle must not work over two joints.
§The examiner performs at an even speed a slow movement that brakes slowly at the end of the range.
§To keep the stretch and the muscle irritability about equal
the movement must not be jerky.
§Pressure or pull must always act in the required direction of movement.
§Muscle shortening can only be correctly evaluated if the joint range is not decreased as is a bony
limitation or joint restriction.

Muscles with Mainly Postural Function
§Sternocleidomastoid
§Pectoralis major (clavicular and sternal end)
§ Trapezius (upper part)
§Levator scapulae
§The upper extremity flexors
§Quadratus lumborum
§Back extensors
–Erector spinae
–Longissimus thoracis
–Rotatores
–Multifidus
§Hip flexors
–Iliopsoas
– Tensor fasciae latae
–Rectus femoris
§Hip external rotators
–Piriformis
§Hip adductors
–Pectineus
–Adductor longus
–Adductor brevis
–Adductor magnus
§Hamstrings
–Biceps femoris
–Semitendinosus
–Semimembranosus
§Ankle plantar flexors
–Gastrocnemius
–Soleus
–Tibialis posterior
§

Muscles with Mainly Phasic (Dynamic) Function
§Scaleni
§Pectoralis major (abdominal part)
§Subscapularis
§The upper extremity extensors
§Trapezius (lower part)
§Rhomboidei
§Serratus anterior
§Rectus abdominis
§Obliquus abdominis externus
§Obliquus abdominis internus
§Gluteus minimus, medius, maximus
§Vastus medialis and lateralis
§Tibialis anterior
§Peronei
§

§https://www.youtube.com/watch?v=SPlBzpIug2o
§https://www.youtube.com/watch?v=9JMEvmXSgUI
§

Assessment



M.Triceps Surae
Gastrocnemius Muscle Gastrocnemius & Soleus (Calf) Soleus Muscle1 Gastrocnemius & Soleus (Calf)

Details:
Origin distal femur (gastrocnemius), posterior tibia (soleus)
Insertion achilles tendon, calcaneus
Artery posterior tibial artery
Nerve tibial nerve
Actions plantarflexion

Gastrocnemius and Soleus
§Gastrocnemius
§Starting position: Supine lying with both legs outstretched and the heels outside of
the examination table.
§Grasp: The right hand of the examiner grasps the right Achilles tendon iust above the heel without
causing pressure on the tendons (when examining the left leg the examiner uses the left hand). The
fingers are outstretched and the lower arm is held as
a prolongation of the lower leg. The other hand is placed on the outside edge of
the foot with the fingers on the dorsum of the foot and the thumb on the sole parallel with the
outside edge.

Gastrocnemius and Soleus
§Gastrocnemius
§Fixation: Not necessary.
§Stretch: The main stretch is applied to the heel distally in
the direction of the muscle fibres. The thumb of the other hand steers the forefoot wit h a light
perpendicular pressure to prevent sideways movement of the foot.
§Range of movement: Flexion to 90 degrees should be achieved without difficulty.

Gastrocnemius and Soleus
§Soleus
§The assessment is the same but the knee joint should be passively flexed to exclude gastrocnemius
activity.
§The examiner passively bend the knee joint after reaching
the maximum possible dorsiflexion and tries to increase the range of dorsiflexion. If it remains
limited range of motion as well,
the restriction is caused by
the shortening of m. soleus.
If the range of motion
increases, then it is a shortening of
m. gastrocnemius.
§
https://www.youtube.com/watch?v=78-zzdJ4tvA

Gastrocnemius and Soleus
§Ratings:
§We evaluate the size of achieved dorsiflexion, and separately for the m. soleus and m.
gastrocnemius.
§0 - not a reduction - in the ankle joint can be achieved at least
90 degrees
§1 - small shortening – in the ankle joint is missing into the 90-degree position 5 degrees
§2 - large shortening – in the ankle joint is missing into the 90-degree position more than 5
degrees

Gastrocnemius and Soleus
§Possible errors
1.If the examiner's thumb is not on top and not parallel with
the outside edge of the foot but more towards the middle of
the sole of the foot, then a reflex reaction of the gastrocnemius and soleus will result.
2.If the thumb does not press along the whole foot length , but only close to its tip, then the
direction of the movement is altered and different structures are stimulated (in particular the
plantar aponeurosis and quadratus plantae).
3.When pressure is applied incorrectly to the dorsum of the forefoot and the necessary strong
stretch of the heel does not take place, the muscles in the sole of the foot but not the
gastrocnemius and soleus are caused to stretch.
4.If the forearm is not held as a prolongation of the lower leg
the direction of the stretch is changed.

Gastrocnemius and Soleus
§Possible errors
5.The leg should be stationary on the table and may not be lifted upwards.
6.We enable active foot dorsiflexion.
7.When previously tested m. soleus reached foot dorsiflexion is not hold.
8.We enable active flexion of the knee joint.

Gastrocnemius and Soleus
§An orientation test for the soleus
§The patient crouches with slight forward flexion of the trunk.
The knees should be parallel to, but not touching each other. If
the range of movement in the joint is not restricted, the patient should be able to squat with the
heels on the floor.
http://codyapp.wpengine.netdna-cdn.com/wp-content/uploads/2013/06/air_squat.jpg

 The Hip Flexors - Iliopsoas, Rectus Femoris, Tensor Fasciae Latae and Short Adductors
Rectus femoris Quadriceps
https://upload.wikimedia.org/wikipedia/commons/e/e2/Anterior_Hip_Muscles_2.PNG

Iliopsoas
Origin Iliac fossa and lumbar spine
Insertion Lesser trochanter of femur
Artery Medial femoral circumflex artery and iliolumbar artery
Nerve Branches from L1 to L3
Actions Flexion of hip
Antagonist Gluteus maximus and the posterior compartment of thigh
Rectus femoris:
Origin anterior inferior iliac spine and the exterior surface of the bony ridge which forms the
groove on the iliac portion of the acetabulum
Insertion inserts into the patellar tendon as one of the four quadriceps muscles
Artery descending branch of the lateral femoral circumflex artery
Nerve femoral nerve
Actions knee extension; hip flexion
Antagonist Hamstring
Tensor fasciae latae:
Origin Iliac crest
Insertion Iliotibial tract
Artery Primarily lateral circumflex femoral artery, superior gluteal artery
Nerve Superior gluteal nerve (L4, L5, S1)
Actions Hip - flexion, medial rotation, abduction , knee - lateral rotation, Torso - stabilization
Short Adductors

 The Hip Flexors - Iliopsoas, Rectus Femoris, Tensor Fasciae Latae and Short Adductors
§Starting position: Supine lying, with the coccyx just outside
the table. The passive leg is flexed as far as possible so that the pelvis is tilted backwards and
the lumbar lordosis is eliminated. The leg is fixed in this position by holding the fixed knee (a
long lever). If this knee flexion is painful it is better to fix the whole knee joint.

 The Hip Flexors - Iliopsoas, Rectus Femoris, Tensor Fasciae Latae and Short Adductors
§Fixation: Throughout the test the passive leg must be fixed towards the trunk by constant pressure
to eliminate the lordosis of
the lumbar spine. During the evaluation the examiner pushes the leg further against the trunk.
§Normal finding: The thigh is
horizontal and the lower leg hangs
vertically. The patella is situated
slightly lateral to the knee joint.
On the outer side of the thigh
there is a very slight deepening.

 The Hip Flexors
§Pathological finding:
§A flexion position in the hip joint shows shortening of the iliopsoas.
§The lower leg positioned diagonally downwards indicates that
the rectus femoris is shortened.
§A flexion position of the hip joint with a simultaneous tendency to extension in the knee joint
points to shortening of both the iliopsoas and rectus femoris.
§Lateral deviation of the patella and more pronounced deepening on the outside of the thigh shows
on a shortened tensor fasciae latae and iliotibial band.

 The Hip Flexors
§To differentiate even more the following tests may be performed:
§1. Pressure is applied to the lower third of the thigh:
– in the direction of the hyperextension of the hip joint. When extension cannot increase, this
indicates shortening of
the iliopsoas. When there is a simultaneous compensatory extension in the knee joint, this points
to shortening of
the rectus femoris.
–in the direction of the adduction of the hip joint. Increased deepening on the outside of the
thigh over the iliotibial tract shows shortening of the tensor fasciae latae and the iliotibial
tract.
–in the direction of the abduction of the hip joint.
The decreased range of movement and compensatory flexion of the hip joint are signs of shortening
of the one-joint thigh adductors.

 The Hip Flexors
§To differentiate even more the following tests may be performed:
2.Pressure is applied to the lower third of the lower leg to increase knee flexion.
–If flexion is painful and difficult, this shows shortening of the rectus femoris. Further pressure
may cause compensatory flexion in the hip joint, simultaneously a deepening
appears immediately above
the patella. This shows shortening
of the rectus femoris.
https://www.youtube.com/watch?v=78-zzdJ4tvA

 The Hip Flexors
§Ratings:
§We assess according to the position of the thigh, shin and by deviation of the patella. Further,
according to possibility to compress the thigh into the hyperextension, the lower leg to flexion
and thigh to hyperabduction.
§0 - not a reduction – the thigh in horizontal without deviation,
the lower leg hanging vertically to the ground with relaxed knee, patella slightly shifted
laterally. On the outer surface of the thigh is only a slight depression. When there is a pressure
on the distal third of the thigh to hyperextension, we can compress the thigh slightly bellow the
horizontal, when there is a pressure on the lower third of the tibia towards flexion, we may
slightly larger flexion in the knee joint.

 The Hip Flexors
§Ratings:
§1 - small shortening – the hip is slightly in flexion position – shortened
m. iliopsoas, lower leg sticking out diagonally forward – shortened
m. rectus femoris, thigh in a light abduction and depression on the lateral side of the thigh is
highlighted – shortened m. tensor fasciae latae.
§When there is a pressure on the distal third of the thigh to hyperextension, we can compress the
thigh into the horizontal, when there is a pressure on the lower third of the tibia towards
flexion, it is possible to achieve vertical position of the lower leg, but without a compensatory
flexion of the hip joint. When there is a pressure on the lower third of the thigh from
the lateral side, we can achieve position without any deviation into abduction.

 The Hip Flexors
§Ratings:
§2 - large shortening – the hip is in significant flexion position, when there is a pressure on the
distal surface of the thigh towards the hyperextension, there is not possible to achieve a
horizontal position of the thigh – shortened m. iliopsoas.
§Leg sticking out diagonally forward, patella is pulled upwards, so it is visible and easy to
palpate the upper edge. When there is a pressure on
the lower third of the tibia, it leads to compensatory flexion of the hip – shortened m. rectus
femoris.
§ Thigh in abduction position, on the lateral surface of the thigh is significant depression,
patella significantly deviates outside and we can see its outer edge. When there is a pressure on
the lateral side of the lowet third of the thigh towards the adduction the depression on the
lateral surface of the thigh is highlighted and adduction can not be done – shortened m. tensor
fasciae latae.

 The Hip Flexors
§Possible errors
1.Insufficient fixation of the pelvis enables a change of position and increased lordosis of the
lumbar spine.
2.The patient is not relaxing sufficiently and the lower leg is knowingly held in slight flexion in
the knee joint.
3.The direction of the pressure may not be maintained. In particular during examination of a
shortened rectus femoris, compensatory flexion in the hip may be supported if pressure is wrongly
directed upwards during passive flexion in the knee joint.
4.The movement may be performed too quickly.
5.The muscle groups may not be differentiated.
6.The patient fixes the not tested leg only by himself and no additional fixation may be given.
7.In the orientation test in standing, forward flexion of the trunk or increased lumbar lordosis
may be allowed during the movement, together with lateral rotation in the hip joint of the leg to
be tested.

 The Hip Flexors
§Orientation tests for the iliopsoas and rectus femoris
§Starting position: Prone with the legs outstretched. If the iliopsoas is shortened the hip joint
remains in flexion. Passive flexion in the knee joint provokes a compensatory increase of flexion
in the hip joint, and hyperlordosis of the lumbar spine is a sign of shortened rectus femoris. This
test is not very sensitive.
https://o.quizlet.com/2dp1dhGJNATTxIkJaa7dgQ.png

 The Hip Flexors
§An orientation test in standing for the iliopsoas
§and gastrocnemius and soleus
§The patient stands as far as possible from the table while steadying
the leg that is not to be tested against it. The leg to be tested is situated exactly in between
medial and lateral rotation. The foot is in the sagittal plane and the sole rests on the floor. The
knee is in extension. The position of the sole of the foot and the hip joint is checked for
shortening of the gastrocnemius and soleus, and of
the iliopsoas respectively. From the standing position the patient shifts the pelvis forwards
without rotating it and without increasing
the lumbar lordosis. With a shortened gastrocnemius and soleus
the heel is lifted from the floor, and with a shortened iliopsoas
the hyperextension of 5-10 degrees in the hip joint is not possible. This test is also suitable as
a home exercise to stretch these muscles.
https://www.youtube.com/watch?v=l_vadzJXnco
Výsledek obrázku pro triceps surae stretching

The Hamstrings - M. Biceps Femoris,
M. Semitendinosus and M. Semimembranosus
Bicep femoris muscle Hamstrings THE SEMITENDINOSUS MUSCLE Hamstrings THE SEMIMEMBRANOSUS MUSCLE
Hamstrings

Biceps femoris:
Origin tuberosity of the ischium, linea aspera, femur
Insertion the head of the fibula which articulates with the back of the lateral tibial condyle
Artery deep femoral artery, perforating arteries; long head of biceps femoris: perforating branches
from profunda femoris artery
Nerve long head: tibial nerve, short head: common fibular nerve
Actions flexes knee joint, laterally rotates knee joint (when knee is flexed), extends hip
joint (long head only)
Antagonist Quadriceps muscle
Semitendinosus:
Origin Tuberosity of the ischium
Insertion Pes anserinus (tibia)
Artery Inferior gluteal artery, perforating arteries
Nerve Sciatic (tibial, L5, S1, S2)
Actions Flexion of knee, extension of the hip joint
Antagonist Quadriceps muscle
Semimembranosus
Origin Ischial tuberosity
Insertion Medial condyle of tibia
Artery Profunda femoris and gluteal arteries
NerveTibial part of sciatic nerve (L5, S1 and S2)
Actions Extension of hip and flexion of knee
Antagonist Quadriceps muscle and Tensor fasciae latae

The Hamstrings - M. Biceps Femoris,
M. Semitendinosus and M. Semimembranosus
§Starting position: Supine, with the leg not to be tested flexed in the hip and knee joints
(passively) or (less suitably) flexed with the sole of
the foot on the table. Thus the lumbar spine is kept flat on the table and there is no kyphosis or
lordosis of the lumbar spine.
§Fixation: The pelvis.

The Hamstrings - M. Biceps Femoris,
M. Semitendinosus and M. Semimembranosus
§Grasp: The examiner grasps the lower leg of the patient so that
the knee is kept in extension through pressure from above (not patella!). The heel is held in the
crook of the examiner's elbow with
the foot against her upper arm to prevent lateral rotation of the leg.
§Range of motion: Flexion to
90 degrees
https://www.youtube.com/watch?v=78-zzdJ4tvA

The Hamstrings - M. Biceps Femoris,
M. Semitendinosus and M. Semimembranosus
§Ratings:
§We evaluate the extent of the flexion in the hip joint. We end
the examination when we begin to feel a tendency to flex the knee of tested leg or pelvis movement
(ie. tilting the pelvis backward), or when there is a muscle soreness on the dorsal side of the
thigh.
§0 - not a reduction – flexion of the hip joint 90 degrees
§1 - small shortening – flexion in the hip joint in range of 80-90 degrees
§2 - large shortening – flexion of the hip joint is smaller than 80 degrees

The Hamstrings - M. Biceps Femoris,
M. Semitendinosus and M. Semimembranosus
§Possible errors
1.Fixation is given over the knee joint on top of the patella despite the fact that the joint
should be free.
2.At the examination the knee flexion increases together with abduction and external rotation of
the hip joint. This can be made even worse if the examiner does not start the movement from his/her
own shoulder joint and if he/she turns in such way that abduction is performed by the leg of the
patient.
3.If there is shortening of the hip flexors, which is very common,
the not tested leg is not put in the flexion position during the test.
4.Pelvis is not fixed.

The Hamstrings - M. Biceps Femoris,
M. Semitendinosus and M. Semimembranosus
§An orientation test of knee flexors
§We can persuade about the lenght quality of ischiocrural muscles in
a sitting position, with extended legs in the knee joints.
§Examinee should be able to achieve the vertical position of the pelvis and 90 flexion in the hip
joints without flexion in knee joints.
SITTING KNEE EXTENSION Výsledek obrázku pro sed s nataženými dolními končetinami

Hip Adductors – Pectineus, Adductor Brevis, Adductor Magnus, Adductor Longus, Gracilis
https://o.quizlet.com/G7WCznk1Q82dEKHZh2ehvw.png

Pectineus:
Origin Pectineal line of the pubic bone
Insertion Pectineal line of the femur
Artery Obturator artery
Nerve Femoral nerve, sometimes obturator nerve
Actions Thigh - flexion, adduction
Adductor brevis:
Origin anterior surface of the inferior ramus and body of the pubis
Insertion the lesser trochanter and linea aspera of the femur
Artery deep femoral artery
Nerve obturator nerve
Actions adduction of hip
Adductor magnus:
Origin Pubis, tuberosity of the ischium
Insertion Linea aspera and adductor tubercle of femur
Artery Deep femoral artery
Nerve Posterior branch of obturator nerve (adductor) and tibial nerve (hamstring)
Actions Adduction of hip (both portions), flexion of hip (adductor portion),
extension of hip (hamstring portion)
Adductor Longus:
Origin pubic body just below the pubic crest
Insertion middle third of linea aspera
Artery deep femoral artery
Nerve anterior branch of obturator nerve
Actions adduction of hip, flexion of hip joint
Gracilis:
Origin ischiopubic ramus
Insertion tibia (pes anserinus)
Artery medial circumflex femoral artery
Nerve anterior branch of obturator nerve
Actions flexes, medially rotates, and adducts the hip,

Hip Adductors – Pectineus, Adductor Brevis, Adductor Magnus, Adductor Longus, Gracilis
§Starting position: Supine Iying, with the leg to be tested close to the edge of the table. The leg
not to be tested is 15-25 degrees abducted in the hip joint.
§Grip: The leg to be tested is placed with the heel in the crook of the examiner's elbow. Her/his
hand is placed on the anterolater side of
the tibia, so maintaining the knee in extension through forward pressure on the lower leg.
The foot of the patient is steadied on the upper arm of the examiner to prevent lateral rotation in
the hip joint.
§Fixation: The pelvis or leg not to be tested (as far as possible).

Hip Adductors – Pectineus, Adductor Brevis, Adductor Magnus, Adductor Longus, Gracilis
§Movement: Abduction of the extended leg in the hip joint over the maximal range. When the full
movement is performed the knee joint is passively flexed and abduction continues.
§Normal range of movement: Abduction to about
40 degrees with an extended and flexed knee. If
the range of movement of the hip joint with the knee extended or flexed is limited to the same or
almost
the same extent, the one-joint adductors, mainly
the pectineus and the adductors, are proved to be shortened. If the range of movement increased
with
a flexed knee then the two-joint adductors (namely the gracilis, biceps femoris, semimembranosus
and semitendinosus) are shortened.

Hip Adductors – Pectineus, Adductor Brevis, Adductor Magnus, Adductor Longus, Gracilis
§Ratings:
§We evaluate the extent of abduction in the hip joint when extanded and slightly flexed knee. If
the abduction is limited in the same or almost the same extent in the extended and flexed knee – in
terms of shortening 1-articular adductors. If enlarges the scope of abduction when flexed knee – in
terms of shortening 2-articular adductors.
§0 - not a reduction – abduction of the hip joint 40 degrees
§1 - small shortening – abduction in the hip joint in range of
30-40 degrees
§2 - large shortening – abduction of the hip joint is smaller than
30 degrees
§

Hip Adductors – Pectineus, Adductor Brevis, Adductor Magnus, Adductor Longus, Gracilis
§Possible errors
1.During abduction there is also some flexion or lateral rotation in the hip joint.
2.The examination does not take place in the two different positions described, that is with an
extended and a flexed knee.
3.The necessary slight abduction of the leg not to be tested does not take place and so the
fixation of the pelvis is insufficient.
4.The pelvis is not fixed.
5.In the second phase of testing is permitted large flexion of
the knee, which by shortening of the m. rectus femoris leads to facilitation of adductors.
6.Forgetting that the lower leg must always be supported.

Piriformis
§
http://blog.corewalking.com/wp-content/uploads/2014/01/gluteals-and-piriformis.jpg

Origin Sacrum
Insertion Greater trochanter
Artery Inferior gluteal, lateral sacral and superior gluteal artery,
Nerve Nerve to the piriformis (L5, S1, and S2)
Actions External rotator of the thigh

Piriformis
§Starting position: Supine, with the leg to be tested flexed at the hip and knee joints.
§Fixation: The pelvis through pressure from the examiner's hand against the knee in the direction
of the longitudinal axis of the thigh.

Piriformis
§Movement: Examiner performs 60-degree flexion in the hip joint. Examiner‘s hands performed the
pressure on the knee side of the tested leg, thus ensuring stabilization of the pelvis (forearm of
the examiner is on the thigh of the patient, and his hand is hooked on the knee. The second upper
limb grips examining lower leg of
the patient, which is in horizontal  position. Thus gripped lower leg,
the examiner performs  the maximal adduction in the hip  joint and then internal rotation  in the
hip joint.
https://www.youtube.com/watch?v=78-zzdJ4tvA

Piriformis
§Ratings:
§We evaluate according the possibility of performance of internal rotation and adduction.
§0 - not a reduction – can be performed freely adduction and internal rotation, ie. the end feeling
is soft
§1 - small shortening – in case of shortened m. piriformis internal rotation is limited, moreover,
adduction is limited  as well.
§2 - large shortening – in case of shortened m. piriformis internal rotation is limited or even
impossible with hard end feel, moreover, adduction is limited.

Piriformis
§Possible errors
1.Pressure against the knee is not constant during the examination and so the fixation of the
pelvis is insufficient.
2.Adduction and medial rotation is not carried out to the end of
the range.

Piriformis
§Palpation examination
§If there is shortening of the piriformis, adduction and medial rotation are decreased and are
painful at the end of the range of motion. Palpation of the piriformis usually
gives better results than
the stretch test. The palpation is
performed deeply in the area of
the greater sciatic foramen across
the muscle fibres. Normally
the muscle is not palpable, but if
there is shortening then it is felt
and it moves away under the
examiner's fingers.
http://blog.corewalking.com/wp-content/uploads/2014/01/gluteals-and-piriformis.jpg

Quadratus Lumborum
http://www.yoganatomy.com/wp-content/uploads/2013/02/quadraus_lumborum_yoga_anatomy.png

Origin iliac crest and iliolumbar ligament
Insertion Last rib and transverse processes of lumbar vertebrae
Artery Lumbar arteries, lumbar branch of iliolumbar artery
Nerve The twelfth thoracic and first through fourth ventral rami of lumbar nerves (T[12],
L[1]-L[4])
Actions Alone(unilateral), lateral flexion of vertebral column; Together (bilateral), depression of
thoracic rib cage

Quadratus Lumborum
§First testing method
§Starting position: Prone lying, with the upper part of the body over the end of the table.
§Fixation: One examiner fixes the
pelvis and the legs, and during
the movement palpates
the tension of the quadratus
lumborum. The other examiner
steadies the upper part of
the patient's body with his/her
forearm without putting pressure
on the throat of the patient.

Quadratus Lumborum
§First testing method
§Movement: Side flexion of the trunk in the horizontal plane without twisting, lowering, or
lifting.
§Normal range: The side flexion of the trunk should be symmetrical. If there is muscle shortening,
the spinal column does not show
a smooth arched curve during side
flexion, the lumbar spine stays
very stiff and there is
a compensatory increase of
the movement in
the ThL segments.

Quadratus Lumborum
§Second testing method
§Before the own examination we do a brand on the lateral side of the chest of
the examined in standing position. The mark is in the level of lower angel of the blade on the
examined side.
§Starting position: The patient lies on the side to be examined with the leg slightly flexed to
stabilize the body. The top arm rests on
the body and the bottom one is slightly flexed at the elbow with the hand resting on the table
above the head.
§

Quadratus Lumborum
§Second testing method
§Fixation: Not necessary
§Movement: The patient pushes on her lower arm and therefore slowly raises her body. Thus side
flexion of the trunk takes place without twisting or bending forwards or backwards. When the pelvis
starts to move the movement must be stopped. If
the quadratus lumborum is shortened,
the lumbar spine is kept stiff and
the thoracolumbar segments show signs of local compensatory hypermobility. The lower waist crease
stays concave.
§

Quadratus Lumborum
§Second testing method
§Ratings:
§We measure the vertical distance of the marked point on the lateral side of the chest and table.
Furthermore, we observe the lateral edge of the examined side, which, if shortening, is concave. We
observe
the movement of the lumbar and thoracic spine. Always compare both sides.
§0 - not a reduction – measured distance is more than 5 centimeters.
§1 - small shortening – measured the distance is 3-5 centimeters.
§2 - large shortening – measured the distance is less than 3 centimeters.

Quadratus Lumborum
§Possible errors
1.While lying prone the neck is under pressure when the upper trunk is steadied.
2.During the movement there is twisting of the trunk and/or forwards or backwards bending.
3.The pelvis and the legs are not adequately fixed.
4.Palpation of the muscle to be tested is not deep enough and therefore the test is not valid.
5.In the orientation test in the standing position a sideways movement of the pelvis is allowed and
also an increased upward movement of the shoulders.

Quadratus Lumborum
§Orientation test in standing
§The patient is standing in side flexion without twisting the trunk forwards or backwards or
lifting the shoulders. A sideways movement of the pelvis towards the opposite side must be avoided.
The range
of movement of the two sides is compared.
§At the end position, normally the line from the axilla of the opposite shoulder coincides with the
intergluteal line. This test is not reliable in standing because the patient cannot be fully
relaxed and the tested quadratus lumborum muscle contracts eccentrically during
the movement.
Výsledek obrázku pro standing side bending test

Pectoralis Major
§
Pectoralis major1 Pectoralis

Origin Clavicular head: anterior border of the medial half of the clavicle. Sternocostal head:
anterior surface of the sternum, the superior six costal cartilages, and the aponeurosis of the
external oblique muscleInsertion Lateral lip of the bicipital groove of the humerus (anteromedial
proximal humerus)
Artery pectoral branch of the thoracoacromial trunk
Nerve lateral pectoral nerve and medial pectoral nerve Clavicular head: C5 and C6, Sternocostal
head: C7, C8 and T1
Actions Clavicular head: flexes the humerus, Sternocostal head: Adducts the humerus, As a
whole, adducts and medially rotates the humerus. It also draws the scapula anteriorly and
inferiorly

Pectoralis Major
§Starting position: Supine lying, with the side to be examined near
the edge of the table and the arms alongside the body. Legs are flexed on the table.
§Fixation: Before the movement has started there should be a light rotation of the thorax against
its expected diagonal direction.
The fixation must be applied
before elevation of the arm.
§

Pectoralis Major
§Movement:
a) lower sternal part – passive elevation of extended upper limb,
the arm is moved passively from the starting position outwards, across and upwards, so that the
palm is directed towards
the ceiling.

Pectoralis Major
§Movement:
a) middle and upper sternal part – 90 degrees abduction and external rotation in shoulder, 90
degrres in elbow.

Pectoralis Major
§Movement:
a) clavicular part and m. pectoralis minor – we let free fall upper limb extended in elbow and with
external rotation in shoulder off
the table.

Pectoralis Major
§Normal findings: The upper arm should reach the horizontal plane and with pressure in a vertical
and posterior direction it should be possible to increase the range of movement. At the same time
the muscle fibres are palpated in the sternal and clavicular parts of the muscle. If there is
shortening the upper arm does not reach the horizontal plane and on palpation the tight muscle
fibres are detected.
https://www.youtube.com/watch?v=78-zzdJ4tvA

Pectoralis Major
§Ratings of the lower sternal and middle and upper sternal part
§0 - not a reduction – the arm drops to the horizontal, range of motion still increases with a
pressure on a distal portion of the humerus downwards, the arm gets below the horizontal.
§1 - small shortening – the arm does not drop into the horizontal, but the arm can reach the
horizontal when there is the pressure on
the distal portion of the humerus downwards.
§2 - large shortening – the arm remains in a position above
the horizontal, the pressure on distal portion of the humerus can not compress the arm  into the
horizontal.

Pectoralis Major
§Ratings of the clavicular part and m. pectoralis minor
§We evaluate according to the possibility of pressing the arm to
the retraction and by palpation detected tension of clavicular fibers of m. pectoralis.
§0 - not a reduction – compression of the arm can be performed easily, examiner does not find any
increased tension of clavicular portion  of m. pectoralis major by palpation.
§1 - small shortening – compression of the arm can be performed, but with little resistance.
Examiner simultaneously detects by palpation increased tension of the palpated part of m.
pectoralis major.
§2 - large shortening – compression of the arm is not possible, moreover examiner detects by
palpation significant increased  tension of clavicular portion m. pectoralis major. The examinee
can feell this palpated tension also painfully.

Pectoralis Major
§Possible errors
1.The thorax is not adequately fixed before the movement starts and so twisting of the trunk and an
increased lumbar lordosis can take place.
2.Instead of fixing the thorax through a diagonal pull there is
a vertical push.
3.The pressure during the test is applied not towards the upper but towards the forearm.
4.The direction of the movement is not maintained and so the sternal part of the muscle fibres is
not stretched to the necessary extent.

The Paravertebral Back Muscles
Erector Spinae copy Erector Spinae


The Paravertebral Back Muscles
§Starting position: The patient sits with
the knees flexed and the lower legs hanging over the edge of the table s0 that
the hamstrings are relaxed. Thighs are on
the examination table. Whole feet are supported so as to maintain the right angle in ankle joints.
§Fixation: Examiner fixes the pan for iliac bones to prevent pelvic anteversion.
§Movement: Forward bending to
the maximum range with the forehead moving towards the knees. The pelvis must not move.
https://www.youtube.com/watch?v=78-zzdJ4tvA

The Paravertebral Back Muscles
§Ratings:
§We measure the vertical distance forehead-thigh.
§0 - not a reduction – the measured distance is not greater than 10 cm.
§1 - small shortening – measured the distance is 10-15 centimeters.
§2 - large shortening – measured the distance is more than
15 centimeters

The Paravertebral Back Muscles
§Possible errors
1.The forward bending takes place through tilling the pelvis and not through bending the spine.
2.
§The test is not very specific!

The Trapezius – Upper Part
Trapezius Muscle Trapezius

Origin spinous processes of vertebrae C7-T12, Nuchal ligament, Occipital Bone
Insertion external occipital protuberance, nuchal ligament, medial superior nuchal line, posterior
border of the lateral third of the clavicle, acromion process, and spine of scapula
Artery superficial branch of transverse cervical artery or superficial cervical artery ^[1]
Nerve accessory nerve (motor), cervical spinal nerves C3 and C4 (motor and sensation)^[2]
Actions rotation, retraction, elevation, and depression of scapula
Antagonist serratus anterior muscle, Latissimus dorsi

The Trapezius – Upper Part
§Starting position: Supine, lower limbs slightly supported, upper limps loosely at your sides. Head
off the table in the middle position supported by a physiotherapist in occiput.
§Fixation: The shoulder on the side to be tested is fixed from above.

The Trapezius – Upper Part
§Movement: Passive side flexion of the neck without flexion, extension or rotation. The head is
moved with the ear to the opposite shoulder. Then continue with depresion of the shoulder.
§Normal findings: The range of movement is compared on both sides and the fibres of the trapezius
are palpated.
https://www.youtube.com/watch?v=78-zzdJ4tvA

The Trapezius – Upper Part
§Ratings:
§We evaluate the degree of the shoulder girdle compression (if inclination is limited, it is most
likely a joint affair)
§0 - not a reduction – compression of the arm can be performed easily
§1 - small shortening – compression of the arm can be performed  but with light resistance
§2 - large shortening – compression of the arm can not be done, when we try to compress the
shoulder we encounter stiff resistance to stop. Moreover, it can also be restricted inclination.

The Trapezius – Upper Part
§Possible errors
1.Exact starting position of the head is not held.
2.We forget support of the knees.
3.The shoulder of the side to be tested is not fixed.
4.The movement takes place with rotation, flexion and extension of the spine.

Levator Scapulae
http://hummingbirdbodyworks.com/wp-content/uploads/2015/03/LevatorScapulae.png

Origin Posterior tubercles of transverse processes of C1 - C4 vertebrae
Insertion Superior part of medial border of scapula
Artery dorsal scapular artery
Nerve cervical nerve (C3, C4) and dorsal scapular nerve (C5)
Actions Elevates scapula and tilts its glenoid cavity inferiorly by rotating scapula

Levator Scapulae
§Starting position: Supine lying with
the arms along the body. Lower limbs slightly bended. Head in the middle position on the table.
§Fixation: The examiner steadies the head with one hand and stabilizes the shoulder with the other
to depresion on
the examined side. Simultaneously palpates with thumb of the fixating hand
m. levator scapulae at its insertion on angulus superior scapulae.

Levator Scapulae
§Movement: Maximal flexion in the cervical spine with rotation and side flexion towards the
opposite side. If there is shortening of the levator scapulae, the range of movement is decreased
and the muscle insertion painful on palpation.

Levator Scapulae
§Ratings:
§We evaluate the extent of the shoulder girdle  depression (if limited inclination, rotation or
flexion, it is most likely a joint affair)
§0 - not a reduction – depression of the arm can be performed easily
§1 - small shortening – depression of the arm can be performed  but with light resistance
§2 - large shortening – depression of the arm can not be done, when we try to depress the shoulder
we encounter stiff resistance to stop. Moreover, there can also be restricted inclination.
§

Levator Scapulae
§Possible errors
1.The shoulder is not adequately fixed.

Sternocleidomastoideus
§Starting position: Supine lying with the arms along the body. Lower limbs slightly bended. Head
out of the table. Examiner behind the head of examinee.
§Fixation: Sternum, if possible clavicula as well.

Origin Manubrium and medial portion of the clavicle
Insertion Mastoid process of the temporal bone, superior nuchal line
Artery Occipital artery and the superior thyroid artery
Nerve Motor: spinal accessory nerve, sensory: cervical plexus, Proprioceptive: C2,C3 of ventral
rami
Actions Unilaterally: contralateral cervical rotation, ipsilateral cervical flexion, Bilaterally:
cervical flexion, elevation of sternum and assists in forced inhalation.

Sternocleidomastoideus
§Movement: The examiner supports the head on occiput, makes further simultaneous extension,
inclination and rotation of the head to
the side which is not assessed

Sternocleidomastoideus
§Ratings:
§The degree of shortening is evaluated by the range of extension and we palpate muscle belly and
especially tendon of SCM on clavicle and sternum.
§CAVE! Extension of cervical spine can impair blood circulation of
 a. vertebralis…be careful at elderly!
§This assessment is  often unreliable because of restrictions on movement in the cervical spine!!!

e-sources, literature
§http://www.musclesused.com/
§https://quizlet.com/24689791/muscles-adductors-of-thigh-4-flash-cards/
§Janda  V. et al.: Muscle function testing
§https://www.youtube.com/watch?v=78-zzdJ4tvA
§

Thank you for your attention J
Výsledek obrázku pro zkrácené svaly