Muscle Imbalance & Exercise Rx

Question 1

The property of skeleton structures that employ continuous tension members and discontinuous compression members in such a way that each member operates with maximum efficiency and economy; explains how forces are dispersed through the body diffusely

Answer 1

Tensegrity

Question 2

Postural imbalance may progress to postural decompensation. What are some probable associated MSK findings with rounded shoulders and anterior pelvic tilt?

Answer 2

Hypertonic pectorals

Hypertonic quadriceps, QLs, and iliopsoas

Question 3

Postural imbalance may progress to postural decompensation. What are some probable associated MSK findings with posterior pelvic tilt?

Answer 3

Hypertonic iliopsoas and piriformis

Question 4

Postural imbalance may progress to postural decompensation. What are some probable associated MSK findings with rounded shoulders and posterior pelvic tilt?

Answer 4

Hypertonic pectorals

Hypertonic iliopsoas and piriformis

Question 5

3 planes associated with postural decompensation

Answer 5

Coronal plane — scoliotic changes

Horizontal plane — rotational changes

Sagittal plane — kyphotic and/or lorditic changes

[postural change in one plane modifies posture in other 2 planes]

Question 6

Risk factors for muscle imbalance and/or postural decompensation

Answer 6

Gravitational strain

Congenital (pelvic tilt, short leg syndrome, scoliosis)

Altered proprioceptive input (trauma, sedentery lifestyle, poor exercise technique, muscle weakness)

Stress: emotional and physical

Hormonal imbalances/changes

Nutritional deficiencies

Aging — metabolic chnages

Question 7

Biomechanical/pathophysiologic effects of gravitational strain

Answer 7

Accentuation of postural curves

Stress on postural soft tissues

Reflex muscle imbalance

Reduced diaphragmatic functions

Usual presenting symptoms are musculoskeletal

Over time can lead to multiple systemic symptoms

Question 8

Sherrington’s law

Answer 8

When a muscle receives a nerve impulse to contract, its antagonists receive (simultaneously) an impulse to relax

Question 9

Effects of pseudoparesis on postural muscles vs. movement muscles

Answer 9

Postural muscles — facilitation, shortening, hypertonicity

Movement muscles — inhibited, stretched, hypotonicity

Question 10

Compensatory patterns in postural pseudoparesis

Answer 10

Common compensatory pattern (80% of people) = L/R/L/R

Uncommon compensatory pattern (20% of people) = R/L/R/L

Question 11

Lower crossed syndrome involves the hip, pelvis, and low back. Associated with tight erector spinae, inhibited gluteals, weak abdominals, and tight iliopsoas. What are signs/sx of lower crossed syndrome?

Answer 11

Increased sacral flexion between ilia

Increased lumbar lordosis (increased loading of facet joints)

Increased flexion of the hip and knees — altered loading characteristics

Hypermobility in the sagittal and coronal planes in the L4-5, L5-S1 levels

Sitting up from supine and forward bending are dysfunctional

Question 12

Hypertonic vs. hypotonic muscles in lower crossed syndrome

Answer 12

Hypertonic: iliopsoas, quadratus lumborum, TFL, hamstrings, rectus femoris, piriformis, adductors, gastrocnemius, soleus

Hypotonic: gluteals, abdominals, vastus medialis, anterior tibialis, peroneals

Question 13

What muscle group should be suspected to be hypertonic/spastic with the following sx/PE findings:

Inability to stand straight — knee(s) flexed; L1-2 SD; pain referral to back and groin

Positive thomas test

Answer 13

Iliopsoas

Question 14

What muscle group should be suspected to be hypertonic/spastic with the following sx/PE findings:

Pain referral to groin and hip

exhalation 12th rib SD

Diaphragm restriction

Answer 14

Quadratus lumborum

Question 15

What muscle group should be suspected to be hypertonic/spastic with the following sx/PE findings:

Pain sitting or walking

Pain disturbs sleep

Pain referral to posterior thighs; limited straight leg raise

Answer 15

Hamstrings

Question 16

What muscle group should be suspected to be hypertonic/spastic with the following sx/PE findings:

Pain down posterior thigh

May entrap sciatic n.; Perpetuated by SI dysfunction

Associated with pelvic floor dysfunction, dyspareunia, prostadynia

Answer 16

Piriformis

Question 17

What muscle group should be suspected to be hypertonic/spastic with the following sx/PE findings:

Pain referred to inguinal ligament, inner thigh and medial knee

Answer 17

Adductors

Question 18

What muscle group should be suspected to be hypertonic/spastic with the following sx/PE findings:

Nocturnal leg cramps; pain referral to upper calf, instep, and heel

Answer 18

GastrocSoleus complex

Question 19

Symptoms and PE findings associated with inhibition of gluteal muscles

Answer 19

Gluteus minimus: pain when arising from a chair; pain referral to butock, lateral and/or posterior thigh, “pseudosciatica”, antalgic gait, +Trendelenberg

Gluteus medius: pain with walking; pain referred to posterior iliac crests and SI joints; +Trendelenberg

Gluteus maximus: restlessness; pain sitting or walking up hill; antalgic gait

Question 20

Symptoms and PE findings associated with inhibition of vastus medialis, rectus abdominis, and tibialis anterior muscles

Answer 20

Vastus medialis: buckling knee, weakness going up stairs, thigh and knee pain; chondromalacia patellae

Rectus abdominis: increased lordosis; constipation

Tibialis anterior: pain referral to the great toe and anteromedial ankle; foot may drag or trip when tired

Question 21

5 models dx of postural decompensation

Answer 21

Biomechanical: postural visual inspection and gait analysis; ROM testing

Neuro: balance and strength testing

Resp/circ: zinks patterns, lymphatic palpatory exam

Metabolic and behavior: H and P

Question 22

Common diagnoses related to lower crossed syndrome

Answer 22

Chronic LBP
Sacroiliac pain
Osteoarthritis L-spine
Spondylolisthesis
Osteoarthritis hips/knees

Question 23

Self-locking mechanism is critical for resistance against shear and is a result of form closure and force closure. What is the difference between form and force closure?

Answer 23

Form closure — due to how joint fits together

Force closure — due to gravity and loading forces (muscles, fascia, ligaments)

Question 24

With the sacrum as the “keystone”, postural muscles may affect SI joint stability. What muscles are associated with the SI joints posteriorly and ventrally?

Answer 24

Posteriorly: Lats, thoracolumbar fascia, gluteus maximus, and ITB

Ventrally: abdominal obliques, linea alba, and transverse abdominals

Question 25

3 Medial compression points applied in pseudoparesis perception test

Answer 25

The iliac crests (multifidus, lat dorsi, levator scapulae, lumbar vertebrae, lumbosacral junction)

Midway between iliac crests and greater trochanters (gluteals, SI joints, sacrum, innominate)

The greater trochanters (pelvic diaphragm, hamstrings, STL, and structures below the pelvic diaphragm)

Question 26

Interpretation of pseudoparesis perception test with SI joint stabilization

Answer 26

In a balanced system, there will be no signs of pseudoparesis

In an unbalance system, external stabilization is necessary to eradicate the signs of pseudoparesis

Question 27

What should the firing pattern be for LE extension?

Answer 27

1. Ipsilateral hamstring
2. Ipsilateral glut max
3. Contralateral e.spinae
4. Ipsilateral e.spinae

Question 28

What should the firing pattern be for LE abduction?

Answer 28

1. Ipsilateral glut medius
2. Ipsilateral TFL
3. Ipsilateral QL
4. Ipsilateral e.spinae

Question 29

A 26 y/o male presents to your office w/ complaints of lower back pain after a triathalon. PE reveals left hip flexors with 4/5 strength. All other neurologic findings are negative. Which of the following diagnostic findings confirms pseudoparesis common to a lower crossed syndrome?

A. Left paracentral disc herniation at L3
B. Left torsion on a left oblique axis
C. Left hypertonic rectus femoris
D. L3-5 N RL SR
E. Left hypertonic QL

Answer 29

C. Left hypertonic rectus femoris

Question 30

Signs of upper crossed syndrome

Answer 30

Forward head posture

Increased lordosis of upper and mid C-spine

Increased kyphosis at cervicothoracic junction

Protraction of shoulders

Internal rotation of humerus

Tends to stress C4-5, cervicocranial and cervicothoracic junctions

Question 31

Hypertonic vs. weak muscles in shoulder region pseudoparesis

Answer 31

Hypertonic postural mm: levator, upper trap, pectorals, lats, SCM, scalenes, subscapularis, UE flexors

Weak movement muscles: deep neck flexors, serratus anterior, deltoid, UE extensors, rhomboids, supraspinatus, infraspinatus, mid and lower trap

Question 32

5 models treatment plan for muscle imbalance

Answer 32

Biomechanical: protect osteoarticular system and reduce strain placed on joint capsules and ligaments by restoring ROM

Neuro: Restore neurologic balance by addressing SD induced pseudoparesis

Resp/circ: optimize fluid flow

Metabolic: improve functional capacity with OMT, proper nutrition, hydration, sleep

Behavioral: empower pts with responsibility by giving them specific exercise Rx

Question 33

One study of a hamstring stretching protocol found greatest improvement during initial ____ weeks, but still improving at ___ weeks

Answer 33

8; 12

Question 34

How long to hold stretches

Answer 34

Either 10s for 9 reps or 30s for 3 reps

[total stretch time of 90s; in this study, each group stretched 6d/week x6weeks]

Question 35

Exercise Rx for stretching in general

Answer 35

Perform exercises 2-3x on each side, 2-3x/day

Stretch each side for 12 seconds or 3 deep breaths, unless otherwise prescribed

Once feeling of stretch is no longer appreciated, you can cut down on frequency (must re-asses every week)

Question 36

Exercise Rx for retraining

Answer 36

Perform after stretching 2-3x/day

Question 37

Cervical flexion test and positive vs. negative result

Answer 37

Supine pt instructed to “flex chin to chest”

Positive test = immediate recruitment of SCM and scalenes with absence of chin nod

Negative test = longus colli activation causes chin nod with SCM and scalenes firing late

Question 38

What does a positive cervical flexion test indicate?

Answer 38

Facilitated SCM and scalenes

Inhibition of the deep neck flexors (longus colli)

Substitution by the SCM and scalene muscles

Question 39

Scapular stabilization test

Answer 39

Patient in table-top position and lifts one hand from table causing other arm to support all upper body weight

Positive test = scapula on weight bearing UE protrudes away from body —indicates weakness of lower trap, serratus anterior, and rhomboids

Question 40

Negative vs. positive bilateral shoulder flexion test

Answer 40

Negative: allows full overhead flexion of b/l UEs at shoulders with minimal influence on thoracic and lumbar spine

Positive: U/l or b/l restriction of overhead flexion with noticeable influence on T and L spine

Question 41

CS position for scalenes

Answer 41

F St Rt

Question 42

Levator scapulae CS

Answer 42

Grasp pts ipsilateral wrist and extend arm and place under traction or compression, depending on which one relieves TP

Hold x90 seconds

Question 43

Levator scapulae “still-ish” technique

Answer 43

Abduction of UE to 180 degrees

Distraction, adduction to 90 degrees and finally to 0 degrees

Hold to back of chair, flex head to opposite knee

3 deep breaths and follow fascial release

Question 44

SCM counterstrain

Answer 44

F St Ra

Question 45

CS positions for AC1-8

Answer 45

AC-1 = RA

AC2-6 = F SaRa

AC7 = F St Ra

AC8 = F SaRa

Question 46

Pectorals counterstrain

Answer 46

Adduct arm across midline