Indirect Techniques Review OMS-I Fall Indirect Techniques Review

Indirect Techniques… A – Position towards the barrier into the direction of free motion B – Position away from the barrier into the direction of free motion C – Position towards the barrier into the direction of restriction D – Position away from the barrier into the direction of restriction

Indirect Techniques… A – Position towards the barrier into the direction of free motion B – Position away from the barrier into the direction of free motion C – Position towards the barrier into the direction of restriction D – Position away from the barrier into the direction of restriction

What is FALSE about the relationship of fascia to somatic dysfunction? A – Myofibroblastic activity is increased B – Fibroblastic activity is decreased C – Connective tissue production is increased D – Connective tissue shrinks

What is FALSE about the relationship of fascia to somatic dysfunction? A – Myofibroblastic activity is increased B – Fibroblastic activity is decreased C – Connective tissue production is increased D – Connective tissue shrinks

What is FALSE about Indirect Myofascial Release? A – May not work on subluxation or chronic fibrosis B -- Dampens signals from Mechanoreceptors in fascia C – Activates Nociceptive pathways D – Improves local vascularity & interstitial circulation

What is FALSE about Indirect Myofascial Release? A – May not work on subluxation or chronic fibrosis B -- Dampens signals from Mechanoreceptors in fascia C – Activates Nociceptive pathways D – Improves local vascularity & interstitial circulation

What is FALSE about Strain-Counterstrain? A – Places the patient in a position of maximum comfort/ease to arrest inappropriate proprioceptor activity that maintains the dysfunction B – Was discovered by accident by Lawrence H. Jones, DO in the 1950s C – A tenderpoint must be monitored continuously for appropriate treatment D – Is heavily contraindicated in somatic dysfunctions involving pain or inflammation, especially in hospital Emergency Department settings

What is FALSE about Strain-Counterstrain? A – Places the patient in a position of maximum comfort/ease to arrest inappropriate proprioceptor activity that maintains the dysfunction B – Was discovered by accident by Lawrence H. Jones, DO in the 1950s C – A tenderpoint must be monitored continuously for appropriate treatment D – Is heavily contraindicated in somatic dysfunctions involving pain or inflammation, especially in hospital Emergency Department settings

What is the second phase of Counterstrain? A – inflammatory chemical washout B – turning off nociceptors C – turning off proprioceptors D – electrochemical (neural) resetting of resting muscle fiber length

What is the second phase of Counterstrain? A – inflammatory chemical washout B – turning off nociceptors C – turning off proprioceptors D – electrochemical (neural) resetting of resting muscle fiber length

Phases of Counterstrain 1 – Turning off nociceptive and proprioceptive protective reflexes 2 – Resetting muscle fiber length 3 – Inflammatory chemical washout

What is an Absolute Contraindication for using Strain-Counterstrain? A – Vertebral Artery disease B – Patient cannot voluntarily relax C – Rheumatoid Arthritis or Down Syndrome D – Patient states they do not want Counterstrain treatments

What is an Absolute Contraindication for using Strain-Counterstrain? A – Vertebral Artery disease B – Patient cannot voluntarily relax C – Rheumatoid Arthritis or Down Syndrome D – Patient states they do not want Counterstrain treatments

Counterstrain… A – Involves passively stretching the muscles to be treated B – Passively shortens the muscle being treated C – Involves moving the patient gently through the barrier D – Crashes through the patient’s anatomic barrier

Counterstrain… A – Involves passively stretching the muscles to be treated B – Passively shortens the muscle being treated C – Involves moving the patient gently through the barrier D – Crashes through the patient’s anatomic barrier

Your patient complains of tension headaches Your patient complains of tension headaches. In your exam, you find a tenderpoint at the superior medial border of the scapula. The muscle is: A – trapezius B – rhomboids C – levator scapulae D – pec minor

Your patient complains of tension headaches Your patient complains of tension headaches. In your exam, you find a tenderpoint at the superior medial border of the scapula. The muscle is: A – trapezius B – rhomboids C – levator scapulae D – pec minor

You obtain consent and decide to proceed with Counterstrain You obtain consent and decide to proceed with Counterstrain. The appropriate technique is: A – Patient is prone. Sidebend the head towards the TP, adduct & flex the shoulder, applying a cephalad force through the shaft of the humerus to elevate the scapula. Hold for 90 seconds, fine tune as needed. B – Patient is supine. Sidebend the head towards the TP, adduct & flex the shoulder, applying a cephalad force through the shaft of the humerus to elevate the scapula. Hold for 90 seconds, fine tune as needed. C – Patient is supine. Sidebend the head away from the TP, adduct & flex the shoulder, applying a compressive cephalad force through the humerus to elevate the scapula. Hold for 90 seconds.

You obtain consent and decide to proceed with Counterstrain You obtain consent and decide to proceed with Counterstrain. The appropriate technique is: A – Patient is prone. Sidebend the head towards the TP, adduct & flex the shoulder, applying a cephalad force through the shaft of the humerus to elevate the scapula. Hold for 90 seconds, fine tune as needed. B – Patient is supine. Sidebend the head towards the TP, adduct & flex the shoulder, applying a cephalad force through the shaft of the humerus to elevate the scapula. Hold for 90 seconds, fine tune as needed. C – Patient is supine. Sidebend the head away from the TP, adduct & flex the shoulder, applying a compressive cephalad force through the humerus to elevate the scapula. Hold for 90 seconds.

You go home for the holidays and find that your mom has a tenderpoint on her SCM. You offer your newly-formed OMM skills by: A – flexing her head, SB towards, rotating away (F-STRA) B – flexing her head, SB towards, rotating towards (F-STRT) C – extending her head, SB away, rotating away (E-SARA) D – extending her head, SB away, rotating towards (E-SART)

You go home for the holidays and find that your mom has a tenderpoint on her SCM. You offer your newly-formed OMM skills by: A – flexing her head, SB towards, rotating away (F-STRA) B – flexing her head, SB towards, rotating towards (F-STRT) C – extending her head, SB away, rotating away (E-SARA) D – extending her head, SB away, rotating towards (E-SART)

Counterstrain for a Pec Major tenderpoint is: A – Patient seated, physician behind. Flex and adduct the shoulder until the humerus is at the same level as the TP. Internally rotate and adduct the humerus with traction. B – Patient supine, physician opposite TP. Flex and adduct the shoulder until the humerus is at the same level as the TP. Internally rotate and adduct the humerus with traction. C – Patient supine, physician opposite TP. Adduct the arm, grabbing the shoulder to shorten the muscle. D – A & B

Counterstrain for a Pec Major tenderpoint is: A – Patient seated, physician behind. Flex and adduct the shoulder until the humerus is at the same level as the TP. Internally rotate and adduct the humerus with traction. B – Patient supine, physician opposite TP. Flex and adduct the shoulder until the humerus is at the same level as the TP. Internally rotate and adduct the humerus with traction. C – Patient supine, physician opposite TP. Adduct the arm, grabbing the shoulder to shorten the muscle. D – A & B

To treat a Trapezius tenderpoint on a supine patient, you would… A – Monitor the TP, SB towards and rotate away (STRA) until you feel a softening at the TP and the patient’s pain is relieved. Then have the patient return their head to neutral and reassess, aiming for at least 70% improvement. B – Same as A, but SB away and rotate away (SARA). C – Same as A, but SB towards and rotate towards (STRT). D – Same as A, but the physician should return the patient’s head to neutral.

To treat a Trapezius tenderpoint on a supine patient, you would… A – Monitor the TP, SB towards and rotate away (STRA) until you feel a softening at the TP and the patient’s pain is relieved. Then have the patient return their head to neutral and reassess, aiming for at least 70% improvement. B – Same as A, but SB away and rotate away (SARA). C – Same as A, but SB towards and rotate towards (STRT). D – Same as A, but the physician should return the patient’s head to neutral.

Reciprocal Inhibition is… A – Activation of the agonist B – Activation of the antagonist

Reciprocal inhibition, indirect (Savarese 135+) By contracting the antagonistic muscle, signals are transmitted to the spinal cord and through the reciprocal inhibition reflex arc, the agonist muscle is then forced to relax. If the biceps muscle is in spasm, fully flex the elbow (away from the restrictive barrier). Then have the patient contract his/her triceps against resistance. This isometric force through reciprocal inhibition allows the biceps muscle to relax and return to a normal resting state.

Neural Activity of Agonist & Antagonist in SD

Counterstrain works by… A – reciprocal inhibition of antagonists B – reciprocal inhibition of antagonists C – reciprocal inhibition of antagonists D – reciprocal inhibition of antagonists