Diagnosing rib somatic dysfunction
Diagnosing rib somatic dysfunction
Chronic Week 1
Chronic Week 1
Down syndrome (Trisomy 21)
Galactosemia
Tay-Sachs disease (NORD)
Mucopolysaccharide storage disease type 1 (Hurler syndrome) (NORD)
Phenylketonuria (NORD)
Phenylketonuria (NORD): Year of the Zebra
Classical homocystinuria (NORD)
Homocystinuria
Glycogen storage disease type II (NORD)
Hypertrophic cardiomyopathy
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Development of the cardiovascular system
Fetal circulation
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Valvular heart disease: Pathology review
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Acyanotic congenital heart defects: Pathology review
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Approach to cyanosis (newborn): Clinical sciences
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Peripheral artery disease
Peripheral artery disease: Pathology review
Vasculitis
Vasculitis: Pathology review
Deep vein thrombosis and pulmonary embolism: Pathology review
Raynaud phenomenon
Fryette laws
Diagnosing cervical somatic dysfunction
Spurling test
Cervical spine counterstrain
Cervical spine facilitated positional release
Cervical spine HVLA
Cervical muscle energy treatment
Cervical spine myofascial release
Other cervical spine treatments
Diagnosing lower limb somatic dysfunction
Special tests for the lower limb
Lower limb counterstrain
Lower limb HVLA
Lower limb muscle energy treatment
Lower limb myofascial release
Other lower limb treatments
Diagnosing lumbar spine somatic dysfunction
Lumbar muscle energy treatment
Lumbar spine counterstrain
Lumbar spine facilitated positional release
Lumbar spine HVLA
Lumbar spine myofascial release
Other lumbar spine treatments
Cranial osteopathy: Cranial nerves
Primary respiratory mechanism
Diagnosing cranial somatic dysfunction
Cranial treatments
Diagnosing pelvis somatic dysfunction
Pelvis counterstrain
Pelvis muscle energy treatment
Other pelvis treatments
Diagnosing rib somatic dysfunction
Rib counterstrain
Rib HVLA
Muscle energy for rib somatic dysfunction
Other rib treatments
Diagnosing sacral somatic dysfunction
Sacrum counterstrain
Sacrum muscle energy treatment
Sacrum myofascial release
Diagnosing thoracic spine somatic dysfunction
Thoracic spine counterstrain
Thoracic spine facilitated positional release
Thoracic spine HVLA
Thoracic muscle energy treatment
Thoracic spine myofascial release
Other thoracic spine treatments
Diagnosing upper limb somatic dysfunction
Special tests for the upper limb
Upper limb counterstrain
Upper limb HVLA
Upper limb muscle energy treatment
Upper limb myofascial release
Other upper limb treatments
Angina pectoris
Stable angina
Coronary artery disease: Clinical sciences
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Heart failure
Heart failure: Pathology review
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ACE inhibitors, ARBs and direct renin inhibitors
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Cardiac conduction velocity
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ECG basics
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ECG intervals
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ECG axis
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Notes
Ribs
Diagnosing rib somatic dysfunction
UNDERSTANDING RIB MOTION
The upper ribs (1–6) predominantly display a pump handle motion, which occurs primarily in the sagittal plane and is best palpated at the midclavicular line. With inhalation, the anterior portion of the rib moves anteriorly and superiorly. With exhalation, the anterior portion of the rib moves posteriorly and inferiorly.
The lower ribs (7–10) predominantly display a bucket handle motion, which occurs primarily in the coronal plane and is best palpated at the midaxillary line. With inhalation, the lateral margin of the rib moves superiorly and laterally, thus increasing the transverse diameter. With exhalation, the lateral margin of the rib moves inferiorly and medially, thus decreasing the transverse diameter.
The “floating” ribs (11–12) display caliper motion, which occurs primarily in the transverse plane and is best palpated just lateral to the T11–T12 transverse processes. With inhalation, they spread apart and move posteriorly. With exhalation, they approximate and move anteriorly.
The lower ribs (7–10) predominantly display a bucket handle motion, which occurs primarily in the coronal plane and is best palpated at the midaxillary line. With inhalation, the lateral margin of the rib moves superiorly and laterally, thus increasing the transverse diameter. With exhalation, the lateral margin of the rib moves inferiorly and medially, thus decreasing the transverse diameter.
The “floating” ribs (11–12) display caliper motion, which occurs primarily in the transverse plane and is best palpated just lateral to the T11–T12 transverse processes. With inhalation, they spread apart and move posteriorly. With exhalation, they approximate and move anteriorly.
B.I.T.E.
The key rib is the predominant rib that is causing somatic dysfunction and thus is the preferred rib to treat. The B.I.T.E. mnemonic reminds us to treat the Bottom rib for Inhalation somatic dysfunctions and the Top rib for Exhalation somatic dysfunctions.
INHALATION VS. EXHALATION SOMATIC DYSFUNCTIONS
Remember that somatic dysfunctions of the ribs, like elsewhere in the body, are named for the motion of ease. If a rib moves normally during inhalation but is restricted during exhalation, the patient has an inhalation somatic dysfunction.
DIAGNOSING RIB SOMATIC DYSFUNCTION (SD) | ||||
| EXHALATION SD | INHALATION SD | |||
| MOTION OF EASE | Exhalation | Inhalation | ||
| RESTRICTION | Inhalation | Exhalation | ||
| FINDINGS | Pump handle (1–6): anterior portion of rib does not move superiorly as much during inhalation; AP diameter of rib cage decreased Bucket handle (7–10): lateral portion of rib does not move superolaterally as much during inhalation; transverse diameter of rib cage decreased Caliper (11–12): ribs do not spread apart and move posteriorly during inhalation | Pump handle (1–6): anterior portion of rib does not move inferiorly as much during exhalation; AP diameter of rib cage increased Bucket handle (7–10): lateral portion of rib does not move inferomedially as much during exhalation; transverse diameter of rib cage increased Caliper (11–12): ribs do not approximate and move anteriorly during exhalation | ||
Author: Arman Israelyan, OMS-III
Editor: Matt Lipinski, DO
Illustrator: Jillian Dunbar
Editor: Robyn Hughes, MScBMC