Physical Examination Flashcards
Cardiovascular Examination
The patient should be in a position -
siting 30-45 degrees
Cardiovascular Examination
Internal Jugular Vein Pulsation is
Biphasic
Cardiovascular Examination - JVP
Sitting in __ degrees, the length between the angle of louis (upright) to area of IJV pulsation + 4 cm should be less than 8 cm if Normal.
Cardiovascular Examination - JVP
Sitting in 45 degrees, the length between the angle of louis (upright) to area of IJV pulsation + 4 cm should be less than 8 cm if Normal.
Cardiovascular Examination - JVP
Sitting in 45 degrees, the length between the angle of louis (upright) to area of IJV pulsation + _ cm should be less than 8 cm if Normal.
Cardiovascular Examination - JVP
Sitting in 45 degrees, the length between the angle of louis (upright) to area of IJV pulsation + 4 cm should be less than 8 cm if Normal.
Cardiovascular Examination - JVP
Sitting in 45 degrees, the length between the angle of louis (upright) to area of IJV pulsation + 4 cm should be less than _ cm if Normal.
Cardiovascular Examination - JVP
Sitting in 45 degrees, the length between the angle of louis (upright) to area of IJV pulsation + 4 cm should be less than 8 cm if Normal.
Cardiovascular Examination - Hepatojugular Reflux
Pressing the ___ while the patient is sitting in 30-45 degrees for 15-20 seconds shouldn’t cause a significant rise in jugular venous congestion - over 2 cm is pathologic. The patient should breathing normally while the exam takes place.
Cardiovascular Examination - Hepatojugular Reflux
Pressing the RUQ while the patient is sitting in 30-45 degrees for 15-20 seconds shouldn’t cause a significant rise in jugular venous congestion - over 2 cm is pathologic. The patient should breathing normally while the exam takes place.
Cardiovascular Examination - Hepatojugular Reflux
Pressing the RUQ while the patient is sitting in 30-45 degrees for __-__ seconds shouldn’t cause a significant rise in jugular venous congestion - over 2 cm is pathologic. The patient should breathing normally while the exam takes place.
Cardiovascular Examination - Hepatojugular Reflux
Pressing the RUQ while the patient is sitting in 30-45 degrees for 15-20 seconds shouldn’t cause a significant rise in jugular venous congestion - over 2 cm is pathologic. The patient should breathing normally while the exam takes place.
Cardiovascular Examination - Hepatojugular Reflux
Pressing the RUQ while the patient is sitting in 30-45 degrees for 15-20 seconds shouldn’t cause a significant rise in jugular venous congestion - over _ cm is pathologic. The patient should breathing normally while the exam takes place.
Cardiovascular Examination - Hepatojugular Reflux
Pressing the RUQ while the patient is sitting in 30-45 degrees for 15-20 seconds shouldn’t cause a significant rise in jugular venous congestion - over 2 cm is pathologic. The patient should breathing normally while the exam takes place.
Cardiovascular Examination - Pulses Location
Upper body half?
Cardiovascular Examination - Pulses Location
Carotid
Brachial
Radial
Cardiovascular Examination - Pulses Location
Lower body half?
Cardiovascular Examination - Pulses Location Femoral Popliteal Tibialis Posterior Dorsalis Pedis
Cardiovascular Examination - Inspection of Chest
In certain cases we can see the PMI watching from the side.
Cardiovascular Examination - Inspection of Chest
In certain cases we can see the ___ watching from the side.
Cardiovascular Examination - Palpation of Chest
On Palpation of the ____ ____ ___, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, ___ ____ ___, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, ___, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to _/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
On Palpation of the right 2nd ICS, left 2nd ICS, LSB, 5th ICS on midclavicular Line with the root of the palm any throbbing should elevate the murmur to 4/6 level for Aortic, Pulmonic, Tricuspid and Mitral valves respectively.
Cardiovascular Examination - Palpation of Chest
In order to palpate the ___ we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the PMI we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the ___ we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the PMI we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the PMI we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger ________ should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the PMI we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the PMI we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Palpation of Chest
In order to palpate the PMI we should place two fingers on the 5th ICS in the midclavicular Line, if it is larger or stronger Hypertrophy should be considered.
Cardiovascular Examination - Auscultation of Chest
The statoscope ___ is better for detection of S3, S4 and Mitral Stenosis murmur.
Cardiovascular Examination - Auscultation of Chest
The statoscope bell is better for detection of S3, S4 and Mitral Stenosis murmur.
Cardiovascular Examination - Auscultation of Chest
Splitting of S2 is best heard on _____ Site (Left 2nd IC) during Inspiration.
Cardiovascular Examination - Auscultation of Chest
Splitting of S2 is best heard on Pulmonic Site (Left 2nd IC) during Inspiration.
Cardiovascular Examination - Auscultation of Chest
Splitting of S2 is best heard at Pulmonic Site (Left 2nd IC) during _________.
Cardiovascular Examination - Auscultation of Chest
Splitting of S2 is best heard at Pulmonic Site (Left 2nd IC) during Inspiration.
Cardiovascular Examination - Auscultation of Chest
S3 is best heard at Mitral site (5th ICS in the midclavicular Line).
Cardiovascular Examination - Auscultation of Chest
S3 is best heard at ______ site (5th ICS in the midclavicular Line).
Cardiovascular Examination - BP Values JNC7
Prehypertension
Cardiovascular Examination - BP Values JNC7
Prehypertension: 120-139 / 80-89 mmHg
Cardiovascular Examination - BP Values JNC7
Stage 1 Hypertension
Cardiovascular Examination - BP Values JNC7
Stage 1 Hypertension: 140-159 / 90-99 mmHg
Cardiovascular Examination - BP Values JNC7
Stage 2 Hypertension
Cardiovascular Examination - BP Values JNC7
Stage 2 Hypertension: 160< / 100< mmHg
Cardiovascular Examination - Pulsus Paradoxes
Decent in __ mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by (3 things) - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory ______.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory ______.
Cardiovascular Examination - Pulsus Paradoxes
Decent in 10 mmHg or more with Inspiration can be caused by Cardiac Tamponade, Pneumothorax or COPD - this usually signals upcoming shock or respiratory failure.
Cardiovascular Examination - Orthostatic Hypotension
Detection is done by measuring BP while sitting down than allowing the patient to walk around easily for 5 minutes than measuring BP while standing. Decent in SBP in 20 mmHg or DBP in __ mmHg is Orthostatism.
Cardiovascular Examination - Orthostatic Hypotension
Detection is done by measuring BP while sitting down than allowing the patient to walk around easily for 5 minutes than measuring BP while standing. Decent in SBP in 20 mmHg or DBP in 10 mmHg is Orthostatism.
Cardiovascular Examination - Orthostatic Hypotension
Detection is done by measuring BP while sitting down than allowing the patient to walk around easily for 5 minutes than measuring BP while standing. Decent in SBP in 20 mmHg or DBP in __ mmHg is Orthostatism.
Cardiovascular Examination - Orthostatic Hypotension
Detection is done by measuring BP while sitting down than allowing the patient to walk around easily for 5 minutes than measuring BP while standing. Decent in SBP in 20 mmHg or DBP in 10 mmHg is Orthostatism.
Cardiovascular Examination - Pulse Deficit
The __________ in radial pulse palpation and cardiac auscultatory pulse timing. this could occur in A. Fib, PVC or Tachycardia. Usually doesn’t signifies clinical evidence.
Cardiovascular Examination - Pulse Deficit
The difference in radial pulse palpation and cardiac auscultatory pulse timing. this could occur in A. Fib, PVC or Tachycardia. Usually doesn’t signifies clinical evidence.
Cardiovascular Examination - Pulse Deficit
The difference in radial pulse palpation and cardiac auscultatory pulse timing. this could occur in A. Fib, PVC or Tachycardia. Usually _____ ______ clinical evidence.
Cardiovascular Examination - Pulse Deficit
The difference in radial pulse palpation and cardiac auscultatory pulse timing. this could occur in A. Fib, PVC or Tachycardia. Usually doesn’t signifies clinical evidence.
Cardiovascular Examination - Pulse Deficit
The difference in radial pulse palpation and cardiac auscultatory pulse timing. this could occur in A. Fib, PVC or Tachycardia. Usually _____ ______ clinical evidence.
Cardiovascular Examination - Pulse Deficit
The difference in radial pulse palpation and cardiac auscultatory pulse timing. this could occur in A. Fib, PVC or Tachycardia. Usually doesn’t signifies clinical evidence.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to __ mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds diastolic pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds diastolic pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at _mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds diastolic pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds diastolic pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the ______ pressure point, upon disappearance of sounds diastolic pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds diastolic pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds ______ pressure point is determined.
Cardiovascular Examination - BP Auscultatory Test
The sleeve should be pumped to 30 mmHg more than the pressure of radial pulse disappearance. Pressure release is done at 2mmHg/Sec then Korotkoff sounds are heard first at the systolic pressure point, upon disappearance of sounds diastolic pressure point is determined.
Respiratory Examination - Inspection of Chest
______ Chest, where AP / Lateral > 0.9, is classically seen in COPD.
Respiratory Examination - Inspection of Chest
Barrel Chest, where AP / Lateral > 0.9, is classically seen in COPD.
Respiratory Examination - Inspection of Chest
Barrel Chest, where _______ > 0.9, is classically seen in COPD.
Respiratory Examination - Inspection of Chest
Barrel Chest, where AP / Lateral > 0.9, is classically seen in COPD.
Respiratory Examination - Inspection of Chest
Barrel Chest, where AP / Lateral > 0.9, is classically seen in _____.
Respiratory Examination - Inspection of Chest
Barrel Chest, where AP / Lateral > 0.9, is classically seen in COPD.
Respiratory Examination - Inspection of Chest
Pectus _______, where Distal sternum is located inwards, is classically seen in Marfan Syndrome or Rickets.
Respiratory Examination - Inspection of Chest
Pectus Excavatum, where Distal sternum is located inwards, is classically seen in Marfan Syndrome or Rickets.
Respiratory Examination - Inspection of Chest
Pectus Excavatum, where Distal sternum is located _____, is classically seen in Marfan Syndrome or Rickets.
Respiratory Examination - Inspection of Chest
Pectus Excavatum, where Distal sternum is located inwards, is classically seen in Marfan Syndrome or Rickets.
Respiratory Examination - Inspection of Chest
Pectus Excavatum, where Distal sternum is located inwards, is classically seen in _______ Syndrome or _____.
Respiratory Examination - Inspection of Chest
Pectus Excavatum, where Distal sternum is located inwards, is classically seen in Marfan Syndrome or Rickets.
Respiratory Examination - Inspection of Chest
Pectus Carinatum, where Distal sternum is located outwards, is classically seen in Marfan Syndrome or Congenital Cardiac Defects.
Respiratory Examination - Inspection of Chest
Pectus Carinatum, where Distal sternum is located outwards, is classically seen in Marfan Syndrome or Congenital Cardiac Defects.
Respiratory Examination - Inspection of Chest
Pectus ________, where Distal sternum is located outwards, is classically seen in Marfan Syndrome or Congenital Cardiac Defects.
Respiratory Examination - Inspection of Chest
Pectus Carinatum, where Distal sternum is located outwards, is classically seen in Marfan Syndrome or Congenital Cardiac Defects.
Respiratory Examination - Inspection of Chest
Pectus Carinatum, where Distal sternum is located _______, is classically seen in Marfan Syndrome or Congenital Cardiac Defects.
Respiratory Examination - Inspection of Chest
Pectus Carinatum, where Distal sternum is located outwards, is classically seen in Marfan Syndrome or Congenital Cardiac Defects.
Respiratory Examination - Inspection of Chest
Kyphosis/Scoliosis, will cause in severe cases _________ Lung disease.
Respiratory Examination - Inspection of Chest
Kyphosis/Scoliosis, will cause in severe cases Restrictive Lung disease.
Respiratory Examination - Inspection of Chest
Respiratory Distress can be seen with Enlargement of _________ _____ on Inspiration, increased nostril movement and Sternocleidomastoid, Scalene and Intercostal Muscle Work.
Respiratory Examination - Inspection of Chest
Respiratory Distress can be seen with Enlargement of Suprasternal Notch on Inspiration, increased nostril movement and Sternocleidomastoid, Scalene and Intercostal Muscle Work.
Respiratory Examination - Inspection of Chest
Respiratory Distress can be seen with Enlargement of Suprasternal Notch on Inspiration, increased nostril movement and Sternocleidomastoid, Scalene and _________ Muscle Work.
Respiratory Examination - Inspection of Chest
Respiratory Distress can be seen with Enlargement of Suprasternal Notch on Inspiration, increased nostril movement and Sternocleidomastoid, Scalene and Intercostal Muscle Work.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with ______ at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural effusion, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural effusion, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests _______, a large pleural effusion, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural effusion, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural ______, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural effusion, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural effusion, rib fracture, or _________.
Respiratory Examination - Palpation of Chest
Chest Expansion Symmetry is checked by placing hands on patient’s bare back with thumbs at the level of 10th Rib on both sides of vertebra when the patient will take a deep breath. Asymmetric expansion suggests pneumonia, a large pleural effusion, rib fracture, or pneumothorax.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ____ side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in __________, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in _________, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, _______ or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural ______.
Respiratory Examination - Palpation of Chest
Tactile Fremitus is checked by placing the ulnar side of hands on patient’s bare back on both sides of vertebral column. when the patient will say a 44 continuously. Increased in Consolidation, Decreased in Pneumothorax, Atelectasis or Pleural Effusion.
Respiratory Examination - Percussion of Chest
Tympanic sounds are heard on -
Respiratory Examination - Percussion of Chest
Tympanic sounds are heard on Pneumothorax or Atelectasis
Respiratory Examination - Percussion of Chest
Resonant sounds are heard on -
Respiratory Examination - Percussion of Chest
Tympanic sounds are heard on Normal Lung
Respiratory Examination - Percussion of Chest
Dull sounds are heard on -
Respiratory Examination - Percussion of Chest
Dull sounds are heard on Consolidation (if placed correctly not on bones)
Respiratory Examination - Auscultation of Chest
_____ are continuous breath sounds heard during inspiration & expiration, lower in pitch than wheezing. They arise due to secretions in large airways. Heard best in central area.
Respiratory Examination - Auscultation of Chest
Ronchi are continuous breath sounds heard during inspiration & expiration, lower in pitch than wheezing. They arise due to secretions in large airways. Heard best in central area.
Respiratory Examination - Auscultation of Chest
Ronchi are continuous breath sounds heard during inspiration & expiration, lower in pitch than wheezing. They arise due to secretions in ____ airways. Heard best in central area.
Respiratory Examination - Auscultation of Chest
Ronchi are continuous breath sounds heard during inspiration & expiration, lower in pitch than wheezing. They arise due to secretions in large airways. Heard best in central area.
Respiratory Examination - Auscultation of Chest
Ronchi are continuous breath sounds heard during inspiration & expiration, lower in pitch than wheezing. They arise due to secretions in large airways. Heard best in ____ area.
Respiratory Examination - Auscultation of Chest
Ronchi are continuous breath sounds heard during inspiration & expiration, lower in pitch than wheezing. They arise due to secretions in large airways. Heard best in central area.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, High in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, High in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during _______, High in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, High in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, ____ in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, High in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, High in pitch. They arise due to airway ________.
Respiratory Examination - Auscultation of Chest
Wheezing are continuous breath sounds heard during expiration, High in pitch. They arise due to airway narrowing.
Respiratory Examination - Auscultation of Chest
Rales (Fine Crackles) are ____& discontinuous breath sounds heard during inspiration & expiration, High in pitch. Late Inspiratory Crackles are suggestive of CHF, Pneumonia or Atelectasis. Heard best on the Bases.
Respiratory Examination - Auscultation of Chest
Rales (Fine Crackles) are brief & discontinuous breath sounds heard during inspiration & expiration, High in pitch. Late Inspiratory Crackles are suggestive of CHF, Pneumonia or Atelectasis. Heard best on the Bases.
Respiratory Examination - Auscultation of Chest
Rales (Fine Crackles) are brief & discontinuous breath sounds heard during inspiration & expiration, High in pitch. ____ Inspiratory Crackles are suggestive of CHF, Pneumonia or Atelectasis. Heard best on the Bases.
Respiratory Examination - Auscultation of Chest
Rales (Fine Crackles) are brief & discontinuous breath sounds heard during inspiration & expiration, High in pitch. Late Inspiratory Crackles are suggestive of CHF, Pneumonia or Atelectasis. Heard best on the Bases.
Respiratory Examination - Auscultation of Chest
Rales (Fine Crackles) are brief & discontinuous breath sounds heard during inspiration & expiration, High in pitch. Late Inspiratory Crackles are suggestive of CHF, Pneumonia or Atelectasis. Heard best on the _____.
Respiratory Examination - Auscultation of Chest
Rales (Fine Crackles) are brief & discontinuous breath sounds heard during inspiration & expiration, High in pitch. Late Inspiratory Crackles are suggestive of CHF, Pneumonia or Atelectasis. Heard best on the Bases.
Respiratory Examination - Auscultation of Chest
_________ Breath sounds are longer on Inspiration (I:E - 3:1), should be heard normally on the Bases and Periphery.
Respiratory Examination - Auscultation of Chest
Vesicular Breath sounds are longer on Inspiration (I:E - 3:1), should be heard normally on the Bases and Periphery.
Respiratory Examination - Auscultation of Chest
Vesicular Breath sounds are longer on _________, should be heard normally on the Bases and Periphery.
Respiratory Examination - Auscultation of Chest
Vesicular Breath sounds are longer on Inspiration (I:E - 3:1), should be heard normally on the Bases and Periphery.
Respiratory Examination - Auscultation of Chest
Vesicular Breath sounds are longer on Inspiration (I:E - 3:1), should be heard normally on the _____ and ______.
Respiratory Examination - Auscultation of Chest
Vesicular Breath sounds are longer on Inspiration (I:E - 3:1), should be heard normally on the Bases and Periphery.
Respiratory Examination - Auscultation of Chest
_______ Breath sounds are same length on Inspiration and Expiration (I:E - 1:1), should be heard normally centrally over the trachea if present basally they suggestive of pneumonia, effusions or atelectasis..
Respiratory Examination - Auscultation of Chest
Bronchial Breath sounds are same length on Inspiration and Expiration (I:E - 1:1), should be heard normally centrally over the trachea if present basally they suggestive of pneumonia, effusions or atelectasis..
Respiratory Examination - Auscultation of Chest
Bronchial Breath sounds are ___ length on Inspiration and Expiration (I:E - ___), should be heard normally centrally over the trachea if present basally they suggestive of pneumonia, effusions or atelectasis..
Respiratory Examination - Auscultation of Chest
Bronchial Breath sounds are same length on Inspiration and Expiration (I:E - 1:1), should be heard normally centrally over the trachea if present basally they suggestive of pneumonia, effusions or atelectasis..
Respiratory Examination - Auscultation of Chest
Bronchial Breath sounds are same length on Inspiration and Expiration (I:E - 1:1), should be heard normally centrally over the trachea if present basally they suggestive of -
Respiratory Examination - Auscultation of Chest
Bronchial Breath sounds are same length on Inspiration and Expiration (I:E - 1:1), should be heard normally centrally over the trachea if present basally they suggestive of pneumonia, effusions or atelectasis..
