1 / 14

Techniques of examination of the thorax and lungs

Techniques of examination of the thorax and lungs. Dr. Szathmári Miklós Semmelweis University First Department of Medicine 27. Sept. 2011. Inspection of the thorax. Observe: the shape of chest Deformities the respiratory movement Importance: The deformities influence

minty
Download Presentation

Techniques of examination of the thorax and lungs

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Techniques of examination of the thorax and lungs Dr. Szathmári Miklós Semmelweis University First Department of Medicine 27. Sept. 2011.

  2. Inspection of the thorax • Observe: • the shape of chest • Deformities • the respiratory movement • Importance: • The deformities influence • The percussion sounds • The breathing and the circulation • The diagnostic importance of asymetry • The decrease of the respiratory movement is the most important sign of the disease of chest/lung

  3. Inspection of the thorax • Shape of the chest • Normal adult thorax: is wider than it is deep. • Barrel chest: increased anteriorposterior diameter. • Funnel chest: depression in the lower portion of the sternum. • Pigeon chest: the sternum is displaced anteriorly, increasing the AP diameter. • Thoracic kyphoscoliosis: abnormal spinal curvatures and vertebral rotation deform the chest.

  4. Dorsal kyphosis and barrel chest

  5. Inspection of the thorax • Abnormal retraction of the interspaces during inspiration (severe asthma, COPD or upper airway obstraction). • Inspection of movement of chest wall during inspiration (unilateral impairment or delay of respiratory movement suggests disease of the underlying lung or pleura.

  6. Palpation of the chest 1. • Assessment of respiratory expansion: • Place your thumbs about at the level of and parallel to the 10th ribs, your hand grasping the lateral rib cage • Slide your hands medially a bit in order to raise loose skin folds between thumbs and spine • Ask the patient to inhale deeply • Watch the divergence of your thumbs during inspiration and feel for the range and symmetry of respiratory movement

  7. Tactile fremitus – refers to the palpable vibrations transmitted through the bronchopulmonary system to the chest wall when the patiens speaks Palpate and compare symmetrical areas of the lungs Use the ulnar surface of your hand. Ask the patient to repeat ninety-nine or „harminchárom”. If fremitus is faint, ask the patient to speak more loudly or in a deeper voice. Pleural rub Normal pleural surfaces move smoothly and noiselessly against each other during respiration When pleural surfaces become inflamed, they move jerkily as they are repetedly delayed by increased friction. The sounds may be discrete, but sometimes are so numerous that they merge into an apparently continuous sound. It is localized to a relatively small area of the chest wall Palpation of the chest 2.

  8. Palpation of the thorax • intercostal tenderness:over inflammed pleura. Bruises over a fractured rib. • chest expansion: decreased expansion in case of pleural effusion, lobar pneumonia, chronic fibrotic disease of the underlying lung • tactile fremitus: Decreased pectoral fremitus is in case of pleural effusion or pleural thickening or PTX.

  9. Other bony landmarks on the chest wall • Posteriorly, with the fingers of one hand, press inward and up against the lower border of the rib cage you can identify the 12th rib • The inferior angle of the scapula lies approximately at the level of the 7th rib • When the patient flexes the neck forward, the most prominent process is usually that of the 7th cervical

  10. While the patient keeps both arms crossed in front of chest, percuss the thorax in symmetrical locations from the apices to the lung bases Dullness: when fluid or solid tissue replaces air-containing lung (pneumonia) or occupies the pleural space (effusion, fibrous tissue, tumor) Generalized hyperresonance: emphysema, asthma. Unilateral hyperresonance (or tympanic sound): pneumothorax Percussion of the thorax

  11. Identify the level of the diaphragma • Percuss in steps downward until dullness clearly replaces resonance. • Movement of diaphragma: the distance between the levels of dullness on full expiration and on full inspiration (normally 5-6 cm)

  12. Normal position of the diaphragma • Paravertebraly at the level of X-XI. thoracic spinous process • In the scapular line at the level IX. rib • In the midaxillary line at the level VIII. rib • In the medioclavicular line (on the right side) at the level of VI. rib. Normal movement of the diaphragma • On full inspiration 5-6 cm in the scapular line

  13. Abnormal positions of diaphragma • Bilaterally deeper position: • Emphysema, asthma, • Decreased intraabdominal pressure • Unilaterally deeper position: • pneumothorax • Bilaterally higher position: • Increased intraabdominal pressure • Pleural effusion on both side • Unilaterally higher position: • Diaphragmatic paralysis • Unilateral pleural effusion • Intrabadominal abnormality (subphrenic abscess, splenomegaly)

  14. Abnormal breathing sounds • Louder vesicular breathing: during childhood, forced breathing • Faint alveolar breathing: • Emphysema, • Pleural thickening, pleural effusion, • Pneumothorax • Atelectasis (absortion of the air from the alveoli because of a plug in a mainstream bronchus) • Bronchial breathing replaces the normal vesicular sounds when lung tissue loses its air: • Pneumonia (the alveoli fill with fluid)

More Related