Respiratory sounds explained

Respiratory sounds
Synonyms:Breath sounds, lung sounds
Field:Respirology

Respiratory sounds, also known as lung sounds or breath sounds, are the specific sounds generated by the movement of air through the respiratory system.[1] These may be easily audible or identified through auscultation of the respiratory system through the lung fields with a stethoscope as well as from the spectral characteristics of lung sounds.[2] These include normal breath sounds and added sounds such as crackles, wheezes, pleural friction rubs, stertor, and stridor.

Description and classification of the sounds usually involve auscultation of the inspiratory and expiratory phases of the breath cycle, noting both the pitch (typically described as low (≤200 Hz), medium or high (≥400 Hz)) and intensity (soft, medium, loud or very loud) of the sounds heard.

Normal breath sounds

Normal breath sounds are classified as vesicular, bronchovesicular, bronchial or tracheal based on the anatomical location of auscultation.[3] Normal breath sounds can also be identified by patterns of sound duration and the quality of the sound as described in the table below:

!Name!Location where heard normally!Quality of sound!Sound duration!Example
tracheal very loudexpiratory sound duration is equivalent to inspiratory sound
bronchial loud, high pitchedexpiratory sound duration is longer than inspiratory sound
bronchovesicularanteriorly between the 1st and 2nd intercostal space; posteriorly in-between the scapulae intermediate expiratory sound duration is about equivalent to inspiratory sound
vesicularover most of both lungs soft, low pitchedexpiratory sound duration is shorter than inspiratory sound

Abnormal breath sounds

Common types of abnormal breath sounds include the following:[4]

NameContinuous/discontinuousFrequency/pitchInspiratory/expiratoryQualityCommon CausesExample
continuoushigh (wheeze) or lower (rhonchi)expiratory or inspiratorywhistling/sibilantCaused by narrowing of airways, such as in asthma, chronic obstructive pulmonary disease, foreign body.
Stridorcontinuoushighinspiratory, expiratory, or both[5] whistling/sibilantepiglottitis, foreign body, laryngeal edema, croup
continuoushighinspiratorywhooppertussis (whooping cough)see New England Journal of Medicine, Classic Whooping Cough sound file, Supplement to the N Engl J Med 2004; 350:2023-2026
Crackles (rales)continuous high (fine) or low (coarse)inspiratorycracking/clicking/rattling[6] pneumonia, pulmonary edema, tuberculosis, bronchitis, heart failure
Pleural friction rubdiscontinuouslowinspiratory and expiratorymany repeated rhythmic soundsinflammation of lung linings, lung tumors not available
Hamman's sign (or Mediastinal crunch)discontinuous neither (heartbeat)crunching, raspingpneumomediastinum, pneumopericardiumnot available
GruntingContinuouslowexpiratorysnoringsurfactant deficiency, pneumonia, cardiac abnormalities

Continued

Other tests of auscultation

Pectoriloquy, egophony and bronchophony are tests of auscultation that utilize the phenomenon of vocal resonance. Clinicians can utilize these tests during a physical exam to screen for pathological lung disease. For example, in whispered pectoriloquy, the person being examined whispers a two syllable number as the clinician listens over the lung fields. The whisper is not normally heard over the lungs, but if heard may be indicative of pulmonary consolidation in that area. This is because sound travels differently through denser (fluid or solid) media than the air that should normally be predominant in lung tissue. In egophony, the person being examined continually speaks the English long-sound "E" (/i/). The lungs are usually air filled, but if there is an abnormal solid component due to infection, fluid, or tumor, the higher frequencies of the "E" sound will be diminished. This changes the sound produced, from a long "E" sound to a long "A" sound (/eɪ/).

History

In 1957, Robertson and Coope proposed the two main categories of adventitious (added) lung sounds. Those categories were "Continuous" and "Interrupted" (or non-continuous).[10] In 1976, the International Lung Sound Association simplified the sub-categories as follows:

Continuous

Wheezes (>400 Hz)

Rhonchi (<200 Hz)

Discontinuous

Fine crackles

Coarse crackles[11] [12]

Several sources will also refer to "medium" crackles, as a crackling sound that seems to fall between the coarse and fine crackles. Crackles are defined as discrete sounds that last less than 250 ms, while the continuous sounds (rhonchi and wheezes) last approximately 250 ms. Rhonchi are usually caused by a stricture or blockage in the upper airway. These are different from stridor.

See also

References

10.1007/BF02345450. Pneumothorax detection using computerised analysis of breath sounds. 2002. Mansy. H. A.. Royston. T. J.. Balk. R. A.. Sandler. R. H.. Medical & Biological Engineering & Computing. 40. 5. 526–532. 12452412. 7413897.

External links

Notes and References

  1. Web site: Breath sounds: MedlinePlus Medical Encyclopedia. 2021-11-11. medlineplus.gov. en.
  2. Sengupta. Nandini. Sahidullah, Md. Saha, Goutam. Lung sound classification using cepstral-based statistical features. Computers in Biology and Medicine. August 2016. 75. 1. 118–129. 10.1016/j.compbiomed.2016.05.013. 27286184.
  3. Book: Bickley, Lynn S. Bates' Guide to Physical Examination and History-Taking. Wolters Kluwer Health/Lippincott Williams & Wilkins. 2013. 978-1609137625. 311–312. English.
  4. Fundamentals of Lung Auscultation. Bohadana. Abraham. February 20, 2014. New England Journal of Medicine. 10.1056/NEJMra1302901. 24552321. 370. 8. 744–751. 17871815 .
  5. Leung . Alexander K. C. . Cho . Helen . 1999-11-15 . Diagnosis of Stridor in Children . American Family Physician . 60 . 8 . 2289–2296 . 10593320 . 0002-838X.
  6. Web site: Breath sounds: MedlinePlus Medical Encyclopedia . 2022-05-06 . medlineplus.gov . en.
  7. Web site: Breath sounds: MedlinePlus Medical Encyclopedia . 2022-05-30 . medlineplus.gov . en.
  8. Web site: Stridor: MedlinePlus Medical Encyclopedia . 2022-05-30 . medlineplus.gov . en.
  9. Web site: Breath sounds: Medline Plus . NIH . 5 May 2015.
  10. Robertson. A. Rales, rhonchi, and Laennec. Lancet. 1957. 2. 6992. 417–23. 10.1016/S0140-6736(57)92359-0. 13464086.
  11. American Thoracic Society Ad Hoc Committee on Pulmonary Nomenclature. Updated nomenclature for membership reaction. ATS News. 1977. 3. 5–6.
  12. Loudon. R. Murphy. R. Lung Sounds. Am Rev Respir Dis. 1984. 130. 4. 663–73. 10.1164/arrd.1984.130.4.663. 31 January 2024. 6385790.