Still's murmur

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Still's murmur
Other names: Vibratory murmur
Recording of an innocent Still's murmur in a toddler
SpecialtyCardiology

Still's murmur [1] (also known as vibratory murmur) is a common type of benign or "innocent" functional heart murmur that is not associated with any medical or heart problems.[2]

It can occur at any age; though is most common among those two to seven years old and it is rare in adults.[3] Still's murmur was initially described by George still, England's first professor of childhood medicine at the Great Ormond Street Hospital for Children.

Signs and symptoms

Still's murmur is detected via auscultation with a stethoscope. It has a peculiar "musical", "resonant" or "vibratory" quality that is quite unique.[2][3] It is generally most easily heard at the left middle or lower sternal border and the right upper sternal border, often with radiation to the carotid arteries, although other locations are common. The murmur is usually louder in the supine position and may only be audible in the supine position.[citation needed]

The Still's murmur can be differentiated from pathological murmurs by this musical quality and lack of extra snaps or clicks in the heart sounds.

Because the Still's murmur has never been associated with any sort of cardiac disorder, it has no associated symptoms.[2][3]

Causes

Heart murmurs are sounds generated by blood flowing through the structures of the heart. The location of the Still's murmur on examination suggests resonation of blood in the left ventricular outflow tract and aorta, and this is supported by studies that have shown that the murmur is more intense over the aortic valve than the pulmonary valve.[4] There has been conjecture that the vibratory or musical quality of the murmur is caused by vibration of “false chordae” of the left ventricle, which are a common finding in normal individuals, but no relationship between the two has been proven.[5] There is some evidence that a smaller aorta with higher peak flow velocities are associated with Still's murmur,[6][7][8] which certainly fits in well with the concept that the murmur is a musical phenomenon.[citation needed]

Diagnosis

model of human
Positioning for stethoscope to best hear Still's Murmur

Still's murmur is diagnosed in the course of a physical examination of the patient, usually using a stethoscope. The murmur has a vibratory quality that can be detected as a regular frequency on phonocardiography,[9] although this type of testing is now rarely used. Additional testing including electrocardiography (ECG or EKG) or echocardiography may be helpful in ruling out other conditions, particularly if the physical examination is not completely characteristic of Still's murmur. When additional testing is done in the setting of Still's murmur the results are normal, since Still's murmur is not associated with any sort of cardiovascular pathology.[citation needed]

Treatment

Still's murmur does not represent any sort of disorder and does not present a health risk, so no treatment is necessary.[2][3]

Epidemiology

Still's murmurs may occur in as many as a third of all children. This type of murmur occurs most often in children two to seven years of age, but can occur in younger or older children. In most cases, the innocent Still's murmur is present on and off during childhood and resolves on its own by young adulthood.[3]

Prognosis

The Still's murmur is a harmless finding that does not suggest any medical disorder. In most cases, Still's murmur disappears around adolescence without medical intervention.[3]

However, families are often anxious when told their child has a heart murmur. Parents of children diagnosed with Still's murmur may experience significantly greater anxiety than the children themselves. In a study conducted on the families impacted by Still's murmur, the parents were worried about a variety of issues. Their concerns included: the need for medicine (49%), facing sports restrictions (41%), the need for heart surgery (29%), other offspring also having Still's murmur (20%), and early death (13%). Mothers worried that they did something during pregnancy that caused the murmur (19%). Even after being reassured by the child's physician, 17% of parents were still anxious. After hearing from a cardiologist that the children would be fine, only 7% of the parents were still nervous.[10]

History

Still's murmur was initially described by George still, England's first professor of childhood medicine at the Great Ormond Street Hospital for Children. In his pediatric textbook Common Disorders and Diseases of Childhood (published 1909) Dr. Still noted:

“I should like to draw attention to a particular bruit which has somewhat of a musical character, but is neither of sinister omen nor does it indicate endocarditis of any sort. …its characteristic feature is a twangy sound, very like that made by twanging a piece of tense string... Whenever may be its origin, I think it is clearly functional, that is to say, not due to any organic disease of the heart either congenital or acquired.”[11]

References

  1. Camm, Christian Fielder; Camm, A. John (2016). "1. Examination techniques". Clinical Guide to Cardiology. Chichester: Wiley Blackwell. pp. 10–11. ISBN 978-1-118-75533-4. Archived from the original on 2023-07-02. Retrieved 2023-05-28.
  2. 2.0 2.1 2.2 2.3 Newburger, Jane (2006). Nadas' Pediatric Cardiology 2nd Edition. Philadelphia: Elsevier. p. 358. ISBN 978-1-4160-2390-6.
  3. 3.0 3.1 3.2 3.3 3.4 3.5 Frank, Jennifer (2011). "Evaluation and Management of Heart Murmurs in Children" (PDF). American Family Physician. 84 (7): 793–800. PMID 22010618. Archived (PDF) from the original on 8 March 2022. Retrieved 14 December 2020.
  4. Stein, P.D.; Sabbah, H.N. (1977). "Aortic origin of innocent murmurs". Am. J. Cardiol. 39 (5): 665–671. doi:10.1016/s0002-9149(77)80126-4. PMID 67794.
  5. van Oort, A.; van Dam, I.; Heringa, A.; Alsters, J.; Hopman, J.; Daniëls, O. (1986). "The vibratory innocent heart murmur studied by echo-Doppler". Paediatr. Scand. 329: 103–7. doi:10.1111/j.1651-2227.1986.tb10394.x. PMID 3473896. S2CID 21206205.
  6. Klewer, S.E.; Donnerstein, R.L.; Goldberg, S.J. (1991). "Still's-like innocent murmur can be produced by increasing aortic velocity to a threshold value". Am. J. Cardiol. 68 (8): 810–2. doi:10.1016/0002-9149(91)90664-7. PMID 1892096.
  7. Schwartz, M.L.; Goldberg, S.J.; Wilson, N.; Allen, H.D.; Marz, G.R. (1986). "Relation of Still's murmur, small aortic diameter and high aortic velocity". Am. J. Cardiol. 57 (15): 1344–1348. doi:10.1016/0002-9149(86)90216-x. PMID 3717035.
  8. Donnerstein, R.L.; Thomsen, V.S. (1994). "Hemodynamic and anatomic factors affecting the frequency content of Still's innocent murmur". Am. J. Cardiol. 74 (5): 508–510. doi:10.1016/0002-9149(94)90917-2. PMID 8059739.
  9. Segal, BL (1964). The Theory and Practice of Auscultation. Philadelphia: F.A. Davis Company. p. 169. LCCN 63020195.
  10. Geggel RL, Horowitz LM, Brown EA, et al. (2002). "Parental anxiety associated with referral of a child to a pediatric cardiologist for evaluation of a Still's murmur". The Journal of Pediatrics. 140 (6): 747–52. doi:10.1067/mpd.2002.124379. PMID 12072881.
  11. Still, George Frederick (1909). Common Disorders and Diseases of Childhood. London: Hodder and Stoughton. pp. 434–435. ASIN B006PCYAWQ.

External links

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