Diagnostic Tests for Mitral-valve prolapse

Mitral-valve prolapse: Diagnostic Tests

The list of diagnostic tests mentioned in various sources as used in the diagnosis of Mitral-valve prolapse includes:

• Physical exam
• Stethoscope
• Electrocardiograph (ECG)
• Echocardiography

Mitral-valve prolapse Tests: Book Excerpts

• DIAGNOSTIC WORKUP - CARDIAC MURMURS
• History and physical examination - Murmurs
• History and physical examination - Murmurs
• Physical examination (PE) - Heart Murmur, Diastolic
• Physical examination - Heart Murmur, Systolic
• Diagnostic Approach - Diastolic Murmur
• Diagnostic Approach - Systolic Murmur
• Diagnostic Approach - Continuous Murmur
• Physical assessment - Murmurs
• Diagnostic Approach - Heart Murmurs (Asymptomatic)
• History and physical examination - Murmurs

Home Diagnostic Testing

These home medical tests may be relevant to Mitral-valve prolapse:

• High Blood Pressure: Home Testing
  • Home Blood Pressure Hypertension Tests
  • Home Blood Pressure Monitors
  • Home Heart Tests
• Heart Health: Home Testing:
  • Heart Rate Monitors
  • Irregular Heartbeat Detection
  • Heart Electrocardiogram (ECG)
  • Home Blood Pressure Testing
  • Home Cholesterol Testing

Mitral-valve prolapse Diagnosis: Book Excerpts

• Ask the following questions - CARDIAC MURMURS
• Differential Diagnosis - Murmurs - Diastolic
• Differential Diagnosis - Murmurs - Systolic
• Approach to the Diagnosis - MURMURS
• History and physical examination - Murmurs
• History and physical examination - Murmurs
• History - Heart Murmur, Diastolic
• History - Heart Murmur, Systolic
• Differential Overview - Diastolic Murmur
• Differential Overview - Systolic Murmur
• Differential Overview - Continuous Murmur
• History - Murmurs
• History - Murmurs
• Clinical Features and Diagnosis - Heart Murmurs (Asymptomatic)
• History and physical examination - Murmurs
• Approach to the Diagnosis - MURMURS

Tests and diagnosis discussion for Mitral-valve prolapse:

Sometimes, once a physician has heard the characteristic sounds of MVP through a stethoscope, other tests may be ordered. Echocardiography is a common and painless test that uses very high frequency sound waves. The sound waves travel through the layers of the skin and muscle to produce an image of the heart that can be seen on a screen. In this sense, it is similar to radar or sonar imaging.

Initially, "M-mode" echocardiography was used. This technology provides a single-plane view of the mitral valve and often resulted in overdiagnosis of MVP in the 1970s and 1980s. A study from National Heart, Lung, and Blood Institute's (NHLBI) Framingham Heart Study, reported in the July 1, 1999 issue of The New England Journal of Medicine, indicated that MVP is less common and less serious than previously thought.

The investigators used standard echocardiography equipment along with new, more accurate criteria that minimize false positive and false negative diagnoses. Whereas earlier estimates put the number of people with MVP at 5 to 35 percent of the population, the new NHLBI study showed the number is closer to 2 percent. In addition, MVP has long been thought to be more prevalent in women than men but the new study reported the condition appears with similar frequency in both men and women.

In light of this new information, NHLBI suggests that people who were diagnosed with MVP since the 1970s might discuss their current health status with their health care provider to determine if a new diagnostic test is warranted. (Source: excerpt from Facts About Mitral-Valve Prolapse: NHLBI)

Diagnosis of Mitral-valve prolapse: medical news summaries:

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Diagnostic Tests for Mitral-valve prolapse: Online Medical Books

16 MEDICAL BOOKS ONLINE! Review excerpts from medical books online, free, without registration, for more information about the diagnostic tests for Mitral-valve prolapse.

CARDIAC MURMURS: DIAGNOSTIC WORKUP
(Algorithmic Diagnosis of Symptoms and Signs)

If the murmur is believed to be organic, the most cost-effective approach would be to consult a cardiologist at the outset. If the astute clinician wishes to pursue the diagnostic workup on his own, it is suggested that a CBC, sedimentation rate, chemistry panel, VDRL test, and thyroid profile should be done for the initial blood work. In addition, a chest x-ray including obliques, congestive heart failure, phonocardiograms, and EKG should be performed. These findings may provide a diagnosis. If there is fever, a streptozyme test, antistreptolysin-O (ASO) titer, and serial blood culture should be performed. If congestive heart failure is suspected, venous pressure and circulation time should be determined. Pulmonary function studies are also helpful. Echocardiography will be extremely helpful in diagnosing the various forms of valvular disease and will also help in identifying a pericardial effusion, congestive heart failure, or the various cardiomyopathies. Cardiac catheterization and angiography and angiocardiography will identify the various congenital heart lesions and valvular disease. These studies, however, are most important when surgery is being considered.

» READ BOOK EXCERPT ONLINE »

Source: Algorithmic Diagnosis of Symptoms and Signs, 2003

Murmurs: History and physical examination
(Handbook of Signs & Symptoms (Third Edition))

If you discover a murmur, try to determine its type through careful auscultation. (See Identifying common murmurs, page 406.) Use the bell of your stethoscope for low-pitched murmurs and the diaphragm for high-pitched murmurs.

Next, obtain a patient history. Ask if the murmur is a new discovery or if it has been known since birth or childhood. Find out if the patient has experienced associated symptoms, particularly palpitations, dizziness, syncope, chest pain, dyspnea, and fatigue. Explore the patient’s medical history, noting especially an incidence of rheumatic fever, recent dental work, heart disease, or heart surgery, particularly prosthetic valve replacement.

Perform a systematic physical examination. Note especially the presence of cardiac arrhythmias, jugular vein distention, and such pulmonary signs and symptoms as dyspnea, orthopnea, and crackles. Is the patient’s liver tender or palpable? Does he have peripheral edema?

» READ BOOK EXCERPT ONLINE »

Source: Handbook of Signs & Symptoms (Third Edition), 2006

Murmurs: History and physical examination
(Professional Guide to Signs & Symptoms (Fifth Edition))

If you discover a murmur, try to determine its type through careful auscultation. (See Identifying common murmurs, page 517.) Use the bell of your stethoscope for low-pitched murmurs; the diaphragm for high-pitched murmurs.

Next, obtain a patient history. Ask if the murmur is a new discovery, or if it has been known since birth or childhood. Find out if the patient has experienced any associated symptoms, particularly palpitations, dizziness, syncope, chest pain, dyspnea, and fatigue. (See Differential diagnosis: Murmurs, pages 518 and 519.) Explore the patient’s medical history, noting especially any incidence of rheumatic fever, recent dental work, heart disease, or heart surgery, particularly prosthetic valve replacement.

Perform a systematic physical examination. Note especially the presence of cardiac arrhythmias, jugular vein distention, and such pulmonary signs and symptoms as dyspnea, orthopnea, and crackles. Is the patient’s liver tender or palpable? Does he have peripheral edema?

» READ BOOK EXCERPT ONLINE »

Source: Professional Guide to Signs & Symptoms (Fifth Edition), 2006

Heart Murmur, Diastolic: Physical examination (PE)
(The 10-Minute Diagnosis Manual: Symptoms and Signs in the Time-Limited Encounter)

A. Table 7.3 lists characteristic PE findings of diastolic murmurs.

B. Fine points of the physical examination

1. Is the murmur of AR louder at the right sternal border? If so, consider aortic root dilation. Remember, whereas the duration of the chronic AR murmur is directly proportional to the severity of the regurgitation, the duration of the acute AR murmur may not predict its severity (3).

2. Is the murmur of MS shorter, or does it extend closer to S₂? The length of this murmur, not its intensity, is directly proportional to the severity of the stenosis (3). In addition, the murmur may not be audible with increased heart rates because of shortening of diastole.

 3. Does the murmur of MS vary from examination to examination? If so, and especially if it is introduced by a “plop” sound, consider atrial myxoma.

Testing

Echocardiogram is the essential test for confirming the anatomic location of the murmur and its severity. Transthoracic echocardiography (ECHO) is generally sufficient, unless endocarditis is suspected, in which case a transesophageal ECHO is preferred to evaluate for vegetations. If aortic root dilatation is present on ECHO, a computed tomography or magnetic resonance imaging scan may help to delineate the anatomy further. Additional laboratory testing may be warranted to further evaluate the underlying cause (e.g., serologic studies for collagen vascular disease, serologic test for syphilis, and so on).

Diagnostic assessment

With a careful examination and thorough history, the valve causing the murmur and the probable cause of the valvular lesion can be identified prior to ordering the definitive test (ECHO). The most common cause of all diastolic murmurs is still rheumatic heart disease, even though the incidence of acute rheumatic fever has decreased. Mitral stenosis is almost invariably caused by rheumatic heart disease (98% in one study of excised valves) (3,4), with the remainder caused by vegetations (from endocarditis) or congenital factors (4). Tricuspid stenosis is also predominantly rheumatic in origin and is rarely an isolated lesion. Other causes of TS include carcinoid and congenital malformations. Rheumatic heart disease is the leading cause of chronic AR, followed by congenital bicuspid valves and aortic root dilatation (Marfan’s syndrome, Ehlers-Danlos syndrome, ankylosing spondylitis, and syphilitic aortitis). If chronic, AR can result in LV dilation and compensation; if acute, it can be associated with severe LV overload and significant symptoms. Acute AR is most often related to endocarditis, aortic dissection, and trauma. Pulmonary regurgitation without hypertension has multiple causes, including pulmonary trunk dilation, endocarditis, carcinoid, trauma (from balloon-tipped catheters), and rheumatic fever. The nonstenotic physiologic murmurs are related to high-flow states across an otherwise normal mitral
or tricuspid valve. For a mitral flow murmur, the primary lesions are usually mitral regurgitation, ventricular septal defects, or patent ductus arteriosus. For a tricuspid flow murmur, an atrial septal defect or severe tricuspid regurgitation is the most common cause. The Austin–Flint murmur, caused by increasing left ventricular pressure pushing the anterior mitral leaflet into the flow of blood coming from the atrium, is the result of significant aortic regurgitation.

References

1. Chizner MA, ed. Classical teachings in clinical cardiology. Chatham, New Jersey: Laennec Publishing, 1996.

2. Coblyn JS, Weinblatt ME. Rheumatic disease and the heart. In: Braunwald E, ed. Heart disease: a textbook of cardiovascular medicine, 5th ed. Philadelphia: WB Saunders, 1997:1776–1785.

3. Abrams J, ed. Synopsis of cardiac physical diagnosis. Philadelphia: Lea & Febiger, 1989.

4. Olson LJ, Subramanian MB, Ackermann DM, Orszulak TA, Edwards WM. Surgical pathology of the mitral valve: a study of 712 cases spanning 21 years. Mayo Clin Proc 1987;62:22–34.

» READ BOOK EXCERPT ONLINE »

Source: The 10-Minute Diagnosis Manual: Symptoms and Signs in the Time-Limited Encounter, 2000

Heart Murmur, Systolic: Physical examination
(The 10-Minute Diagnosis Manual: Symptoms and Signs in the Time-Limited Encounter)

A. Technique. Auscultate the heart with the bell to best detect lower frequencies and the heart sounds (S₁-S₄). The quality of the murmur is best heard with the diaphragm. Inspiration increases the audibility of right ventricular sounds.

 B. Murmur characteristics. Table 7.4 presents a summary of the characteristics of different causes of systolic murmurs (2,3). Etchell et al. (3) have prepared a comprehensive review on the usefulness of specific physical examination findings in the diagnosis of systolic murmurs.

Testing

Testing of an undiagnosed cardiac murmur can include an electrocardiogram (ECG), a chest x-ray study (CXR), and an echocardiogram. Echocardiograms, although useful for quantification of stenotic valvular disease, can overestimate the degree of regurgitation.

A. Aortic stenosis. Specific ECG findings in aortic stenosis can include left ventricular hypertrophy (LVH), left axis deviation, conduction disturbances, and atrial hypertrophy. On CXR, cardiac size remains normal until stenosis is severe, then signs of CHF may be present. The echocardiogram may reveal thickened or calcified aortic leaflets, bicuspid valve, and LVH. The size of
the valve can be estimated and the pressure gradient across the valve can
be assessed. Cardiac catheterization can also be used to assess the size of the valve and the gradient. Even though echocardiography is accurate in measuring valve area and gradient, catheterization is usually indicated because 50% of patients above age 40 years have coronary artery disease.

 B. Mitral regurgitation. In mitral regurgitation, the ECG may reveal LVH with left atrial enlargement and later in the course, atrial fibrillation. In severe disease, CXR usually reveals cardiomegaly without pulmonary venous congestion. The echocardiogram reveals valvular anatomy, but can overestimate the severity of the regurgitation. Exercise testing can be used to determine clinical deterioration in mitral regurgitation. Catheterization is used to assess the contractile state of the ventricle as well as the regurgitant and forward stroke volume.

 C. Other disease processes. The ECG with tricuspid insufficiency often reveals atrial fibrillation. The CXR may show right atrial hypertrophy, and the echocardiogram shows valvular anatomy. Pulmonic stenosis will lead to ECG findings consistent with right ventricular hypertrophy. Hypertrophic cardiomyopathy is best diagnosed by echocardiography. ECG may reveal LVH and occasionally a shortened PR interval is seen. Cardiac catheterization can be used to quantify the gradient caused by the hypertrophic lesion.

Diagnostic assessment

 The history and physical examination with special emphasis on auscultation are the keys to the diagnosis of systolic murmurs. Those with symptomatic murmurs or in whom valvular disease is suspected should have an ECG, CXR, and echocardiogram. Murmurs of unknown duration or new murmurs should be worked up promptly with consideration of acute infarction in mind. If aortic stenosis is suspected, the workup should be expedited because sudden death can be the first clinical presentation. Valvular disease must always be considered with new onset congestive heart failure. Table 7.5 lists some of the online resources available to assist in the evaluation of heart murmurs.

References

1. Rackley C. Valvular heart disease. In: Bennett JC, Plum F, eds. Cecil textbook of medicine, 20th ed. Philadelphia: WB Saunders, 1996.

2. O’Connor D. The art of auscultation. Patient Care 1998;38:56–60.

3. Etchells E, Bell C, Robb K. Does this patient have an abnormal systolic murmur? JAMA 1997;277:564–571.

» READ BOOK EXCERPT ONLINE »

Source: The 10-Minute Diagnosis Manual: Symptoms and Signs in the Time-Limited Encounter, 2000

Diastolic Murmur: Diagnostic Approach
(Field Guide to Bedside Diagnosis)

A diastolic murmur is always abnormal. An early diastolic murmur, caused by aortic or pulmonic regurgitation, is high-pitched and decrescendo. The duration of the murmur is an index of severity. A mid-diastolic murmur suggests mitral or tricuspid stenosis.

The murmur of mitral stenosis decreases or does not change with inspiration whereas the murmur of tricuspid stenosis increases.

» READ BOOK EXCERPT ONLINE »

Source: Field Guide to Bedside Diagnosis, 2007

Systolic Murmur: Diagnostic Approach
(Field Guide to Bedside Diagnosis)

The intensity of the murmur is proportional to the degree of stenosis until flow decreases markedly. Intensity can be expressed semiquantitatively, from grade 1/6, heard only with concentration, to grade 4/6, a loud murmur associated with a palpable thrill, to grade 6/6 with a thrill and murmur heard with the stethoscope off the chest. The duration of the murmur is proportional to the pressure differential between the two chambers.

An early systolic murmur, decrescendo at the apex, occurs in acute, severe mitral regurgitation (MR) with papillary muscle rupture, endocarditis, ruptured chordae tendineae, or blunt chest trauma. A midsystolic murmur is typical of aortic stenosis (AS). It can also be found with hypertrophic obstructive cardiomyopathy (HOC) and with hyperdynamic states. A late systolic murmur is usually heard with mitral valve prolapse (MVP) in association with a midsystolic click. A holosystolic murmur can be produced by severe MR or tricuspid regurgitation (TR), or by a ventricular septal defect (VSD), when the pressure differential between chambers persists throughout systole. Holosystolic murmurs are almost never innocent.

Handgrip decreases AS and HOC murmurs but increases MR, aortic regurgitation (AR), VSD, and mitral stenosis (MS). Transient arterial occlusion by a blood pressure cuff 20 mm above systolic increases left-sided murmurs. Valsalva decreases most murmurs (decreased right and left ventricular filling), except HOC and MVP, which increase.

» READ BOOK EXCERPT ONLINE »

Source: Field Guide to Bedside Diagnosis, 2007

Continuous Murmur: Diagnostic Approach
(Field Guide to Bedside Diagnosis)

Continuous murmurs begin in systole and extend into diastole without interruption. The murmur results from blood flow from a higher pressure chamber or vessel to a lower pressure system, with the gradient maintained during both systole and diastole, for example with aortopulmonary and arteriovenous connections.

» READ BOOK EXCERPT ONLINE »

Source: Field Guide to Bedside Diagnosis, 2007

Murmurs: Physical assessment
(Signs & Symptoms: A 2-in-1 Reference for Nurses)

Perform a systematic physical assessment. Note especially the presence of cardiac arrhythmias, jugular vein distention, and such pulmonary signs and symptoms as dyspnea, orthopnea, and crackles. Is the patient’s liver tender or palpable? Does he have peripheral edema?

» READ BOOK EXCERPT ONLINE »

Source: Signs & Symptoms: A 2-in-1 Reference for Nurses, 2007

Heart Murmurs (Asymptomatic): Diagnostic Approach
(The Diagnostic Approach to Symptoms and Signs in Pediatrics)

» READ BOOK EXCERPT ONLINE »

Source: The Diagnostic Approach to Symptoms and Signs in Pediatrics, 2006

Murmurs: History and physical examination
(Nursing: Interpreting Signs and Symptoms)

If you discover a murmur, try to determine its type through careful auscultation. (See Identifying common murmurs, page 398.) Use the bell of your stethoscope for low-pitched murmurs and the diaphragm for high-pitched murmurs.

Next, obtain a patient history. Ask if the murmur is a new discovery or if it has been known since birth or childhood. Find out if the patient has experienced associated symptoms, particularly palpitations, dizziness, syncope, chest pain, dyspnea, and fatigue. Explore the patient's medical history, noting especially an incidence of rheumatic fever, recent dental work, heart disease, or heart surgery, particularly prosthetic valve replacement.

Perform a systematic physical examination. Note especially the presence of cardiac arrhythmias, jugular vein distention, and such pulmonary signs and symptoms as dyspnea, orthopnea, and crackles. Is the patient's liver tender or palpable? Does he have peripheral edema?

» READ BOOK EXCERPT ONLINE »

Source: Nursing: Interpreting Signs and Symptoms, 2007

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