Abstracts
Background:
Previous studies indicate that compared with physical examination, Doppler echocardiography identifies a larger number of cases of rheumatic heart disease in apparently healthy individuals.
Objectives:
To determine the prevalence of rheumatic heart disease among students in a public school of Belo Horizonte by clinical evaluation and Doppler echocardiography.
Methods:
This was a cross-sectional study conducted with 267 randomly selected school students aged between 6 and 16 years. students underwent anamnesis and physical examination with the purpose of establishing criteria for the diagnosis of rheumatic fever. They were all subjected to Doppler echocardiography using a portable machine. Those who exhibited nonphysiological mitral regurgitation (MR) and/or aortic regurgitation (AR) were referred to the Doppler echocardiography laboratory of the Hospital das Clínicas of the Universidade Federal of Minas Gerais (HC-UFMG) to undergo a second Doppler echocardiography examination. According to the findings, the cases of rheumatic heart disease were classified as definitive, probable, or possible.
Results:
Of the 267 students, 1 (0.37%) had a clinical history compatible with the diagnosis of acute rheumatic fever (ARF) and portable Doppler echocardiography indicated nonphysiological MR and/or AR in 25 (9.4%). Of these, 16 (6%) underwent Doppler echocardiography at HC-UFMG. The results showed definitive rheumatic heart disease in 1 student, probable rheumatic heart disease in 3 students, and possible rheumatic heart disease in 1 student.
Conclusion:
In the population under study, the prevalence of cases compatible with rheumatic involvement was 5 times higher on Doppler echocardiography (18.7/1000; 95% CI 6.9/1000-41.0/1000) than on clinical evaluation (3.7/1000-95% CI).
Rheumatic Fever / epidemiology; Prevalence; Rheumatic Heart Disease; Heart Valves; Echocardiography, Doppler
Fundamento:
Estudos indicam que o Doppler ecocardiograma possibilita a identificação de um maior número de casos de valvopatia reumática, quando comparado ao exame clínico, em indivíduos aparentemente saudáveis.
Objetivos:
Determinar a prevalência de valvopatia sugestiva de envolvimento reumático segundo as avaliações clínicas e Doppler ecardiográficas em alunos de escola pública de Belo Horizonte.
Métodos:
Estudo transversal realizado com 267 escolares entre 6 e 16 anos, selecionados de forma aleatória. Os alunos foram submetidos à anamnese e exame físico com o objetivo de estabelecer critérios prévios para o diagnóstico de febre reumática. Todos realizaram o estudo Doppler ecocardiográfico com o emprego de um aparelho portátil. Aqueles que apresentaram regurgitação valvar mitral (RM) e ou aórtica (RAo) sugestiva de não fisiológica foram encaminhados ao laboratório de Doppler ecocardiografia do Hospital das Clínicas da Universidade Federal de Minas Gerais (HC-UFMG) para a realização de novo estudo. Conforme os achados, os casos de valvopatia reumática foram classificados em definitiva, provável e possível.
Resultados:
Dos 267 escolares, um (0,37%) apresentou história compatível com o diagnóstico de febre reumática aguda (FRA), 25 (9,4%) apresentaram RM e/ou RAo consideradas não fisiológicas ao Doppler ecocardiograma portátil. Destes, 16 (6%) realizaram Doppler ecocardiograma no HC-UFMG, sendo evidenciadas: valvopatia reumática definitiva em um escolar; valvopatia reumática provável em três; valvopatia reumática possível em um escolar.
Conclusão:
Na população estudada a prevalência de casos compatíveis com envolvimento reumático foi cinco vezes maior ao Doppler ecocardiograma (18,7/1000 - IC 95%, 6,9/1000 - 41,0/1000) em relação à avaliação clínica (3,7/1000 - IC 95%).
Febre Reumática / epidemiologia; Prevalência; Cardiomiopatia Reumática; Valvas Cardíacas; Ecocardiograma Doppler
Introduction
Acute rheumatic fever (ARF) has an extremely variable clinical presentation, ranging from mild cases with few clinical symptoms to severe and fulminant cases. Rheumatic carditis is the most important and severe manifestation of this disease because it can cause irreversible and often disabling valvular damage, which can progress to chronic rheumatic heart disease (CRHD)11 Carapetis JR, Steer AC, Mulholland EK, Weber M. The global burden of group A streptococcal diseases. Lancet Infect Dis. 2005;5(11):685-94.. According to the World Health Organization (WHO), CRHD affects 15.6-19.6 million people worldwide and causes 233,000 to 492,000 deaths per year11 Carapetis JR, Steer AC, Mulholland EK, Weber M. The global burden of group A streptococcal diseases. Lancet Infect Dis. 2005;5(11):685-94. , 22 Steer AC, Carapetis JR, Nolan TM, Shann F. Systematic review of rheumatic heart disease prevalence in children in developing countries: the role of environmentals factors. J Paediatr Child Health. 2002;38(3):229-34..
ARF can be prevented by early detection and adequate treatment of streptococcal pharyngotonsillitis33 Del Mar CB, Glasziou PP, Spinks AB. Antibiotics for sore throat. Cochrane Database Syst Rev. 2000;(4):CD000023.. Similarly, the progression of rheumatic valvular lesions can be minimized through secondary prophylaxis predominantly with the regular administration of penicillin G benzathine44 Feinstein AR, Stern EK, Spagnuolo M. The prognosis of acute rheumatic fever. Am Heart J. 1964;68:817-34. , 55 Carapetis JR, Currie BJ. Clinical epidemiology of rheumatic fever and heart disease in tropical Australia. Adv Exp Med Biol. 1997;418:233-6..
The use of color-flow Doppler echocardiography has been deemed adequate for the
evaluation of rheumatic valvular lesions11 Carapetis JR, Steer AC, Mulholland EK, Weber M. The global burden of
group A streptococcal diseases. Lancet Infect Dis.
2005;5(11):685-94.
,
66 World Health Organization (WHO). Rheumatic fever and rheumatic heart
disease: report of a WHO expert consultation on rheumatic fever and rheumatic heart
disease. Geneva; 2001.
7 Folger GM Jr, Hajar R, Robida A, Hajar HA. Occurrence of valvular heart
disease in acute rheumatic fever without evident carditis: color-flow Doppler
identification. Br Heart J. 1992;67(6):434-8.
-
88 Saxena A, Ramakrishna S, Roy A, Seth S, Krishnan A, Puneet M, et al.
Prevalence and outcome of subclinical rheumatic heart disease in India: the RHEUMATIC
(Rheumatic Heart Echo Utilisation and Monitoring Actuarial Trends in Indian Children)
study. Heart. 2011;97(24):2018-22.. Similarly, screening studies using a portable
machine in students of several countries have also shown a higher frequency of
subclinical heart disease indicative of rheumatic valvular lesions99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6.
10 Carapetis JR, Hardy M, Fakakovikaetau T, Taib R, Wilkinson L, Penny DJ,
et al. Evaluation of a screening protocol using auscultation and portable
echocardiography to detect asymptomatic rheumatic heart disease in Togan
schoolchildren. Nat Clin Prac Cardiovasc Med. 2008;5(7):411-7.
11 Meira ZM, Goulart EM, Mota Cde C. [Comparative study of clinical and
Doppler echocardiographic evaluations of the progression of valve diseases in
children and adolescents with rheumatic fever]. Arq Bras Cardiol.
2006;86(1):32-8.
-
1212 Paar JA, Berrios NM, Rose JD, Cáceres M, Peña R, Pérez W, et al.
Prevalence of rheumatic heart disease in children and young adults in Nicaragua. Am J
Cardiol. 2010;105(12):1809-14..
The present study aimed to assess the prevalence of rheumatic heart disease according to physical examination and Doppler echocardiography in students of a public school of Belo Horizonte, MG.
Methods
This was a cross-sectional study conducted in a municipal school of the city of Belo Horizonte, MG, between May 2010 and November 2011. The Research Ethics Committee of UFMG and the Municipal Secretariat of Education approved this study.
The population studied comprised 267 students aged between 6 and 16 years. They were randomly selected and all students and/or their parents/legal guardians provided informed consent. The parents/legal guardians were contacted by post, and the letter contained information on the study and a questionnaire on signs and symptoms indicative of rheumatic fever, such as those associated with carditis, chorea, polyarthritis, arthralgia, and fever. The presence of parents at school was not possible. The students were interviewed, subjected to anamnesis and the physical examination performed by 1 of the researchers to establish the existence of previous criteria for the diagnosis of ARF with or without changes on chest auscultation, according to the Jones criteria66 World Health Organization (WHO). Rheumatic fever and rheumatic heart disease: report of a WHO expert consultation on rheumatic fever and rheumatic heart disease. Geneva; 2001..
Subsequently, on the same day, the students underwent Doppler echocardiography using an Acuson(r) (CV-Cypress) portable machine with a 3U2c probe. This procedure was performed in the school by a second researcher who was blinded to the findings of the previous anamnesis and the physical examination. This procedure was aimed to provide a diagnostic screening and assess the presence and the degree of AoR and MR, in at least 2 distinct planes. Changes indicative of rheumatic heart disease were analyzed according to the criteria defined by WHO/2004 to identify lesions, even if mild, and distinguish them from physiological findings66 World Health Organization (WHO). Rheumatic fever and rheumatic heart disease: report of a WHO expert consultation on rheumatic fever and rheumatic heart disease. Geneva; 2001. , 1313 Minich LL, Tani LY, Pagotto LT, Shaddy RE, Veasy LG. Doppler echocardiography distinguishes between physiologic and pathologic "silent" mitral regurgitation in patients with rheumatic fever. Clin Cardiol. 1997;20(11):924-6.. After this assessment, the students who exhibited changes indicative of rheumatic valvular involvement were referred to the echocardiography laboratory of the Hospital das Clínicas of the Universidade Federal of Minas Gerais (HC-UFMG) for a more detailed evaluation. A Philips IE 3 device and commercially available hardware and software were used as well as multichannel electronic high-frequency resolution transducers (3.0-8.0 MHz). The same researcher who performed the screening test also performed this test. The tests were recorded in DVD and later analyzed by 2 additional experienced examiners, who were blinded to the clinical history and previously observed Doppler echocardiographic changes. The examiners issued their opinions regarding the findings and classified the changes as either physiological or pathological.
The presence of MR and/or AoR observed in at least 2 distinct planes and associated with the following changes was considered as valvular lesions indicative of rheumatic valvular involvement1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al. Optimising echocardiographic screening for rheumatic heart disease in New Zealand: not all valve disease is rheumatic. Cardiol Young. 2011;21(4):436-43.:
-
Length of regurgitation jet > 2.0 cm for MR and > 1.0 cm for AoR
-
Pansystolic and pandiastolic regurgitation jet
-
Regurgitation jet velocity > 3 m/s
Associated or not with morphological changes:
-
Thickening of the mitral valve leaflets > 4 mm
-
Thickening of the mitral subvalvular apparatus
-
Narrowing of the mitral and/or aortic valve opening.
The regurgitations were defined as physiological when the Doppler echocardiography findings of mitral and/or aortic valvular dysfunction did not meet the criteria described above.
The diagnosis of subclinical rheumatic valvular involvement was made when there were no changes on cardiac auscultation suggesting valvular regurgitation but the Doppler echocardiography showed MR and/or AoR with nonphysiological characteristics, with or without the thickening and restriction of valvular mobility. The test to define these characteristics was performed by 1 of the researchers and assessed by 2 other experienced examiners. Only those cases in which there was agreement between the 3 examiners were considered.
After the assessment of the characteristics of valvular involvement, the students were distributed into 3 groups according to the classification shown in Table 1 1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al. Optimising echocardiographic screening for rheumatic heart disease in New Zealand: not all valve disease is rheumatic. Cardiol Young. 2011;21(4):436-43..
Classification of the clinical and Doppler echocardiography findings according to criteria cases of used to identify definitive, probable, and possible rheumatic heart disease1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al. Optimising echocardiographic screening for rheumatic heart disease in New Zealand: not all valve disease is rheumatic. Cardiol Young. 2011;21(4):436-43.
Figure 1 shows the sequence of evaluations performed on the selected school population.
Students with valvular changes consistent with rheumatic involvement were referred to the Rheumatic Fever Outpatient Clinic of HC-UFMG for monitoring and/or prescription of secondary prophylaxis.
Statistical Analysis
Data were stored in a database that was created for the study using the Excel software. Data validation was performed through descriptive analysis and the results were presented in the form of graphs and tables; the absolute values and percentages were determined for the qualitative variables and the mean (standard deviation) and median were calculated for the quantitative variables. The analysis was performed using SPSS version 13.0 software.
Results
Of the 267 students assessed, 140 (52.4%) were girls. Age ranged between 6 and 16 years (median: 13 years) and the majority were aged between 13 and 14 years (55.1%). Eight (3%) individuals had a history of heart disease; however, only 1 had RF, having presented 1 major and 2 minor manifestations of Jones criteria during the acute phase (carditis, arthralgia, and fever).
During the physical examination, 28 students (10.5%) exhibited murmur on cardiac auscultation. Of these, 26 were characterized as innocent. One student exhibited regurgitation murmur compatible with the diagnosis of interventricular communication and another exhibited mitral and aortic regurgitation murmurs.
Doppler echocardiography performed at the school with a portable machine showed that 23 (8.6%) of students had mild MR and 2 (0.8%) had combined MR and AoR. Of the latter, 1 had mild MR and AoR, with characteristics defined as nonphysiological, and the other had moderate MR and AoR. No lesions indicative of physiological AoR and/or aortic stenosis were observed.
Of the 23 students in whom Doppler echocardiography showing valvular regurgitation, 16 went to the HC-UFMG to undergo a new test to confirm the findings of the screening test. Of these, only 1 (6.2%) exhibited moderate MR and AoR, with thickening of both valves, in addition to the decreased mobility of the posterior leaflet and dome opening of the anterior leaflet of the mitral valve. Among the remaining students, 1 (6.2%) had mild degree combined MR and AoR, with normal valvular morphology and 3 (18.7%) exhibited isolated MR with thickening of the mitral valve. No student showed valvular stenosis.
Figure 2 shows the flow chart used to identify cases of rheumatic heart disease in a public school of Belo Horizonte.
Table 2 shows the frequency distribution of diagnoses of mitral and aortic valvular disease indicative of rheumatic involvement according to clinical findings and Doppler echocardiography performed in HC-UFMG.
Frequency distribution of diagnoses of mitral and aortic valvular disease indicative of rheumatic involvement according to clinical evaluations and Doppler echocardiography performed at the Hospital das Clinicas of UFMG (absolute frequency/267*1000)
The frequency of valvular changes consistent with rheumatic involvement was higher on Doppler echocardiography than on physical examination (5 times higher for MR and 2 times higher for AoR).
Graph 1 shows the frequency of diagnosis of cases with nonphysiological MR and AoR according to physical examination and Doppler echocardiography.
Frequency of diagnosis of cases with nonphysiological MR and AoR according to clinical evaluation and Doppler echocardiography performed at HC-UFMG, considering the 267 students assessed (absolute frequency/267*1000).
According to the clinical exanimation, the prevalence of clinically observed heart disease (MR and AoR murmurs) was 1 case (prevalence of 3.7/1000). However, Doppler echocardiography assessment showed nonphysiological AoR in 2 students (prevalence of 7.5/1000 CI 95%, 1.2/1000-24.5/1000) and nonphysiological MR in 5 students (prevalence of 18.7/1000, CI 95% 6.9/1000-41.0/1000).
The images of Doppler echocardiography performed on the students at HC-UFMG are shown below. (Figures 3, 4, and 5)
Image of the Doppler echocardiography of a patient diagnosed with definitive rheumatic heart disease.
Image of the Doppler echocardiography of a patient diagnosed with probable rheumatic heat disease
Image of the Doppler echocardiography of a patient diagnosed with possible rheumatic heart disease.
Discussion
Diagnosis of carditis in ARF traditionally depends on changes observed on cardiac
auscultation, such as the occurrence or exacerbation of a MR and/or AoR murmurs, with
possible signs and symptoms of heart failure and/or findings suggestive of pericarditis,
in addition to chest X-ray and electrocardiographic findings55 Carapetis JR, Currie BJ. Clinical epidemiology of rheumatic fever and
heart disease in tropical Australia. Adv Exp Med Biol.
1997;418:233-6.
,
66 World Health Organization (WHO). Rheumatic fever and rheumatic heart
disease: report of a WHO expert consultation on rheumatic fever and rheumatic heart
disease. Geneva; 2001.
,
1515 Barbosa PJ, Müller RE, Latado AL, Achutti AC, Ramos AI, Weksler C, et
al.; Sociedade Brasileira de Cardiologia / Sociedade Brasileira de Pediatria /
Sociedade Brasileira de Reumatologia. Diretrizes brasileiras para o diagnóstico,
tratamento e prevenção da febre reumática. Arq Bras Cardiol. 2009;93(3
supl.4):1-18.
16 Taranta A, Kleinberg E, Feinstein AR, Wood HF, Tursky E, Simpson R.
Rheumatic fever in children and adolescents: a long-term epidemiologic study of
subsequent prophylaxis, streptococcal infections, and clinical sequelae, V: relation
of the rheumatic fever recurrence rate per streptococcal infection to preexisting
clinical features of the patients. Ann Intern Med. 1964;60(Part
5):58-67.
-
1717 Jones TD. The diagnosis of rheumatic fever. JAMA.
1944;126(8):481-4.. However, regurgitation murmurs are not always
present or accurately detected, especially those of the mitral valve. A study conducted
by Vijayalakshmi et al1818 Vijayalakshmi IB, Vishnuprabhu RO, Chitra N, Rajasri R, Anuradha TV. The
efficacy of echocardiographic criterions for the diagnosis of carditis in cute
rheumatic fever. Cardiol Young. 2008;18(6):586-92. involved 108 patients
with Doppler echocardiography findings consistent with valvitis who did not have related
cardiac auscultatory findings, and only 56 of the 108 patients were diagnosed with ARF,
according to the Jones criteria1717 Jones TD. The diagnosis of rheumatic fever. JAMA.
1944;126(8):481-4.
,
1818 Vijayalakshmi IB, Vishnuprabhu RO, Chitra N, Rajasri R, Anuradha TV. The
efficacy of echocardiographic criterions for the diagnosis of carditis in cute
rheumatic fever. Cardiol Young. 2008;18(6):586-92.. It is estimated that
more than 70% patients diagnosed with chronic rheumatic carditis (CRC) do not receive
secondary prophylaxis because they do not show clinical manifestations of ARF1616 Taranta A, Kleinberg E, Feinstein AR, Wood HF, Tursky E, Simpson R.
Rheumatic fever in children and adolescents: a long-term epidemiologic study of
subsequent prophylaxis, streptococcal infections, and clinical sequelae, V: relation
of the rheumatic fever recurrence rate per streptococcal infection to preexisting
clinical features of the patients. Ann Intern Med. 1964;60(Part
5):58-67.. Clinical evaluation by even experienced
clinicians may not diagnose carditis, especially subclinical valvitis because there is
no definitive laboratory test that establishes this diagnosis1616 Taranta A, Kleinberg E, Feinstein AR, Wood HF, Tursky E, Simpson R.
Rheumatic fever in children and adolescents: a long-term epidemiologic study of
subsequent prophylaxis, streptococcal infections, and clinical sequelae, V: relation
of the rheumatic fever recurrence rate per streptococcal infection to preexisting
clinical features of the patients. Ann Intern Med. 1964;60(Part
5):58-67..
Several studies have proposed the implementation of Doppler echocardiography for the
diagnosis of CRC in suspected cases without history of the acute phase, in which only
valvular sequelae are observed77 Folger GM Jr, Hajar R, Robida A, Hajar HA. Occurrence of valvular heart
disease in acute rheumatic fever without evident carditis: color-flow Doppler
identification. Br Heart J. 1992;67(6):434-8.
,
99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6.
,
1212 Paar JA, Berrios NM, Rose JD, Cáceres M, Peña R, Pérez W, et al.
Prevalence of rheumatic heart disease in children and young adults in Nicaragua. Am J
Cardiol. 2010;105(12):1809-14.
,
1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al.
Optimising echocardiographic screening for rheumatic heart disease in New Zealand:
not all valve disease is rheumatic. Cardiol Young.
2011;21(4):436-43.
,
1818 Vijayalakshmi IB, Vishnuprabhu RO, Chitra N, Rajasri R, Anuradha TV. The
efficacy of echocardiographic criterions for the diagnosis of carditis in cute
rheumatic fever. Cardiol Young. 2008;18(6):586-92.
19 Vasan RS, Selvaraj N. Natural history of acute rheumatic fever. In:
Narula J, Virmani R, Reddy KS, Tandon R. Rheumatic fever. Washington: American
Registry of Pathology; 1999. p. 347-58.
20 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Sidi D, et al.
Echocardiographic screening for rheumatic heart disease. Bull World Health Organ.
2008;86(2):84.
21 Pastore S, De Cunto A, Benettoni A, Berton E, Taddio A, Lepore L. The
resurgence of rheumatic fever in a developed country area: the role of
echocardiography. Rheumatogy (Oxford). 2011;50(2):396-400.
-
2222 Vasan RS, Shrivastava S, Vijayakumar M, Narang R, Lister BC, Narula J.
Echocardiographic evaluation of patients with acute rheumatic fever and rheumatic
carditis. Circulation. 1996;94(1):73-82.. However, the exclusive use of this method for the diagnosis of CRC in
individuals without a clinical history of ARF and without apparent cardiac involvement
is still controversial. This is mainly because there is a risk of abusive use of Doppler
echocardiography testing for this purpose and because its use by less experienced
examiners can lead to excessive diagnoses and unnecessary exposure to secondary
prophylaxis77 Folger GM Jr, Hajar R, Robida A, Hajar HA. Occurrence of valvular heart
disease in acute rheumatic fever without evident carditis: color-flow Doppler
identification. Br Heart J. 1992;67(6):434-8.
,
1818 Vijayalakshmi IB, Vishnuprabhu RO, Chitra N, Rajasri R, Anuradha TV. The
efficacy of echocardiographic criterions for the diagnosis of carditis in cute
rheumatic fever. Cardiol Young. 2008;18(6):586-92.. Many authors have presented studies using portable Doppler
echocardiography to perform screening tests, mainly in students, to screen subclinical
cases of rheumatic valvular involvement without clinical expression77 Folger GM Jr, Hajar R, Robida A, Hajar HA. Occurrence of valvular heart
disease in acute rheumatic fever without evident carditis: color-flow Doppler
identification. Br Heart J. 1992;67(6):434-8.
,
99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6.
,
1010 Carapetis JR, Hardy M, Fakakovikaetau T, Taib R, Wilkinson L, Penny DJ,
et al. Evaluation of a screening protocol using auscultation and portable
echocardiography to detect asymptomatic rheumatic heart disease in Togan
schoolchildren. Nat Clin Prac Cardiovasc Med. 2008;5(7):411-7.
,
2020 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Sidi D, et al.
Echocardiographic screening for rheumatic heart disease. Bull World Health Organ.
2008;86(2):84.
,
2323 BA-Saddik IA, Munibari AA, Al-Nageeb MS, Parry CM, Hart CA, Cuevas LE,
et al. Prevalence of rheumatic heart disease among school children in Aden, Yemen.
Ann Trop Paediatr. 2011;31(1):37-46.
24 Bolormaa T, Tsogtochir C. Diagnosis of rheumatic carditis in Mongolian
children. Crit Ultrasound J. 2011;3:63-6.
25 Reeves BM, Kado J, Brook M. High prevalence of rheumatic heart disease
in Fiji detected by echocardiography screening. J Pediatr Child Health.
2011;47(7):473-8.
26 Misra M, Mitral M, Singh R, Verma A, Rai R, Chandra G, et al. Prevalence
of rheumatic heart disease in school goint children of Eastern Uttar Pradesh. Indian
Heart J. 2007;59(1):42-3.
-
2727 Jose VJ, Gomathi M. Declining prevalence of rheumatic heart disease in
rural schoolchildren in India: 2001-2002. Indian Heart J.
2003;55(2):158-62..
In the present study, of the 267 students evaluated in the school, only 1 (0.4%) was
diagnosed with CRC through anamnesis (history of carditis, arthralgia, and fever) and
the physical examination (presence of mitral and aortic regurgitation murmurs). On the
other hand, with the use of the portable Doppler echocardiography machine, mild MR was
detected in 23 cases (8.6%) and mild aortic regurgitation was detected in 1 case (0.4%),
with characteristics defined as nonphysiological. Only the student who had a previous
history of FRA exhibited moderate MR and AoR. It was thus possible to conclude that the
Doppler echocardiographic study was more effective than physical examination in the
identification of valvular dysfunction, as had already been demonstrated in several
studies of valvular disease screening in students99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6.
,
1010 Carapetis JR, Hardy M, Fakakovikaetau T, Taib R, Wilkinson L, Penny DJ,
et al. Evaluation of a screening protocol using auscultation and portable
echocardiography to detect asymptomatic rheumatic heart disease in Togan
schoolchildren. Nat Clin Prac Cardiovasc Med. 2008;5(7):411-7.
,
1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al.
Optimising echocardiographic screening for rheumatic heart disease in New Zealand:
not all valve disease is rheumatic. Cardiol Young.
2011;21(4):436-43.
,
2323 BA-Saddik IA, Munibari AA, Al-Nageeb MS, Parry CM, Hart CA, Cuevas LE,
et al. Prevalence of rheumatic heart disease among school children in Aden, Yemen.
Ann Trop Paediatr. 2011;31(1):37-46.
24 Bolormaa T, Tsogtochir C. Diagnosis of rheumatic carditis in Mongolian
children. Crit Ultrasound J. 2011;3:63-6.
25 Reeves BM, Kado J, Brook M. High prevalence of rheumatic heart disease
in Fiji detected by echocardiography screening. J Pediatr Child Health.
2011;47(7):473-8.
26 Misra M, Mitral M, Singh R, Verma A, Rai R, Chandra G, et al. Prevalence
of rheumatic heart disease in school goint children of Eastern Uttar Pradesh. Indian
Heart J. 2007;59(1):42-3.
-
2727 Jose VJ, Gomathi M. Declining prevalence of rheumatic heart disease in
rural schoolchildren in India: 2001-2002. Indian Heart J.
2003;55(2):158-62..
Studies conducted during the last decade used Doppler echocardiography for the validation of the clinical diagnosis of CRC and demonstrated a prevalence of 0.6-0.8/10002525 Reeves BM, Kado J, Brook M. High prevalence of rheumatic heart disease in Fiji detected by echocardiography screening. J Pediatr Child Health. 2011;47(7):473-8. , 2626 Misra M, Mitral M, Singh R, Verma A, Rai R, Chandra G, et al. Prevalence of rheumatic heart disease in school goint children of Eastern Uttar Pradesh. Indian Heart J. 2007;59(1):42-3., similar to that obtained with clinical diagnosis reported in the study by Saxena et al88 Saxena A, Ramakrishna S, Roy A, Seth S, Krishnan A, Puneet M, et al. Prevalence and outcome of subclinical rheumatic heart disease in India: the RHEUMATIC (Rheumatic Heart Echo Utilisation and Monitoring Actuarial Trends in Indian Children) study. Heart. 2011;97(24):2018-22.. More recent studies have shown that the prevalence of valvular disease indicative of rheumatic involvement identified using Doppler echocardiography is 5-10 times higher than that identified on physical examination99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al. Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl J Med. 2007;357(5):470-6. , 1212 Paar JA, Berrios NM, Rose JD, Cáceres M, Peña R, Pérez W, et al. Prevalence of rheumatic heart disease in children and young adults in Nicaragua. Am J Cardiol. 2010;105(12):1809-14. , 1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al. Optimising echocardiographic screening for rheumatic heart disease in New Zealand: not all valve disease is rheumatic. Cardiol Young. 2011;21(4):436-43..
A similar observation was made in the present study. Among the 16 students referred for
more detailed Doppler echocardiography at HC-UFMG, only 1 (6.25%), with cardiac
auscultatory findings showing significant MR and AoR murmurs had moderate MR and AoR in
addition to valvular morphology changes. Of the 15 students with normal cardiac
auscultation, 1 (6.25%) had nonphysiological combined mild MR and AoR and 3 (18.75%) had
nonphysiological isolated mild MR in addition to valvular morphology changes. Therefore,
the frequency of valvular changes consistent with rheumatic disease was 5 times higher
on Doppler echocardiography evaluation (18.7/1000, 95% CI 6.9/1000-41.0/1000) than on
clinical evaluation (3.7/1000); moreover, it was higher with for MR (18.7/1000, 95% CI
6.9/1000-41.0/1000) than for AoR (7.5/1000, 95% CI 1.2/1000-24.5/1000). In previous
screening studies with students this distinction between the frequency of involvement of
mitral and aortic valves had not been made22 Steer AC, Carapetis JR, Nolan TM, Shann F. Systematic review of
rheumatic heart disease prevalence in children in developing countries: the role of
environmentals factors. J Paediatr Child Health. 2002;38(3):229-34.
,
1010 Carapetis JR, Hardy M, Fakakovikaetau T, Taib R, Wilkinson L, Penny DJ,
et al. Evaluation of a screening protocol using auscultation and portable
echocardiography to detect asymptomatic rheumatic heart disease in Togan
schoolchildren. Nat Clin Prac Cardiovasc Med. 2008;5(7):411-7.
,
1818 Vijayalakshmi IB, Vishnuprabhu RO, Chitra N, Rajasri R, Anuradha TV. The
efficacy of echocardiographic criterions for the diagnosis of carditis in cute
rheumatic fever. Cardiol Young. 2008;18(6):586-92.
,
2323 BA-Saddik IA, Munibari AA, Al-Nageeb MS, Parry CM, Hart CA, Cuevas LE,
et al. Prevalence of rheumatic heart disease among school children in Aden, Yemen.
Ann Trop Paediatr. 2011;31(1):37-46.
24 Bolormaa T, Tsogtochir C. Diagnosis of rheumatic carditis in Mongolian
children. Crit Ultrasound J. 2011;3:63-6.
25 Reeves BM, Kado J, Brook M. High prevalence of rheumatic heart disease
in Fiji detected by echocardiography screening. J Pediatr Child Health.
2011;47(7):473-8.
26 Misra M, Mitral M, Singh R, Verma A, Rai R, Chandra G, et al. Prevalence
of rheumatic heart disease in school goint children of Eastern Uttar Pradesh. Indian
Heart J. 2007;59(1):42-3.
-
2727 Jose VJ, Gomathi M. Declining prevalence of rheumatic heart disease in
rural schoolchildren in India: 2001-2002. Indian Heart J.
2003;55(2):158-62..
On the basis of screening test performed in students, Marijon et al2828 Marijon E, Celermajer DS, Tafflet M, EL-Haout S, Jani DN, Ferreira B, et al. Rheumatic heart disease screening echocardiography: the inadequacy of World Heart Organization criteria for optimizing the diagnosis of subclinical disease. Circulation. 2009;120(8):663-8., added morphological criteria for valvular structure to the already existing Doppler criteria used to diagnose subclinical CRC in populations with high ARF prevalence. They concluded that with this addition there was a better characterization of valvular lesions consistent with rheumatic disease, allowing a more careful diagnosis and with a lower risk of loss of subclinical cases2828 Marijon E, Celermajer DS, Tafflet M, EL-Haout S, Jani DN, Ferreira B, et al. Rheumatic heart disease screening echocardiography: the inadequacy of World Heart Organization criteria for optimizing the diagnosis of subclinical disease. Circulation. 2009;120(8):663-8.. In the present study, among the 22 patients with normal cardiac auscultatory findings and MR and/or AoR detected with the portable Doppler echocardiograph, 3 (13.6%) exhibited alterations of the mitral valvular morphology. No individual showed changes in the morphology of the aortic valve, as was described by Marijon et al (2009)2828 Marijon E, Celermajer DS, Tafflet M, EL-Haout S, Jani DN, Ferreira B, et al. Rheumatic heart disease screening echocardiography: the inadequacy of World Heart Organization criteria for optimizing the diagnosis of subclinical disease. Circulation. 2009;120(8):663-8..
Marijon et al99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6. suggested that the use of Doppler
echocardiography screening allows CRC epidemiology to be redefined with regard to its
identification. They stated that the early diagnosis of CRC and initiation of penicillin
prophylaxis can decrease the clinical impact of the disease99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6.. However, they propose that long-term monitoring of individuals
with a diagnosis indicative of rheumatic heart disease is necessary, considering the
estimates made in previous studies that indicate a favorable evolution in patients with
subclinical valvitis1111 Meira ZM, Goulart EM, Mota Cde C. [Comparative study of clinical and
Doppler echocardiographic evaluations of the progression of valve diseases in
children and adolescents with rheumatic fever]. Arq Bras Cardiol.
2006;86(1):32-8.
,
2929 Bland EF, Duckett Jones T. Rheumatic fever and rheumatic heart disease:
a twenty year report of 1000 patients followed since childhood. Circulation.
1951;4:836-843.
30 Yavuz T, Nisli K, Oner N, Dindar A, Aydogan U, Omeroglu RE, et al. Long
term follow-up results of 139 Turkish children and adolescents with rheumatic heart
disease. EUR J Pediatr. 2008;167(11):1321-6.
31 Araújo FD. Uso da ecocardiografia Doppler na análise evolutiva da
cardiopatia reumática e no suporte à decisão de suspender a profilaxia secundária de
pacientes com febre reumática. [Dissertação]. Belo Horizonte: Faculdade de Medicina
da UFMG; 2012.
32 Vijayalakshmi IB, Mithravinda J, Deva AN. The role of echocardiography
in diagnosing carditis in the setting of acute rheumatic fever. Cardiol Young.
2005;15(6):583-8.
-
3333 Meira ZM, Goulart EM, Araújo FD, Capuruço CA, Mota CC. Influência dos
surtos de recidiva da febre reumática no desenvolvimento de valvopatia crônica em
crianças e adolescentes. Revista Médica de Minas Gerais.
2008;18(4):236-42..
In a study conducted in New Zealand involving 1142 children, Webb et al1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al. Optimising echocardiographic screening for rheumatic heart disease in New Zealand: not all valve disease is rheumatic. Cardiol Young. 2011;21(4):436-43. observed that the use of Doppler echocardiography screening, as a method complementary to physical examination, is very important for a more accurate diagnosis. Valvular lesions, excluding congenital or physiological causes, can indicate rheumatic involvement and favor the use of secondary prophylaxis. The authors concluded that Doppler echocardiography is more sensitive and specific than cardiac auscultation in the detection of nonphysiological MR, without correspondence with clinical examination. In our study we observed a similar finding: higher prevalence of mitral and aortic valvular disease indicative of rheumatic involvement with the use of Doppler echocardiographic criteria than with the exclusive use of clinical criteria.
According to WHO66 World Health Organization (WHO). Rheumatic fever and rheumatic heart disease: report of a WHO expert consultation on rheumatic fever and rheumatic heart disease. Geneva; 2001., in regions where ARF is endemic, Doppler echocardiography should be performed routinely in cases with suspected cardiac changes indicative of rheumatic involvement, even without associated clinical evidence. Moreover, it recommends that those patients should be followed until a different diagnosis is made66 World Health Organization (WHO). Rheumatic fever and rheumatic heart disease: report of a WHO expert consultation on rheumatic fever and rheumatic heart disease. Geneva; 2001.. In the presence of valvular changes that are consistent with rheumatic disease but do not meet the criteria that confirm this etiology, patients should be monitored. In the reviewed literature, there is no consensus regarding practices to address these cases of subclinical valvular disease1212 Paar JA, Berrios NM, Rose JD, Cáceres M, Peña R, Pérez W, et al. Prevalence of rheumatic heart disease in children and young adults in Nicaragua. Am J Cardiol. 2010;105(12):1809-14. , 1414 Webb RH, Wilson NJ, Lennon DR, Wilson EM, Nicholson RW, et al. Optimising echocardiographic screening for rheumatic heart disease in New Zealand: not all valve disease is rheumatic. Cardiol Young. 2011;21(4):436-43. , 1717 Jones TD. The diagnosis of rheumatic fever. JAMA. 1944;126(8):481-4. , 3434 Steer AC, Kado J, Wilson N, Tuiketei T, Batzloff M, Waqatakirewa L, et al. High prevalence of rheumatic heart disease by clinical and echocardiographic screening among children in Fiji. J Heart Valve Dis. 2009;18(3):327-35. , 3535 Meira ZM, Goulart EM Colosimo EA, Mota CC. Long term follow up of rheumatic fever and predictors of severe rheumatic valvar disease in Brazilian children and adolescents. Heart. 2005;91(8):1019-22..
Limitations of the Study
Because this is a study of prevalence, the ideal would be to collect data in various
schools and of a larger number of students. However, the sample size was calculated
considering the prevalence of RF obtained in a clinical study also conducted in a
school in Belo Horizonte3636 Alves Meira ZM, de Castilho SR, Lins Barros MV, Maria Vitarelli A, Diniz
Capanema F, Moreira NS, et al. Prevalência da febre reumática em crianças de uma
escola pública de Belo Horizonte. Arq Bras Cardiol.
1995;65(4):331-4. and the higher
detection of valvular disease using Doppler echocardiography evaluation, according to
the results of several screening studies conducted in schools11 Carapetis JR, Steer AC, Mulholland EK, Weber M. The global burden of
group A streptococcal diseases. Lancet Infect Dis.
2005;5(11):685-94.
,
99 Marijon E, Ou P, Celermajer DS, Ferreira B, Mocumbi AO, Jani D, et al.
Prevalence of rheumatic heart disease detected by echocardiographic screening. N Engl
J Med. 2007;357(5):470-6.
,
1010 Carapetis JR, Hardy M, Fakakovikaetau T, Taib R, Wilkinson L, Penny DJ,
et al. Evaluation of a screening protocol using auscultation and portable
echocardiography to detect asymptomatic rheumatic heart disease in Togan
schoolchildren. Nat Clin Prac Cardiovasc Med. 2008;5(7):411-7.
,
2323 BA-Saddik IA, Munibari AA, Al-Nageeb MS, Parry CM, Hart CA, Cuevas LE,
et al. Prevalence of rheumatic heart disease among school children in Aden, Yemen.
Ann Trop Paediatr. 2011;31(1):37-46.
24 Bolormaa T, Tsogtochir C. Diagnosis of rheumatic carditis in Mongolian
children. Crit Ultrasound J. 2011;3:63-6.
25 Reeves BM, Kado J, Brook M. High prevalence of rheumatic heart disease
in Fiji detected by echocardiography screening. J Pediatr Child Health.
2011;47(7):473-8.
26 Misra M, Mitral M, Singh R, Verma A, Rai R, Chandra G, et al. Prevalence
of rheumatic heart disease in school goint children of Eastern Uttar Pradesh. Indian
Heart J. 2007;59(1):42-3.
-
2727 Jose VJ, Gomathi M. Declining prevalence of rheumatic heart disease in
rural schoolchildren in India: 2001-2002. Indian Heart J.
2003;55(2):158-62.
,
3737 Bhaya M, Panwar S, Beniwal R, Panwar RB. High prevalence of rheumatic
heart disease detected by echocardiography in schoool children. Echocardiography.
2010;27(4):448-53.
38 Ramakrishnan S. Echocardiography in acute rheumatic fever. Ann Pediatr
Cardiol. 2009;2(1):61-4.
39 Shrestha NK, Padmavati S. Prevalence of rheumatic heart disease in Delhi
school children. Indian J Med Res. 1979;69:821-33.
-
4040 Bhaya M, Panwar S, Beniwal R, Panwar RB. High prevalence of rheumatic
heart disease detected by echocardiography in schoool children. Echocardiography.
2010;27(4):448-53.. The study sample was selected centrally in a
single school.
Another limitation of the study was the number of students lost to follow up. Of the 23 students whose screening echocardiography showed nonphysiological MR and/or AoR, only 16 attended HC-UFMG for the confirmation of the findings. Therefore, the observed prevalence may have been underestimated.
Conclusion
The present study highlights the importance of Doppler echocardiography, over the physical examination, in the identification of cases of valvular lesions consistent with rheumatic involvement in students. In agreement with the assumption, a higher prevalence of nonphysiological MR and AoR was observed with the use of Doppler echocardiography criteria. In accordance with similar studies, this study identified 5 times more cases of rheumatic valvular disease, which enabled a careful follow-up of this cases and implementation of secondary prophylaxis. These measures decrease the risk of sequelae and the morbidity and mortality rates, which are still high in certain areas of our country.
The present study identified 1 case of definitive CRC and 4 cases of subclinical heart disease along with 3 cases of probable CRC and 1 case of possible CRC. Secondary prophylaxis was recommended for the cases of probable CRC, monitoring with primary prophylaxis was recommended for the case of possible CRC, and monitoring reinforcement and secondary prophylaxis was recommended for the case of definitive CRC.
-
Sources of FundingThere were no external funding sources for this study.
-
Study AssociationThis article is part of the thesis of master submitted by Lavinia Pimentel Miranda, from Universidade Federal de Minas Gerais.
-
Author contributionsConception and design of the research: Miranda LP, Camargos PAM, Torres RM, Meira ZMA; Acquisition of data: Miranda LP, Torres RM, Meira ZMA; Analysis and interpretation of the data: Miranda LP, Meira ZMA; Statistical analysis: Miranda LP, Camargos PAM; Writing of the manuscript: Miranda LP; Critical revision of the manuscript for intellectual content: Miranda LP, Camargos PAM, Meira ZMA.
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10Carapetis JR, Hardy M, Fakakovikaetau T, Taib R, Wilkinson L, Penny DJ, et al. Evaluation of a screening protocol using auscultation and portable echocardiography to detect asymptomatic rheumatic heart disease in Togan schoolchildren. Nat Clin Prac Cardiovasc Med. 2008;5(7):411-7.
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-
24Bolormaa T, Tsogtochir C. Diagnosis of rheumatic carditis in Mongolian children. Crit Ultrasound J. 2011;3:63-6.
-
25Reeves BM, Kado J, Brook M. High prevalence of rheumatic heart disease in Fiji detected by echocardiography screening. J Pediatr Child Health. 2011;47(7):473-8.
-
26Misra M, Mitral M, Singh R, Verma A, Rai R, Chandra G, et al. Prevalence of rheumatic heart disease in school goint children of Eastern Uttar Pradesh. Indian Heart J. 2007;59(1):42-3.
-
27Jose VJ, Gomathi M. Declining prevalence of rheumatic heart disease in rural schoolchildren in India: 2001-2002. Indian Heart J. 2003;55(2):158-62.
-
28Marijon E, Celermajer DS, Tafflet M, EL-Haout S, Jani DN, Ferreira B, et al. Rheumatic heart disease screening echocardiography: the inadequacy of World Heart Organization criteria for optimizing the diagnosis of subclinical disease. Circulation. 2009;120(8):663-8.
-
29Bland EF, Duckett Jones T. Rheumatic fever and rheumatic heart disease: a twenty year report of 1000 patients followed since childhood. Circulation. 1951;4:836-843.
-
30Yavuz T, Nisli K, Oner N, Dindar A, Aydogan U, Omeroglu RE, et al. Long term follow-up results of 139 Turkish children and adolescents with rheumatic heart disease. EUR J Pediatr. 2008;167(11):1321-6.
-
31Araújo FD. Uso da ecocardiografia Doppler na análise evolutiva da cardiopatia reumática e no suporte à decisão de suspender a profilaxia secundária de pacientes com febre reumática. [Dissertação]. Belo Horizonte: Faculdade de Medicina da UFMG; 2012.
-
32Vijayalakshmi IB, Mithravinda J, Deva AN. The role of echocardiography in diagnosing carditis in the setting of acute rheumatic fever. Cardiol Young. 2005;15(6):583-8.
-
33Meira ZM, Goulart EM, Araújo FD, Capuruço CA, Mota CC. Influência dos surtos de recidiva da febre reumática no desenvolvimento de valvopatia crônica em crianças e adolescentes. Revista Médica de Minas Gerais. 2008;18(4):236-42.
-
34Steer AC, Kado J, Wilson N, Tuiketei T, Batzloff M, Waqatakirewa L, et al. High prevalence of rheumatic heart disease by clinical and echocardiographic screening among children in Fiji. J Heart Valve Dis. 2009;18(3):327-35.
-
35Meira ZM, Goulart EM Colosimo EA, Mota CC. Long term follow up of rheumatic fever and predictors of severe rheumatic valvar disease in Brazilian children and adolescents. Heart. 2005;91(8):1019-22.
-
36Alves Meira ZM, de Castilho SR, Lins Barros MV, Maria Vitarelli A, Diniz Capanema F, Moreira NS, et al. Prevalência da febre reumática em crianças de uma escola pública de Belo Horizonte. Arq Bras Cardiol. 1995;65(4):331-4.
-
37Bhaya M, Panwar S, Beniwal R, Panwar RB. High prevalence of rheumatic heart disease detected by echocardiography in schoool children. Echocardiography. 2010;27(4):448-53.
-
38Ramakrishnan S. Echocardiography in acute rheumatic fever. Ann Pediatr Cardiol. 2009;2(1):61-4.
-
39Shrestha NK, Padmavati S. Prevalence of rheumatic heart disease in Delhi school children. Indian J Med Res. 1979;69:821-33.
-
40Bhaya M, Panwar S, Beniwal R, Panwar RB. High prevalence of rheumatic heart disease detected by echocardiography in schoool children. Echocardiography. 2010;27(4):448-53.
Publication Dates
-
Publication in this collection
Aug 2014
History
-
Received
01 June 2013 -
Reviewed
03 Nov 2013 -
Accepted
10 Dec 2013