The Use of Two-Dimensional Strain Measured by Speckle Tracking in the Identification of Incipient Ventricular Dysfunction in HIV-Infected Patients on Antiretroviral Therapy, Untreated HIV Patients and Healthy Controls

Rodrigues, Ronaldo Campos; Azevedo, Katia Martins Lopes de; Moscavitch, Samuel Datum; Setubal, Sergio; Mesquita, Claudio Tinoco

doi:10.5935/abc.20190169

Abstract

Background:

Most cardiovascular abnormalities in patients infected with the human immunodeficiency virus (HIV) have been associated with myocardial damage directly caused by the virus. Some cases, however, may be associated with adverse effects from antiretroviral therapy (ART). New ventricular function assessment techniques are capable of detecting early changes in the cardiac function of HIV-infected patients using or not using ART. The usefulness of these techniques has been little employed in these patients.

Objectives:

To investigate the potential influence of antiretroviral therapy (ART) on the occurrence of subclinical left ventricular systolic dysfunction evaluated by myocardial strain rate analysis using two-dimensional speckle tracking echocardiography (2-D Echo) in treated HIV patients compared to untreated patients and healthy individuals.

Methods:

Sixty-eight HIV-infected patients with no cardiovascular symptoms, normal left ventricular (LV) ejection fraction (> 0.55 on 2-D Echo) were divided into three groups: 11 patients not using antiretroviral therapy (NT), 24 using protease inhibitor (PI) and 33 using non-nucleoside reverse transcriptase inhibitor (NNRTI). We also studied 30 normal non-HIV infected individuals (Ctrl). Demographic, clinical, biochemical and anthropometric data were collected. Preliminary transthoracic echocardiography included study of myocardial strain using two-dimensional speckle tracking. We studied strain and strain rate in the seventeen left ventricular (LV) myocardial segments in the longitudinal, circumferential and radial axes. Statistical analysis of the data was done with IBM SPSS - version 20 for Windows. Upon analysis of the data, namely the normality of independent variables in the different groups and the homogeneity of the variances between the groups, Kruskal-Wallis’ non-parametric test was done, followed by Dunn’s multiple comparison tests to test the significance of the differences between the values measured in the study groups. A significance level of 5% was adopted for decision-making on statistical tests.

Results:

The mean age of HIV patients was 40 ± 8.65 years and the mean age of controls was 50 ± 11.6 years (p < 0.001). Median LV global longitudinal strain (GLS) of NT patients (-17.70%), PI patients (-18.27%) and NNRTIs (-18.47%) were significantly lower than that of the Ctrl group (-20.77%; p = 0.001). There was no significant difference in mean SLG between treated patients (PI, NNRTI) and untreated (NT) patients. No significant differences were observed in mean circumferential and radial strain, nor on circumferential and radial strain rates between the NT, PI, NNRTI and Ctrl groups.

Conclusion:

The data suggest that HIV patients present, on myocardial strain measured by speckle tracking, signs of early LV systolic dysfunction that seem to be unrelated to the presence of ART. The prognostic significance of this condition in these patients deserves further studies.

Keywords:
Acquired Immunodeficiency Syndrome; HIV; Ventricular Disfunction,Left; Echocardiography, Doppler; Antiretroviral Therapy; Highly Active; Strain; Speckle Tracking

Resumo

Fundamento:

A maior parte das alterações cardiovasculares dos pacientes infectados pelo vírus da imunodeficiência humana (HIV) tem sido associada ao dano miocárdico causado diretamente pelo vírus. Alguns casos, porém, podem estar associados a efeitos adversos da terapia antirretroviral (TARV). Novas técnicas de avaliação da função ventricular são capazes de detectar modificações precoces na função cardíaca do paciente infectado pelo HIV em uso ou não de TARV. A utilidade dessas técnicas tem sido pouco empregada nesses pacientes.

Objetivos:

Investigar possível influência da terapia antirretroviral (TARV) na ocorrência de disfunção sistólica ventricular esquerda subclínica avaliada pela análise da taxa de deformação miocárdica (strain) por meio do speckle tracking ao ecocardiograma bidimensional (E2D) em pacientes portadores do HIV tratados, comparados com pacientes não tratados e indivíduos saudáveis.

Métodos:

Sessenta e oito pacientes infectados pelo HIV assintomáticos do ponto de vista cardiovascular, com fração de ejeção do ventrículo esquerdo (VE) normal (>0,55 pelo E2D) foram divididos em três grupos: 11 pacientes sem tratamento antirretroviral (ST), 24 em uso de inibidor de protease (IP) e 33 em uso de inibidor de transcriptase reversa não nucleosídeo (ITRNN). Foram estudados também 30 indivíduos normais não infectados pelo HIV (Ctrl). Foram coletados dados demográficos, clínicos, bioquímicos e antropométricos. A ecocardiografia transtorácica foi realizada incluindo no estudo inicial o estudo da deformação miocárdica pela técnica bidimensional (speckle tracking). Estudamos o strain e a sua taxa de deformação (strain rate) nos dezessete segmentos miocárdicos do ventrículo esquerdo (VE) nos eixos longitudinal, circunferencial e radial. A análise estatística dos dados foi feita com o programa IBM SPSS - versão 20 para Windows. Depois de analisados os dados, nomeadamente a normalidade das variáveis independentes nos diferentes grupos e a homogeneidade das variâncias entre os grupos, decidiu-se utilizar o teste não paramétrico de Kruskal-Wallis seguido dos testes de comparações múltiplas pelo procedimento de Dunn, para testar a significância das diferenças entre os valores medidos nos grupos em estudo. Foi considerado o nível de significância de 5% para a tomada de decisão nos testes estatísticos realizados.

Resultados:

A média das idades dos pacientes com HIV foi de 40 ± 8,65 anos e a idade média dos controles foi de 50 ± 11,6 anos (p < 0,001). Os valores medianos do strain longitudinal global do VE (SLG) dos pacientes ST (-17.70%), dos pacientes IP (-18.27%) e ITRNN (-18.47%) foram significativamente menores do que o grupo Ctrl (-20,77%; p = 0,001). Não houve diferença significante nos valores médios do SLGentre os pacientes tratados (IP, ITRNN) e não tratados (ST). Não foram observadas diferenças significantes nos valores médios do strain circunferencial e radial, nem nas taxas de deformação circunferencial e radial entre os grupos ST, IP, ITRNN e Ctrl.

Conclusão:

Os dados sugerem que pacientes com HIV apresentam, à análise da deformação miocárdica ao speckle tracking, sinais de disfunção sistólica incipiente do VE que parece não ter relação com a presença de TARV. O significado prognóstico dessa alteração nesses pacientes merece estudos futuros.

Palavras-chave:
Síndrome de Imunodeficiência Adquirida; HIV; Disfunção Ventricular Esquerda; Diagnóstico por Imagem; Ecocardiografia Doppler; Terapia de Antirretroviral de Alta Atividade; Strain; Speckle Tracking

Introduction

Around the world, deaths related to the acquired immunodeficiency syndrome (AIDS) declined from about 1.9 million in 2005 to about 1 million in 2016, largely due to expansion of treatment - for the first time, more than half of people infected with the human immunodeficiency virus (HIV) were under treatment for the disease. Since 2010, the annual number of new infections in all age groups decreased by 16%. However, progress is variable and, despite a global downward trend in this epidemic disease, several regions have been experiencing a sharp increase in the number of new infections and difficulties in expanding treatment.¹1 There is no room for complacency 53% of all people living with HIV being on antiretroviral therapy means that another 17 million people with HIV are not Lancet.2017;390(10092):333-428.

The antiretroviral therapy (ART) was an important development for HIV-infected patients, contributing to prolonged survival and improved quality of life.²2 Prendergast BD. HIV and cardiovascular medicine. Heart 2003; 89(7):793-800 Cardiovascular diseases have become a common finding because of the longer survival of these patients. Another important aspect of cardiovascular complications is that they appear to be associated with the effects of ART.³3 Barbaro G. Cardiovascular manifestations of HIV infection. J R Soc Med. 2001;94(8):384-90.^,⁴4 Barbaro G, Fisher SD, Pellicelli AM, Lipshultz SE. The expanding role of the cardiologist in the care of HIV infected patients. Heart. 2001;86(4):365-7. Although a decline in the incidence of severe heart conditions due to opportunistic agents, malnutrition or prolonged immunosuppression has been observed,⁵5 Rerkpattanapipat P, Wongpraparut N, Jacobs LE, Kotler MN. Cardiac manifestations of acquired immunodeficiency syndrome. Arch Intern Med. 2000;160(5):602-8. the incidence of coronary artery disease and peripheral vascular events has increased in HIV-infected patients.⁶6 Milei J, Grana D, Fernández Alonso G, Matturi L. Cardiac involvement in acquired immunodeficiency syndrome - a review to push action. Clin Cardiol. 1998;21(7):465-72.^,⁷7 Liu YW, Tsai WC, Su CT, Lin CC, Chen JH. Evidence of left ventricular systolic dysfunction detected by automated function imaging in patients with heart failure abd preserved left ventricular ejection fraction. J Card Fail. 2009;15(9):782-89.

HIV-infected patients may have specific myocardial abnormalities and conventional two-dimensional tests may fail to detect subtle abnormalities in regional myocardial function. Speckle tracking is an innovative echocardiographic technique that has the capacity to evaluate myocardial strain in order to identify subtle abnormalities in ventricular function. Myocardial strain is a very important mechanical variable in HIV-infected patients, as it shows subclinical left ventricular dysfunction. Unfortunately, the technique of studying cardiac strain is still underused. Global longitudinal strain (GLS) is well correlated with left ventricular ejection fraction (LVEF). Reduced SLG can be found in patients with heart failure with preserved ejection fraction,⁸8 Choi JO, CHO SW, Song YB, Cho SJ, Song BG, Lee SC, Park SW. Longitudinal 2D strain at rest predicts the presence of left main and three vessel coronary artery disease in patients without regional wall motion abnormality. Eur J Echocardiogr. 2009;10(5):695-701. stable angina,⁹9 Jurcut R, Wildiers H, Ganame J, D'hooge J, De Backer J, Denys H, et al. Strain rate imaging detects early cardíaca effects of pegylated liposomal Doxorubicin as adjuvant therapy in elderly patients with breast câncer. J Am Soc Echocardiogr. 2008;21(12):1283-89. three-vessel coronary artery disease and patients using chemotherapy agents with cardiotoxicity.¹⁰10 Hare JL, Brown JK, Leano R, Jenkins C, Woodward N, Marwick TH. Use of myocardial deformation imaging to detect preclinical myocardial dysfunction before conventional measures in patients undergoing breast cancer treatment with trastuzumab. Am Heart J. 2009;158(2):294-301.^,¹¹11 Barbaro G. Cardiovascular Manifestations of HIV Infection. Circulation. 2002;106(11):1420-5. The purpose of this study was to evaluate the presence of subclinical ventricular function abnormalities in HIV-infected patients using or not using ART.

Methods

Observational cross-sectional study involving 68 HIV-infected patients recruited from the Infectiology Service of Hospital Universitário Antônio Pedro (HUAP), Universidade Federal Fluminense (UFF). Inclusion criteria were: age ≥18 years, HIV infection confirmed by serological tests, no cardiovascular symptoms. Patients were excluded if they were under any therapy with cardiac or neurological medications, if they had any cardiac symptom or history of hypertension, LV ejection fraction <0.55 and pulmonary artery systolic pressure >36 mmHg, stable angina, atrial fibrillation or moderate to severe valvular heart disease. Echocardiography was performed as part of an established research protocol rather than for symptoms or comorbidities. Patients were divided into four groups: 1) HIV-positive patients not using ART (NT); 2) HIV-positive patients on protease inhibitor therapy for at least 12 months (PI); 3) HIV-positive patients on therapy with non-nucleoside reverse transcriptase inhibitors (NNRTI) for at least 12 months and 4) healthy controls. Samples from the NT (n = 11), PI (n = 24) and NNRTI (n = 33) groups were defined by convenience, considering the patients at the time of data collection. For the control group, a sample of size similar to the largest of the study groups (n = 30) was defined.

The echocardiographic tests were conducted on an Echo Color Doppler device of the Italian company Esaote Biomédica, model Mylab 30 Gold, with a multi-frequency electronic sectoral transducer (2 to 4 MHz) with continuous electrocardiographic scanning. Traditional measures of left ventricular (LV) systolic function, ejection fraction and systolic shortening, diastolic function indicators, such as mitral flow E/A ratio, myocardial E wave velocity in the septal mitral annulus (septal E’), E/E’ ratio and estimated left atrial pressure were taken. Right ventricular diastolic diameter and two echocardiographic variables that evaluate right ventricular systolic function were determined: tissue Doppler of lateral tricuspid annulus and longitudinal tricuspid annular motion (LTAM). LV ejection fraction was determined by using the Simpson’s technique, on apical four-chamber and two-chamber views, on diastole and systole, thus obtaining end diastolic and end systolic volumes. Left atrial volume was obtained from end-systolic four-chamber and two-chamber views, and the arithmetic mean was then indexed by the body surface area to obtain left atrial volume index. LV mass was obtained from diastolic and systolic LV diameters, as well as from the interventricular septal and inferolateral wall diastolic thickness, following the technical guidelines of the American Society of Echocardiography.¹²12 Lang RM, Bierig M, Devereux RB, Flachskampf FA, Foster E, Pellikka PA, et al. Chamber Quantification Writing Group; American Society of Echocardiography's Guidelines and Standards Committee; European Association of Echocardiography. Recommendations for chamber quantification: a report from the American Society of Echocardiography's Guidelines and Standards Committee and the Chamber Quantification Writing Group, developed in conjunction with the European Association of Echocardiography, a branch of the European Society of Cardiology. J Am Soc Echocardiogr. 2005;18(12):1440-63. Maximum tricuspid regurgitation (TR) rate, an indicator of pulmonary artery pressure, was obtained from apical four-chamber view. LV diastolic and systolic myocardial velocities were obtained by placing the tissue Doppler sample volume in the septal mitral annulus. Digital myocardial strain curves were taken by using the Xstrain software package from scanned cross-sectional and apical view images. Myocardial strain rate was also evaluated. GLS was obtained by the arithmetic mean of the longitudinal strain values in the seventeen segments, from the four-chamber apical view (Figure 1), three-chamber apical view (Figure 2) and two-chamber apical view (Figure 3). Global circumferential strain (GCS) was obtained by the arithmetic mean of the circumferential strain values in the seventeen segments, from the cross-sectional views at the level of the mitral valve, papillary muscles and tip. Radial global strain (SRG) was obtained from the arithmetic mean of the radial strain values in the seventeen segments, from cross-sectional views of the mitral valve, papillary muscles and tip. Strain percentage analysis was repeated twice, using the best echocardiographic images. The same echocardiographer conducted transthoracic evaluation, then took the scanned images to calculate the percentages of longitudinal, radial and circumferential strain on an offline workstation. The strain rate in the longitudinal, circumferential and radial planes was also obtained. (Figures 1 and 3).

Figure 1
Apical four-chamber – percentage of longitudinal strain in the basal, middle and apical segments of the inferior and anterolateral septal walls.

Figure 2
Apical three-chamber – percentage of longitudinal strain in the basal, middle and apical segments of the inferolateral and anterior septal walls.

Figure 3
Apical two-chamber – percentage of longitudinal strain in the basal, middle and apical segments of the inferior and anterior walls.

Statistical analysis

Statistical analysis of the data was done with IBM SPSS - version 20 for Windows. After analysis of normality of independent variables in the different groups (using the Shapiro-Wilk test) and homogeneity of the variances between the groups (using Levene’s test), it was decided to use Kruskal-Wallis’ non-parametric test followed by Dunn’s multiple comparison tests to test the significance of the differences between the values measured in the study groups. A significance level of 5% was adopted for decision-making on statistical tests. Continuous variables with normal distribution were described as mean and standard deviation and continuous variables with non-normal distribution were described as median and interquartile range.

This study was approved by the Research Ethics Committee from Hospital Universitário Antônio Pedro (#HUAP 159/11) and all patients signed an Informed Consent Form.

Results

The study included 98 individuals: 68 (69.4%) HIV-infected and 30 (30.6%) healthy controls with negative serology, of which 60 (61.2%) were males and 38 (38.8%) were females. Separately analyzing the groups of HIV-infected patients, 55.8% were males and 44,2% were females. The demographic, laboratory and clinical characteristics of the study population are found in table 1.

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Table 1
Demographic, clinical and laboratory variables according to the group

The age range was 27 to 81 years (43.26 ± 10.58 years). There were 34 individuals in the age group of 27 to 37 years, 37 individuals in the age group of 38 to 48 years, 19 individuals in the age group of 49 to 59 years, 6 individuals in the age group of 60 to 70 years and 2 individuals in the age group of 71 to 81 years.

Table 1 shows the demographic, clinical and laboratory variables of the different groups. Table 2 shows the echocardiographic variables of the different groups.

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Table 2
Echocardiographic variables

Regarding the echocardiographic variable “LV mass indexed by BSA,” we identified higher values in groups HIV+ PI and HIV- CONTROL compared to groups HIV+ NO MEDICATION and HIV+ NNRTI. There were no differences between the groups HIV+ PI and HIV- CONTROL, nor among the groups HIV+ NO MEDICATION and HIV+ NNRTI (Table 2).

Regarding the variable “PP” (septal diastolic thickness), we identified higher values in the HIV-CONTROL GROUP. There were no differences between the groups HIV+ PI, HIV+ NO MEDICATION and HIV+ NNRTI (Table 2).

Regarding the variable “SIV” (posterior wall diastolic thickness), we identified higher values in the HIV-CONTROL GROUP. There were no differences between the groups HIV+ PI, HIV+ NO MEDICATION and HIV+ NNRTI, although the group HIV+ NO MEDICATION presented PP values lower than the others (Table 2).

Global longitudinal strain

Table 3 shows the GLS in the different groups.

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Table 3
Behavior of global longitudinal strain according to the group

Mean SLG was lower in the HIV groups compared to controls (p < 0.05). There were no differences between groups of HIV-infected patients.

No statistically significant differences were identified between longitudinal, circumferential and radial strain rates between the groups of HIV-infected patients and controls.

Discussion

The purpose of our study was to identify subclinical left ventricular dysfunction using speckle tracking. HIV+ patients were asymptomatic from the cardiovascular point of view and had normal LV systolic function by conventional echocardiographic analysis based on LV ejection fraction.

This study demonstrated that patients with HIV infection, even those not on ART, present longitudinal myocardial strain abnormalities assessed by speckle tracking. These findings confirm previous observations¹³13 Mendes L, Silva D, Miranda C, Sá J, Duque L, Duarte N, et al. Impact of HIV infection on cardiac deformation. Rev Port Cardiol. 2014;33(9):501-9. and extend them by assessing the impact of new therapeutic protocols.

Cardiovascular manifestations of HIV infection were altered by the introduction of ART, which significantly modified the course of HIV infection, decreasing mortality and improving the quality of life of infected patients. On the other hand, data from multiple studies raised the concern that ART would be associated with an increase in peripheral and coronary artery disease. The clinical manifestations associated with ART are frequent and must be followed up by the multidisciplinary teams assisting these patients.¹⁴14 Sims A, Frank L, Cross R, Clauss S, Dimock D, Purdy J, et al. Abnormal cardiac strain in children and young adults with HIV acquired in early life. J Am Soc Echocardiogr. 2012;25(7):741-8.

This study suggests that subclinical left ventricular dysfunction should be investigated whenever possible. Speckle tracking is an advanced echocardiographic technique that has much greater sensitivity than transthoracic echocardiography to detect functional abnormalities, mainly cardiac strain variables that assess left ventricular mechanical efficiency, identifying abnormalities earlier than other imaging techniques.

Sims et al.,¹⁵15 Mignot A, Donal E, Zaroui A, Reant P, Salem A, Hamon C, et al. Global Longitudinal Strain as a Major Predictor of Cardiac Events in Patients with Depressed Left Ventricular Function: A Multicenter Study. J Am Soc Echocardiogr. 2010;23(10):1019-24. using transthoracic echocardiography, evaluated 28 HIV-infected young adults (aged seven to twenty-nine), compared to 28 controls, and no abnormalities of systolic and diastolic parameters were found. However, on the study of cardiac strain, a decrease in the percentage of longitudinal strain was observed in the patients in comparison with the control group. HIV-infected patients, regardless of ART, had a lower longitudinal strain rate than the control group.

Multiple studies have found high triglyceride levels in HIV-infected patients using protease inhibitors,¹⁶16 Marwick TH, Yu CM (eds). Myocardial imaging: tissue Doppler and speckle tracking. Massachusetts: Blackwell Publishing; 2007. p.17-25.

17 Abduch MC, Salgo I, Tsang W, Vieira ML, Cruz V, Lima M, et al. Myocardial Deformation by Speckle Tracking in Severe Dilated Cardiomyopathy. Arq Bras Cardiol. 2012;99(3):834-43^-¹⁸18 Hsue PY. Impact of HIV Infection of diastolic function at left ventricular mass. Circ Heart Fail. 2010;3(1):132-9. as these drugs stimulate the synthesis of hepatic triglycerides.¹⁹19 Souza SJ, Luzia LA, Santos SS, Rondó PH. Lipid profile of HIV-infected patients in relation to antiretroviral therapy: a review. Rev Assoc Med Bras. 2013;59(2):186-98. In our study, the group of patients using protease inhibitors presented the highest serum triglyceride levels. Studies in the literature show the importance of monitoring the lipid profile of HIV-infected patients using ART, especially when using protease inhibitors.²⁰20 Geyer H, Caracciolo G, Abe H, Wilansky S, Carerj S, Gentile F, et al. Assessment of myocardial mechanics using speckle tracking echocardiography: fundamentals and clinical applications. J Am Soc Echocardiogr. 2010;23(4):351-69; quiz 453-5.

In this study, it was observed that groups of HIV-infected patients, regardless of the type of ART, presented lower global longitudinal strain percentage than healthy controls. Barbaro et al.³3 Barbaro G. Cardiovascular manifestations of HIV infection. J R Soc Med. 2001;94(8):384-90. evidenced in their study the need to monitor this group of patients, seeking to identify individuals with higher cardiovascular risk.

Previous studies evaluated left ventricular systolic and diastolic function in the population of HIV-infected individuals using one-dimensional and two-dimensional echocardiography and spectral Doppler. Hsue et al.²¹21 Reinsch K. Prevalence of Cardiac Diastolic Dysfunction in HIV-infected Patients: Results of the HIV-HEART Study. HIV Clinical Trials. 2011;11(3):156-62. and Reinsch et al.²²22 Bozzette SA, Ake CF, Tam HK, Chang SW, Louis TA. Cardiovascular and cerebrovascular events in patients treated for human immunodeficiency virus infection. N Engl J Med. 2003;348(8):702-10. studied left ventricular diastolic and systolic functions using tissue Doppler, which uses filters for high velocities (blood) obtaining systolic and diastolic myocardial velocities in the septal and lateral mitral annulus. Lang et al.¹²12 Lang RM, Bierig M, Devereux RB, Flachskampf FA, Foster E, Pellikka PA, et al. Chamber Quantification Writing Group; American Society of Echocardiography's Guidelines and Standards Committee; European Association of Echocardiography. Recommendations for chamber quantification: a report from the American Society of Echocardiography's Guidelines and Standards Committee and the Chamber Quantification Writing Group, developed in conjunction with the European Association of Echocardiography, a branch of the European Society of Cardiology. J Am Soc Echocardiogr. 2005;18(12):1440-63. focused their research on the complete study of LV diastolic function, following a scaled evaluation flowchart according to the guidelines of the American Society of Echocardiography.¹²12 Lang RM, Bierig M, Devereux RB, Flachskampf FA, Foster E, Pellikka PA, et al. Chamber Quantification Writing Group; American Society of Echocardiography's Guidelines and Standards Committee; European Association of Echocardiography. Recommendations for chamber quantification: a report from the American Society of Echocardiography's Guidelines and Standards Committee and the Chamber Quantification Writing Group, developed in conjunction with the European Association of Echocardiography, a branch of the European Society of Cardiology. J Am Soc Echocardiogr. 2005;18(12):1440-63. Others identified anatomical and functional abnormalities in infected patients on ART.²³23 Starc TJ. Incidence of cardiac abnormalites in children with HIV infection: the prospective PC HIV study. J Pediatr. 2002;141(3):327-34

24 Blanco JJ, Garcia IS, Cerezo JG, Rivera JM, Anaya PM, Raya PG, et al. Endothelial function in HIV-infected patients with low or mild cardiovascular risk. J Antimicrob Chemother. 2006; 58(1):133-9.

25 Chaparro J , Reeds D, Wen W, Xueping E, Klein S, Semenkovich C, et al. Alterations in thigh subcutaneous adipose tissue gene expression in protease inhibitor-based highly active antiretroviral therapy. Metabolism. 2005;54(5):561-7.

26 Samaras K, Wand H, Law M, Emery S, Cooper D, Carr A, et al. Prevalence of Metabolic Syndrome in HIV-Infected Patients Receiving Highly Active Antiretroviral Therapy Using International Diabetes Foundation and Adult Treatment Panel III Criteria. Diabetes Care. 2007;30(1):113-9.

27 Currier JS, Havlir DV. Complications of HIV Disease and Antiretroviral therapy. Top HIV Medicine. 2005;13(2):70-4.^-²⁸28 Sengupta PP, Krishanmoorthy VK, Abhayaratna WP, Korinek J, Belohlavek M, Sundt TM,et al. Disparate patterns of left ventricular mechanics differentiate constrictive pericarditis from restrictive cardiomyopathy. JACC Cardiovasc Imaging. 2008;1(1):29-38. The most recent studies use myocardial strain and myocardial strain rate percentage using speckle tracking to detect subclinical ventricular dysfunction in HIV-infected patients on ART.¹²12 Lang RM, Bierig M, Devereux RB, Flachskampf FA, Foster E, Pellikka PA, et al. Chamber Quantification Writing Group; American Society of Echocardiography's Guidelines and Standards Committee; European Association of Echocardiography. Recommendations for chamber quantification: a report from the American Society of Echocardiography's Guidelines and Standards Committee and the Chamber Quantification Writing Group, developed in conjunction with the European Association of Echocardiography, a branch of the European Society of Cardiology. J Am Soc Echocardiogr. 2005;18(12):1440-63.^,²⁹29 Kang S, Seok H, Choi BJ, Choi SY, Hwang GS, Yoon MH, et al. Longitudinal Strain and Torsion Assessed by Two- Dimensional Speckle Tracking Correlate with the Serum Level of Tissue Inhibitor of Matrix Metalloproteinase-1, a Marker of Myocardial Fibrosis, in Patients with Hypertension. J Am Soc Echocardiogr. 2008;21(8):907-11.^,³⁰30 Kosmala W, Plaksej R, Strotmann JM, Weigel C, Herrmann S, Niemann M, et al. Progression of left ventricular functional abnormalities in hypertensive patients with heart failure: An ultrasonic two dimensional speckle tracking study. Journal of the American Society of Echocardiography. J Am Soc Echocardiogr. 2008;21(12):1309-17.

We know that the longitudinal cardiac fiber strain can be used to study the behavior of myocardial fibers arranged in the subendocardial area, as we know that 77% of these fibers are disposed longitudinally, and this makes speckle tracking play an important role in the study of ischemic disease, since ischemia begins in the subendocardial region.

This study revealed lower longitudinal strain percentages in HIV-infected individuals compared to healthy controls. There were no differences between the percentages of longitudinal strain in groups of HIV-infected patients using or not using ART.

Accurate and reproducible estimate of myocardial damage in patients with HIV infection and using ART has been considered to be increasingly important. The CHAART-2 study, which identified the long-term cardiovascular effects in HIV-infected children on ART, showed that cardiac structure and function were superior in HIV-infected children exposed to ART in the perinatal period compared with children in the pre-ART³¹31 Lipshultz SE, Wilkinson JD, Thompson B, Cheng I, Briston DA, Shearer WT, et al. Cardiac Effects of Highly Active Antiretroviral Therapy in Perinatally HIV-Infected Children: The CHAART-2 Study. J Am Coll Cardiol. 2017;70(18):2240-7. era, which demonstrates the importance of early treatment in preventing cardiac damage. Besides, it reinforces the need for monitoring cardiac function in HIV-infected patients using ART to identify early myocardial injury, thereby decreasing long-term cardiovascular complications.

Several published papers have demonstrated the relationship between AIDS and cardiovascular diseases, with pericardial effusion and pericarditis being the best known.³²32 Francis CK. Cardiac involvement in AIDS. Curr Probl Cardiol. 1990;15(10):575-639.

33 Reynolds MM, Hecht SR, Berger M, Kolokathis A, Horowitz SF. Large pericardial effusions in the acquired immunodeficiency Syndrome. Chest. 1992;102(6):746-7.

34 Himelman RB, Chung WS, Chernoff DN, Schiller NB, Hollander H. Cardiac manifestations of human immunodeficiency virus infection: A two-dimensional echocardiographic study. J Am Coll Cardiol. 1989;13(5):1030-6.

35 Woods GL, Goldsmith JC. Fatal pericarditis due to mycobacterium aviumintracellulare in acquired immunodeficiency syndrome. Chest. 1989;95(6):1355-7.

36 Eisenberg M, Gordon AS, Schiller NB. HIV associated pericardial effusions. Chest. 1992;102(3): 956-8.

37 Stotka JL, Good CB, Downer WR, Kapoor WN. Pericardial effusion andtamponade due to Kaposi's sarcoma in acquired immunodeficiency syndrome. Chest. 1989;95(6):1351-69.

38 Wu TC, Pizzorno MC, Haywards GS, Hayward GS, Willoughby S, Neumann DA, Rose NR, et al. In situ detection of human cytomegalovirus immediate early gene transcripts within cardiac myocytes of patients with HIV- associated cardiomyopathy. AIDS. 1992;6(8):777-85.^-³⁹39 Mast HL, Haller JO, Schiller MS, Anderson VM. Pericardial effusion and its relationship to cardiac disease in children with acquired immunodeficiency syndrome. Pediatr Radiol. 1992;22(7):548-51.

Okoshi and Montenegro⁴⁰40 Okoshi MP, Montenegro MR. Pathology of the heart in AIDS. Astudy of 73 consecutive necropsies. Arq Bras Cardiol. 1996;66(3):129-33. studied the incidence and etiology of heart lesions in patients with AIDS through a retrospective study of 72 necropsies. In none of the patients, death was considered a consequence of cardiac lesion, but macro and microscopic abnormalities were found in 90% of the cases.

Several studies report that the prevalence of cardiac abnormalities may be underestimated. Interstitial lymphocytic myocarditis⁴¹41 Diógenes MS, Succi RC, Machado DM, Moisés VA, Novo FN, Carvalho AC. Estudo Cardiológico Longitudinal em Crianças Expostas ao Vírus da Imunodeficiência Humana Tipo 1 por Via Perinatal. Arq Bras Cardiol. 2005;85(4):233-40.^,⁴²42 Hajjar LA, Caderaro D, Yu Pa, Giulliano I, Lima EM, Barbaro G, et al. Cardiovascular Manifestarions in Patiens Infected with the Human Immunodeficiency Virus. Arq Bras Cardiol. 2005;85(5):363-77. is found in 50 to 70% of asymptomatic infected individuals.

Myocardial abnormalities appear to be associated with more severe cases of immunosuppression and low TCD4 counts.⁴³43 Ntsekhe M, Hakim J. Impact of Human Immunodeficiency Virus Infection on Cardiovascular Disease in Africa. Circulation. 2005;112(23):3602-7.

Limitations

The limitations of the study are the limited sample size and the relatively broad age range of HIV-infected participants. Neither the effect of disease duration nor ART duration were analyzed. The absence of coronary artery disease documentation on computed tomography angiography did not allow to evaluate the influence of ART on the development of CAD. Currently, there are few patients not on antiretroviral therapy, therefore the group of HIV-infected patients not on ART was smaller than the other groups. We know that speckle tracking is a technique that depends on image quality and on the observer’s experience in evaluating the main curves of myocardial strain. We have observed a large number of studies using speckle tracking in an attempt to identify patients with subclinical left ventricular dysfunction, but we should increasingly stimulate further research with a greater number of investigated patients to better understand the significance of the findings in the prognosis of patients.

Conclusion

The technique of studying myocardial strain by speckle tracking was able to detect early signs of deterioration of myocardial systolic function in HIV-infected patients, regardless of whether or not they were on antiretroviral drugs. Further studies are needed to evaluate HIV-infected patients and to assess the prognostic significance of these abnormalities in these patients.

Sources of Funding

This study was partially funded by CAPES and Ronaldo Campos Rodrigues.
Study Association

This article is part of the thesis of master submitted by Ronaldo Campos Rodrigues, from Universidade Federal Fluminense (Hospital Universitário Antônio Pedro).
Ethics approval and consent to participate

This study was approved by the Ethics Committee of the Hospital Universitário Antônio Pedro under the protocol number HUAP 159/11. All the procedures in this study were in accordance with the 1975 Helsinki Declaration, updated in 2013. Informed consent was obtained from all participants included in the study.

References

¹
There is no room for complacency 53% of all people living with HIV being on antiretroviral therapy means that another 17 million people with HIV are not Lancet.2017;390(10092):333-428.
²
Prendergast BD. HIV and cardiovascular medicine. Heart 2003; 89(7):793-800
³
Barbaro G. Cardiovascular manifestations of HIV infection. J R Soc Med. 2001;94(8):384-90.
⁴
Barbaro G, Fisher SD, Pellicelli AM, Lipshultz SE. The expanding role of the cardiologist in the care of HIV infected patients. Heart. 2001;86(4):365-7.
⁵
Rerkpattanapipat P, Wongpraparut N, Jacobs LE, Kotler MN. Cardiac manifestations of acquired immunodeficiency syndrome. Arch Intern Med. 2000;160(5):602-8.
⁶
Milei J, Grana D, Fernández Alonso G, Matturi L. Cardiac involvement in acquired immunodeficiency syndrome - a review to push action. Clin Cardiol. 1998;21(7):465-72.
⁷
Liu YW, Tsai WC, Su CT, Lin CC, Chen JH. Evidence of left ventricular systolic dysfunction detected by automated function imaging in patients with heart failure abd preserved left ventricular ejection fraction. J Card Fail. 2009;15(9):782-89.
⁸
Choi JO, CHO SW, Song YB, Cho SJ, Song BG, Lee SC, Park SW. Longitudinal 2D strain at rest predicts the presence of left main and three vessel coronary artery disease in patients without regional wall motion abnormality. Eur J Echocardiogr. 2009;10(5):695-701.
⁹
Jurcut R, Wildiers H, Ganame J, D'hooge J, De Backer J, Denys H, et al. Strain rate imaging detects early cardíaca effects of pegylated liposomal Doxorubicin as adjuvant therapy in elderly patients with breast câncer. J Am Soc Echocardiogr. 2008;21(12):1283-89.
¹⁰
Hare JL, Brown JK, Leano R, Jenkins C, Woodward N, Marwick TH. Use of myocardial deformation imaging to detect preclinical myocardial dysfunction before conventional measures in patients undergoing breast cancer treatment with trastuzumab. Am Heart J. 2009;158(2):294-301.
¹¹
Barbaro G. Cardiovascular Manifestations of HIV Infection. Circulation. 2002;106(11):1420-5.
¹²
Lang RM, Bierig M, Devereux RB, Flachskampf FA, Foster E, Pellikka PA, et al. Chamber Quantification Writing Group; American Society of Echocardiography's Guidelines and Standards Committee; European Association of Echocardiography. Recommendations for chamber quantification: a report from the American Society of Echocardiography's Guidelines and Standards Committee and the Chamber Quantification Writing Group, developed in conjunction with the European Association of Echocardiography, a branch of the European Society of Cardiology. J Am Soc Echocardiogr. 2005;18(12):1440-63.
¹³
Mendes L, Silva D, Miranda C, Sá J, Duque L, Duarte N, et al. Impact of HIV infection on cardiac deformation. Rev Port Cardiol. 2014;33(9):501-9.
¹⁴
Sims A, Frank L, Cross R, Clauss S, Dimock D, Purdy J, et al. Abnormal cardiac strain in children and young adults with HIV acquired in early life. J Am Soc Echocardiogr. 2012;25(7):741-8.
¹⁵
Mignot A, Donal E, Zaroui A, Reant P, Salem A, Hamon C, et al. Global Longitudinal Strain as a Major Predictor of Cardiac Events in Patients with Depressed Left Ventricular Function: A Multicenter Study. J Am Soc Echocardiogr. 2010;23(10):1019-24.
¹⁶
Marwick TH, Yu CM (eds). Myocardial imaging: tissue Doppler and speckle tracking. Massachusetts: Blackwell Publishing; 2007. p.17-25.
¹⁷
Abduch MC, Salgo I, Tsang W, Vieira ML, Cruz V, Lima M, et al. Myocardial Deformation by Speckle Tracking in Severe Dilated Cardiomyopathy. Arq Bras Cardiol. 2012;99(3):834-43
¹⁸
Hsue PY. Impact of HIV Infection of diastolic function at left ventricular mass. Circ Heart Fail. 2010;3(1):132-9.
¹⁹
Souza SJ, Luzia LA, Santos SS, Rondó PH. Lipid profile of HIV-infected patients in relation to antiretroviral therapy: a review. Rev Assoc Med Bras. 2013;59(2):186-98.
²⁰
Geyer H, Caracciolo G, Abe H, Wilansky S, Carerj S, Gentile F, et al. Assessment of myocardial mechanics using speckle tracking echocardiography: fundamentals and clinical applications. J Am Soc Echocardiogr. 2010;23(4):351-69; quiz 453-5.
²¹
Reinsch K. Prevalence of Cardiac Diastolic Dysfunction in HIV-infected Patients: Results of the HIV-HEART Study. HIV Clinical Trials. 2011;11(3):156-62.
²²
Bozzette SA, Ake CF, Tam HK, Chang SW, Louis TA. Cardiovascular and cerebrovascular events in patients treated for human immunodeficiency virus infection. N Engl J Med. 2003;348(8):702-10.
²³
Starc TJ. Incidence of cardiac abnormalites in children with HIV infection: the prospective PC HIV study. J Pediatr. 2002;141(3):327-34
²⁴
Blanco JJ, Garcia IS, Cerezo JG, Rivera JM, Anaya PM, Raya PG, et al. Endothelial function in HIV-infected patients with low or mild cardiovascular risk. J Antimicrob Chemother. 2006; 58(1):133-9.
²⁵
Chaparro J , Reeds D, Wen W, Xueping E, Klein S, Semenkovich C, et al. Alterations in thigh subcutaneous adipose tissue gene expression in protease inhibitor-based highly active antiretroviral therapy. Metabolism. 2005;54(5):561-7.
²⁶
Samaras K, Wand H, Law M, Emery S, Cooper D, Carr A, et al. Prevalence of Metabolic Syndrome in HIV-Infected Patients Receiving Highly Active Antiretroviral Therapy Using International Diabetes Foundation and Adult Treatment Panel III Criteria. Diabetes Care. 2007;30(1):113-9.
²⁷
Currier JS, Havlir DV. Complications of HIV Disease and Antiretroviral therapy. Top HIV Medicine. 2005;13(2):70-4.
²⁸
Sengupta PP, Krishanmoorthy VK, Abhayaratna WP, Korinek J, Belohlavek M, Sundt TM,et al. Disparate patterns of left ventricular mechanics differentiate constrictive pericarditis from restrictive cardiomyopathy. JACC Cardiovasc Imaging. 2008;1(1):29-38.
²⁹
Kang S, Seok H, Choi BJ, Choi SY, Hwang GS, Yoon MH, et al. Longitudinal Strain and Torsion Assessed by Two- Dimensional Speckle Tracking Correlate with the Serum Level of Tissue Inhibitor of Matrix Metalloproteinase-1, a Marker of Myocardial Fibrosis, in Patients with Hypertension. J Am Soc Echocardiogr. 2008;21(8):907-11.
³⁰
Kosmala W, Plaksej R, Strotmann JM, Weigel C, Herrmann S, Niemann M, et al. Progression of left ventricular functional abnormalities in hypertensive patients with heart failure: An ultrasonic two dimensional speckle tracking study. Journal of the American Society of Echocardiography. J Am Soc Echocardiogr. 2008;21(12):1309-17.
³¹
Lipshultz SE, Wilkinson JD, Thompson B, Cheng I, Briston DA, Shearer WT, et al. Cardiac Effects of Highly Active Antiretroviral Therapy in Perinatally HIV-Infected Children: The CHAART-2 Study. J Am Coll Cardiol. 2017;70(18):2240-7.
³²
Francis CK. Cardiac involvement in AIDS. Curr Probl Cardiol. 1990;15(10):575-639.
³³
Reynolds MM, Hecht SR, Berger M, Kolokathis A, Horowitz SF. Large pericardial effusions in the acquired immunodeficiency Syndrome. Chest. 1992;102(6):746-7.
³⁴
Himelman RB, Chung WS, Chernoff DN, Schiller NB, Hollander H. Cardiac manifestations of human immunodeficiency virus infection: A two-dimensional echocardiographic study. J Am Coll Cardiol. 1989;13(5):1030-6.
³⁵
Woods GL, Goldsmith JC. Fatal pericarditis due to mycobacterium aviumintracellulare in acquired immunodeficiency syndrome. Chest. 1989;95(6):1355-7.
³⁶
Eisenberg M, Gordon AS, Schiller NB. HIV associated pericardial effusions. Chest. 1992;102(3): 956-8.
³⁷
Stotka JL, Good CB, Downer WR, Kapoor WN. Pericardial effusion andtamponade due to Kaposi's sarcoma in acquired immunodeficiency syndrome. Chest. 1989;95(6):1351-69.
³⁸
Wu TC, Pizzorno MC, Haywards GS, Hayward GS, Willoughby S, Neumann DA, Rose NR, et al. In situ detection of human cytomegalovirus immediate early gene transcripts within cardiac myocytes of patients with HIV- associated cardiomyopathy. AIDS. 1992;6(8):777-85.
³⁹
Mast HL, Haller JO, Schiller MS, Anderson VM. Pericardial effusion and its relationship to cardiac disease in children with acquired immunodeficiency syndrome. Pediatr Radiol. 1992;22(7):548-51.
⁴⁰
Okoshi MP, Montenegro MR. Pathology of the heart in AIDS. Astudy of 73 consecutive necropsies. Arq Bras Cardiol. 1996;66(3):129-33.
⁴¹
Diógenes MS, Succi RC, Machado DM, Moisés VA, Novo FN, Carvalho AC. Estudo Cardiológico Longitudinal em Crianças Expostas ao Vírus da Imunodeficiência Humana Tipo 1 por Via Perinatal. Arq Bras Cardiol. 2005;85(4):233-40.
⁴²
Hajjar LA, Caderaro D, Yu Pa, Giulliano I, Lima EM, Barbaro G, et al. Cardiovascular Manifestarions in Patiens Infected with the Human Immunodeficiency Virus. Arq Bras Cardiol. 2005;85(5):363-77.
⁴³
Ntsekhe M, Hakim J. Impact of Human Immunodeficiency Virus Infection on Cardiovascular Disease in Africa. Circulation. 2005;112(23):3602-7.

Publication Dates

Publication in this collection
02 Sept 2019
Date of issue
Oct 2019

History

Received
04 Feb 2018
Reviewed
07 Mar 2019
Accepted
12 Mar 2019

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Sources of Funding

This study was partially funded by CAPES and Ronaldo Campos Rodrigues.

[2] Study Association

This article is part of the thesis of master submitted by Ronaldo Campos Rodrigues, from Universidade Federal Fluminense (Hospital Universitário Antônio Pedro).

[3] Ethics approval and consent to participate

This study was approved by the Ethics Committee of the Hospital Universitário Antônio Pedro under the protocol number HUAP 159/11. All the procedures in this study were in accordance with the 1975 Helsinki Declaration, updated in 2013. Informed consent was obtained from all participants included in the study.

Variable		NT (n = 11)	PI (n = 24)	NNRTI (n = 33)	Control (n = 30)	Kruskal-Wallis test (p)
Age (years)	M ± DP	33.3 ± 4.1	44.8 ± 8.7	39.4 ± 8.0	49.9 ± 11.6	< 0.001
Age (years)	Md ± IQR	33.0 ± 3.0	43.0 ± 10.5	39.0 ± 8.0	48.5 ± 15.0
Gender	Male	9 (81.8%)	15 (62.5%)	14 (42.4%)	22 (73.3%)	0.033 (chi-square)
	Female	2 (18.2%)	9 (37.5%)	19 (57.6%)	8 (26.7%)	0.033 (chi-square)
	Md ± IQR
Heart rate (bpm)	M ± SD	75.6 ± 7.3	72.0 ± 8.9	78.1 ± 6.2	73.2 ± 6.1	0.029
Heart rate (bpm)	Md ± IQR	78.0 ± 14.0	73.5 ± 16.0	77.0 ± 9.5	75.0 ± 8.8
SBP (mmHg)	M ± SD	121.4 ± 6.0	129.3 ± 6.8	129.1 ± 6.8	123.8 ± 5.5	0.001
SBP (mmHg)	Md ± IQR	120.0 ± 5.0	130.0 ± 10.0	130.0 ± 5.0	125.0 ± 10.0
DBP (mmHg)	M ± SD	71.4 ± 4.5	70.0 ± 7.7	70.3 ± 7.5	67.8 ± 5.7	0.338
DBP (mmHg)	Md ± IQR	70.0 ± 5.0	70.0 ± 20.0	70.0 ± 15.0	70.0 ± 5.0
Blood glucose (mg/dl)	M ± SD	84.8 ± 14.2	79.7 ± 11.2	83.0 ± 9.5	82.4 ± 5.7	0.455
Blood glucose (mg/dl)	Md ± IQR	82.0 ± 23.0	79.0 ± 9.0	81.0 ± 13.5	81.0 ± 7.0
Total cholesterol (mg/dL)	M ± SD	164.6 ± 26.8	189.0 ± 56.3	183.9 ± 30.0	196.3 ± 17.4	0.021
Total cholesterol (mg/dL)	Md ± IQR	163.0 ± 40.0	198.0 ± 54.0	181.0 ± 42.0	199.0 ± 26.0
LDL-c (mg/dL)	M ± SD	102.6 ± 27.6	108.7 ± 48.5	110.0 ± 27.9	118.9 ± 18.5	0.229
LDL-c (mg/dL)	Md ± IQR	104.0 ± 49.0	109.0 ± 66.0	102.0 ± 36.0	122.0 ± 27.0
HDL-c (mg/dL)	M ± SD	47.5 ± 16.7	42.6 ± 17.5	55.0 ± 16.0	53.4 ± 3.5	0.007
HDL-c (mg/dL)	Md ± IQR	43.0 ± 30.0	41.0 ± 22.0	52.0 ± 18.0	54.0 ± 4.0
Triglycerides (mg/dL)	M ± SD	101.1 ± 39.1	174.8 ± 78.2	119.7 ± 115.2	127.0 ± 15.5	< 0.001
Triglycerides (mg/dL)	Md ± IQR	86.0 ± 79.0	165.0 ± 106.0	87.0 ± 71.0	123.5 ± 27.0
CD4+ lymphocytes/mm³	M ± SD	502.5 ± 206.3	534.4 ± 323.1	693.2 ± 317.7	-	0.044
CD4+ lymphocytes/mm³	Md ± IQR	426.0 ± 310.0	404.0 ± 436.0	644.0 ± 297.0	-

Variable		NT (n = 11)	PI (n = 24)	NNRTI (n = 33)	Control (n = 30)	Kruskal-Wallis test (p)
Aorta (mm)	M ± SD	28.27 ± 1.85	30.58 ± 3.02	28.73 ± 2.97	29.53 ± 2.08	0.026
Aorta (mm)	Md ± IQR	29.00 ± 3.00	30.00 ± 3.50	29.00 ± 4.00	30.00 ± 2.00
LA diameter (mm)	M ± SD	31.18 ± 3.82	33.21 ± 3.22	31.64 ± 4.59	34.33 ± 2.55	0.004
LA diameter (mm)	Md ± IQR	30.00 ± 6.00	32.00 ± 4.50	31.00 ± 3.00	34.00 ± 4.00
LVDd-i (mm/m²)	M ± SD	29.75 ± 0.79	29.75 ± 1.81	28.67 ± 2.36	28.20 ± 1.73	0.020
LVDd-i (mm/m²)	Md ± IQR	29.70 ± 1.13	29.87 ± 2.75	29.73 ± 4.22	28.65 ± 2.84
LVSD (mm)	M ± SD	30.36 ± 2.38	31.17 ± 4.04	32.18 ± 3.26	32.17 ± 2.78	0.248
LVSD (mm)	Md ± IQR	30.00 ± 5.00	31.00 ± 7.00	32.00 ± 4.00	31.50 ± 4.00
IVS (mm)	M ± SD	7.18 ± 0.98	7.88 ± 1.08	7.91 ± 0.95	9.03 ± 0.76	< 0.001
IVS (mm)	Md ± IQR	7.00 ± 2.00	8.00 ± 2.00	8.00 ± 2.00	9.00 ± 2.00
PP (mm)	M ± SD	7.00 ± 1.00	7.42 ± 1.18	7.67 ± 0.92	8.33 ± 0.80	< 0.001
PP (mm)	Md ± IQR	7.00 ± 0.00	8.00 ± 1.00	8.00 ± 1.00	9.00 ± 1.00
LVEF – Simpson (%)	M ± SD	66.64 ± 3.83	62.46 ± 3.60	63.55 ± 4.10	64.17 ± 3.50	0.030
LVEF – Simpson (%)	Md ± IQR	67.00 ± 5.00	62.00 ± 5.00	63.00 ± 6.00	64.00 ± 6.00
LV mass index (g/m²)	M ± SD	82.23 ± 16.76	104.49 ± 24.01	90.01 ± 19.54	108.12 ± 14.25	< 0.001
LV mass index (g/m²)	Md ± IQR	82.28 ± 13.59	106.35 ± 37.69	89.34 ± 26.89	110.61 ± 18.10
E/A ratio	M ± SD	1.46 ± 0.40	1.33 ± 0.34	1.52 ± 0.41	1.18 ± 0.07	< 0.001
E/A ratio	Md ± IQR	1.34 ± 0.38	1.30 ± 0.22	1.50 ± 0.44	1.18 ± 0.09
E’ septal annulus (cm/s)	M ± SD	9.55 ± 1.87	9.03 ± 1.91	10.54 ± 2.21	8.38 ± 0.41	< 0.001
E’ septal annulus (cm/s)	Md ± IQR	9.00 ± 1.90	8.35 ± 2.00	10.00 ± 3.00	8.15 ± 0.60
S’ septal annulus (cm/s)	M ± SD	8.25 ± 1.09	8.10 ± 0.68	8.49 ± 1.41	9.03 ± 0.95	0.001
S’ septal annulus (cm/s)	Md ± IQR	8.00 ± 2.00	8.00 ± 0.40	8.10 ± 1.00	8.80 ± 0.60
E/E’ ratio	M ± SD	8.41 ± 1.33	8.72 ± 2.03	7.08 ± 1.65	9.29 ± 0.62	< 0.001
E/E’ ratio	Md ± IQR	8.40 ± 2.59	9.08 ± 3.04	7.27 ± 2.45	9.38 ± 0.88
LA volume index (ml/m²)	M ± SD	30.38 ± 6.16	29.93 ± 4.76	29.48 ± 5.60	29.56 ± 1.81	0.839
LA volume index (ml/m²)	Md ± IQR	29.11 ± 1.09	30.40 ± 3.48	29.17 ± 7.32	29.88 ± 2.76
S lateral tricuspid annulus (cm/s)	M ± SD	11.29 ± 1.54	10.87 ± 1.42	12.23 ± 1.90	11.49 ± 0.90	0.014
S lateral tricuspid annulus (cm/s)	Md ± IQR	11.00 ± 2.00	10.80 ± 2.00	12.00 ± 2.00	11.70 ± 0.50

Variable		NT (n = 11)	PI (n = 24)	NNRTI (n = 33)	Control (n = 30)	Kruskal-Wallis test (p)
Global longitudinal strain	M ± SD	-18.11 ± 1.28	-17.96 ± 4.89	-18.15 ± 3.07	-20.66 ± 0.79	0.001
Global longitudinal strain	Md ± IQR	-17.70 ± 2.07	-18.27 ± 6.14	-18.47 ± 4.27	-20.77 ± 1.00

Brasil

Brasil

The Use of Two-Dimensional Strain Measured by Speckle Tracking in the Identification of Incipient Ventricular Dysfunction in HIV-Infected Patients on Antiretroviral Therapy, Untreated HIV Patients and Healthy Controls

Abstract

Background:

Objectives:

Methods:

Results:

Conclusion:

Resumo

Fundamento:

Objetivos:

Métodos:

Resultados:

Conclusão:

Introduction

Methods

Statistical analysis

Results

Global longitudinal strain

Discussion

Limitations

Conclusion

References

Publication Dates

History