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COMUNICAÇÃO BREVE

Comparação entre os modos multiplanar e renderizado na avaliação da área das valvas atrioventriculares fetais por meio da ultrassonografia 3D/4D

Edward Araujo JúniorI; Liliam Cristine RoloI; Christiane SimioniI; Luciano Marcondes Machado NardozzaI; Luciane Alves da RochaI; Wellington P. MartinsII,III,IV; Antonio Fernandes MoronI

DOI: 10.5935/1678-9741.20120079

ABREVIAÇÕES E ACRÔNIMOS

2D: Two-dimensional

3D: Three-dimensional

4D: Four-dimensional

AFI: Amniotic fluid index

CAPES: Coordenação de Aperfeiçoamento de Pessoal de Nível Superior

LMP: Last menstrual period

ROI: Region of interest

SPSS: Statistical Package for the Social Sciences

STIC: Spatio-temporal image correlation

UNIFESP: Federal University of São Paulo

INTRODUCTION

Approximately 8% of birth defects are cardiac malformations and 50% of these are considered major factors that increase early and late mortality rates. Developmental disorders of the chordae and papillary muscles, such as thickening and partial or total agenesis of valvular tissue are primarily responsible for dysplasia, atresias, and mitral and tricuspid valve defects of varying degrees as well as other important disorders [1].

Spatio-temporal image correlation (STIC) facilitates cardiac volume acquisition and stores the data for later analysis and reconstruction of the anatomy by presenting an image in the multiplanar and rendering mode showing the positioning of vessels; it also enables real-time assessment of movement throughout a cardiac cycle by using the cine loop technique [2]. The multiplanar mode displays the image in three orthogonal planes (axial, sagittal, and coronal), which can be manipulated in all three axes (x, y, z). The order rendered by the determination of virtual planes allows for better morphological assessment of cardiac structures such as the septum and the atrioventricular valves [3]. A few studies in the literature have evaluated the area of the atrioventricular valves using STIC, but no studies have compared the use of multiplanar and rendered imaging [4].

The objective of this study was to compare multiplanar and rendering three-dimensional (3D) ultrasonography using STIC for the evaluation of fetal atrioventricular valves in normal pregnant women.

 

METHODS

We conducted a prospective cross-sectional study evaluating the healthy fetuses of singleton pregnancies between 18 and 33 weeks of gestational age. The Ethics Committee of the Federal University of São Paulo (UNIFESP) approved the study (nº 0135/10), and all patients who agreed to participate voluntarily signed a consent form. Inclusion criteria were singleton pregnancies with a live fetus and gestational age determined by last menstrual period (LMP) and confirmed by ultrasound in the first trimester. Exclusion criteria were as follows: oligohydramnios (amniotic fluid index [AFI] below the 5th percentile for gestational age according to the table proposed by Moore and Cayle) [5]; a fetus with a dorsal anterior presentation (between 11 o'clock and 1 o'clock); fetuses with an estimated weight 2 standard deviations above or below the mean according to the table proposed by Hadlock et al. [6]; pregnant women with chronic diseases that could affect fetal growth and development; strong attenuation of the sound beam due to maternal obesity and abdominal scarring; fetal malformation diagnosed by ultrasonography; and women who were smokers and/or users of illicit drugs.

The examinations were performed by a single examiner (LCR), and all pregnant women were evaluated only once; no postnatal results were obtained. All examinations were performed using a Voluson 730 Expert (General Electric Medical Systems, Healthcare, Zipf, Austria) device equipped with a convex volumetric transducer (Rab4-8L). Analyses were performed offline by the same examiner using 4D View software (version 9.0, GE Medical Systems, GmbH & Co OHG).

Cardiac volumes were acquired by segmenting the four cardiac chambers (reference plane); most of the time the fetus was lying with the spine at the 6 o'clock position. An acquisition angle of 20-40º and an acquisition time of 10- 15s were standard. To measure the area of the atrioventricular valves by the rendering method, the heart was rotated along the "z" axis such that the cardiac apex was at the 6 o'clock position. We used the green line (region of interest [ROI]) positioned from the atrium bordering the cross of the heart. The area measurements were performed manually during early ventricular systole, at which time, both valves were fully opened (Figure 1A). For the multiplanar method, the heart was rotated along the "z" axis so that the heart apex was at the 9 o'clock position and the atrioventricular valves were visualized automatically in the sagittal plane (Figure 1B). The measurements were performed in the same way as for the rendering method.

 

 

Data were stored in Excel 2007 (Microsoft Corp., Redmond, WA, USA) and analyzed using Statistical Package for the Social Sciences (SPSS) version 18.0 for Windows (SPSS Inc., Chicago, IL, USA) and GraphPad Prism version 5.0 for Windows (GraphPad Software, San Diego, CA, USA). Agreement was assessed using the Bland-Altman method [7]. Evaluation of the correlation between absolute measures ([mode rendering] - [multiplanar mode]) revealed that this was highly dependent on the average measure (which in turn was dependent on gestational age). In this case, the estimated limits of agreement would not be valid for the entire gestational period evaluated (they would be overestimated for the start of pregnancy and underestimated for the final stages). However, the relative difference ([rendering mode] - [multiplanar mode]/[average]) between the methods was relatively constant during the pregnancy assessments; therefore we have presented only those results.

 

RESULTS

The initial sample comprised 340 women, but 12 patients were excluded from the study because of artifacts that occurred during cardiac volume acquisition (n = 10) or because the fetal weight was predicted to be above the 90th percentile (n= 2). Thus, 328 fetuses were evaluated in total. We did not detect any systematic error between methods: the average relative difference was 1.62% (95% confidence interval -2.07 to 5.32%) for the mitral valve and 1.77% (-1.08 to 4.62%) for the tricuspid valve. The limits of agreement between methods were -65.26 to 68.51% for the mitral valve and -49.91 to 53.45% for the tricuspid valve (Table 1, Figure 2).

 

 

 

 

DISCUSSION

In this study, we compared multiplanar and rendering imaging for evaluating fetal atrioventricular valve area by 3D ultrasonography using STIC software. The advantages of STIC for fetal cardiac evaluation are a reduced dependence on operator experience for obtaining diagnoses, and a shorter examination time for the acquisition of volumes and possibility to send data on patient volumes for analysis at centers of excellence in fetal cardiology [8]. Measuring the area of the atrioventricular valves is important for identifying early abnormal values and stenosis or weaknesses that could lead to severe hemodynamic disorders at birth. Such fetuses could be referred to intrauterine referral centers, decreasing the rates of perinatal morbidity and mortality.

The multiplanar method involves the evaluation of 3D orthogonal planes that are perpendicular to each other. The advantage of this method of ultrasonography relative to traditional two-dimensional (2D) ultrasonography resides precisely in the possibility of assessing the same structure in all three planes, making it easier to visualize and measure the structure. Particularly, in case of single 3D scanning of heart valves, it is possible to measure the areas of these structures through a number of rapid adjustments. The rendering method allows detailed visualization of a structure by adjusting variables such as the gamma-chroma curve. These settings produce an image with sharper an edge, which is, theoretically, a more reliable measure [4,9].

In this study, we did not observe any systematic errors between methods, and therefore, we determined that the observed areas of the fetal atrioventricular valves could be used for comparison without correction requirements. However, it should be noted that large variations were observed when the data were analyzed using the Bland- Altman method [7]. We believe that these variations were not because of sample size as an average of 20 patients were evaluated per gestational age, which is the number recommended by Royston for determining range values for parameters of fetal growth [10]. In addition, possible examiner bias was not a problem because all measurements were performed by a single examiner. This allows us to conclude that it is possible that the rendering method provided more reliable measurements of the area of the atrioventricular valves because they are small and irregular structures. However, only in vivo studies can confirm this assumption; however, such a study is not possible in our country because our laws do not permit the termination of pregnancy.

In summary, measurements of the area of fetal atrioventricular valves using both the multiplanar and rendering 3D ultrasound (STIC) methods were valid, but there were large variations between the techniques.

 

ACKNOWLEDGMENTS

We thank CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior) for providing financial support for Liliam Cristine Rolo.

 

REFERENCES

1. McElhinney DB, Silverman NH, Brook MM, Hanley FL, Stanger P. Asymmetrically short tendinous cords causing congenital tricuspid regurgitation: improved understanding of tricuspid valvular dysplasia in the era of color flow echocardiography. Cardiol Young. 1999;9(3):300-4.

2. Gonçalves LF, Lee W, Chaiworapongsa T, Espinoza J, Schoen ML, Falkensammer P, et al. Four-dimensional ultrasonography of the fetal heart with spatiotemporal image correlation. Am J Obstet Gynecol. 2003;189(6):1792-802.

3. Yagel S, Benachi A, Bonnet D, Dumez Y, Hochner-Celnikier D, Cohen SM, et al. Rendering in fetal cardiac scanning: the intracardiac septa and the coronal atrioventricular valve planes. Ultrasound Obstet Gynecol. 2006;28(3):266-74.

4. Rolo LC, Nardozza LM, Araujo Júnior E, Simioni C, Zamith MM, Moron AF. Assessment of the fetal mitral and tricuspid valves areas development by three-dimensional ultrasonography. Rev Bras Ginecol Obstet. 2010;32(9):426-32.

5. Moore TR, Cayle JE. The amniotic fluid index in normal human pregnancy. Am J Obstet Gynecol. 1990;162(5):1168-73.

6. Hadlock FB, Harrist RB, Martinez-Poyer J. In utero analysis of fetal growth: a sonographic weight standard. Radiology. 1991;181(1):129-33.

7. Bland JM, Altman DG. Statistical methods for assessing agreement between two methods of clinical measurement. Lancet. 1986;1(8476):307-10.

8. Vinãls F, Mandujano L, Vargas G, Giuliano A. Prenatal diagnosis of congenital heart disease using four-dimensional spatio-temporal image correlation (STIC) telemedicine via an Internet link: a pilot study. Ultrasound Obstet Gynecol. 2005;25(1):25-31.

9. Rolo LC, Nardozza LMM, Araujo Júnior E, Simioni C, Zamith MM, Moron AF. Reference curve of the fetal ventricular septum area by the STIC method: preliminary study. Arq Bras Cardiol. 2011;96(5):386-92.

10. Royston P. Constructing time-specific reference ranges. Stat Med. 1991;10(5):675-90.

 

 

Correspondence address
Edward Araujo Júnior
Department of Obstetrics, Federal University of São Paulo (UNIFESP)
Rua Carlos Weber, 956 apto. 113 - Visage - Alto da Lapa
São Paulo, SP, Brazil - Zip code 05303-000
E-mail: araujojred@terra.com.br

Article received on August 4th,2012
Article accepted on August 27th,2012

 

 

Abbreviations, acronyms & symbols

2D: Two-dimensional

3D: Three-dimensional

4D: Four-dimensional

AFI: Amniotic fluid index

CAPES: Coordenação de Aperfeiçoamento de Pessoal de Nível Superior

LMP: Last menstrual period

ROI: Region of interest

SPSS: Statistical Package for the Social Sciences

STIC: Spatio-temporal image correlation

UNIFESP: Federal University of São Paulo

REFERÊNCIAS

1. McElhinney DB, Silverman NH, Brook MM, Hanley FL, Stanger P. Asymmetrically short tendinous cords causing congenital tricuspid regurgitation: improved understanding of tricuspid valvular dysplasia in the era of color flow echocardiography. Cardiol Young. 1999;9(3):300-4. [MedLine]

2. Gonçalves LF, Lee W, Chaiworapongsa T, Espinoza J, Schoen ML, Falkensammer P, et al. Four-dimensional ultrasonography of the fetal heart with spatiotemporal image correlation. Am J Obstet Gynecol. 2003;189(6):1792-802. [MedLine]

3. Yagel S, Benachi A, Bonnet D, Dumez Y, Hochner-Celnikier D, Cohen SM, et al. Rendering in fetal cardiac scanning: the intracardiac septa and the coronal atrioventricular valve planes. Ultrasound Obstet Gynecol. 2006;28(3):266-74. [MedLine]

4. Rolo LC, Nardozza LM, Araujo Júnior E, Simioni C, Zamith MM, Moron AF. Assessment of the fetal mitral and tricuspid valves areas development by three-dimensional ultrasonography. Rev Bras Ginecol Obstet. 2010;32(9):426-32. [MedLine]

5. Moore TR, Cayle JE. The amniotic fluid index in normal human pregnancy. Am J Obstet Gynecol. 1990;162(5):1168-73. [MedLine]

6. Hadlock FB, Harrist RB, Martinez-Poyer J. In utero analysis of fetal growth: a sonographic weight standard. Radiology. 1991;181(1):129-33. [MedLine]

7. Bland JM, Altman DG. Statistical methods for assessing agreement between two methods of clinical measurement. Lancet. 1986;1(8476):307-10. [MedLine]

8. Vinãls F, Mandujano L, Vargas G, Giuliano A. Prenatal diagnosis of congenital heart disease using four-dimensional spatio-temporal image correlation (STIC) telemedicine via an Internet link: a pilot study. Ultrasound Obstet Gynecol. 2005;25(1):25-31. [MedLine]

9. Rolo LC, Nardozza LMM, Araujo Júnior E, Simioni C, Zamith MM, Moron AF. Reference curve of the fetal ventricular septum area by the STIC method: preliminary study. Arq Bras Cardiol. 2011;96(5):386-92. [MedLine]

10. Royston P. Constructing time-specific reference ranges. Stat Med. 1991;10(5):675-90. [MedLine]

Article receive on sábado, 4 de agosto de 2012

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