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FOR CITATION PURPOSES: Magann EF, Dajani NK. How do we evaluate amniotic fluid volume in twins? OA Women's Health 2013 May 01;1(1):4.

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How do we evaluate amniotic fluid volume in twins?

EF Magann1*, NK Dajani1

Abstract Introduction Twin pregnancies are at increased risk, compared to singleton pregnancies, for spontaneous abortions, malformations, low birth weight neonates, and preterm deliveries. Additionally the pregnancies are at greater risk for gestational diabetes, hypertension/ preeclampsia, acute fatty liver, and placental abruption. Because of these increased risks for pregnancy complications and adverse pregnancy outcomes, the assessment of amniotic fluid volume is even more important in twin pregnancies during the foetal anatomic survey, growth assessment, and as a component of antenatal testing. This paper discusses the different methods we have to evaluate amniotic fluid volume in twins. Short Communication The amniotic fluid volume in twins is estimated by many different techniques including amniotic fluid index, single deepest pocket, 2-diameter pocket, and subjective assessment method. Conclusion Twin pregnancies are at significantly higher risk for pregnancy complications, perinatal morbidity and mortality compared to singleton pregnancies. The amniotic fluid volume can be measured accurately in each sac but the techniques to measure those fluid volumes are impractical for everyday use.

Introduction Normal amniotic fluid volume in twins In order to be able to evaluate abnormal amniotic fluid volume in twin pregnancies, normal volume

must first be defined. The only study that was embarked upon to address this question, evaluated amniotic fluid volume between 27-38 weeks in diamniotic twin pregnancies.1 The investigators observed that the volumes per individual amniotic fluid sac ranged from 155 – 5430 ml with a mean of 877 ml which is similar to that observed in singleton pregnancies. The volumes of each sac were determined by the validated dye-determined volume techniques of Charles and Jacoby.2 This technique is invasive and requires laboratory support and is not practical for the day to day assessment of amniotic fluid volume. The need for a more viable alternative has led to the ultrasound estimate of amniotic fluid volume. Several ultrasound methods have been used to estimate the amniotic fluid volume in twins including the amniotic fluid index, single deepest pocket (SDP), two diameter pocket (2DP) and the subjective assessment of the amniotic fluid volume. The aim of this paper was to discuss the methods that can be used to evaluate fluid volume in twins.

Short Communication The authors have referenced some of their own studies in this short communication. These referenced studies have been conducted in accordance with the Declaration of Helsinki (1964) and the protocols of these studies have been approved by the relevant ethics committees related to the institution in which they were performed. All human subjects, in these referenced studies, gave informed consent to participate in these studies.

Ultrasound estimate of amniotic fluid volume in twin

Amniotic Fluid Index (AFI) In singleton pregnancies, the estimation of the amniotic fluid volume by the AFI is customarily done by the technique described by Phelan.3 The uterus is divided into 4 quadrants: by the umbilicus transversely into upper and lower quadrants and by the linea nigra into the right and left halves. With the ultrasound transducer held perpendicular to the floor, the largest vertical pocket of fluid within each quadrant without an aggregate of cord or foetal small parts is measured in centimetres. To be a measurable pocket, the pocket must be at least 1 cm in the horizontal measurement throughout the pocket (Figure 1 and Figure 2). A depth of 0-5 is labelled as oligohydramnios, 5-24 or 5-25 as normal, and ≥ 24 or ≥ 25 as hydramnios. In twin pregnancies, the summated AFI has been used by a number of investigators to estimate the amniotic fluid volume.4,5,6 This estimate is done in a manner similar to the technique used in singleton pregnancies by dividing the abdomen into four quadrants. The largest pocket in each quadrant is measured and summed giving the summated AFI. Membrane placement is not taken into consideration in measuring the summated AFI (Figure 3). When the accuracy of the summated AFI was evaluated by dye-dilution techniques; the summated AFI identified 94% of twin pairs as having normal amniotic fluid volume when only 52% had normal volumes. In 20 of the 62 twin pairs with discordant amniotic fluid volume by dye-determination, the summated AFI identified the discordant volumes as normal in 90%. The summated AFI identified 8 of the 10 twin pregnancies with low volumes in both sacs by dye-determination as

*Corresponding author Email: efmagann@uams.edu

1 University of Arkansas for the Medical

Sciences, Little Rock, Arkansas, USA

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FOR CITATION PURPOSES: Magann EF, Dajani NK. How do we evaluate amniotic fluid volume in twins? OA Women's Health 2013 May 01;1(1):4.

Short communication

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normal amniotic fluid volume.7 High and low volumes of amniotic fluid may well co-exist in twin pregnancies as summated AFI poorly detects discordant volumes by not taking membrane placement into consideration (Figure 4). A number of other techniques have been used under the category of AFI to determine the amniotic fluid volume in twins. Gerson et al.8 estimated the amniotic fluid volume by identifying the dividing membrane between the twins and, using the foetal diaphragm, divided the amniotic fluid sac into upper and lower halves measuring the largest pocket free of umbilical cord in centimetres and summed the measurement providing a two quadrant AFI (Figure 5). Hill et al.9 detected each foetus and its surrounding amniotic sac and, using the foetus as the vertical axis in the sac, measured the largest vertical pocket in the 4 quadrants of the sac surrounding the foetus. The AFI was the summation of these 4 measurements (Figure 6). Neither of these techniques has been validated by a dye-determined amniotic fluid volume. Magann et al.10 identified the separating membrane between the twins and measured the largest vertical pocket of fluid in each quadrant that the foetus and the sac occupied (Figure 7). The foetus and sac occupied two quadrants and the summed measurement was the sum of the largest vertical pocket in those two quadrants. An AFI of ≤ 5cm was regarded as oligohydramnios, 5-20 as normal, and ≥ 20 as hydramnios. The AFI was then compared with dye determined fluid volume, the AFI technique was able to correctly classify fluid volumes between 500 – 2000 ml in 47 of 48 cases (98%), but poorly identifies volume < 500 ml in 7 of 35 cases (20%) or > 2000 ml in 0 of 7 cases (0%).10

Single Deepest Pocket (SDP) In singleton pregnancies, the estimation of the amniotic fluid volume by the SDP is usually done by the technique as described by Chamberlain.11 With the ultrasound transducer held at a right angle to the uterine contour, the vertical and transverse diameters of the largest pocket of fluid were measured. The width of the largest pocket of amniotic fluid was measured at a right angle to the depth of the measurement. In all cases except for those with severe oligohydramnios (vertical pocket of < 1 cm) the width of the pocket was ≥ 1 cm. A depth of < 1 cm was severe oligohydramnios, 1-2 cm as oligohydramnios and > 2cm to < 8 cm was labelled as normal. It was in a companion article in the same journal that a largest vertical pocket of ≥ 8 was labelled as polyhydramnios.12

In neither article were the issues of foetal small parts or umbilical cord in the pocket addressed. Chamberlain did not address how the amniotic fluid volume in twins should be estimated. Currently many clinicians measure the largest pocket without umbilical cord or foetal small parts or only if their

Figure 1: The transducer is held perpendicular the floor.

Figure 2: The uterus is divided into four quadrants using the linea nigra as the vertical line. The amniotic fluid index (AFI) is the sum of the maximum vertical pockets (MVP in cm) of amniotic fluid free of cord and foetal parts in each quadrant. A measurable pocket has to be at least 1 cm in width throughout the pocket.

Figure 3: The AFI applied to a twin gestation, does not take into account the membrane placement. An MVP measurement may cross the membrane and go form one twin sac to another.

Figure 4: The AFI method applied to twins poorly detects fluid discordance since it does not take into account the membrane placement.

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FOR CITATION PURPOSES: Magann EF, Dajani NK. How do we evaluate amniotic fluid volume in twins? OA Women's Health 2013 May 01;1(1):4.

Short communication

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appearance is transient. In the estimation of amniotic fluid volume using the SDP in twins, the separating membrane is located and the largest vertical pocket of amniotic fluid volume in each sac is measured in centimetres (Figure 8). A measurement of ≤ 2 cm is classified as oligohydramnios, 2-8 cm as normal, and > 8 cm as hydramnios, the same measurement thresholds that are used in singletons. A comparison of the SDP to a dye determined fluid volume revealed that the SDP was able to correctly classify fluid volumes between 500 – 2000 ml in 47 of 48 cases (98%), but poorly identifies volume < 500 ml in 1 of 35 cases (3%) or > 2000 ml in 0 of 7 cases (0%).10

Diameter Pocket In singleton pregnancies, the 2-dameter pocket technique is the vertical measurement multiplied by the horizontal measurement of the largest identified pocket of amniotic fluid. A two-diameter pocket of ≤ 15 cm2 was classified as oligohydramnios, 15 – 50 cm2 as normal fluid volume and ≥ 50 cm2 as polyhydramnios.13 In twin pregnancies, the separating membrane is identified and the largest pocket of fluid in each sac without foetal small parts or umbilical cord is identified and the horizontal measurement is multiplied by the vertical measurement (Figure 9). The same values used for oligohydramnios, normal and polyhydramnios in singletons are also used for twins. A comparison of the 2DP to a dye-determined fluid volume revealed that the 2DP was able to correctly classify fluid volumes between 500 – 2000 ml in 39 of 48 cases (81%), identified volume < 500 ml in 20 of 35 cases (57%)and > 2000 ml in 1 of 7 cases (14%).10

Subjective Assessment The subjective assessment of amniotic fluid volume is the visualization of the amniotic fluid volume by an experienced sonographer and estimating if the fluid volume is low,

normal or high based on visualization alone, without measurements.10 In an investigation evaluating the subjective assessment of amniotic fluid volume in singleton pregnancies with multiple ultrasound estimates including the SDP, 2DP, and the AFI, the subjective assessments were similar in accuracy with the objective ultrasound measurements in classifying volumes of fluid as

oligohydramnios, normal and polyhydramnios with those volumes validated by dye-determination techniques. A similar study was carried out in twin pregnancies and the subjective and objective evaluations were found to be similar in the identification of amniotic fluid volumes in each sac of a twin pregnancy, the volume validated by dye-dilution techniques. The recognition of low

Figure 5: The two-quadrant AFI (Gerson et al.8) uses the foetal diaphragm to divide each amniotic sac into an upper and a lower quadrants. The largest pocket free of umbilical cord and foetal parts in each sac is measured in centimetres and summed, providing a two-quadrant AFI.

Figure 6: The four-quadrant AFI in each sac (Hill et al.9). The foetal spine in each sac is used as the vertical axis and the foetal diaphragm as the horizontal axis. The summation of the largest vertical pocket in the four quadrants in each sac provides an AFI for each twin.

Figure 7: Each foetus typically occupies 1–2 quadrants of the maternal abdomen (Magann et al.10). The largest vertical pocket in each quadrant that the foetus and sac occupy is summed and the measurement is the sum of the largest vertical pocket of those quadrants.

Figure 8: Single deepest pocket (Chamberlain). In the estimation of amniotic fluid volume using the SDP in twins the separating membrane is located and the largest vertical pocket of amniotic fluid volume in each sac is measured in centimetres.

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FOR CITATION PURPOSES: Magann EF, Dajani NK. How do we evaluate amniotic fluid volume in twins? OA Women's Health 2013 May 01;1(1):4.

Short communication

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volumes was poor, ranging from 7-29%.

Discussion The assessment of amniotic fluid volume is important in singleton pregnancies as part of the foetal anatomic survey, and in at-risk pregnancies as a component of antenatal testing. In twin pregnancies with an increased risk for perinatal morbidity and mortality, that evaluation becomes even more important. To recognise an abnormal fluid volume in a twin pregnancy, normal volumes must be identified. The difficulty of using the gold standard dye-dilution technique to accurately calculate the amniotic fluid volume in each sac of a twin pregnancy is exemplified by the fact that there is only a single study in the literature in which this has been done. This has led to the estimation of amniotic fluid volume using a variety of ultrasound measurements including the AFI, SDP, and 2DP techniques. Additionally, the subjective assessment - visualization without measurement - has been shown by dye-dilution technique to be as accurate as the ultrasound measurements. Regrettably the only way to validate which ultrasound measurements more accurately identify oligohydramnios, normal amniotic fluid volume and polyhydramnios is to correlate the ultrasound measurement with a calculated volume of fluid. In using the ultrasound estimate of amniotic fluid volume, it is clear that volumes must be measured in each individual sac. The failure of the summated AFI, which did not take membrane placement into consideration, demonstrates that each amniotic sac must be measured or subjectively assessed. The determination of which techniques, measurement of the largest pocket of amniotic fluid above and below the diaphragm of the foetus

in each sac (Figure 5) or using the foetus longitudinally to divide the sac into right and left halves and the foetal diaphragm to divide the sac into upper and lower halves and then measure the single deepest pocket in each of the 4 quadrants (Figure 6) or to measure the single deepest pocket in each quadrant that the foetus occupies (Figure 7) or the single deepest pocket in each amniotic sac (Figure 8) remains unknown. The technique of measuring the single deepest pocket in each amniotic sac is in widespread use in the United States, perhaps because of its simplicity.

Conclusion Amniotic fluid volume in normal diamniotic twin pregnancies in the third trimester of pregnancy is similar to the normal volumes in singleton pregnancies in the third trimester. The amniotic fluid volume can be measured accurately in each sac but the techniques to measure those fluid volumes are impractical for everyday use. The summated AFI, by not considering membrane placement, is not able to recognize individual low or high sac volumes and shouldn’t be used to estimate amniotic fluid volume. The other techniques evaluating individual sac volume; AFI, SDP, 2DP, and subjective assessment are all able to reasonably identify normal amniotic fluid volume, but poorly recognize oligohydramnios and polyhydramnios. Many health care providers currently measure the single deepest pocket of each sac in diamniotic twin pregnancies to estimate the amniotic fluid volume.

Acknowledgement Donna Eastham for her editorial assistance with this manuscript and for assistance with the figures.

References 1. Magann EF, Whitworth NS, Bass JD, Chauhan SP, Martin JN Jr., Morrison JC. Amniotic fluid volume of third-

trimester diamniotic twin pregnancies. Obstet Gynecol. 1995;85:957-60. 2. Charles D, Jacoby HE. Preliminary data on the use of sodium aminohippurate to determine amniotic fluid volumes. Am J Obstet Gynecol. 1966;95:266-9. 3. Rutherford SE, Phelan JP, Smith CV, Jacobs N. The four quadrant assessment of amniotic fluid volume: an adjunct to antepartum fetal heart rate testing. Obstet Gynecol. 1987;70:353-6. 4. Watson WJ, Harless FE, Menard MK, McCurdy CM, Brady K, Miller RC. Sonographic assessment of amniotic fluid volume in normal twin pregnancy Am J Perinat. 1995;12:122-4. 5. Porter TF, Dildy GA, Blanchard JR, Kochenour NK, Clark SL. Normal values for amniotic fluid index during uncomplicated twin pregnancy. Obstet Gynecol. 1996;87:699-702. 6. Chau HC, Kjos SL, Kouvacs BW. Ultrasonographic measurement of amniotic fluid volume in normal diamniotic twin pregnancies. Am J Obstet Gynecol. 1966;174:1003-7. 7. Magann EF, Chauhan SP, Whitworth NS, Klausen JH, Nevils BG, Morrison JC The accuracy of the summated amniotic fluid index in evaluating amniotic fluid volume in twin pregnancies. Am J Obstet Gynecol. 1997;177:1041-5. 8. Gerson A, Free SM, Russino J, Maenner G, Weitz G, young L. Amniotic

Figure 9: The two-diameter pocket method: the separating membrane is identified and the largest pocket of fluid in each sac without foetal small parts or umbilical cord is identified, and the horizontal measurement is multiplied by the vertical measurement.

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FOR CITATION PURPOSES: Magann EF, Dajani NK. How do we evaluate amniotic fluid volume in twins? OA Women's Health 2013 May 01;1(1):4.

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fluid index in twin gestation. Ultrasound Obstet Gynecol. 1997;10:98-102. 9. Hill LM, Marijane K, Lazebnik N, Tush B, Boyles D, Ursiny JJ The amniotic fluid index in normal twin pregnancies. Am J Obstet Gynecol. 2000;182:950-54. 10. Magann EF, Chauhan SP, Martin JN Jr., Whitworth NS, Morrison JC. Ultrasound assessment of the amniotic fluid volume in diamniotic twin pregnancies. J Soc Gynecol Invest. 1995;2:609-13. 11. Chamberlain PF, Manning FA, Morrison I, Harman CR, Lange IR. Ultrasound evaluation of amniotic fluid volume I. The relationship of marginal and decreased amniotic fluid volumes to perinatal outcomes. Am J Obstet Gynecol. 1984;150:245-9. 12. Chamberlain PF, Manning FA, Morrison I, Harman CR, Lange IR. Ultrasound evaluation of amniotic fluid volume I. The relationship of increased amniotic fluid volume to perinatal outcomes. Am J Obstet Gynecol. 1984;150:250-4. 13. Magann EF, Nolan TE, Hess LW, Martin RW, Whitworth NS, Morrison JC. Measurement of amniotic fluid volume: Accuracy of ultrasonography techniques. Am J Obstet Gynecol. 1992;167:1533-7. 14. Magann EF, Perry KG, Chauhan SP, Anfanger PJ, Whitworth NS, Morrison JC. The accuracy of ultrasound evaluation of amniotic fluid volume in singleton pregnancies: the effect of operator experience and interpretative technique. J Clin Ultrasound. 1997;25:249-53. 15. Magann EF, Chauhan SP, Whitworth NS, Anfanger P, Rinehart BK, Morrison JC. Determination of amniotic fluid volume in twin pregnancies: ultrasonographic evaluation versus operator estimation. Am J Obstet Gynecol. 2000;182:1606-9.