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1. Multi-Atlas Segmentation and Spatial Alignment of the Human Embryo in First Trimester 3D Ultrasound

Author

Bastiaansen, W. A. P., Rousian, M., Steegers-Theunissen, R. P. M., Niessen, W. J., Koning, A. H. J., and Klein, S.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Segmentation and spatial alignment of ultrasound (US) imaging data acquired in the in first trimester are crucial for monitoring human embryonic growth and development throughout this crucial period of life. Current approaches are either manual or semi-automatic and are therefore very time-consuming and prone to errors. To automate these tasks, we propose a multi-atlas framework for automatic segmentation and spatial alignment of the embryo using deep learning with minimal supervision. Our framework learns to register the embryo to an atlas, which consists of the US images acquired at a range of gestational age (GA), segmented and spatially aligned to a predefined standard orientation. From this, we can derive the segmentation of the embryo and put the embryo in standard orientation. US images acquired at 8+0 till 12+6 weeks GA were used and eight subjects were selected as atlas. We evaluated different fusion strategies to incorporate multiple atlases: 1) training the framework using atlas images from a single subject, 2) training the framework with data of all available atlases and 3) ensembling of the frameworks trained per subject. To evaluate the performance, we calculated the Dice score over the test set. We found that training the framework using all available atlases outperformed ensembling and gave similar results compared to the best of all frameworks trained on a single subject. Furthermore, we found that selecting images from the four atlases closest in GA out of all available atlases, regardless of the individual quality, gave the best results with a median Dice score of 0.72. We conclude that our framework can accurately segment and spatially align the embryo in first trimester 3D US images and is robust for the variation in quality that existed in the available atlases., Comment: Accepted for publication at the Journal of Machine Learning for Biomedical Imaging (MELBA) https://www.melba-journal.org/papers/2022:020.html

Published
2022
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2. Impact of first-trimester anomaly scan on health-related quality of life and healthcare costs:a scoping review

Author

Pietersma, CS, Rousian, M, Moolenaar, L, Steegers, EAP, Mulders, A, Pietersma, CS, Rousian, M, Moolenaar, L, Steegers, EAP, and Mulders, A

Abstract

Importance: The first-trimester anomaly scan (FTAS) has the potential to detect major congenital anomalies in an early stage of pregnancy. Due to this potential early detection, there is a trend to introduce FTAS in regular care. Data regarding the impact of FTAS on the patient’s perspective are limited. Objective: To provide an overview of the literature assessing the impact of the FTAS on health-related quality of life (HRQoL) and healthcare costs. Evidence acquisition: Literature search was performed in Embase, PubMed, Medline Ovid, Cochrane Library database, Web-of-Science, and Google Scholar were searched. All studies that reported the performance of a nuchal translucency measurement with a basic fetal assessment HRQoL or healthcare costs of FTAS were included. Studies solely describing screening of chromosomal anomalies were excluded. Three authors independently screened the studies and extracted the data. Results were combined using descriptive analysis. PROSPERO registration number: CRD42016045190. Results: The search yielded 3242 articles and 16 were included. Thirteen articles (7045 pregnancies) examined the relationship between FTAS and HRQoL. Anxiety scores were raised temporarily before FTAS and returned to early pregnancy baseline following the absence of anomalies. Depression scores did not change significantly as a result of FTAS. Three articles studied healthcare costs. These studies, published before 2005, found a combination of FTAS and second-trimester anomaly scan (STAS) resulted in an increased amount of detected anomalies when compared to a STAS-only regimen. However, the combination would also be more costly. Conclusions: Women experience anxiety in anticipation of the FTAS result and following a reassuring FTAS result, anxiety returns to the baseline level. FTAS seems to be a reassuring experience. The included studies on costs showed the addition of FTAS is likely to increase the number of detected anomalies against an increase in health

Published
2024

3. Morphologic development of the first-trimester utero-placental vasculature is positively associated with embryonic and fetal growth:the Rotterdam Periconception Cohort

Author

De Vos, E. S., Mulders, A. G.M.G.J., Koning, A. H.J., Willemsen, S. P., Rousian, M., Van Rijn, B. B., Steegers, E. A.P., Steegers-Theunissen, R. P.M., De Vos, E. S., Mulders, A. G.M.G.J., Koning, A. H.J., Willemsen, S. P., Rousian, M., Van Rijn, B. B., Steegers, E. A.P., and Steegers-Theunissen, R. P.M.

Abstract

STUDY QUESTION: Is morphologic development of the first-trimester utero-placental vasculature associated with embryonic growth and development, fetal growth, and birth weight percentiles?SUMMARY ANSWER: Using the utero-placental vascular skeleton (uPVS) as a new imaging marker, this study reveals morphologic development of the first-trimester utero-placental vasculature is positively associated with embryonic growth and development, fetal growth, and birth weight percentiles. WHAT IS KNOWN ALREADY: First-trimester development of the utero-placental vasculature is associated with placental function, which subsequently impacts embryonic and fetal ability to reach their full growth potential. The attribution of morphologic variations in the utero-placental vascular development, including the vascular structure and branching density, on prenatal growth remains unknown. STUDY DESIGN, SIZE, DURATION: This study was conducted in the VIRTUAL Placental study, a subcohort of 214 ongoing pregnancies, embedded in the prospective observational Rotterdam Periconception Cohort (Predict study). Women were included before 10 weeks gestational age (GA) at a tertiary referral hospital in The Netherlands between January 2017 and March 2018. PARTICIPANTS/MATERIALS, SETTING, METHODS: We obtained three-dimensional power Doppler volumes of the gestational sac including the embryo and the placenta at 7, 9, and 11 weeks of gestation. Virtual Reality-based segmentation and a recently developed skeletonization algorithm were applied to the power Doppler volumes to generate the uPVS and to measure utero-placental vascular volume (uPVV). Absolute vascular morphology was quantified by assigning a morphologic characteristic to each voxel in the uPVS (i.e. end-, bifurcation-crossing-, or vessel point). Additionally, total vascular length (mm) was calculated. The ratios of the uPVS characteristics to

Published
2024

14. The impact of maternal smoking on embryonic morphological development:the Rotterdam Periconception Cohort

Author

Pietersma, C. S., Mulders, A. G.M.G.J., Sabanovic, A., Willemsen, S. P., Jansen, M. S., Steegers, E. A.P., Steegers-Theunissen, R. P.M., Rousian, M., Pietersma, C. S., Mulders, A. G.M.G.J., Sabanovic, A., Willemsen, S. P., Jansen, M. S., Steegers, E. A.P., Steegers-Theunissen, R. P.M., and Rousian, M.

Abstract

Study question: Is periconceptional maternal smoking associated with embryonic morphological development in ongoing pregnancies? SUMMARY ANSWER: Smoking during the periconceptional period is associated with a delayed embryonic morphological development which is not fully recuperated beyond the first trimester of pregnancy. WHAT IS KNOWN ALREADY: Smoking during pregnancy decreases prenatal growth, increasing the risk of preterm birth, small for gestational age (GA) and childhood obesity. STUDY DESIGN, SIZE, DURATION: Between 2010 and 2018, 689 women with ongoing singleton pregnancies were periconceptionally enrolled in a prospective cohort study with follow-up until 1 year after delivery. PARTICIPANTS/MATERIALS, SETTING, METHODS: Between 7 + 0 and 10 + 3 weeks, GA serial three-dimensional transvaginal ultrasound scans were performed. Embryonic morphological development as assessed by the Carnegie developmental stages was evaluated using Virtual Reality techniques. In the absence of fetal morphology classification methods beyond the embryonic period, fetal ultrasound measurements at around 20 weeks' GA, and birth weight were used to assess fetal growth. Linear mixed models were used to evaluate the association between smoking and the Carnegie stages. Regarding first-trimester morphological development, we additionally stratified our findings for mode of conception. Multiple linear regression models were used to study the association between smoking, fetal growth and birth weight. To investigate to which extent delayed embryonic morphological development mediated the effect of smoking, contemporary mediation analysis was used. Adjustments were made for potential confounders and other covariates. MAIN RESULTS AND THE ROLE OF CHANCE: A total of 689 singleton ongoing pregnancies were included and 1210 Carnegie stages were determined. Maternal periconceptional smoking represented by the number of cigarettes/day was associated with a slight non-significant delay of the C

Published
2022

18. OP02.01: Artificial intelligence for automated Carnegie staging of the human embryo in three‐dimensional ultrasound: the Rotterdam periconception cohort.

Author

Niemantsverdriet, R., Bastiaansen, W., Vos, F., Steegers‐Theunissen, R.P., Klein, S., and Rousian, M.

Subjects
MACHINE learning, IMAGE recognition (Computer vision), ARTIFICIAL intelligence, ULTRASONIC imaging, HUMAN embryos
Abstract

This article discusses the use of artificial intelligence (AI) to automate the Carnegie staging of human embryos using three-dimensional ultrasound images. The Carnegie staging system is used to assess the development of embryos based on their morphology. The researchers trained an AI algorithm using 1357 ultrasound images and achieved an overall accuracy of 61%, which is comparable to the accuracy of an independent rater. The use of AI for Carnegie staging could make the process more efficient and feasible for clinical practice. The researchers also aim to analyze the specific morphological aspects used by the algorithm to assign the Carnegie stage, which could provide further insights into normal and abnormal development. [Extracted from the article]

Published
2024
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24. Evaluation of embryonic posture using four-dimensional ultrasound and virtual reality

Author

Frudiger, A. (Anne), Mulders, A.G.M.G.J. (Annemarie), Rousian, M. (Melek), Plasschaert, S. (Sophie), Koning, A.H.J. (Anton), Willemsen, S.P. (Sten), Steegers-Theunissen, R.P.M. (Regine P. M.), Vries, J.I.P. (Johanna) de, Steegers, E.A.P. (Eric), Frudiger, A. (Anne), Mulders, A.G.M.G.J. (Annemarie), Rousian, M. (Melek), Plasschaert, S. (Sophie), Koning, A.H.J. (Anton), Willemsen, S.P. (Sten), Steegers-Theunissen, R.P.M. (Regine P. M.), Vries, J.I.P. (Johanna) de, and Steegers, E.A.P. (Eric)

Abstract

Aim: To assess the possibility of embryonic posture evaluation (=feasibility, reproducibility, variation) at rest at 9 weeks' (+0–6 days) gestational age (GA) using four-dimensional ultrasound and virtual reality (VR) techniques. Moreover, it is hypothesized that embryonic posture shows variation at the same time point in an uneventful pregnancy. Methods: In this explorative prospective cohort study, 23 pregnant women were recruited from the Rotterdam periconceptional cohort. A transvaginal four-dimensional ultrasound examination of 30 min per pregnancy was performed between 9 and 10 weeks' GA. The acquired datasets were offline evaluated longitudinally (i.e. per frame) using VR techniques. Results: The ultrasound data of 16 (70%) out of 23 pregnancies were eligible for evaluation. At rest the analysis of the embryonic posture was feasible and showed a strong (>80%) intraobserver and interobserver reproducibility for most body parts. The majority of the body parts were in similar anatomic positions at rest. However, variations in anatomic positions (

Published
2020
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25. First trimester anomaly scan using virtual reality (VR FETUS study): study protocol for a randomized clinical trial

Author

Pietersma, C.S. (C. S.), Mulders, A.G.M.G.J. (Annemarie), Moolenaar, L.M. (Lobke M.), Hunink, M.G.M. (Myriam), Koning, A.H.J. (Anton), Willemsen, S.P. (Sten), Go, A.T.J.I. (Attie), Steegers, E.A.P. (Eric), Rousian, M. (Melek), Pietersma, C.S. (C. S.), Mulders, A.G.M.G.J. (Annemarie), Moolenaar, L.M. (Lobke M.), Hunink, M.G.M. (Myriam), Koning, A.H.J. (Anton), Willemsen, S.P. (Sten), Go, A.T.J.I. (Attie), Steegers, E.A.P. (Eric), and Rousian, M. (Melek)

Abstract

BACKGROUND: In recent years it has become clear that fetal anomalies can already be detected at the end of the first trimester of pregnancy by two-dimensional (2D) ultrasound. This is why increasingly in developed countries the first trimester anomaly scan is being offered as part of standard care. We have developed a Virtual Reality (VR) approach to improve the diagnostic abilities of 2D ultrasound. Three-dimensional (3D) ultrasound datasets are used in VR assessment, enabling real depth perception and unique interaction. The aim of this study is to investigate whether first trimester 3D VR ultrasound is of additional value in terms of diagnostic accuracy for the detection of fetal anomalies. Health-related quality of life, cost-effectiveness and also the perspective of both patient and ultrasonographer on the 3D VR modality will be studied. METHODS: Women in the first trimester of a high risk pregnancy for a fetus with a congenital anomaly are eligible for inclusion. This is a randomized controlled trial with two intervention arms. The control group receives 'care as usual': a second trimester 2D advanced ultrasound examination. The intervention group will undergo an additional first trimester 2D and 3D VR ultrasound examination. Following each examination participants will fill in validated questionnaires evaluating their quality of life and healthcare related expenses. Participants' and ultrasonographers' perspectives on the 3D VR ultrasound will be surveyed. The primary outcome

Published
2020
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28. OP02.08: Placental volume measurements during the first trimester using artificial intelligence and virtual reality: the Rotterdam periconception cohort.

Author

Bastiaansen, W., Vos, E.S., Koning, A., Klein, S., Steegers, E., Mulders, A., Steegers‐Theunissen, R.P., and Rousian, M.

Subjects
FIRST trimester of pregnancy, VOLUME measurements, PREGNANCY complications, ARTIFICIAL intelligence, VIRTUAL reality
Abstract

This article discusses the use of virtual reality (VR) and artificial intelligence (AI) to measure placental volume (PV) during the first trimester of pregnancy. Currently, PV is measured manually using Virtual Organ Computer-aided AnaLysis (VOCAL) software, which is time-consuming and prone to variability. The study found that both VR and AI measurements of PV were comparable to VOCAL measurements, with AI being closer to VR measurements. AI measurements were automated and therefore more favorable, as they eliminated variability and saved time. Ultimately, these novel methods of measuring PV can contribute to earlier and better screening, diagnostics, and treatment of placenta-related pregnancy complications. [Extracted from the article]

Published
2024
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29. OP01.01: *Maternal lifestyle risk factors and human embryonic morphologic development: the Generation R Next study.

Author

Graafland, N., Posthumus, A., Koning, A., Jaddoe, V., Steegers, E., and Rousian, M.

Subjects
EMBRYOLOGY, CHILDBEARING age, TRANSVAGINAL ultrasonography, FOLIC acid, PUBLIC health
Abstract

This article, titled "Maternal lifestyle risk factors and human embryonic morphologic development: the Generation R Next study," explores the association between lifestyle choices during the periconception period and embryonic development. The study, conducted on a population-based periconception cohort, used 3D ultrasound scans and the Carnegie staging system to evaluate embryonic development. The results showed that inadequate folic acid supplement use was associated with delayed embryonic development, while smoking, alcohol consumption, caffeine use, and physical activity did not show a significant association. The findings highlight the importance of preconceptional counseling on healthy lifestyle choices for optimal embryonic development. [Extracted from the article]

Published
2024
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30. OC07.06: Artificial intelligence for automated detection of congenital brain anomalies in the first trimester: the Rotterdam Periconception Cohort.

Author

Zijta, M., Bastiaansen, W., Steegers, E., Wijnen, R.M., Steegers‐Theunissen, R.P., Klein, S., de Bakker, B.S., and Rousian, M.

Subjects
RECEIVER operating characteristic curves, FIRST trimester of pregnancy, ABORTION, ARTIFICIAL intelligence, THREE-dimensional imaging
Abstract

This article discusses the development of an artificial intelligence (AI) algorithm for the automated detection of congenital brain anomalies in the first trimester of pregnancy using three-dimensional (3D) ultrasound images. The algorithm was trained using a dataset of 404 normally developing embryos and 8 embryos with brain anomalies. The algorithm achieved a 90% accuracy in detecting abnormal ultrasound datasets, with a precision of 44% and a recall of 100%. The next step is to evaluate if the abnormal features identified by the algorithm correspond to actual brain anomalies. The researchers plan to extend the algorithm to include a broader age range and all anatomical structures for automated congenital anomaly screening in the first trimester. [Extracted from the article]

Published
2024
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44. The MOVE-trial: Monocryl® vs. Vicryl Rapide™ for skin repair in mediolateral episiotomies: A randomized controlled trial

Author

Odijk, R. (Roeland), Hennipman, B. (Bernadette), Rousian, M. (Melek), Madani, K. (Khadija), Dijksterhuis, M. (Marja), Leeuw, J.W. (Jan Willem) de, van Hof, A. (Arjan), Odijk, R. (Roeland), Hennipman, B. (Bernadette), Rousian, M. (Melek), Madani, K. (Khadija), Dijksterhuis, M. (Marja), Leeuw, J.W. (Jan Willem) de, and van Hof, A. (Arjan)

Abstract

Background: Previous studies have shown that complaints after episiotomy repair depend on the method and material used for repair. The objective of our study was to determine which of two frequently used suture materials, Monocryl® (poliglecaprone 25) and Vicryl Rapide™ (polyglactin 910), is superior for intracutaneous closure of the skin in mediolateral episiotomies. Methods: In a randomized controlled trial performed in a teaching hospital in the Netherlands between 2010 and 2013 250 primiparous women with uncomplicated mediolateral episiotomies were randomly allocated to intracutaneous skin closure with either Monocryl® or Vicryl Rapide™. All other layers were sutured with Vicryl 2-0 and Vicryl 0 in both groups. Pain scores and complications were documented using questionnaires during the first three months post partum. The primary outcome was pain 10 days after delivery in sitting position established by Visual Analogous Scale (VAS). Secondary outcomes were pain scores at different time points and reported complications such as infections, dehiscence and dyspareunia one day, 10 days, six weeks and three months after delivery. Results: Of 250 allocated women 54% returned questionnaires. No statistical difference was found between both groups for the primary outcome (VAS 2,8 (95% CI 2,18-3,44) vs. VAS 2,5 (95% CI 2,00-2,98), p = 0,43). With regard to secondary outcomes only self-reported dehiscence was significantly different, favouring Monocryl® (10% vs. 25%, p = 0.016). Conclusions: Use of Monocryl® 3-0 and Vicryl Rapide™ 3-0 for intracutaneous closure of the skin after mediolateral episiotomy leads to equal pain scores ten days after delivery and therefore both materials may be considered for this use. Monocryl® 3-0 might be favourable over Vicryl Rapide™ 3-0 due to less self-reported dehiscence after intracutaneous closure of the skin in mediolateral episiotomies. Trial registration: The trial was retrospectively registered under trial nr. ISRCTN29869308on 20

Published
2017
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45. First-trimester detection of surface abnormalities: A comparison of 2- and 3-dimensional ultrasound and 3-dimensional virtual reality ultrasound

Author

Baken, L. (Leonie), Rousian, M. (Melek), Koning, A.H.J. (Anton), Bonsel, G.J. (Gouke), Eggink, A.J. (Alex), Cornette, J.M.J. (Jérôme), Schoonderwaldt, E.M. (Ernst), Husen-Ebbinge, M. (Margreet), Teunissen, K. (Katinka), Spek, P.J. (Peter) van der, Steegers, E.A.P. (Eric), Exalto, N. (Niek), Baken, L. (Leonie), Rousian, M. (Melek), Koning, A.H.J. (Anton), Bonsel, G.J. (Gouke), Eggink, A.J. (Alex), Cornette, J.M.J. (Jérôme), Schoonderwaldt, E.M. (Ernst), Husen-Ebbinge, M. (Margreet), Teunissen, K. (Katinka), Spek, P.J. (Peter) van der, Steegers, E.A.P. (Eric), and Exalto, N. (Niek)

Abstract

The aim was to determine the diagnostic performance of 3-dimensional virtual reality ultrasound (3D-VR-US) and conventional 2- and 3-dimensional ultrasound (2D/3D-US) for first-trimester detection of structural abnormalities. Forty-eight first trimester cases (gold standard available, 22 normal, 26 abnormal) were evaluated offline using both techniques by 5 experienced, blinded sonographers. In each case, we analyzed whether each organ category was correctly indicated as normal or abnormal and whether the specific diagnosis was correctly made. Sensitivity in terms of normal or abnormal was comparable for both techniques (P =.24). The general sensitivity for specific diagnoses was 62.6% using 3D-VR-US and 52.2% using 2D/3D-US (P =.075). The 3D-VR-US more often correctly diagnosed skeleton/limb malformations (36.7% vs 10%; P =.013). Mean evaluation time in 3D-VR-US was 4:24 minutes and in 2D/3D-US 2:53 minutes (P <.001). General diagnostic performance of 3D-VR-US and 2D/3D-US apparently is comparable. Malformations of skeleton and limbs are more often detected using 3D-VR-US. Evaluation time is longer in 3D-VR-US.

Published
2014
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46. OC07.01: *Virtual reality and feasibility and efficacy of first trimester ultrasound (VR FETUS): detection of fetal anomalies in a randomised controlled trial.

Author

Pietersma, C., Mulders, A., Zandbergen, K., Koning, A., Go, A., Steegers, E.A., and Rousian, M.

Abstract

Fetal anomalies can already be detected by ultrasound at the end of the first trimester of pregnancy. The aim of this study is to investigate whether first trimester 3D VR ultrasound is of additional value in terms of diagnostic accuracy for the detection of fetal anomalies. [Extracted from the article]

Published
2022
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47. Embryonic Development in Virtual Reality

Author

Rousian, M. (Melek) and Rousian, M. (Melek)

Abstract

The overall aim of this thesis is to establish an accurate and reliable description of new in vivo biometric and volumetric measurements in the first trimester of pregnancy using 3D ultrasound datasets, analyzed using an innovative VR system. These new measurements, which make optimal use of all three dimensions, will form a basis for follow-up studies describing the abnormal development of embryonic and early fetal life.

Published
2011

48. Innovative three-dimensional imaging: opportunities for virtual embryoscopy

Author

Rousian, M. (Melek), Verwoerd-Dikkeboom, C.M. (Christine), Koning, A.H.J. (Anton), Spek, P.J. (Peter) van der, Exalto, N. (Niek), Steegers, E.A.P. (Eric), Rousian, M. (Melek), Verwoerd-Dikkeboom, C.M. (Christine), Koning, A.H.J. (Anton), Spek, P.J. (Peter) van der, Exalto, N. (Niek), and Steegers, E.A.P. (Eric)

Abstract

Three-dimensional images of patients are currently viewed and assessed using two-dimensional media and techniques. These two-dimensional techniques do not offer depth perception, while this is required for optimal interpretation of three-dimensional and four-dimensional ultrasound, MRI and CT images. The I-Space virtual reality system offers depth perception and allows the user to take length and volume measurements. I-Space offers a spectacular new way of studying embryonic and foetal growth and development in vivo. This may contribute to prenatal diagnostics being brought forward from the second and third trimesters to the first trimester of pregnancy.

Published
2010

49. Reliability of three-dimensional sonographic measurements in early pregnancy using virtual reality

Author

Verwoerd-Dikkeboom, C.M. (Christine), Koning, A.H.J. (Anton), Hop, W.C.J. (Wim), Rousian, M. (Melek), Spek, P.J. (Peter) van der, Exalto, N. (Niek), Steegers-Theunissen, R.P.M. (Régine), Verwoerd-Dikkeboom, C.M. (Christine), Koning, A.H.J. (Anton), Hop, W.C.J. (Wim), Rousian, M. (Melek), Spek, P.J. (Peter) van der, Exalto, N. (Niek), and Steegers-Theunissen, R.P.M. (Régine)

Abstract

Objective: To establish the reliability of three-dimensional (3D) ultrasound measurements in early pregnancy using a virtual reality system (the Barco I-Space). Methods: The study included 28 pregnancies with gestational ages ranging from 6 to 14 (median, 10) weeks. 3D volumes were acquired and offline measurements were made, where possible, of the yolk sac diameter, crown-rump length, biparietal diameter, head circumference and abdominal circumference, using specialized 3D imaging software (4DView). The datasets were then transferred to the Barco I-Space, a virtual reality system that allows the observer to perceive depth and interact with volume-rendered (ultrasound) data. The 3D rendered volumes were measured using a virtual pointer, controlled by a wireless joystick. For intraobserver variability, 3D and virtual reality volumes were measured twice by one operator. For interobserver variability, another operator performed the same measurements once. All measurements were repeated three times and their mean values were used for comparisons. Results: All intraclass correlation coefficients (ICCs) comparing 4DView measurements with I-Space measurements were >0.97. Intra- and interobserver ICCs for the 4DView measurements were >0.96 and for the I-Space ones were >0.98, representing good agreement. Conclusions: The application of virtual reality is a novel method of visualizing 3D ultrasound data and perception of the depth in the I-Space offers possibilities for measuring non-planar structures. We have demonstrated that early pregnancy measurements in the I-Space are reliable. New areas of embryonic and fetal biometry can now be explored using this technique, which we tentatively name 'virtual embryoscopy'. Copyright

Published
2008
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