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DOI: 10.1055/s-0040-1710311
Prenatal Diagnosis of Vein of Galen Aneurysmal Malformation Allows Early Transumbilical Endovascular Treatment
Diagnóstico pré-natal de malformação aneurismática da veia de Galeno possibilita tratamento endovascular precoce por acesso transumbilicalAbstract
Neonates with vein of Galen aneurysmal malformation (VGAM) presenting with severe cardiac failure and pulmonary hypertension represent a challenge for endovascular therapy. When early treatment is required, the small femoral arteries in this population are usually difficult to cannulate. Alternatively, the umbilical vessels offer a natural pathway to reach the lesion. Therefore, prenatal diagnosis of VGAM allows for delivery planning, perinatal management, and embolization through umbilical approach, thus leading to better outcomes.
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Resumo
Neonatos com malformação aneurismática da veia de Galeno (MAVG) apresentando insuficiência cardíaca severa e hipertensão pulmonar representam um desafio terapêutico. Quando o tratamento precoce é necessário, o pequeno diâmetro dos vasos femorais nessa faixa etária dificulta a punção e canulação. Como alternativa, os vasos umbilicais oferecem um acesso natural para alcançar a lesão. Assim, o diagnóstico pré-natal da MAVG proporciona planejamento adequado do parto em local com a estrutura necessária e cateterização dos vasos umbilicais ao nascer, o que permite tratamento precoce e melhor evolução desses pacientes.
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Keywords
vein of Galen malformations - arteriovenous malformations - prenatal diagnosis - umbilical arteries - newborn infant - endovascular procedures.Palavras-chave
malformações da veia de Galeno - malformaçõesarteriovenosas - diagnóstico pré-natal - cordão umbilical - recém-nascido - embolização terapêuticaIntroduction
Neonates with vein of Galen aneurysmal malformation (VGAM) presenting with early congestive heart failure (CHF) have a relatively poor prognosis.[1] The femoral arteries in this population are small and difficult to cannulate; thus, the umbilical vessels are a natural pathway to approach the brain vessels. Nevertheless, the umbilical artery catheterization is best performed right after delivery; therefore, prenatal diagnosis becomes important to plan early treatment and improve outcomes.
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Methods and Results
A 29-year-old healthy woman at 31 weeks of gestation underwent a routine fetal ultrasound scan. It identified a 24 × 15-mm midline, anechoic structure above the thalamus. Color doppler revealed a VGAM draining into an enlarged falcine sinus. Fetal echocardiography showed mild cardiomegaly, with enlarged right chambers due to high output. A prenatal magnetic resonance imaging (MRI) during apnea demonstrated a choroidal type of VGAM, with dilated lateral ventricles ([Fig. 1]). The findings were discussed with the parents, a neonatologist, a pediatric cardiologist, and a neuroradiologist.
At 40 weeks of gestation, a planned Caesarean section was performed, after previous reservation of the hemodynamic suite. The newborn was a 3,250-g male, with normal head circumference; on physical examination, there were a 2/6 systolic murmur and a 3/6 cranial bruit. The Bicêtre neonatal evaluation (BNE) score[1] was 11, while the Apgar scores were 1 at 1 minute, 5 on the 5th minute, and 8 at 10 minutes, after intubation and ventilatory support with oxygen. The neonate developed CHF soon after delivery, which was treated with fentanyl, furosemide, and milrinone. The umbilical artery and vein were cannulated, and he was called for intervention with 23 hours of life. An Echelon 10 microcatheter (Medtronic, Irvine, CA, USA) over a SilverSpeed 10 guidewire (Medtronic) was directly inserted through the umbilical artery cannula, and a digital subtraction angiography (DSA) showed a large VGAM, with several afferences and high-flow arteriovenous fistulas ([Fig. 2]). Embolization was performed using Axium 3D or Helix mechanical detachable coils (Medtronic) followed by injection of Onyx ethylene-vinyl-alcohol-copolymer (EVOH) (Medtronic) until complete obliteration; the three main afferences were completely occluded, with two being posterior choroidal arteries and one pericallosal. The procedure was interrupted due to contrast volume but reduction of bruit was achieved. In the postoperative period, the infant evolved with tachycardia, treated with esmolol, and pneumonia, treated with oxacillin and amykacin. The cardiopulmonary function progressively worsened, failed to respond to medical treatment using digoxin and sildenafil, and the patient died of intractable CHF on the 20th day of life.
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Discussion
The VGAM occurs during the 6th to the 11th weeks of gestation, due to the persistence of the median prosencephalic vein (of Markowski).[2] [3] That is the precursor of the cerebral magna vein, which remains connected to the choroidal vessels.[2] [3] Disease expression may vary from several fistulas, inhibiting cardiac function, to complete asymptomatic patients, incidentally diagnosed at adult age.[4]
Prenatal diagnosis of VGAM is commonly made during the third trimester, through fetal ultrasound.[2] Doppler studies can further help to understand the hemodynamics of the lesion, while echocardiography is useful to identify cardiac abnormalities.[2] Fetal MRI in apnea shows large flow void in the central region, enlarged falcine sinus and drainage to transverse sinuses. It also helps to identify hydrocephalus, as shown in our case. The diagnosis during the gestation allows planning of delivery in tertiary hospitals, with high-risk neonatal unit, neurosurgery, and neuroradiology support, favoring early intervention whenever necessary.
Treatment may avoid death and complications, such as hydrocephalus, CHF, or dural arteriovenous fistula. In a meta-analysis of 754 patients with VGAM, 76.7% of untreated patients died; and while microsurgery found an 84.6% mortality rate, endovascular therapy achieved favorable outcome in 72% of the patients, with a mortality rate of 15%.[5] Therefore, embolization is the treatment of choice.[6] It should be attempted as soon as possible for neonates with VGAM presenting CHF and pulmonary hypertension,[7] and a BNE score between 8 and 12 out of 21 requires urgent therapy ([Table 1]).[1]
Abbreviations: EEG, electroencephalogram; FiO2, fraction of inspired oxygen.
Patient presenting with < 8 points: not to treat; 8–12 points: emergency endovascular intervention; > 12 points: medical management until the child is at least 5 months of age.[1]
The transfemoral approach is commonly used for transarterial embolization; however, catheterization of the femoral artery can be difficult in neonates due to small vessels diameter.[8] Furthermore, it may cause thromboembolic complications or arterial occlusion, and maintenance of a vascular sheath several days for repeated interventional procedures is associated to leg ischemia.[8] Otherwise, the transumbilical arterial approach is technically easier and safer than other methods.[8] The umbilical cord has three vessels: one larger oval umbilical vein, with thin wall, running to the left portal vein; and two smaller, round umbilical arteries, with thick wall, originated from the internal iliac arteries and enabling direct access to aorta.[8] The umbilical arteries suffer prompt constriction after delivery; thus, its cannulation should be conducted immediately after birth; and although it can be performed later, it becomes almost impossible after the 4th postnatal day.[8] Transvenous embolization can be done through direct sinus puncture, jugular, femoral, or umbilical approaches.[8] Because the abrupt total occlusion of the venous side with coils was associated with hemorrhagic complication,[1] we attempted to occlude the high-flow arteriovenous shunts in a graded fashion. Arterial afferences can be obliterated using n-butyl cyanoacrylate (NBCA), EVOH, coils, or a combination of these.[6] Complications related to embolization of the VGAM include neurological disability, death, hemorrhage, and sinus thrombosis.[1] [3] Despite the unfavorable outcome of the described case, in a retrospective review, major brain lesions during prenatal evaluation were associated with poor outcome in all cases.[2]
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Conclusion
Prenatal diagnosis of VGAM is important to allow for delivery planning and transumbilical cannulation. This offers a chance for early treatment and improved outcomes.
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Conflict of Interests
The authors declare that there are no conflict of interests.
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References
- 1 Lasjaunias PL, Chng SM, Sachet M, Alvarez H, Rodesch G, Garcia-Monaco R. The management of vein of Galen aneurysmal malformations. Neurosurgery 2006; 59 (05) (Suppl. 03) S184-S194 , discussion S3–S13
- 2 Paladini D, Deloison B, Rossi A. , et al. Vein of Galen aneurysmal malformation (VGAM) in the fetus: retrospective analysis of perinatal prognostic indicators in a two-center series of 49 cases. Ultrasound Obstet Gynecol 2017; 50 (02) 192-199 . Doi: 10.1002/uog.17224
- 3 Demartini Jr Z, Dos Santos ML, Koppe GL, Cardoso-Demartini AA. Sinus thrombosis after endovascular treatment of vein of Galen aneurysmal malformation. Pediatr Neurosurg 2017; 52 (02) 136-139 . Doi: 10.1159/000452806
- 4 Marques RM, Lobão CA, Sassaki VS, Aguiar LR. Vein of Galen aneurysm in an adult: case report. Arq Neuropsiquiatr 2006; 64 (3B): 862-864
- 5 Yan J, Gopaul R, Wen J, Li XS, Tang JF. The natural progression of VGAMs and the need for urgent medical attention: a systematic review and meta-analysis. J Neurointerv Surg 2017; 9 (06) 564-570 . Doi: 10.1136/neurintsurg-2015-012212
- 6 Meila D, Schmidt C, Melber K. , et al. Delayed and incomplete treatment may result in dural fistula development in children with Vein of Galen malformation. Interv Neuroradiol 2018; 24 (01) 82-87 . Doi: 10.1177/1591019917741755
- 7 De Rosa G, De Carolis MP, Tempera A. , et al. Outcome of neonates with vein of Galen malformation presenting with severe heart failure: a case series. Am J Perinatol 2019; 36 (02) 169-175 . Doi: 10.1055/s-0038-1666813
- 8 Komiyama M, Terada A, Ishiguro T. Neuro-interventions for the neonates with brain arteriovenous fistulas: with special reference to access routes. Neurol Med Chir (Tokyo) 2016; 56 (03) 132-140 . Doi: 10.2176/nmc.oa.2015-0336
Address for correspondence
Publication History
Received: 28 February 2020
Accepted: 24 March 2020
Article published online:
31 July 2020
© 2020. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial-License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/).
Thieme Revinter Publicações Ltda
Rio de Janeiro, Brazil
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References
- 1 Lasjaunias PL, Chng SM, Sachet M, Alvarez H, Rodesch G, Garcia-Monaco R. The management of vein of Galen aneurysmal malformations. Neurosurgery 2006; 59 (05) (Suppl. 03) S184-S194 , discussion S3–S13
- 2 Paladini D, Deloison B, Rossi A. , et al. Vein of Galen aneurysmal malformation (VGAM) in the fetus: retrospective analysis of perinatal prognostic indicators in a two-center series of 49 cases. Ultrasound Obstet Gynecol 2017; 50 (02) 192-199 . Doi: 10.1002/uog.17224
- 3 Demartini Jr Z, Dos Santos ML, Koppe GL, Cardoso-Demartini AA. Sinus thrombosis after endovascular treatment of vein of Galen aneurysmal malformation. Pediatr Neurosurg 2017; 52 (02) 136-139 . Doi: 10.1159/000452806
- 4 Marques RM, Lobão CA, Sassaki VS, Aguiar LR. Vein of Galen aneurysm in an adult: case report. Arq Neuropsiquiatr 2006; 64 (3B): 862-864
- 5 Yan J, Gopaul R, Wen J, Li XS, Tang JF. The natural progression of VGAMs and the need for urgent medical attention: a systematic review and meta-analysis. J Neurointerv Surg 2017; 9 (06) 564-570 . Doi: 10.1136/neurintsurg-2015-012212
- 6 Meila D, Schmidt C, Melber K. , et al. Delayed and incomplete treatment may result in dural fistula development in children with Vein of Galen malformation. Interv Neuroradiol 2018; 24 (01) 82-87 . Doi: 10.1177/1591019917741755
- 7 De Rosa G, De Carolis MP, Tempera A. , et al. Outcome of neonates with vein of Galen malformation presenting with severe heart failure: a case series. Am J Perinatol 2019; 36 (02) 169-175 . Doi: 10.1055/s-0038-1666813
- 8 Komiyama M, Terada A, Ishiguro T. Neuro-interventions for the neonates with brain arteriovenous fistulas: with special reference to access routes. Neurol Med Chir (Tokyo) 2016; 56 (03) 132-140 . Doi: 10.2176/nmc.oa.2015-0336