Reversal of Hindbrain Herniation after Maternal-fetal Surgery for Myelomeningocele Subsequently Impacts on Brain Stem Function

E. Danzer; R. S. Finkel; N. E. Rintoul; M. W. Bebbington; E. S. Schwartz; D. M. Zarnow; N. S. Adzick; M. P. Johnson

doi:10.1055/s-0029-1202835

Neuropediatrics 2008; 39(6): 359-362
DOI: 10.1055/s-0029-1202835

Short Communication

Reversal of Hindbrain Herniation after Maternal-fetal Surgery for Myelomeningocele Subsequently Impacts on Brain Stem Function

E. Danzer¹ , R. S. Finkel¹ , N. E. Rintoul¹ , M. W. Bebbington¹ , E. S. Schwartz¹ , D. M. Zarnow¹ , N. S. Adzick¹ , M. P. Johnson¹

¹The Center for Fetal Diagnosis and Treatment, The Children's Hospital of Philadelphia and The University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania, USA

Abstract

The aim of our study was to delineate whether the reversal of hindbrain herniation (HH) following fetal myelomeningocele (fMMC) closure subsequently reduces the incidence and severity of HH-associated brainstem dysfunction (BSD). Prior to the NIH-sponsored Management of Myelomeningocele Study (MOMS) trial, 54 children underwent fMMC closure at our institution. Forty-eight (89%) families participated in a structured survey focusing on HH-associated BSD (e.g., apnea, neurogenic dysphagia [ND], gastro-esophageal reflux disease [GERD], neuro-ophthalmologic disturbances [NOD]). Median age at follow-up was 72 months (range: 46–98). Fifty-percent required shunting. HH-related symptoms were completely absent in 15 (63%) non-shunted and 10 (42%) shunted children (P=0.15). No HH-related death occurred and none developed severe persistent cyanotic apnea. ND was reported in 2 (8%) non-shunted and 9 (38%) shunted infants (P=0.03). Mild GERD (medically managed) developed in 2 (8%) without and 6 (25%) with shunt placement (P=0.24). NOD was found in 6 (25%) and 13 (54%) of non-shunted and shunted children, respectively (P=0.07). The majority of fMMC children developed no or only mild BSD at follow-up. Our data support the hypothesis that neurodevelopmental deficits associated with MMC are at least partially acquired and that reversal of HH following fMMC surgery may help to reduce the incidence and severity of BSD.

Key words

myelomeningocele - fetal surgery - hindbrain herniation - brain stem dysfunction - apnea

Full Text

References

1 Bell WO, Charney EB, Bruce DA. et al . Symptomatic Arnold-Chiari malformation: review of experience with 22 cases. J Neurosurg. 1987; 66 812-816
2 Biglan AW. Strabismus associated with meningomyelocele. J Pediatr Ophthalmol Strabismus. 1995; 32 309-314
3 Bruner JP, Tulipan N, Paschall RL. et al . Fetal surgery for myelomeningocele and the incidence of shunt-dependent hydrocephalus. JAMA. 1999; 282 1819-1825
4 Caines E, Dahl M, Holmstrom G. Longterm oculomotor and visual function in spina bifida cystica: a population-based study. Acta Ophthalmol Scand. 2007; 85 662-666
5 Charney EB, Rorke LB, Sutton LN. et al . Management of Chiari II complications in infants with myelomeningocele. J Pediatr. 1987; 111 364-371
6 Danzer E, Johnson MP, Bebbington M. et al . Fetal head biometry assessed by fetal magnetic resonance imaging following in utero myelomeningocele repair. Fetal Diagn Ther. 2007; 22 1-6
7 Hoffman HJ, Neill J, Crone KR. et al . Hydrosyringomyelia and its management in childhood. Neurosurgery. 1987; 21 347-351
8 Holinger PC, Holinger LD, Reichert TJ. et al . Respiratory obstruction and apnea in infants with bilateral abductor vocal cord paralysis, meningomyelocele, hydrocephalus, and Arnold-Chiari malformation. J Pediatr. 1978; 92 368-373
9 Johnson MP, Sutton LN, Rintoul N. et al . Fetal myelomeningocele repair: short-term clinical outcomes. Am J Obstet Gynecol. 2003; 189 482-487
10 Kirk VG, Morielli A, Gozal D. et al . Treatment of sleep-disordered breathing in children with myelomeningocele. Pediatr Pulmonol. 2000; 30 445-452
11 Lennerstrand G, Gallo JE. Neuro-ophthalmological evaluation of patients with myelomeningocele and Chiari malformations. Dev Med Child Neurol. 1990; 32 415-422
12 MacLone DG, Dias MS. The Chiari II malformation: cause and impact. Childs Nerv Syst. 2003; 19 540-550
13 MacLone DG, Knepper PA. The cause of Chiari II malformation: a unified theory. Pediatr Neurosci. 1989; 15 1-12
14 Pollack IF, Pang D, Albright AL. et al . Outcome following hindbrain decompression of symptomatic Chiari malformations in children previously treated with myelomeningocele closure and shunts. J Neurosurg. 1992; 77 881-888
15 Pollack IF, Pang D, Kocoshis S. et al . Neurogenic dysphagia resulting from Chiari malformations. Neurosurgery. 1992; 30 709-719
16 Sutton LN, Adzick NS, Bilaniuk LT. et al . Improvement in hindbrain herniation demonstrated by serial fetal magnetic resonance imaging following fetal surgery for myelomeningocele. JAMA. 1999; 282 1826-1831
17 Vandertop WP, Asai A, Hoffman HJ. et al . Surgical decompression for symptomatic Chiari II malformation in neonates with myelomeningocele. J Neurosurg. 1992; 77 541-544
18 Ward SL, Nickerson BG, van der Hal A. et al . Absent hypoxic and hypercapneic arousal responses in children with myelomeningocele and apnea. Pediatrics. 1986; 78 44-50
19 Waters KA, Forbes P, Morielli A. et al . Sleep-disordered breathing in children with myelomeningocele. J Pediatr. 1998; 132 672-681
20 Worley G, Schuster JM, Oakes WJ. Survival at 5 years of a cohort of newborn infants with myelomeningocele. Dev Med Child Neurol. 1996; 38 816-822

Correspondence

M. P. JohnsonMD

The Center for Fetal Diagnosis and Treatment

The Children's Hospital of Philadelphia

5th Wood Center

34th Street and Civic Center Boulevard

19104 Philadelphia

USA

Phone: +1/215/590 27 47

Fax: +1/215/590 24 47

Email: johnsonma@email.chop.edu