Journal of Neurosciences in Rural Practice
 


 
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EDITORIAL
Year : 2018  |  Volume : 9  |  Issue : 4  |  Page : 455-456  

A brief review of giant occipital encephalocele


Department of Pediatric Surgery, Gandhi Medical College and Associated Kamla Nehru and Hamidia Hospitals, Bhopal, Madhya Pradesh, India

Date of Web Publication29-Aug-2018

Correspondence Address:
Rajendra Kumar Ghritlaharey
Department of Pediatric Surgery, Gandhi Medical College and Associated Kamla Nehru and Hamidia Hospitals, Bhopal - 462 001, Madhya Pradesh
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/jnrp.jnrp_189_18

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How to cite this article:
Ghritlaharey RK. A brief review of giant occipital encephalocele. J Neurosci Rural Pract 2018;9:455-6

How to cite this URL:
Ghritlaharey RK. A brief review of giant occipital encephalocele. J Neurosci Rural Pract [serial online] 2018 [cited 2018 Nov 15];9:455-6. Available from: http://www.ruralneuropractice.com/text.asp?2018/9/4/455/239828



An encephalocele is a congenital neural tube defect (NTD) characterized by herniation/protrusion of the intracranial contents (meninges, brain, and part of the ventricles) through a defect in the cranium.[1] Encephalocele is caused by failure of the closure of the cranial part of the developing neural tube during the first few weeks of fetal life. An encephalocele is termed as “giant encephalocele” when the size of encephalocele is larger than the size of the head.[2] Giant encephalocele is also termed as “massive encephalocele” and “large encephalocele.”[3] Giant encephaloceles are most frequently observed at occipital region.[2],[3] Giant occipital encephalocele is a rare entity, and mostly reported as case reports.[4],[5] The internet search revealed two series published on giant occipital encephaloceles.[3],[6] Mahapatra published a series of 14 cases of giant encephaloceles, which included thirteen cases of giant occipital encephaloceles, and one case of anterior encephalocele.[3] Ozdemir et al. recently published a series of four neonates who underwent surgical repair of giant occipital encephaloceles.[6]

NTDs are among the most common of all birth defects in human and approximately 300,000 babies are born with NTDs globally each year.[7] During the last few decades, there is significant decline in the incidence of NTDs worldwide; however, the incidence is still much higher in the developing countries.[7] Encephalocele has an estimated prevalence of 0.8–5.0 per 10,000 live births.[8],[9] Occipital encephalocele is the most common of all encephaloceles.[1],[2] Depending on the anatomical location of encephalocele, it can be named as occipital, anterior, parietal, temporal, and vertex encephalocele. Encephaloceles are also classified based on their anatomical location of the skull defect.

Associated anomalies are reported to occur in 36%–60% of the infants born with encephaloceles, and include cranial and extracranial anomalies.[1],[3],[8] Giant occipital encephalocele associated with Chiari malformation Type III is extremely rare entity.[4],[5] Chiari malformation Type III is characterized by the herniation of the posterior fossa contents, including the cerebellum, brain stem, and fourth ventricle, and in some cases, the upper cervical spinal cord through a low occipital and/or upper cervical osseous defect.[4] Bulut et al. found approximately 30 published cases of Chiari Type III malformation, to which few more cases have been added in literature.[4],[5]

Clinically, giant occipital encephaloceles are obvious and suspected due to the characteristic swelling. The size of the encephalocele may vary from few centimeters to a giant swelling. The clinical examination consists of examination of the encephalocele/swelling (size, extent, location), size of bony defect, size of the head for clinical suspicion of hydrocephalus or microcephaly, associated cranial, and extracranial anomalies.[3],[4],[5]

Investigations to detect NTDs including encephaloceles during antenatal period are; antenatal fetal sonography, antenatal fetal magnetic resonance imaging (MRI), and measurement of maternal serum alpha-fetoprotein. During antenatal fetal sonography, most of the cases of encephaloceles are easily diagnosed on cranial views with brain protruding through cranial defect. Fetal MRI serves as an accurate tool to delineate not only the protruded encephalocele, but also the fetal brain, and associated cranial anomalies.[5],[8]

Postnatally, computed tomography scan, and MRI of the head including the encephalocele are the investigations needed for the evaluation of occipital encephaloceles and associated intracranial anomalies (hydrocephalus and other brain abnormalities), although MRI of the head is preferred investigation.[1],[2],[3],[4],[5],[6] If there is an additional-associated anomalies suspected or detected during clinical examination, other investigations are also required. Magnetic resonance angiography and magnetic resonance venography are the additional radiological investigations required in selected cases to delineate cerebral vascular pattern.[5],[6]

In general, most of the prenatally diagnosed neurosurgical anomalies/malformations are best managed after birth by an appropriate medical and surgical therapy. Only few of the neurosurgical anomalies may require and benefit by antenatal fetal intervention. The commonest neurosurgical anomaly treated during antenatal period with a high success rate is myelomeningocele.[9] The limited number of fetal repair of encephaloceles has also been reported in the literature.[9]

Surgical procedures for giant occipital encephalocele are a challenging task, not only for neurosurgeons, but also for the anesthesiologists. These challenges are due to its site, large size, contents, associated intracranial anomalies, intraoperative blood loss, intraoperative hypothermia, and prolonged anesthesia.[3],[4],[5],[6],[10] The problems faced by anesthesiologists during anesthesia management of patients with giant occipital encephaloceles are difficult tracheal intubation, instability in hemodynamic, excess blood loss, intraoperative hypothermia, and cardiorespiratory complications.[10] Occipital encephaloceles are best operated in the prone position. Partial aspiration of cerebrospinal fluid (CSF) is also a better option to reduce volume of giant occipital encephalocele to facilitate the endotracheal intubation.[3]

In general, operative repair for giant occipital encephalocele consists of excision of the excess méninges, partial or complete excision of protruded brain tissue, watertight closure of the dural defect and approximation of the skin.[3],[4],[5],[6] Mahapatra reported that five of thirteen cases of giant occipital encephaloceles also had associated craniostenosis; and therefore, craniectomy and/or cranioplasty were also required.[3]

Associated hydrocephalus is frequently present with giant occipital encephaloceles or developed following the surgical repair of it, and CSF diversion in the form of ventriculoperitoneal shunt is also an additional surgical procedure required.[3],[5] Complications observed following repair of giant occipital encephaloceles are CSF leak, postoperative meningitis, wound infection, wound dehiscence, and hydrocephalus.[3],[5] Mortalities have also been reported following surgical repair of giant occipital encephaloceles.[3]

The prognosis of the children treated for giant occipital encephaloceles depends on many factors and includes the size, amount of brain tissue involved in the encephalocele, associated intracranial (microcephaly and hydrocephalus), and extracranial anomalies, and the treatment offered for the correction of the disease.[3],[6] Associated hydrocephalus and microcephaly carries a significant morbidity in these children. A significant proportion of these children lack normal developmental milestones, and also has neurological deficits.



 
   References Top

1.
Da Silva SL, Jeelani Y, Dang H, Krieger MD, McComb JG. Risk factors for hydrocephalus and neurological deficit in children born with an encephalocele. J Neurosurg Pediatr 2015;15:392-8.  Back to cited text no. 1
    
2.
Borkar S, Mahapatra A. Encephaloceles: A study of 110 patients operated on at AIIMS. J Neurol Surg B 2012;73:A520.  Back to cited text no. 2
    
3.
Mahapatra AK. Giant encephalocele: A study of 14 patients. Pediatr Neurosurg 2011;47:406-11.  Back to cited text no. 3
    
4.
Bulut MD, Yavuz A, Bora A, Gülşen I, Özkaçmaz S, Sösüncü E, et al. Chiari III malformation with a giant encephalocele Sac: Case report and a review of the literature. Pediatr Neurosurg 2013;49:316-9.  Back to cited text no. 4
    
5.
Kanesen D, Rosman AK, Kandasamy R. Giant occipital encephalocele with Chiari Malformation type 3. J Neurosci Rural Pract 2018;9:619-21.  Back to cited text no. 5
  [Full text]  
6.
Ozdemir N, Ozdemir SA, Ozer EA. Management of the giant occipital encephaloceles in the neonates. Early Hum Dev 2016;103:229-34.  Back to cited text no. 6
    
7.
Zaganjor I, Sekkarie A, Tsang BL, Williams J, Razzaghi H, Mulinare J, et al. Describing the prevalence of neural tube defects worldwide: A systematic literature review. PLoS One 2016;11:e0151586.  Back to cited text no. 7
    
8.
Liao SL, Tsai PY, Cheng YC, Chang CH, Ko HC, Chang FM. Prenatal diagnosis of fetal encephalocele using three-dimensional ultrasound. J Med Ultrasound 2012;20:150-4.  Back to cited text no. 8
    
9.
Cavalheiro S, da Costa MD, Mendonça JN, Dastoli PA, Suriano IC, Barbosa MM, et al. Antenatal management of fetal neurosurgical diseases. Childs Nerv Syst 2017;33:1125-41.  Back to cited text no. 9
    
10.
Mahajan C, Rath GP, Bithal PK, Mahapatra AK. Perioperative management of children with giant encephalocele: A clinical report of 29 cases. J Neurosurg Anesthesiol 2017;29:322-9.  Back to cited text no. 10
    




 

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