1. Kartal,
MG,
& Algin O (2014) Evaluation of hydrocephalus and other cerebrospinal fluid disorders with MRI: An update.
Insights into Imaging 5: 531–541
2. Battal B,
Kocaoglu M,
Bulakbasi N et al (2011) Cerebrospinal fluid flow imaging by using phase-contrast MR technique.
Br J Radiol 84: 758–765
3. Yamada S,
Tsuchiya K,
Bradley WG et al (2015) Current and emerging
MR imaging techniques for the diagnosis and management of CSF flow disorders: a review of phase-contrast and time-spatial labeling inversion pulse.
Am J Neuroradiol.
36:623-630
4. Raybaud A,
Barkovich AJ (2012) Hydrocephalus.
In: Barkovich AJ,
Raybaud C (eds).
Pediatric neuroimaging,
5th edn.
Philadelphia: Lippincott Williams & Wilkins,
pp 808-857
5. Kartal,
MG,
& Algin O (2014) Evaluation of hydrocephalus and other cerebrospinal fluid disorders with MRI: An update.
Insights into Imaging 5: 531–541
6. Fritsch MJ and Schroeder HWS (2013) Endoscopic Aqueductoplasty and Stenting.
World Neurosurg 79: S20.e15-S20.e18
7. Cinalli G,
Spennato P,
Nastro A,
Aliberti F,
Trischitta V,
et al (2011) Hydrocephalus in aqueductal stenosis.
Childs Nerv Syst 27: 1621–1642
8. Dinçer A1,
Kohan S,
Ozek MM (2009) Is all "communicating" hydrocephalus really communicating? Prospective study on the value of 3D-constructive interference in steady state sequence at 3T. Am J Neuroradiol 30:1898-1906
9. Öztürk M,
Sığırcı A,
Ünlü S (2016) Evaluation of aqueductal cerebrospinal fluid flow dynamics with phase-contrast cine magnetic resonance imaging in normal pediatric cases.
Clin Imaging 40:1286-1290
10. Rekate HL (2011): A consensus on the classification of hydrocephalus: Its utility in the assessment of abnormalities of cerebrospinal fluid dynamics.
Childs Nerv Syst 27:1535-1541
11. Rekate HL (2008).
The definition and classification of hydrocephalus: a personal recommendation to stimulate debate.
Cerebrospinal Fluid Res 5: 2
12. Algin O,
Ozmen E,
Karaoglanoglu M (2012) The role of MRI in pediatric obstructive hydrocephalus: An update.
J Pediatr Neuroradiol.
2:71–80
13. Pople IK (2002) Hydrocephalus and shunts: what the neurologist should know.
J Neurol Neurosurg Psychiatry 73: i17–22
14. Raybaud C (2016) MR assessment of pediatric hydrocephalus: a road map.
Childs Nerv Syst 32:19-41
15. Mohammad SA,
Abdelkhalek HS,
Ahmed KA,
Zaki OK (2015) Glutaric aciduria type 1: neuroimaging features with clinical correlation.
Pediatr Radiol 45:1696–1705.
16. Yildiz H1,
Yazici Z,
Hakyemez B,
et al (2006) Evaluation of CSF flow patterns of posterior fossa cystic malformations using CSF flow MR imaging.
Neuroradiology 48(9):595-605
17. Di Rocco C1,
Frassanito P,
Massimi L et al (2011) Hydrocephalus and Chiari type I malformation Childs Nerv Syst.
2011 Oct;27(10):1653-64.
18. Fukuhara T,
Vorster SJ,
Ruggieri P et al (1999).
Third ventriculostomy patency: comparison of findings at cine phase-contrast MR imaging and at direct exploration.
Am J Neuroradiol 20:1560–1566
19. Mater A,
Shroff M,
Al-Farsi S,
Drake J,
Goldman RD.
Test characteristics of neuroimaging in the emergency department evaluation of children for cerebrospinal fluid shunt malfunction.
CJEM.
2008;10(2):131-135.
20. Sivaganesan A,
Krishnamurthy R,
Sahni D,
Viswanathan C.
Neuroimaging of ventriculoperitoneal shunt complications in children.
Pediatr Radiol 2012; 42:1029–1046
21. Yue EL,
Meckler GD,
Fleischman RJ et al Test characteristics of quick brain MRI for shunt evaluation in children: an alternative modality to avoid radiation.
J Neurosurg Pediatr.
2015 15:420-426
22. Kurwale NS,
Agrawal D (2011) Phase-Contrast Magnetic Resonance Imaging of Intracranial Shunt Tube: A Valuable Adjunct in the Diagnosis of Ventriculoperitoneal Shunt Malfunction Clinical Neurosurgery(58): chapter 19