Abstract
Shunt placement diverting cerebrospinal fluid (CSF) has been the treatment of choice for hydrocephalus for the past several decades. However, the procedure often requires revisions owing to excessive drainage, low CSF flow rates, or infections within the system. With regard to valve pressure, selection of an appropriate valve for a specific patient prior to surgery is not always a simple task. Further, an optimal valve selected at the time of implantation may no longer be appropriate given changing pathophysiological conditions as time passes. It is thus desirable to provide a single valve in which the pressure may be modified when necessary without revision. A programmable pressure valve (designed by Sophysa of France) comes in one model which accommodates different pressure settings obviating revision when pressure changes are needed. Pressure changes can be achieved externally by means of a special magnet which allows precise adjustments in valve pressure to be made through the scalp. The authors introduce the mechanism and describe the cases treated using this valve.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anderson H (1966) Craniosynostosis as a complication after operation for hydrocephalus. Acta Paediatr Scand 55:192–196
Basauri L, Zuleta A (1982) Shunts and shunt problems. Monogr Neural Sci 8:12–15
Faulhauer K (1982) The overdrainaged hydrocephalus. Clinical manifestations and management. Advances and technical standards in neurosurgery. Springer, Wien New York, pp 1–24
Fox JL, McCullough DC, Green RC (1972) Cerebrospinal fluid shunts: an experimental comparison of flow rates and pressure values in various commercial systems. J Neurosurg 37:700–705
Fox JL, Portonoy HD, Shulte RR (1973) Cerebrospinal fluid shunts: an experimental evaluation of flow rates and pressure values in the antisiphon valve. Surg Neurol 1:299–302
Howkins JC, Hoffman HJ, Humphrey RP (1978) Isolated fourth ventricle as a complication of ventricular shunting. Report of three cases. J Neurosurg 49:910–913
Matsumae M, Murakami T, Ueda M, Suzuki Y, Sato O (1987) Dynamic changes of cerebrospinal fluid shunt flow in patient's daily life. Child's Nerv Syst 3:30–34
Montaut J, Picard L, Roland J, Czorny A, Saboori K (1982) Subdural collections after shunting procedure in children. Etiology, treatment and results. Monogr Neural Sci 8:90–91
Oi S, Matsumoto S (1985) Slit-like ventricle as a course of isolated ventricles. Child's Nerv Syst 1:189–193
Salmon JH (1970) Isolated unilateral hydrocephalus following ventriculoatrial shunt. J Neurosurg 32:219–226
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Matsumae, M., Sato, O., Itoh, K. et al. Quantification of cerebrospinal fluid shunt flow rates. Child's Nerv Syst 5, 356–360 (1989). https://doi.org/10.1007/BF00271892
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00271892