[Agarval G, Berman B, Stark L. A Lumped Parameter Model of the Cerebrospinal System IEEE Trans Biomed Eng BME 1969; 16: 45-53.10.1109/TBME.1969.4502602]Search in Google Scholar
[Albeck MJ, Borgesen SE, Gjerris F, Schnidt JF, Sorensen PS. Intracranial pressure and cerebrospinal fluid outflow conductances in healthy subjects. J Neurourg 1991; 74: 597-600.10.3171/jns.1991.74.4.0597]Search in Google Scholar
[Avezaat CJJ, Eijndhoven JHM. Cerebrospinal fluid pulse pressure and craniospinal dynamics. A theoretical, Clinical and experimental study (thesis) Hague: A Jongbloed en Zoon. (1984).]Search in Google Scholar
[Baleastri M, Czosnyka M, Steiner L A, Schmidt E, Smielewski P, Matta B, Pickard JD. Intracranial hypertension: what additional information can be derived from ICP waveform after head injury? Acta Neurochir. (Wien) 2004; 146: 131-141.10.1007/s00701-003-0187-y]Search in Google Scholar
[Boon AJW, Tans JTh, Delwel EJ, Egeler-Peerdeman SM, Hermans J. The Dutch Normal-Pressure Hydrocephalus Study How to select patients for shunting? An analysis of four diagnostic criteria. Surg Neurol 2000; 53: 201-207.10.1016/S0090-3019(00)00182-8]Search in Google Scholar
[Bearing HA. Choroid plexus and arterial pulsations of cerebrospinal fluid: demonstration of the choroid plexus as a cerebrospinal fluid pump. Arch. Neurol. Psychiatry 1955; 73: 165-173.]Search in Google Scholar
[Chop M, Portnoy HD. Systems analysis of intracranial pressure. J Neurosurgery 1980; 53: 516-527.10.3171/jns.1980.53.4.05167420174]Search in Google Scholar
[Cieślicki K, Czepko R. Optimal use of the lumbar infusion test in patients with communicating hydrocephalus. Theoretical considerations in comparison to clinical observation. Neurol Neurochir Pol 2004; 38: 189-195.]Search in Google Scholar
[Cieślicki K, Czepko R, Libionka W. Comments on "Analysis of intracranial pressure during and after the infusion test in patients with communicating hydrocephalus". Physiol Meas 2006; 27: L5-L8.10.1088/0967-3334/27/10/L0116951449]Search in Google Scholar
[Czosnyka M, Barorski L, Roszkowski M, et al. Cerebrospinal compensation in hydrocephalic children. Child's Nerv System 1993; 9: 17-22.10.1007/BF003019298481937]Search in Google Scholar
[Czosnyka M. Analiza dynamicznych procesów wewnątrzczaszkowej kompensacji objętościowej. Prace Naukowe "Elektronika" z. 111, Oficyna Wydawnicza PW, Warszawa (1996).]Search in Google Scholar
[Delwel EJ, de Jonge DA, Avezaat CJJ. The prognostic value of clinical characteristics and parameters of cerebrospinal fluid hydrodynamics in shunting for idiopathic normal pressure hydrocephalus. Acta Neurochir (Wien) 2005; 147: 1037-1043.10.1007/s00701-005-0570-y16047108]Search in Google Scholar
[Duros J, Nadvornik P. Investigation of cerebral blood circulation on computer model J Neurosurg Sc 1977; 21: 243-246.]Search in Google Scholar
[Giulioni M, Ursino M. Impact of cerebral perfusion pressure and autoregulation on intracranial dynamics: A modeling study. Neurosurgery 1996; 39: 1005-1015.]Search in Google Scholar
[Juniewicz H, Kasprowicz M, Czosnyka M, Czosnyka Z, Gilewski S, Dzik M and Piccard JD. Analysis of intracranial pressure during and after the infusion test in patients with communicating hydrocephalus. Physiol Meas 2005; 26: 1039-1048.10.1088/0967-3334/26/6/01316311451]Search in Google Scholar
[Lakin W, Stevans SA, Tranmer BI, Penar PL. A whole body mathematical model for intracranial pressure dynamics. J Math Biol 2003; 46: 347-383.10.1007/s00285-002-0177-312673511]Search in Google Scholar
[Marmarou A, Shulman K, Rosende RM. A nonlinear analysis of the cerebrospinal fluid system and intracranial pressure dynamics. J Neurosurg 1978; 48: 332-344.10.3171/jns.1978.48.3.0332]Search in Google Scholar
[Morgalla MH, Stumm F, Hesse G. A computer-based method for continous single pulse analysis of intracranial pressure waves J Neurol Sc 1999; 168: 90-95.10.1016/S0022-510X(99)00137-9]Search in Google Scholar
[Murphy GM. Ordinary Differential Equations and their Solutions. Van Nostrand Co Inc, New York (1960).]Search in Google Scholar
[Nelder JA, Mead R. A Simplex Method for Function Minimization. Computer J 1965; 7: 308-313.10.1093/comjnl/7.4.308]Search in Google Scholar
[Piechnik S, Czosnyka M, Harris NG, Minhas PS, and Pickard JD. A model of the cerebral and CSF circulations to examine the asymmetry in cerebrovascular reactivity. J Cerebral Blood Flow and Metabolism 2001; 21: 182-192.10.1097/00004647-200102000-00010]Search in Google Scholar
[Sorek S, Bear J, Karni Z. A non-steady compartmental flow model of the cerebrovascular system. J Biomech 1988; 21: 695-704.10.1016/0021-9290(88)90279-5]Search in Google Scholar
[Sorek S, Bear J, Karni Z. Resistances and compliances of a compartmental model of the cerebrovascular system. Ann Biomed Eng 1989; 17: 1-12.10.1007/BF023642702919810]Search in Google Scholar
[Schmidt B Scwartze JJ, Czosnyka M, Sander D, Wittich I, Klingelhoefer J. A method for a simulation of continuous intracranial pressure curves. Comput Biomed Res 1998; 31: 231-243.10.1006/cbmr.1998.14799731266]Search in Google Scholar
[Szewczykowski J, Śliwka S, Kunicki A, et.al. A fast method of estimating the elastance of the intracranial system. J Neurosurgery 1978; 47: 19-26.10.3171/jns.1977.47.1.0019864503]Search in Google Scholar
[Takemae TY, Kosugi J, Ikebe Y, Kumagai K, Matsuyama N, Saito H. A Simulation Study of Intracranial Pressure Increment Using an Electrical Circuit Model of Cerebral Circulation IEEE Trans Biomed Eng (BME) 1987; 34: 958-962.10.1109/TBME.1987.325935]Search in Google Scholar
[Ursino M. A mathematical study of human intracranial hydrodynamics, Part I The cerebrospinal fluid pulse pressure. Ann Biomed Eng 1988; 16: 379-401.10.1007/BF023646253177984]Search in Google Scholar
[Ursino M, Lodi CA. A simple mathematical model of the interaction between intracranial pressure and cerebral hemodynamics. J Appl Physiol 1997; 82: 1256-1269.10.1152/jappl.1997.82.4.12569104864]Search in Google Scholar