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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

92 related items for PubMed ID: 23414130

  • 1.
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  • 3. Novel valves.
    Portnoy HD.
    J Neurosurg Pediatr; 2012 Jul; 10(1):75-; author reply 75-7. PubMed ID: 22681316
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  • 4. A theoretical study of new types of valve shunts for cerebrospinal fluid.
    Bosio A.
    ASAIO Trans; 1991 Jul; 37(3):M289-90. PubMed ID: 1751154
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  • 5. Posture-independent piston valve: a novel valve mechanism that actuates based on intracranial pressure alone.
    Medow JE, Luzzio CC.
    J Neurosurg Pediatr; 2012 Jan; 9(1):64-8. PubMed ID: 22208323
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  • 6. Risks of using siphon-reducing devices.
    Kremer P, Aschoff A, Kunze S.
    Childs Nerv Syst; 1994 May; 10(4):231-5. PubMed ID: 7923232
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  • 8. Antisiphon device.
    Rekate HL.
    J Neurosurg Pediatr; 2010 Jan; 5(1):1-2; discussion 2-3. PubMed ID: 20043730
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  • 12. Intracranial pressure monitoring using a programmable pressure valve and a telemetric intracranial pressure sensor in a case of slit ventricle syndrome after multiple shunt revisions.
    Kamiryo T, Fujii Y, Kusaka M, Kashiwagi S, Ito H.
    Childs Nerv Syst; 1991 Aug; 7(4):233-4. PubMed ID: 1933922
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  • 13. [Computer-assisted test ring for cerebrospinal fluid drainage systems].
    Leonhardt S, Bluhm V, Steudel WI.
    Biomed Tech (Berl); 1994 Aug; 39(7-8):188-95. PubMed ID: 7948662
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  • 14. How to get rid of the shunt: a comment.
    Epstein FJ.
    Childs Nerv Syst; 1994 Jul; 10(5):342-3. PubMed ID: 7954506
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  • 15. Dual-switch valve: clinical performance of a new hydrocephalus valve.
    Trost HA, Sprung C, Lanksch W, Stolke D, Miethke C.
    Acta Neurochir Suppl; 1998 Jul; 71():360-3. PubMed ID: 9779230
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  • 16. A physical framework for implementing virtual models of intracranial pressure and cerebrospinal fluid dynamics in hydrocephalus shunt testing.
    Venkataraman P, Browd SR, Lutz BR.
    J Neurosurg Pediatr; 2016 Sep; 18(3):296-305. PubMed ID: 27203135
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