A method to implement the reservoir-wave hypothesis using phase-contrast magnetic resonance imaging

Article English OPEN
Gray, Robert D.M.; Parker, Kim H.; Quail, Michael A.; Taylor, Andrew M.; Biglino, Giovanni;
(2016)
  • Publisher: Elsevier BV
  • Journal: MethodsX,volume 3,pages508-512 (issn: 2215-0161, eissn: 2215-0161)
  • Publisher copyright policies & self-archiving
  • Related identifiers: doi: 10.1016/j.mex.2016.08.004, pmc: PMC5156381
  • Subject: Magnetic resonance imaging | Ventriculo-arterial coupling | /dk/atira/pure/researchoutput/pubmedpublicationtype/D016428 | Medicine and Dentistry | Wave intensity analysis | Windkessel | Journal Article | Hemodynamics; Wave intensity analysis; Windkessel; Magnetic resonance imaging; Reservoir; Ventriculo-arterial coupling | Reservoir | Implementation of the reservoir-wave hypothesis using phase-contrast magnetic resonance imaging | Hemodynamics

The reservoir-wave hypothesis states that the blood pressure waveform can be usefully divided into a “reservoir pressure” related to the global compliance and resistance of the arterial system, and an “excess pressure” that depends on local conditions. The formulation o... View more
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