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Coupling-induced complexity in nephron models of renal blood flow regulation
Jakob L Laugesen,
Olga Sosnovtseva
, Erik Mosekilde,
Niels-Henrik Holstein-Rathlou
, Donald J Marsh
Nyre- og Karforskning
12
Citationer (Scopus)
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Keyphrases
Blood Flow Regulation
100%
Nephron
100%
Renal Blood Flow
100%
Tubuloglomerular Feedback
66%
Oscillation
33%
Afferent Arteriole
33%
Myogenic Mechanism
33%
NaCl Concentration
16%
Hypertensive Rats
16%
Glomerular Pressure
16%
Chaotic Dynamics
16%
Membrane Potential
16%
Bifurcation Analysis
16%
Macula Densa
16%
Irregular Fluctuation
16%
Blood Pressure
16%
Vascular Resistance
16%
Cyclic Variation
16%
Feedback Gain
16%
Strong Interaction
16%
Spontaneous Contraction
16%
Blood Flow
16%
High-pass Filter
16%
High Blood Pressure
16%
Mathematical Model
16%
Vascular Smooth muscle Cells
16%
Normal Blood Pressure
16%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Blood Pressure
100%
Kidney Blood Flow
100%
Electric Potential
33%
Liquid
33%
Blood Flow
33%
Vascular Resistance
33%
Medicine and Dentistry
Kidney Blood Flow
100%
Nephron
100%
Arteriole
33%
Blood Pressure
33%
Macula Densa
16%
Hypertension
16%
Blood Flow
16%
Vascular Resistance
16%
Time Series Analysis
16%
Vascular Smooth Muscle
16%
Earth and Planetary Sciences
Sodium Chloride
100%
Time Series
100%
Flow Regulation
100%