SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2138841743> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W2138841743 endingPage "106" @default.
W2138841743 startingPage "91" @default.
W2138841743 abstract "Ways to measure blood perfusion using ultrasound techniques such as continuous-wave Doppler, pulsed Doppler, colour Doppler and power Doppler will be reviewed. From a certain standpoint, blood perfusion may be defined as the difference between arterial inflow and arterial outflow from a considered volume, i.e. capillary flow. The low velocities and small blood volumes involved make the signal-to-noise ratio, dynamic range and frequency resolution critical factors in the detection system. Another limiting factor is tissue motion which obscures the blood signal. Perfusion may still under certain conditions be estimated with the first moment of the Doppler power spectrum, as obtained with any Doppler ultrasound method. Modern flow mapping techniques also make it possible to estimate perfusion by counting the number of pixels that indicate flow, but low flow velocities cannot be included in the estimate. Future high-frequency systems may, however, provide very detailed images of minute flow distributions in superficial layers. Contrast agents are widely used today to enhance the blood signal, and a technique named harmonic imaging can suppress movement artefacts from surrounding tissue. Transient signals from disrupting contrast agent particles in an ultrasound field can potentially be used for perfusion quantification. Future developments to extract the blood flow signal from its noisy environment, aside from contrast agents, may be multiple sample volumes, frequency compounding and/or improved signal processing. The lack of an adequate perfusion phantom for verification of measurements of microcirculatory flow becomes, however, more apparent with improved detectability of slow flows." @default.
W2138841743 created "2016-06-24" @default.
W2138841743 creator A5013391052 @default.
W2138841743 creator A5048807007 @default.
W2138841743 creator A5089324000 @default.
W2138841743 date "1999-02-01" @default.
W2138841743 modified "2023-10-10" @default.
W2138841743 title "Estimation of blood perfusion using ultrasound" @default.
W2138841743 cites W129581446 @default.
W2138841743 cites W137627479 @default.
W2138841743 cites W1575586152 @default.
W2138841743 cites W187614801 @default.
W2138841743 cites W1968770722 @default.
W2138841743 cites W1971810406 @default.
W2138841743 cites W1972646683 @default.
W2138841743 cites W1973676902 @default.
W2138841743 cites W1975104031 @default.
W2138841743 cites W1975598262 @default.
W2138841743 cites W1975611796 @default.
W2138841743 cites W1977168924 @default.
W2138841743 cites W1984395607 @default.
W2138841743 cites W1984563279 @default.
W2138841743 cites W1986622931 @default.
W2138841743 cites W1989547484 @default.
W2138841743 cites W1995691021 @default.
W2138841743 cites W2002020036 @default.
W2138841743 cites W2002966446 @default.
W2138841743 cites W2010250556 @default.
W2138841743 cites W2013366344 @default.
W2138841743 cites W2014747938 @default.
W2138841743 cites W2016501813 @default.
W2138841743 cites W2016768862 @default.
W2138841743 cites W2021943833 @default.
W2138841743 cites W2023610287 @default.
W2138841743 cites W2024094139 @default.
W2138841743 cites W2024397988 @default.
W2138841743 cites W2024495134 @default.
W2138841743 cites W2024719438 @default.
W2138841743 cites W2024941166 @default.
W2138841743 cites W2033886588 @default.
W2138841743 cites W2043782521 @default.
W2138841743 cites W2044628079 @default.
W2138841743 cites W2045265093 @default.
W2138841743 cites W2046654187 @default.
W2138841743 cites W2050353240 @default.
W2138841743 cites W2056768903 @default.
W2138841743 cites W2057962251 @default.
W2138841743 cites W2058045921 @default.
W2138841743 cites W2058915488 @default.
W2138841743 cites W2061676111 @default.
W2138841743 cites W2062442409 @default.
W2138841743 cites W2062769311 @default.
W2138841743 cites W2064388155 @default.
W2138841743 cites W2072514833 @default.
W2138841743 cites W2079617920 @default.
W2138841743 cites W2079644331 @default.
W2138841743 cites W2080465784 @default.
W2138841743 cites W2081393151 @default.
W2138841743 cites W2086979200 @default.
W2138841743 cites W2088265766 @default.
W2138841743 cites W2088439198 @default.
W2138841743 cites W2089624765 @default.
W2138841743 cites W2101063018 @default.
W2138841743 cites W2102875303 @default.
W2138841743 cites W2108283657 @default.
W2138841743 cites W2110514626 @default.
W2138841743 cites W2111150531 @default.
W2138841743 cites W2117234032 @default.
W2138841743 cites W2118585633 @default.
W2138841743 cites W2122416225 @default.
W2138841743 cites W2125048739 @default.
W2138841743 cites W2127469811 @default.
W2138841743 cites W2127474367 @default.
W2138841743 cites W2128199911 @default.
W2138841743 cites W2134764043 @default.
W2138841743 cites W2138868580 @default.
W2138841743 cites W2139933832 @default.
W2138841743 cites W2144736264 @default.
W2138841743 cites W2145880990 @default.
W2138841743 cites W2158896444 @default.
W2138841743 cites W2159788879 @default.
W2138841743 cites W2161259192 @default.
W2138841743 cites W2163981254 @default.
W2138841743 cites W2164990703 @default.
W2138841743 cites W2166828306 @default.
W2138841743 cites W2240990705 @default.
W2138841743 cites W2243601164 @default.
W2138841743 cites W2325559633 @default.
W2138841743 cites W2415912290 @default.
W2138841743 cites W26404357 @default.
W2138841743 cites W4234842847 @default.
W2138841743 doi "https://doi.org/10.1243/0954411991534834" @default.
W2138841743 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/10333683" @default.
W2138841743 hasPublicationYear "1999" @default.
W2138841743 type Work @default.
W2138841743 sameAs 2138841743 @default.
W2138841743 citedByCount "28" @default.
W2138841743 countsByYear W21388417432012 @default.