If there are differences in the density of black-and-white photographs of the
fundus oculi taken at different times, they may be transformed into color
differences by means of the multitemporal technique. A multitemporal picture is
obtained by additive color mixing of black-and-white photographs transilluminated
at the same time with one primary color each. Since, in a serial angiogram, the
interrelation between the film density and the passage of the fluorescein
concentration in the fundus oculi is known, it is possible to draw conclusions
from the multitemporal picture regarding phase differences and changes in the
curve shape of the fluorescein concentration.
%0 Journal Article
%1 Schweitzer.1983
%A Schweitzer, D.
%A Königsdörffer, E.
%A Jütte, A.
%A Vilser, W.
%D 1983
%J Klinische Monatsblätter für Augenheilkunde
%K Angiography/*methods;Humans;Retinal Diagnosis, Differential;Fluorescein Diseases/*diagnosis WViCo
%N 2
%P 143--146
%R 10.1055/s-2008-1054732
%T Auswertung von Fluoreszenzangiogrammen mit Hilfe der Multitemporaltechnik: Evaluation of fluorescein angiograms using the multitemporal technic
%V 182
%X If there are differences in the density of black-and-white photographs of the
fundus oculi taken at different times, they may be transformed into color
differences by means of the multitemporal technique. A multitemporal picture is
obtained by additive color mixing of black-and-white photographs transilluminated
at the same time with one primary color each. Since, in a serial angiogram, the
interrelation between the film density and the passage of the fluorescein
concentration in the fundus oculi is known, it is possible to draw conclusions
from the multitemporal picture regarding phase differences and changes in the
curve shape of the fluorescein concentration.
@article{Schweitzer.1983,
abstract = {If there are differences in the density of black-and-white photographs of the
fundus oculi taken at different times, they may be transformed into color
differences by means of the multitemporal technique. A multitemporal picture is
obtained by additive color mixing of black-and-white photographs transilluminated
at the same time with one primary color each. Since, in a serial angiogram, the
interrelation between the film density and the passage of the fluorescein
concentration in the fundus oculi is known, it is possible to draw conclusions
from the multitemporal picture regarding phase differences and changes in the
curve shape of the fluorescein concentration.},
added-at = {2013-10-10T21:29:09.000+0200},
author = {Schweitzer, D. and K{\"o}nigsd{\"o}rffer, E. and J{\"u}tte, A. and Vilser, W.},
biburl = {https://www.bibsonomy.org/bibtex/25fc8d3b698f168d39ba6d0e7b1d1037f/imedos},
doi = {10.1055/s-2008-1054732},
interhash = {b7678b46bf0348fd02cc106807d9b794},
intrahash = {5fc8d3b698f168d39ba6d0e7b1d1037f},
issn = {0023-2165},
journal = {Klinische Monatsbl{\"a}tter f{\"u}r Augenheilkunde},
keywords = {Angiography/*methods;Humans;Retinal Diagnosis, Differential;Fluorescein Diseases/*diagnosis WViCo},
number = 2,
pages = {143--146},
timestamp = {2013-10-11T01:11:02.000+0200},
title = {Auswertung von Fluoreszenzangiogrammen mit Hilfe der Multitemporaltechnik: [Evaluation of fluorescein angiograms using the multitemporal technic]},
volume = 182,
year = 1983
}