Abstract
Radioimmunoassay provided dose response curves which showed linearity by the use of logistic transformation (Rodbard). This transformation which was applicable to radioimmunoassay should be useful for the computer processing of insulin and C-peptide assay. In the present studies, standard curves were analysed by testing the fit of analytic functions to radioimmunoassay of insulin and C-peptides. A program for use in combination with the double antibody technique was made by Dr. Kawamata. This approach was evidenced to be useful in order to allow automatic computation of data derived from the double antibody assays of insulin and C-peptides. Automatic corrected calculations of radioimmunoassay data of insulin was found to be satisfactory.
Toyota, T;
Kudo, M;
Abe, K;
[1]
Kawamata, F;
Uehata, S
- Hirosaki Univ., Aomori (Japan). School of Medicine
Citation Formats
Toyota, T, Kudo, M, Abe, K, Kawamata, F, and Uehata, S.
Automatic computation of radioimmunoassay data. Insulin and C-peptide.
Japan: N. p.,
1975.
Web.
Toyota, T, Kudo, M, Abe, K, Kawamata, F, & Uehata, S.
Automatic computation of radioimmunoassay data. Insulin and C-peptide.
Japan.
Toyota, T, Kudo, M, Abe, K, Kawamata, F, and Uehata, S.
1975.
"Automatic computation of radioimmunoassay data. Insulin and C-peptide."
Japan.
@misc{etde_7141727,
title = {Automatic computation of radioimmunoassay data. Insulin and C-peptide}
author = {Toyota, T, Kudo, M, Abe, K, Kawamata, F, and Uehata, S}
abstractNote = {Radioimmunoassay provided dose response curves which showed linearity by the use of logistic transformation (Rodbard). This transformation which was applicable to radioimmunoassay should be useful for the computer processing of insulin and C-peptide assay. In the present studies, standard curves were analysed by testing the fit of analytic functions to radioimmunoassay of insulin and C-peptides. A program for use in combination with the double antibody technique was made by Dr. Kawamata. This approach was evidenced to be useful in order to allow automatic computation of data derived from the double antibody assays of insulin and C-peptides. Automatic corrected calculations of radioimmunoassay data of insulin was found to be satisfactory.}
journal = []
volume = {18:4}
journal type = {AC}
place = {Japan}
year = {1975}
month = {Sep}
}
title = {Automatic computation of radioimmunoassay data. Insulin and C-peptide}
author = {Toyota, T, Kudo, M, Abe, K, Kawamata, F, and Uehata, S}
abstractNote = {Radioimmunoassay provided dose response curves which showed linearity by the use of logistic transformation (Rodbard). This transformation which was applicable to radioimmunoassay should be useful for the computer processing of insulin and C-peptide assay. In the present studies, standard curves were analysed by testing the fit of analytic functions to radioimmunoassay of insulin and C-peptides. A program for use in combination with the double antibody technique was made by Dr. Kawamata. This approach was evidenced to be useful in order to allow automatic computation of data derived from the double antibody assays of insulin and C-peptides. Automatic corrected calculations of radioimmunoassay data of insulin was found to be satisfactory.}
journal = []
volume = {18:4}
journal type = {AC}
place = {Japan}
year = {1975}
month = {Sep}
}