15 research outputs found
On renal insufficiency measurement and reference standards using the logarithm of a cumulative exponential and multiple other plasma and renal clearance models
For current models and methods, glomerular filtration rates below 20 ml/min
in adults resulted in modelling concentration tails that were frequently unseen
on linear-log plotting. The resulting sometimes unobservable tail was predicted
using the negative logarithm of a cumulative exponential (LCE), from the latter
of its two asymptotes; a logarithm for decreasing time and an exponential tail
as time increases. Lambert's Omega is the scaled time at which the two
asymptotes are equal. The LCE formula uses two plasma samples, minimum, and fit
13 24 h Cr-EDTA studies with an 8% standard deviation of residuals
compared to 20% error for monoexponentials. The LCE model was unbiased for
prediction of 43 5 h urinary Cr-EDTA activity cases whereas the mono-
and bi-exponential, as well as, adaptively regularised gamma variate models
were relatively overestimating. Reference standard corrections were explored.
The LCE model detected two otherwise unidentified absent renal function cases
(GFR < 0.01 ml/min) in a 41 case Yb-DTPA dataset suggesting its use for
detecting anephric conditions. Prospective clinical testing, and metabolic
scaling of renal insufficiency is advised for potential changes to patient
triage, e.g., for conservative management, dialysis, and kidney or liver
transplantation.Comment: 21 pages, 9 figures, under revie
Tikhonov adaptively regularized gamma variate fitting to assess plasma clearance of inert renal markers
The Tk-GV model fits Gamma Variates (GV) to data by Tikhonov regularization (Tk) with shrinkage constant, λ, chosen to minimize the relative error in plasma clearance, CL (ml/min). Using 169Yb-DTPA and 99mTc-DTPA (n = 46, 8–9 samples, 5–240 min) bolus-dilution curves, results were obtained for fit methods: (1) Ordinary Least Squares (OLS) one and two exponential term (E1 and E2), (2) OLS-GV and (3) Tk-GV. Four tests examined the fit results for: (1) physicality of ranges of model parameters, (2) effects on parameter values when different data subsets are fit, (3) characterization of residuals, and (4) extrapolative error and agreement with published correction factors. Test 1 showed physical Tk-GV results, where OLS-GV fits sometimes-produced nonphysical CL. Test 2 showed the Tk-GV model produced good results with 4 or more samples drawn between 10 and 240 min. Test 3 showed that E1 and E2 failed goodness-of-fit testing whereas GV fits for t > 20 min were acceptably good. Test 4 showed CLTk-GV clearance values agreed with published CL corrections with the general result that CLE1 > CLE2 > CLTk-GV and finally that CLTk-GV were considerably more robust, precise and accurate than CLE2, and should replace the use of CLE2 for these renal markers
Time Varying Apparent Volume of Distribution and Drug Half-Lives Following Intravenous Bolus Injections.
We present a model that generalizes the apparent volume of distribution and half-life as functions of time following intravenous bolus injection. This generalized model defines a time varying apparent volume of drug distribution. The half-lives of drug remaining in the body vary in time and become longer as time elapses, eventually converging to the terminal half-life. Two example fit models were substituted into the general model: biexponential models from the least relative concentration error, and gamma variate models using adaptive regularization for least relative error of clearance. Using adult population parameters from 41 studies of the renal glomerular filtration marker 169Yb-DTPA, simulations of extracellular fluid volumes of 5, 10, 15 and 20 litres and plasma clearances of 40 and 100 ml/min were obtained. Of these models, the adaptively obtained gamma variate models had longer times to 95% of terminal volume and longer half-lives
Elymus dahuricus Turcz.
原著和名: ハマムギ科名: イネ科 = Gramineae採集地: 北海道 枝幸郡 枝幸町 北見神威岬 (北海道 北見 枝幸町 神威岬)採集日: 1989/8/26採集者: 萩庭丈壽整理番号: JH038150国立科学博物館整理番号: TNS-VS-98815
Concentration versus time curve for E2 and GV models for four <i>V</i><sub>E</sub> values at <i>CL</i> of 100 ml/min (left panel) and 40 ml/min (right panel).
<p>Concentration versus time curve for E2 and GV models for four <i>V</i><sub>E</sub> values at <i>CL</i> of 100 ml/min (left panel) and 40 ml/min (right panel).</p
Pharmacokinetic parameters from the weighted biexponential (E2) and the Tk-GV models.
<p>Comparable measures boxed.</p
Wilcoxon tests with median parameter comparisons.
<p>Wilcoxon tests with median parameter comparisons.</p