Publisher's Synopsis
Venous gas emboli (VGE) (gas bubbles in venous blood) are associated with an increased risk of decompression sickness (DCS) in hypobaric environments. A high grade of VGE can be a precursor to serious DCS. In this paper, we model time to Grade IV VGE considering a subset of individuals assumed to be immune from experiencing VGE. Our data contain monitoring test results from subjects undergoing up to 13 denitrogenation test procedures prior to exposure to a hypobaric environment. The onset time of Grade IV VGE is recorded as contained within certain time intervals. We fit a parametric (lognormal) mixture survival model to the interval-and right-censored data to account for the possibility of a subset of "cured" individuals who are immune to the event. Our model contains random subject effects to account for correlations between repeated measurements on a single individual. Model assessments and cross-validation indicate that this limited failure population mixture model is an improvement over a model that does not account for the potential of a fraction of cured individuals. We also evaluated some alternative mixture models. Predictions from the best fitted mixture model indicate that the actual process is reasonably approximated by a limited failure population model.Thompson, Laura A. and Conkin, Johnny and Chhikara, Raj S. and Powell, Michael R.Johnson Space CenterAEROEMBOLISM; DECOMPRESSION SICKNESS; GOODNESS OF FIT; RANDOM PROCESSES; PARAMETER IDENTIFICATION; MATHEMATICAL MODELS; CENSORED DATA (MATHEMATICS); DENITROGENATION; EXTRAVEHICULAR ACTIVITY; DATA CORRELATION