posted on 2023-01-23, 13:05authored byChristopher
R. Christie, Luke E. K. Achenie, Oluwafemi B. Ayeni
The
more common hypercalcemia-causing pathologies, primary hyperparathyroidism
(PHPT), humoral hypercalcemia of malignancy (HHM), and familial benign
hypercalcemia (FBH), have similar pathophysiologies. Currently, there
are no standardized tests to differentiate among them. Using our previously
developed computational models of physiological calcium regulation
in healthy, FBH, PHPT, and HHM, this follow-up paper presents a model-based
approach for differentially diagnosing these three pathologies. Additionally,
for PHPT, our approach allows for predicting the size of PTG adenomatous
growth and for inferring the stage of PHPT (early-to-mid stage or
mid-to-late stage). Each model was subjected to 2-h calcium infusion
while the intra- and postinfusion calciotropic response profiles of
plasma Ca, PTH, calcitriol (CTL), and urinary Ca (Cau) were analyzed using control engineering concepts. Our
research showed that two model parametersminimum PTH secretory
rate (ACa(s),r) and hypercalcemic
slope (mCa(s)A)and the four metrics of Ca settling time, PTH
and CTL suppression, and maximum urinary Ca ratio were sufficient
to provide distinct differentiating characteristics across the three
pathologies. Furthermore, in the case of PHPT, estimates of minimum
PTH secretory rate and the level of PTH suppression observed were
found to correlate with postsurgical PTG adenoma mass. The minimum
PTH secretory rate increases from healthy to FBH to PHPT and is inconsequential
in HHM. Also, for PHPT, the minimum PTH secretory rate increases with
PTG adenomatous growth. Likewise, the hypercalcemic slope is similar
in healthy and FBH; decreases with increasing PTG mass in PHPT; and
is inconsequential in HHM. Both PTH and CTL suppression were highest
in healthy and FBH, lower in PHPT (with decreasing levels as PTG adenoma
increases), and lowest in HHM. Finally, the Ca settling time and maximum
urinary Ca ratio were the lowest for healthy and FBH, increased with
increasing stage of PHPT, and were highest in HHM. For PHPT, a series
of three relationships is derived between PTH suppression, minimum
PTH secretory rate, and PTG mass such that the PTG mass can be inferred
from the observed PTH suppression. The method and results herein have
aided in the development of a set of observations (seven in total)
that can serve as a guide to the research clinician for making a quick
preliminary diagnosis across the three pathologies.