Using drinking data and pharmacokinetic modeling to calibrate transport model and blind deconvolution based data analysis software for transdermal alcohol biosensors
Pages: 911  934,
Issue 5,
October
2016
doi:10.3934/mbe.2016023 Abstract
References
Full text (511.6K)
Related Articles
Zheng Dai  Department of Mathematics, University of Southern California, Los Angeles, CA 900892532, United States (email)
I.G. Rosen  Department of Mathematics, University of Southern California, Los Angeles, CA 900892532, United States (email)
Chuming Wang  Department of Mathematics, University of Southern California, Los Angeles, CA 900892532, United States (email)
Nancy Barnett  School of Public Health, Brown University, Providence, RI 02912, United States (email)
Susan E. Luczak  Department of Psychology, University of Southern California, Los Angeles, CA 900891061, United States (email)
1 
R. A. Adams, Sobolev Spaces, Academic Press, New York, 1975. 

2 
J. C. Anderson and M. P. Hlastala, The kinetics of transdermal ethanol exchange, Journal of Applied Physiology, 100 (2006), 649655. 

3 
H. T. Banks and K. Ito, A unified framework for approximation in inverse problems for distributed parameter systems, Control Theory and Advanced Technology, 4 (1988), 7390. 

4 
H. T. Banks and K. Kunisch, Estimation Techniques for Distributed Parameter Systems, Birkhauser, Boston, 1989. 

5 
H. T. Banks and K. Ito, Approximation in LQR problems for infinite dimensional systems with unbounded input operators, J. Mathematical Systems, Estimation and Control, 7 (1997), 134. 

6 
D. P. Bertsekas, Nonlinear Programming (2nd ed.), Athena Scientific, Nashua, NH, 1999. 

7 
S. P. Bradley, A. C. Hax and T. L. Magnanti, Applied Mathematical Programming, AddisonWesley, Reading, PA, 1977. 

8 
K. B. Carey and J. T. P. Hustad, Are retrospectively reconstructed blood alcohol concentrations accurate?, Preliminary results from a field study, Journal of Studies on Alcohol, 63 (2002), 762766. 

9 
C.T. Chen, Linear System Theory and Design, Holt Rinehart and Winston, New York, 1970. 

10 
R. F. Curtain and D. Salamon, Finite dimensional compensators and infinite dimensional systems with unbounded input operators, SIAM J. Control and Optimization, 24 (1986), 797816. 

11 
D. M. Dougherty, N. E. Charles, A. Acheson, S. John, R. M. Furr and N. HillKapturczak, Comparing the detection of transdermal and breath alcohol concentrations during periods of alcohol consumption ranging from moderate drinking to binge drinking, Exp Clin Psychopharm, 203 (2012), 73381. 

12 
M. Dumett, I. G. Rosen, J. Sabat, A. Shaman, L. A. Tempelman, C. Wang and R. M. Swift, Deconvolving an estimate of breath measured blood alcohol concentration from biosensor collected transdermal ethanol data, Applied Mathematics and Computation, 196 (2008), 724743. 

13 
L. EdelsteinKeshet, Mathematical Models in Biology, Society for Industrial and Applied Mathematics, Philadelphia, 2005. 

14 
A. R. W. Forrest, The estimation of Widmark's factor, Journal of the Forensic Science Society, 26 (1986), 249252. 

15 
J. S. Gibson and I. G. Rosen, Approximation of discrete time LQG compensators for distributed systems with boundary input and unbounded measurement, Automatica, 24 (1988), 517529. 

16 
A. Heck, Modeling intake and clearance of alcohol in humans, The Electronic Journal of Mathematics and Technology, 1 (2007), 232244. 

17 
N. HillKapturczak, S. L. Lake, J. D. Roache, S. E. Cates, Y. Liang and D. M. Dougherty, Do variable rates of alcohol drinking alter the ability to use transdermal alcohol monitors to estimate peak, breath alcohol and total number of drinks?, ACER, 38 (2014), 25172522. 

18 
N. HillKapturczak, J. D. Roache, Y. Liang, T. E. Karns, S. E. Cates and D. M. Dougherty, Accounting for sexrelated differences in the estimation of breath alcohol concentrations using transdermal alcohol monitoring, Psychopharmacology , 232 (2015), 115123. 

19 
N. HillKapturczak, J. D. Roache, C. J. Walters, T. E. Karns, S. E. Cates and D. M. Dougherty, Validation of using transdermal alcohol concentrations to estimate breath alcohol, ACER. 

20 
E. Hille and R. S. Phillips, Functional Analysis and SemiGroups, American Mathematical Society, Providence, 1957. 

21 
J. T. P. Hustad and K. B. Carey, Using calculations to estimate blood alcohol concentrations for naturally occurring drinking episodes: A validity study, Journal of Studies on Alcohol, 66 (2005), 130138. 

22 
T. Kato, Perturbation Theory for Linear Operators, Second Edition, Springer, Berlin, 1976. 

23 
D. A. Labianca, The chemical basis of the breathalyzer,a critical analysis, Journal of Chemical Education, 67 (1990), 259261. 

24 
A. J. Levi and I. G. Rosen, A novel formulation of the adjoint method in the optimal design of quantum electronic devices, Siam Journal on Control and Optimization, 48 (2010), 31913223. 

25 
M. J. Lewis, The individual and the estimation of his blood alcohol concentration from intake, with particular reference to the "hipflask" drink, Journal of the Forensic Science Society, 26 (1986), 1927. 

26 
L. Li and T. P. Speed, Parametric deconvolution of positive spike trains, Annals of Statistics, 28 (2000), 12791301. 

27 
J. L. Lions, Optimal Control of Systems Governed by Partial Differential Equations, SpringerVerlag, New York, 1971. 

28 
S. E. Luczak, I. G. Rosen and T. L. Wall, Development of a realtime repeatedmeasures assessment protocol to capture change over the course of a drinking episode, Alcohol and Alcoholism, 50 (2015), 18. 

29 
S. E. Luczak, I. G. Rosen and J. Weiss, Determining blood and/or breath alcohol concentration from transdermal alcohol data, Proceedings of the 2013 American control conference, International Federation of Automatic Control, (2013), 473478. 

30 
P. R. Marques and A. S. McKnight, Field and laboratory alcohol detection with 2 types of transdermal devices, Alcohol Clin Exp Res, 33 (2009), 703711. 

31 
D. B. Matthews and W. R. Miller, Estimating blood alcohol concentration: Two computer programs and their applications in therapy and research, Addictive Behaviors, 4 (1979), 5560. 

32 
I. Najfeld and T. F. Havel, Derivatives of the matrix exponential, Advances in Applied Mathematics, 16 (1995), 321375. 

33 
National Highway Traffic Safety Administration, Computing a BAC Estimate, Department of Transportation, Washington, D.C, 1994. 

34 
A. Okubo, Diffusion and Ecological Problems: Mathematical Models, SpringerVerlag, New York, 1980. 

35 
A. Pazy, Semigroups of Linear Operators and Applications to Partial Differential Equations, SpringerVerlag, New York, 1983. 

36 
A. J. Pritchard and D. Salamon, The linear quadratic control problem for infinite dimensional systems with unbounded input and output operators, SIAM J. Control and Optimization, 25 (1987), 121144. 

37 
I. G. Rosen, S. E. Luczak and J. Weiss, Blind deconvolution for distributed parameter systems with unbounded input and output and determining blood alcohol concentration from transdermal biosensor data, Applied Math and Computation, 231 (2014), 357376. 

38 
I. G. Rosen, S. E. Luczak, W. Hu and M. Hankin, Discretetime blind deconvolution for distributed parameter systems with Dirichlet boundary input and unbounded output with application to a transdermal alcohol biosensor, Proceedings of 2013 SIAM Conference on Control and its Applications, 2013. 

39 
J. T. Sakai, S. K. MikulichGilbertson, R. J. Long and T. J. Crowley, Validity of transdermal alcohol monitoring: Fixed and selfregulated dosing, Alcohol Clin Exp Res, 30 (2006), 2633. 

40 
M. Schultz, Spline Analysis, Prentice Hall, Englewood Cliffs, NJ, 1973. 

41 
R. E. Showalter, Hilbert Space Methods for Partial Differential Equations, London, Pitman, 1977. 

42 
L. C. Sobell and M. C. Sobell, Alcohol timeLine followback: A technique for assessing selfreported alcohol consumption, In R. Z. Litten and J. P. Allens (Eds.), Measuring Alcohol Consumption, Humana Press, Totowa, NJ, 1992. 

43 
O. J. Staffans, WellPosed Linear Systems, Cambridge University Press, Cambridge, 2005. 

44 
R. M. Swift, Direct measurement of alcohol and its metabolites, Addiction, 98S (2003), 7880. 

45 
R. M. Swift and L. L. Swette, Assessment of ethanol consumption with a wearable, electronic ethanol sensor/recorder, In R. Litten, and J. Allen (Eds.), Measuring Alcohol Consumption: Psychosocial and biological methods, Humana Press, Totowa, NJ, 1992. 

46 
H. Tanabe, Equations of Evolution, Pitman, London, 1979. 

47 
M. Tucsnak and G. Weiss, Observation and Control for Operator Semigroups, Birkhauser, Basel, 2009. 

48 
J. G. Wagner and J. A. Patel, Variations in absorption and elimination rates of ethyl alcohol in a single subject, Research Communications in Chemical Pathology and Pharmacology, 4 (1972), 6176. 

49 
P. E. Watson, I. D. Watson and R. D. Batt, Total body water volumes for adult males and females estimated from simple anthropometric measurements, American Journal of Clinical Nutrition, 33 (1980), 2739. 

50 
P. E. Watson, I. D. Watson and R. D. Batt, Prediction of blood alcohol concentrations in human subjects: Updating the Widmark equation, Journal of Studies on Alcohol, 42 (1981), 547556. 

51 
G. D. Webster and H. C. Gabler, Feasibility of transdermal ethanol sensing for the detection of intoxicated drivers, Annu Proc Assoc Adv Automot Med, 51 (2007), 449464. 

52 
G. D. Webster and H. C. Gabler, Modeling of transdermal transport of alcohol: effect of body mass and gender, Biomedical Sciences Instrumentation, 44 (2007), 361366. 

53 
J. Wloka, Partial Differential Equations, Cambridge University Press, Cambridge, 1987. 

Go to top
