TY - JOUR
T1 - Using Monte Carlo simulation to determine combination vaccine price distributions for childhood diseases
AU - Jacobson, Sheldon H.
AU - Sewell, Edward C.
N1 - Funding Information:
SHJ is supported in part by the Air Force Office of Scientific Research (F49620-01-1-0007) and the National Science Foundation (DMI-9907980). The authors wish to thank Dr. James G. Anderson, the editor for this special issue, and two anonymous referees for their helpful comments and thorough reading of the manuscript. Their invaluable feedback has resulted in a significantly improved manuscript. The authors wish to also thank Dr. Bruce G. Weniger of the Centers for Disease Control and Prevention for his thoughtful and insightful input on this work, resulting in a greatly improved presentation and understanding of the results.
PY - 2002
Y1 - 2002
N2 - The Recommended Childhood Immunization Schedule provides guidelines that allow pediatricians to administer childhood vaccines in an efficient and effective manner. Research by vaccine manufacturers has resulted in the development of new vaccines that protect against a growing number of diseases. This has created a dilemma for how to insert such new vaccines into an already crowded immunization schedule, and prompted vaccine manufacturers to develop vaccine products that combine several individual vaccines into a single injection. Such combination vaccines permit new vaccines to be inserted into the immunization schedule without requiring children to be exposed to an unacceptable number of injections during a single clinic visit. Given this advantage, combination vaccines merit an economic premium. The purpose of this paper is to describe how Monte Carlo simulation can be used to assess and quantify this premium by studying four combination vaccines that may become available for distribution within the United States. Each combination vaccine is added to twelve licensed vaccine products for six childhood diseases (diphtheria, tetanus, pertussis, haemophilus influenzae type B, hepatitis B, and polio). Monte Carlo simulation with an integer programming model is used to determine the (maximal) inclusion price distribution of four combination vaccines, by randomizing the cost of an injection. The results of this study suggest that combination vaccines warrant price premiums based on the cost assigned to administering an injection, and that further developments and innovations in this area by vaccine manufacturers may provide significant economic and societal benefits.
AB - The Recommended Childhood Immunization Schedule provides guidelines that allow pediatricians to administer childhood vaccines in an efficient and effective manner. Research by vaccine manufacturers has resulted in the development of new vaccines that protect against a growing number of diseases. This has created a dilemma for how to insert such new vaccines into an already crowded immunization schedule, and prompted vaccine manufacturers to develop vaccine products that combine several individual vaccines into a single injection. Such combination vaccines permit new vaccines to be inserted into the immunization schedule without requiring children to be exposed to an unacceptable number of injections during a single clinic visit. Given this advantage, combination vaccines merit an economic premium. The purpose of this paper is to describe how Monte Carlo simulation can be used to assess and quantify this premium by studying four combination vaccines that may become available for distribution within the United States. Each combination vaccine is added to twelve licensed vaccine products for six childhood diseases (diphtheria, tetanus, pertussis, haemophilus influenzae type B, hepatitis B, and polio). Monte Carlo simulation with an integer programming model is used to determine the (maximal) inclusion price distribution of four combination vaccines, by randomizing the cost of an injection. The results of this study suggest that combination vaccines warrant price premiums based on the cost assigned to administering an injection, and that further developments and innovations in this area by vaccine manufacturers may provide significant economic and societal benefits.
KW - Combination vaccines
KW - Economics
KW - Integer programming
KW - Monte Carlo simulation
KW - Pediatric immunization
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U2 - 10.1023/A:1014437201340
DO - 10.1023/A:1014437201340
M3 - Article
C2 - 11993748
AN - SCOPUS:0036549441
SN - 1386-9620
VL - 5
SP - 135
EP - 145
JO - Health Care Management Science
JF - Health Care Management Science
IS - 2
ER -