MAICER = maximum acceptable incremental cost-effectiveness ratio. This is often called the willingness to pay for a unit of outcome, though the concepts are a little different. It is typically represented by lambda.
The CE plane is also useful as it indicates which quadrant the samples are in, i.e. NE = more effective but more costly (the most common), SE = more effective and cheaper (dominant), NW = less effective and more costly (dominated), and SW = less effective and cheaper. When there are samples in more than one quadrant, which is very common, confidence/credible intervals around the ICER are basically meaningless, as are negative ICERs more broadly. Distributions in Guesstimate, Causal, etc can therefore be misleading.
The standard textbook for heath economic evaluation is Drummond et al, 2015, and it’s probably the best introduction to these methods.
For Bayesian (and grudgingly frequentist) approaches in R, see stuff by Gianluca Baio at UCL, e.g. this book, and his R package BCEA.
Cost-effectiveness planes are introduced in Black (1990). CEACs, CEAFs, and value of information are explained in more detail in Barton, Briggs, & Fenwick (2008); the latter is a very useful paper.
For a very clear step-by-step explanation of calculating and interpreting ICERs and net benefit, see Paulden 2020. In the same issue of PharmacoEconomics there was a nice debate between those who favour dropping ICERs entirely and those who think they should be presented alongside net benefit. (I think I’m in the latter camp, though if I had to pick one I’d go for NB as you can’t really quantify uncertainty properly around ICERs.)
For an application of some of those methods in EA, you can look at the evaluation we did of Donational. I’m not sure it was the right tool for the job (a BOTEC + heuristics might have been as good or better, given how speculative much of it was), and I had to adapt the methods a fair bit (e.g. to “donation-cost ratio” rather than “cost-effectiveness ratio”), but you can get the general idea. The images aren’t showing for me, though; not sure if it’s an issue on my end or the links are broken.
Here is a more standard model in Excel I did for an assignment.
Note that there are also methods for calculating confidence intervals around ICERs that avoid issues with ratios. The best I’m aware of is by Hatswell et al. I have an Excel sheet with all the macros etc set up if you want.
MAICER = maximum acceptable incremental cost-effectiveness ratio. This is often called the willingness to pay for a unit of outcome, though the concepts are a little different. It is typically represented by lambda.
The CE plane is also useful as it indicates which quadrant the samples are in, i.e. NE = more effective but more costly (the most common), SE = more effective and cheaper (dominant), NW = less effective and more costly (dominated), and SW = less effective and cheaper. When there are samples in more than one quadrant, which is very common, confidence/credible intervals around the ICER are basically meaningless, as are negative ICERs more broadly. Distributions in Guesstimate, Causal, etc can therefore be misleading.
The standard textbook for heath economic evaluation is Drummond et al, 2015, and it’s probably the best introduction to these methods.
For more details on the practicalities of modelling, especially in Excel, see Briggs, Claxton, & Sculpher, 2006.
For Bayesian (and grudgingly frequentist) approaches in R, see stuff by Gianluca Baio at UCL, e.g. this book, and his R package BCEA.
Cost-effectiveness planes are introduced in Black (1990). CEACs, CEAFs, and value of information are explained in more detail in Barton, Briggs, & Fenwick (2008); the latter is a very useful paper.
For more on VOI, see Wilson et al., 2014 and Strong, Oakley, Brennan, & Breeze, 2015.
For a very clear step-by-step explanation of calculating and interpreting ICERs and net benefit, see Paulden 2020. In the same issue of PharmacoEconomics there was a nice debate between those who favour dropping ICERs entirely and those who think they should be presented alongside net benefit. (I think I’m in the latter camp, though if I had to pick one I’d go for NB as you can’t really quantify uncertainty properly around ICERs.)
For an application of some of those methods in EA, you can look at the evaluation we did of Donational. I’m not sure it was the right tool for the job (a BOTEC + heuristics might have been as good or better, given how speculative much of it was), and I had to adapt the methods a fair bit (e.g. to “donation-cost ratio” rather than “cost-effectiveness ratio”), but you can get the general idea. The images aren’t showing for me, though; not sure if it’s an issue on my end or the links are broken.
Here is a more standard model in Excel I did for an assignment.
Hope that helps. LMK if you want more.
Note that there are also methods for calculating confidence intervals around ICERs that avoid issues with ratios. The best I’m aware of is by Hatswell et al. I have an Excel sheet with all the macros etc set up if you want.