Hi Ian, I can do that. The experiment is a fed-batch cell culture: The response is a concentration curve of the protein the cells are producing (and the end value).

The purpose of the experiment is to optimize the protein-concentration by varying two feeds (X1 and X2). The feed concentrations will be changed on a ‘day of change’ to X1_end and X2_end (I have decided not to include the formerly mentioned ‘factor of change (F)’).

The feeds are being delivered to the cell culture once per day during the fed-batch and contain various nutrients. Each feed is delivered by a %, and can be treated as a continuous variable. Day of change is also a continuous variable. All factors are easy to change. Since the cells are growing and have metabolic shifts during the fed-batch, they will need different amounts of the (complex) feeds at different times during the culture. I do not know what may or may not be limiting in the feeds at this point in time, but I do know that the ranges I am examining are relevant.

My question is: Is it even possible to include 5 continuous factors when each of them are only active for a certain period during the experiment? How should I treat factors that are changing levels during the experiment? Is there a general rule of thumb?

If I plot in 5 continuous factors &RS in the custom DoE editor, I get 28 recommended experiments to perform, which is OK (see attachment). I also assume that not all factors are active. The power is not impressive on this experiment, but I am able to augment it, if necessary. Once I have the data I can do the analysis on the final timepoint - but I also want the option to perform PLS on the concentration curve vs. my factors over time. 

I might be way off :) And that's why I'm here.

I hope this clears up matters a bit

Thanks!

Hi,

This is very interesting. Thanks for sharing.

I dont see any problem with the experiment that you have proposed.

From what I understand, each of the runs in the experiment is an entirely new run of the process. Things get more complicated when that is not the case and you need to consider hard-to-change factors.

Have a think about what the model at the end will look like. Imagine the prediction profiler that you will get (e.g. below). Do all of the possible settings make sense? Are all settings feasible? Can you interpret the effect of changes in the factors in a way that makes sense to the objective of the experiment? I would recommend simulating some response data to check this (blog on simulate responses).

Regards,

Phil

Hi Phil,

Each of the runs in the experiment is a bioreactor running a full fed-batch - so yes, an entirely new run each time. All bioreactors are programmable and the feed-factors are the execution of an equation resulting in an absolute volume (which I can analyze as a volume-%). 

To your other questions:

Do all of the possible settings make sense? Yes - all do and all are interesting for me.

Are all settings feasible? Yes - I have selected ranges to accomodate what is possible on this particular system (and for future scale-up).

Can you interpret the effect of changes in the factors in a way that makes sense to the objective of the experiment? I hope so - in principle I can calculate the productivity of each cell and see how that changes over time. So I hope to correlate that to how the feed is changing over time (for example).

I would recommend simulating some response data to check this (blog on simulate responses). I'll check it out, thanks!

It occurs to me that the complicating aspect of this is that all factors could be active for the response at the end point but some factors are not relevant for the response at eariler time points (before change in X1 and X2). I dont think this is a problem for how you design the experiment. It is something you will need to think about for the analysis. Before analysing the whole curve with PLS you might want to analyse each time point as a separate response to check that it makes sense.

My original thought was to simply take each time point and analyze with respect to my factors as they are at the timepoint - and then concatenate all analyses at the end. But I thought that there might be an easier way to do it. But since you suggest it I think I'll reconsider! Awesome :)

This brings me to some other practicalities:

Is there an easy way to concatenate analyses from each timepoint together in a profiler window? Is there an option to load reduced models from each timepoint into a spectral profiler directly, for example?

thanks alot 

PS: I'm trying to give all of you kudos, but the buttons don't work for me. 

all good suggestions. I will check them all out and hold them up against each other once i have obtained my data.

thanks alot for all of the help

PS: Attached is a visualization of the  design (with no axes, but you get the jist of it) :)