cyst size modeling

Dear nmusers, I would like to seek your advice on a PKPD modeling problem to maybe get some further ideas on how to address this problem. A pharmacological experiment in rats was performed, where cysts are placed by surgery. 3 weeks later, the size of all cysts is assessed (this time point is defined as zero). In addition, I know the cyst size without treatment 2 weeks and 4 weeks after. Overall, the size remains the same for the first two weeks, but decreases afterwards. This is not unusual, as it is also known that the cysts will all eventually go away after a while, even without treatment. So I know that I would need a baseline model of some sort in order to derive an additional compound effect. The compound was tested in 3 different doses. Cyst size after treatment with the two lower doses was only assessed after 4 weeks of treatment, whereas for the highest dose the size is available after 2 and 4 weeks of treatment. Thus, I have some information about effect over time (i.e. time zero, after 2 weeks and after 4 weeks). My question is: What kind of baseline model would be a good choice? Does anybody have experience with cyst modeling and can share what would be pharmacologically plausible? What should be the natural course of cyst shrinkage (linear, turnover)? Moreover I am wondering how to best describe the influence of the drug. I know that it will not directly kill the cysts, so I thought about including an effect compartment. I have written a Berkeley Madonna code to play around with the model. What are your thoughts on a model like this (code below)? Would the available data be able to support the parameters? The model is intended to find the dose that would result in cyst eradication if the baseline effect would not be there. Thank you and best regards Nele PS: If you send any answers, I would be very grateful if you could also send a copy to [EMAIL PROTECTED] Thank you! ________________________________________________________________________________ Berkeley Madonna code (parameters were chosen arbitrarily as no analysis has been performed yet): METHOD RK4 STARTTIME = 0 STOPTIME=696 DT = 0.2 INIT (gut) = X INIT (central) = 0 INIT(effect)=0 INIT(PD)=1 D/DT(gut)=-KA*gut+DOSING D/DT(central)=KA*gut -K20*central D/DT(effect)= KEO*central-KEO*effect D/DT(PD) = KIN - KOUT*FAC*PD- KOUT*effect*PD cyst=100*PD ;100 as real cyst size at the start of the experiment Ccentral=central/V2*1000 CL=0.387 V2=1.83 KA=0.724 KEO=0.01 KIN=0.0001 KOUT=KIN FAC=IF TIME < 336 THEN 0 ELSE 10 X=0.1 K20=CL/V2 ;--------MULTIPLE DOSING-------- DOSING=PULSE(DOS,START,INTERVAL) DOS= IF TIME < 100000 THEN X ELSE 0 START= 24 INTERVAL=24 ________________________________________________________________________________ Dr. Nele Plock Bayer Schering Pharma AG Drug Metabolism & Pharmacokinetics Development Pharmacokinetics Scientific Expert Development Pharmacokinetics D- 13342 Berlin Phone : +49-30-468 15146 Fax: +49-30-468 95146 [EMAIL PROTECTED] http://www.bayerscheringpharma.de Vorstand: Arthur J. Higgins, Vorsitzender | Werner Baumann, Andreas Busch, Ulrich Köstlin, Kemal Malik, Gunnar Riemann Vorsitzender des Aufsichtsrats: Werner Wenning Sitz der Gesellschaft: Berlin | Eintragung: Amtsgericht Charlottenburg 93 HRB 283