Jaimik Patel ☆ India, 20191031 11:19 (717 d 16:09 ago) Posting: # 20737 Views: 3,748 

Dear All, One question for the least square mean calculation for the fully replicate design as per USFDA in SAS. We performed the statistical analysis using the code provided in progesterone guideline and Least square mean values of AUCi parameter for the Test and Reference are 6.112006 and 6.111151 respectively. Unfortunately, after statistical analysis, one error was identified by sponsor in bioanalysis of sample in test formulation. Only one value in particular time point of one period in one subject got changed. Hence, Statistical analysis performed again and it was observed that Least square mean values of AUCi for Test and Reference are 6.111382 and 6.110883. The change in the value of test product results in the change in LSM value in reference product!! The question is, reference product data remain the same, there is not a single value change in reference data then why Least square mean value of reference product changed AUCi parameter. Why this is affecting the reference data? I have also perform the same experiments in two way study design but in that if I am changing any reference data it is not impacting on least square test data. Please share your thoughts … Thanks !! Jaimik Edit: Category changed; see also this post #1. [Helmut] 
Helmut ★★★ Vienna, Austria, 20191031 14:36 (717 d 12:52 ago) @ Jaimik Patel Posting: # 20738 Views: 3,422 

Hi Jaimik, a very interesting observation! I could confirm that in Phoenix WinNonlin 8.1 (multiplied the first T value of the EMA’s reference data sets by 10). The geometric least squares mean of R changed in data set I (full replicate) but not in data set II (partial replicate). I also checked the EMA’s methods (simple ANOVA). Similar. Respective first rows original data, second ones T changed.
Beyond me. PS: Differences between RSABE and ABEL are to be expected in case of incomplete data. For the FDA incomplete data are dropped but kept for the EMA. — Diftor heh smusma 🖖 Helmut Schütz The quality of responses received is directly proportional to the quality of the question asked. 🚮 Science Quotes 
Shuanghe ★★ Spain, 20191031 19:43 (717 d 07:45 ago) @ Helmut Posting: # 20739 Views: 3,348 

Hi Helmut, » I could confirm that in Phoenix WinNonlin 8.1 (multiplied the first T value of the EMA’s reference data sets by 10)... » I 2144.00 2479.70 » 2143.04 2517.74 Very strange in deed. I just got the same result in SAS (2144> 2143.04). I only have time to test the data set 1. I guess it's probably the RTFM time for us. Maybe Detlew has some insight. I'll check the SAS manual after his comment — All the best, Shuanghe 
Helmut ★★★ Vienna, Austria, 20191031 19:50 (717 d 07:38 ago) @ Shuanghe Posting: # 20742 Views: 3,342 

HI Shuanghe, » I guess it's probably the RTFM time for us. Maybe Detlew has some insight. I'll check the SAS manual after his comment Don’t expect anything soon. He is on vacation till midNovember. — Diftor heh smusma 🖖 Helmut Schütz The quality of responses received is directly proportional to the quality of the question asked. 🚮 Science Quotes 
Jaimik Patel ☆ India, 20191102 12:26 (715 d 15:02 ago) @ Helmut Posting: # 20746 Views: 3,210 

Dear All, Thanks for your valuable inputs. Is there any role of Gmatrix in the calculation of LSM? we have observed that value of Gmatrix is different in both cases. Regards, Jaimik Edit: Full quote removed. Please delete everything from the text of the original poster which is not necessary in understanding your answer; see also this post #5! [Helmut] 
mittyri ★★ Russia, 20191103 01:38 (715 d 01:50 ago) @ Jaimik Patel Posting: # 20748 Views: 3,174 

Dear Patel, » Is there any role of Gmatrix in the calculation of LSM? Even with one sample modified the model coefficients are changed. G matrix specifies variancecovariance matrix G and it is used to specify subjectspecific effects. With model changed covariance matrix is also changed, thus, you see the difference. Since MIXED statement uses some algos to achieve convergence, some changes in points could be crucial even if they are insignificant for reviewer. — Kind regards, Mittyri 
ElMaestro ★★★ Denmark, 20191031 19:48 (717 d 07:41 ago) @ Jaimik Patel Posting: # 20740 Views: 3,340 

Hi Jaimik, » The change in the value of test product results in the change in LSM value in reference product!! I think, without being absolutely certain....: When a mixed model is fitted with ML, you have a straightforward way of estimating the fixed effects. You need only to iteratively estimate the variance components, and the fixed effects are simply estimated the same fashion as in a linear (nonmixed) model  deterministically. When a model is fitted using REML, which is what happens when you do studies for FDA, then the likelihood depends both on the variance components and on the model effects, but what's worse, the model effects depend on the variance components, so you are not only iterating across the sigmas to find the likelihood optimum, but also need to optimise within the vector of fixed effects. So you can start out with estimates of both the variance components and the fixed effects. Then you first optimise the variance components "a little". Then you optimise the fixed effects "a little". And then you repeat the cycle. That is a safe way of arriving at the optimised REML solution, but I will not in any way say it is the only or the best  I simply do not know enough about matrix likelihood to state anything in this regard. I imagine that you might not see this phenomenon if you pick ML in your mixmo (which is not what FDA want) in stead of REML. Can you try and test it? — Pass or fail! ElMaestro 
Helmut ★★★ Vienna, Austria, 20191031 19:53 (717 d 07:36 ago) @ ElMaestro Posting: # 20743 Views: 3,371 

Ahoy ElMaestro, » When a mixed model is fitted with ML, [etc. etc.] That was my first idea as well. But we see a similar effect with the EMA’s Method A above, which is a bloody ANOVA and all effects fixed. I don’t get it. — Diftor heh smusma 🖖 Helmut Schütz The quality of responses received is directly proportional to the quality of the question asked. 🚮 Science Quotes 
zizou ★ Plzeň, Czech Republic, 20191101 21:05 (716 d 06:23 ago) @ Helmut Posting: # 20744 Views: 3,257 

» ... But we see a similar effect with the EMA’s Method A above, which is a bloody ANOVA and all effects fixed. I don’t get it. Dear all, the reason of the difference is that sequences were unbalanced (not equal number of subjects in each of the sequences). As you know (for lntransformed data) the estimated marginal means (i.e. least squares means in SAS terminology) differ from arithmetic means of T and R if sequences are unbalanced. The way of calculation of the estimated marginal means involves some modification of "standard" marginal means. I'm lazy to go through the matrix algebra (which is used by most of the softwares), so simply: marginal means are "corrected" to estimated marginal means by using a difference between mean of all data and mean of marginal means of T and R (when the sequences are balanced then this difference is zero). Personally I would not report these least squares means at all. If you are calculating ANOVA (e.g. by GLM) you get point estimate directly, i.e. without calculation of least squares means. For unbalanced sequences there might be more questions ... together with misleading terminology  e.g. geometric means ratio  for unbalanced sequences, the ratio of geometric means reported in descriptive statistics differ from geometric means ratio reported with 90% confidence interval which is also very, very strange. As these ratios are different, somoone wants to have the "correct" geometric means of T and R for which the ratio T/R is equal to point estimate (i.e. somoone wants "geometric least squares means"). Nevertheless geometric means are geometric means! Behind geometric least squares means I see only values of "T" and "R", for which (by dividing) we get the point estimate. But as it was pointed out, least squares mean of T can be affected by R, and vice versa. Best regards, zizou 
mittyri ★★ Russia, 20191102 02:26 (716 d 01:03 ago) @ zizou Posting: # 20745 Views: 3,250 

Dear Zizou. dear All, » the reason of the difference is that sequences were unbalanced (not equal number of subjects in each of the sequences). looks like that reason is not the dominant reason. » For unbalanced sequences there might be more questions ... when the party comes to incomplete cases, everyone has more fun! I am lazy man too, but some code for your pleasure library(dplyr) so I can get the same results for complete cases, but not for INcomplete. Please also take a look at the lsmeans for T when R is messed up for unbalanced complete and unbalanced incompltete. Looks like competeness has a predominant value so my understanding of emmeans is also INcomplete and Unbalanced — Kind regards, Mittyri 
PharmCat ★ Russia, 20191103 00:46 (715 d 02:43 ago) (edited by mittyri on 20191103 01:44) @ Jaimik Patel Posting: # 20747 Views: 3,165 

Hi Jaimik, Hi all! » One question for the least square mean calculation for the fully replicate design as per USFDA in SAS. » .... » Please share your thoughts … I think when changes for one value have been done  it was not changes only for formulation, it was changes for sequence and period also. And if you look at model coefficients probably you will find changes in sequence coefficient. estimate is calculated as L*β where L is a vector of known constants. For example if we have 2 sequence, 2 period, 2 formulation, length of β vector is 4 and for one formulation L = [1; 1/2; 1/2; 0] for other L = [1; 1/2; 1/2; 1]. When value changed its lead to changes in sequence part of β, and then to marginal value of each formulation. I imagine it like this: one part of change is go to current formulation mean value, and some part goes to sequence and period (because it one model), and because sequence is crossed with other formulation it affect on other formulation level. Edit: Unnecessary quote removed. Please delete everything from the text of the original poster which is not necessary in understanding your answer; see also this post #5! [Mittyri] 