The last update for RSG is online. You can see now the astigmatism pre-op, post-op or the SIA  for the corneal astigmatism just by the type of corneal astigmatism pre-op: WTR, ATR or oblique.



You can find it in the tab Astigmatism graphics -> Corneal in the widget to the left.




The last update for RSG is online. The last standard graphic, the S.E. stability has been added. Since with the uploaded data there was not enough information to make it and adding all the columns needed to make it will complicate the excel too much, I have added a widget where you can give the timepoint in months, the mean and standard deviation of the S.E. and the number of eyes. From that data it will make the graphic. You can try the demo here.




In the last update of RSG you can see the corneal SIA of each eye. You could see the centroid values pre-op and post-op but now you can also see the individual SIA of each eye, the centroid value of the SIA and the axis of the standard deviation of x and y. In this new graphics you can click on a single eye to see more information or click and drag around some point to get the table of those points.

The following graphics shows the same eyes with both types of graphics available in RSG.



You can test RSG here.


The last update for RSG is online. You can now subset the data by one value in any (or both) of the custom factors. This way it will be very easy to get the standard graphics to report outcomes by IOL if one of the custom factors you choose is that one. You can try it now in the demo here.




In the last update for RSG I have included the SIA consistency. Up to now you could get your SIA but there was no measure about its consistency, you got an ellipse with the standard deviation (sd) of x and y in the graphic but it was not quantified and when subdividing per factor not even the ellipse. Now you got to the left the mean SIA for the cornea and the SIA sd, if you choose to separate the graphics by factor you get within each graphic the number of eyes, mean and sd of the SIA for each factor. That SIA sd represents the radius in diopters of the circle with the same area as the ellipse in diopters which is easier for interpretation.

The update is online and you can try it here.