Kelen
☆    

Brazil,
2019-09-20 22:04
(1650 d 17:46 ago)

Posting: # 20636
Views: 5,117
 

 steady state for modified release [Regulatives / Guidelines]

I would like to ask help for understand the objetive of the steady state study when you are comparing a MR formulation with a IR formulation. The objective would be compare the effect of the accumulation? Is there any reason to conduct the study only with de highest dose?


Edit: Please follow the Forum’s Policy[Helmut]
Helmut
★★★
avatar
Homepage
Vienna, Austria,
2019-09-23 12:04
(1648 d 03:46 ago)

@ Kelen
Posting: # 20639
Views: 4,317
 

 steady state for modified release

Hi Kelen,

❝ I would like to ask help for understand the objetive of the steady state study when you are comparing a MR formulation with a IR formulation.


I don’t know the current state of affairs in Brazil. I don’t speak Portuguese and the English site is practically useless. Sorry.

❝ The objective would be compare the effect of the accumulation?


That a drug accumulates is trivial. The question is only, how much and whether the drug follows linear PK. That’s already established by the originator. A study in a paired design; SD → saturation → (pseudo-) steady state.
  • AUC0–τ ~ AUC0–∞: Linear PK (the superposition principle holds).
  • AUC0–τ > AUC0–∞: Saturation/inhibition (most common case of nonlinear PK).
  • AUC0–τ < AUC0–∞: Induction (rare example).
If you think about a generic drug, no. Requirements according to the guidelines:
  • FDA
    Multiple-dose studies are generally not recommended. Makes sense because especially the rate of absorption is more sensitive to detect differences after a single dose.
  • EMA
    Why MD is required is a mystery. There is only one way out: If the extrapolated AUC for both T and R is 10% of AUC0–∞. Will almost never work for controlled (extended) release. Might work for multiphasic/pulsatile products. At least for delayed release products MD is not required.

❝ Is there any reason to conduct the study only with de highest dose?


EMA again: In general the highest dose because – if linear PK is established – the other strengths can be waived. Makes sense. “Perfect” dose-proportionality (slope β of the power model = 1) is rare. Metabolic saturation is more common than induction. Furthermore, the GL asks for the “most sensitive strength”. Might be difficult to know beforehand. If case of nonlinear PK it might be the lowest strength as well.

Another trap (EMA GL Section 5.1.1):

Fluctuation in drug concentrations should be studied following repeated dosing. Unless otherwise justified, the modified release product should produce similar or less fluctuations as the immediate release product.

(my emphasis)
That’s a one-sided test (‘non-superiority’) and not the two-sided test for equivalence. For the same variability and T/R-ratio <1 you need a lower sample size. Example:

library(PowerTOST)
sampleN.TOST(CV = 0.2, theta0 = 0.95, theta1 = 0.80, theta2 = 1.25)

+++++++++++ Equivalence test - TOST +++++++++++
            Sample size estimation
-----------------------------------------------
Study design: 2x2 crossover
log-transformed data (multiplicative model)


alpha = 0.05, target power = 0.8
BE margins = 0.8 ... 1.25
True ratio = 0.95,  CV = 0.2

Sample size (total)
 n     power

20   0.834680

sampleN.noninf(CV = 0.2, theta0 = 0.95, margin = 1.25)

++++++++++++ Non-inferiority test +++++++++++++
            Sample size estimation
-----------------------------------------------
Study design: 2x2 crossover
log-transformed data (multiplicative model)


alpha = 0.025, target power = 0.8
Non-inf. margin = 1.25
True ratio = 0.95,  CV = 0.2

Sample size (total)
 n     power

12   0.863279


Only if the T/R-ratio is >1 it will get nasty. Try

sampleN.TOST(CV = 0.2, theta0 = 1.1, theta1 = 0.80, theta2 = 1.25)
sampleN.noninf(CV = 0.2, theta0 = 1.1, margin = 1.25)


Some people decided to ignore the comparison of %PTF and opt for the so-called “bracketing approach” instead, where Cmin is assessed for ‘non-inferiority’ (surrogate for efficacy) and Cmax for ‘non-superiority’ (surrogate for safety).

Dif-tor heh smusma 🖖🏼 Довге життя Україна! [image]
Helmut Schütz
[image]

The quality of responses received is directly proportional to the quality of the question asked. 🚮
Science Quotes
apapanas
☆    

Greece,
2020-06-24 16:25
(1372 d 23:25 ago)

@ Helmut
Posting: # 21574
Views: 2,940
 

 steady state for modified release

Dear Helmut,

Is there a threshold value for linearity indexes (AUC0-tau,ss / AUC0-inf, SD) over which the superposition principle is no longer applicable?

Thank you in advance.

Kindest regards,
Antigoni
Helmut
★★★
avatar
Homepage
Vienna, Austria,
2020-06-24 16:38
(1372 d 23:11 ago)

@ apapanas
Posting: # 21575
Views: 2,937
 

 Superposition principle

Γειά σου Αντιγόνη!

❝ Is there a threshold value for linearity indexes (AUC0-tau,ss / AUC0-inf, SD) over which the superposition principle is no longer applicable?


Very good question! At least originators regularly use the common 80.00–125.00%.

Dif-tor heh smusma 🖖🏼 Довге життя Україна! [image]
Helmut Schütz
[image]

The quality of responses received is directly proportional to the quality of the question asked. 🚮
Science Quotes
apapanas
☆    

Greece,
2020-06-24 17:32
(1372 d 22:17 ago)

@ Helmut
Posting: # 21576
Views: 2,882
 

 Superposition principle

❝ Γειά σου Αντιγόνη!


❝ ❝ Is there a threshold value for linearity indexes (AUC0-tau,ss / AUC0-inf, SD) over which the superposition principle is no longer applicable?


❝ Very good question! At least originators regularly use the common 80.00–125.00%.


Ευχαριστω πολυ!
UA Flag
Activity
 Admin contact
22,957 posts in 4,819 threads, 1,638 registered users;
87 visitors (0 registered, 87 guests [including 7 identified bots]).
Forum time: 14:50 CET (Europe/Vienna)

Nothing shows a lack of mathematical education more
than an overly precise calculation.    Carl Friedrich Gauß

The Bioequivalence and Bioavailability Forum is hosted by
BEBAC Ing. Helmut Schütz
HTML5