development and application of the analytical evaluation … · 2015-08-11 · development and...
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Development and Application of the Analytical Evaluation
Threshold
Daniel L. Norwood, PhDIPAC-RS
PQRI Leachables and Extractables WorkshopBethesda, MD
6 December 2005
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Presentation Outline
• The Working Group’s hypothesis
• AET and SCT
• Process for determining AET
• MDI example
• Recommendation details
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The Working Group’s Hypothesis
1. Scientifically justifiable thresholds based on the best available data and industry practices can be developed for:
a. the reporting and safety qualification of leachables in orally inhaled and nasal drug products, and
b. reporting of extractables from the critical components used in corresponding container/closure systems.
Reporting thresholds for leachables and extractables will include associated identification and quantitationthresholds.
2. Safety qualification of extractables, would be scientifically justified on a case-by-case basis.
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Definition of the AET
“The AET is defined as the threshold at or above which an OINDP pharmaceutical development team should identify and quantify a particular extractable and/or leachable and report it for potential toxicological assessment.”
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Process1. Convert the SCT (0.15 µg/day for an individual organic leachable) to
an Estimated AET (e.g. µg/canister for an individual organic leachablein an MDI) by considering the dosing and other parameters of theparticular OINDP.
2. Convert the Estimated AET for leachables to an Estimated AET forextractables (e.g. µg/g elastomer for an individual organic extractable) by considering the parameters of the particular OINDP container closure system (e.g. weight of elastomer per MDI valve).
3. Locate the Estimated AET on a particular leachables or extractables profile (e.g. a GC/MS Total Ion Chromatogram).
4. Evaluate the uncertainty of the particular analytical technique/method (e.g. GC/MS response factors for various potential extractables/leachables).
5. Convert the Estimated AET to a Final AET by considering this analytical uncertainty.
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Recommendation - MDIs
“The Working Group recommends that AETs for MDI leachables profiles be based on the Safety Concern Threshold (SCT) of 0.15 µg/day for an individual organic leachable.
This recommendation includes potential organic leachables derived from critical components of the dose metering valve, canister inner surface, and inner surface coating if present.”
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Absolute Leachables Levels Assuming 0.15 µg/dayEstimated Formulation Parameters
from Product LabelingLeachable Concentration
Yielding 0.15 µg/day Intake
FormulationNet Weight
(grams)
Number of Actuations
Per Can
MaximumActuations
Per Day(µg/g) (µg/can)
Flovent 110 7.9 60 8 0.14 1.1
Alupent 7.0 100 12 0.18 1.3
Beconase * 6.7 80 8 0.22 1.5
QVAR 7.3 100 8 0.26 1.9
Nasacort * 9.3 100 8 0.20 1.9
Tilade 16.2 104 8 0.12 2.0
Azmacort 20.0 240 16 0.11 2.3
Proventil HFA 6.7 200 12 0.37 2.5
Ventolin HFA 18.0 200 12 0.14 2.5
Combivent 14.7 200 12 0.17 2.5
Atrovent 14.0 200 12 0.18 2.5
Serevent † 13.0 120 4 0.35 4.5
Maxair 14.0 400 12 0.36 5.0
median 13.0 120 12 0.18 2.3
Leachable concentrations corresponding to 0.15 µg/day intake are estimates calculated from formulation parameters as stated in the US product labeling. These estimates are for illustrative purposes only and should not be used for decision making because they may not reflect actual MDI formulation parameters.Leachable µg/can at 0.15 µg/day = 0.15 µg/day × Actuations/can ÷ Actuations/dayLeachable µg/g at 0.15 µg/day = µg/can ÷ Net Formulation Weight* Nasal inhalation drug product.† No longer marketed in US.
MDIDrug
Product
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Recommendation - MDIs
For example, consider an MDI with 200 labeled actuations per canister, a recommended dose of 12 actuations per day, and a critical component elastomer mass per valve of 200 mg. For an individual organic leachable derived from this elastomer, the estimated AET would be:
⎟⎟⎠
⎞⎜⎜⎝
⎛×= /canisteractuations200
/dayactuations 8g/day 0.15 labeledAET Estimated µ
g/canister75.3 µ≈AET Estimated
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Recommendation - MDIs
Converting to an Estimated AET for individual extractables in an extractables profile of this particular elastomer:
( )valveelastomer/ g 2.0
alve)canister/v (1g/canister 3.75 ×≈
µAET Estimated
g/g 18.8 µ≈AET Estimated
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Leachables Profile – 1 Week Timepoint
5.00 10.00 15.00 20.00 25.00 30.00 35.000
1000000
2000000
3000000
4000000
5000000
6000000
7000000
8000000
9000000
1e+07
1.1e+07
1.2e+07
1.3e+07
1.4e+07
Time-->
Abundance
TIC: 11100303.D
I.S. 40µg/canister
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Leachables Profile – 1 Week TimepointExpanded
5.00 10.00 15.00 20.00 25.00 30.00 35.00
100000
200000
300000
400000
500000
600000
700000
800000
900000
1000000
1100000
1200000
Time-->
Abundance
TIC: 11100303.D
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12
Leachables Profile – 1 Week TimepointExpanded Section
13.50 14.00 14.50 15.00 15.50 16.00 16.50 17.000
50000
100000
150000
200000
250000
300000
350000
400000
450000
500000
Time-->
Abundance
TIC: 11100303.D
Estimated AET
Red Alert!!!
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Library Search Identification of
20 40 60 80 100 120 140 160 180 200 220 240 260 2800
1000
2000
3000
4000
5000
6000
7000
8000
9000
m/z-->
Abundance
Scan 4091 (16.646 min): 11100303.D57
71
85
24699 123
282141111 155 182 197211169 225
20 40 60 80 100 120 140 160 180 200 220 240 260 2800
1000
2000
3000
4000
5000
6000
7000
8000
9000
m/z-->
Abundance
#163879: Eicosane (CAS) $$ n-Eicosane5743
71
85
29
99 113127 282141155169183197211225239253267
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Leachables Profile – 1 Week TimepointExpanded Section (2)
17.8018.0018.2018.4018.6018.8019.0019.2019.4019.6019.8020.0020.2020.4020.600
10000
20000
30000
40000
50000
60000
70000
80000
90000
100000
110000
120000
Time-->
Abundance
TIC: 11100303.D
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15
Library Search Identification of
20 40 60 80 100 120 140 160 180 200 220 240 260 280 3000
2000
4000
6000
8000
m/z-->
Abundance
Scan 4579 (18.383 min): 11100303.D (-)83 9761
111
125
139 224 252166153 181 207 297
20 40 60 80 100 120 140 160 180 200 220 240 260 280 3000
2000
4000
6000
8000
m/z-->
Abundance
#187507: Acetic acid, octadecyl ester $$ Octadecyl acetate $43
57 9783
11170
12529
139153 25222416715 181196209 297
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Recommendation - MDIs
“The above calculation assumes that all 200 mg of elastomer in this particular MDI valve has the same chemical composition and extractables profile, and takes no account of the number of individual valve components fabricated from this elastomer.
When accomplishing Controlled Extraction Studies and establishing acceptance criteria for unspecified (i.e. “new”) extractables in Routine Extractables Testing programs, the pharmaceutical development team should consider the potential additive effect to the leachables profile of multiple elastomeric and/or plastic components fabricated from the same basic material.”
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Recommendation - MDIs
“The Working Group recommends that MDI actuator/mouthpieces have an extractables Estimated AET of 20 µg/g for an individual organic extractable.”
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Recommendation – Nasal Sprays and Inhalation Sprays
The Working Group recommends that AETs for Nasal Spray and Inhalation Spray leachables profiles be based on the Safety Concern Threshold (SCT) of 0.15 µg/day for an individual organic leachable. This recommendation includes potential organic leachables derived from the container and other critical components of the container closure system.”
The Working Group recommends that critical components of Nasal Spray and Inhalation Spray drug product container closure systems that are not in continuous contact with the drug product formulation have an extractables Estimated AET of 20 µg/g for an individual organic extractable.
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Recommendation - DPIs
The Working Group recommends that AETs for Dry Powder Inhaler leachables profiles be based on the Safety Concern Threshold (SCT) of 0.15 µg/day for an individual organic leachable. This recommendation includes organic leachables derived from the unit dose container closure system and other critical components of the device which may have continuous long term contact with the drug product formulation.
Leachables studies (either stability studies or “one-time”characterization studies) would only be required for DPIs if potential leachables (i.e. extractables) of safety concern were identified at the AET level during comprehensive Controlled Extraction Studies.
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Recommendation - DPIs
“The Working Group recommends that critical components of DPI drug product container closure systems that are not in continuous contact with the drug product formulation have an extractables Estimated AET of 20 µg/g for an individual organic extractable.”
Note that comprehensive Controlled Extraction Studies should always be performed on non-contact DPI critical components using the AET, even if they do not have continuous long term contact with the drug product formulation.”
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Recommendation – Inhalation Solutions
“The Working Group recommends that AETs for Inhalation Solution leachables profiles be based on the Safety Concern Threshold (SCT) of 0.15 µg/day for an individual organic leachable.
This recommendation includes potential organic leachables derived from the unit dose container closure system and other materials which may have continuous long term contact with the drug product formulation or unit dose container.”
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Recommendation – Inhalation Solutions
“The Working Group recommends that if it can be scientifically demonstrated that:
1. Aqueous and/or drug product formulation extracts of Inhalation Solution direct formulation contact container closure system material yield no extractables at Final AET levels, or no extractables above final AET levels with safety concern; AND
2. There is no evidence for migration of organic chemical entites through the unit dose container into the drug product formulation; THEN
Drug product leachables studies are not required.”
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Recommendation – Final AET
“The Working Group proposes and recommends that analytical uncertainty in the Estimated AET be defined as one (1) %Relative Standard Deviation in an appropriately constituted and acquired Response Factor database OR a factor of 50% of the Estimated AET, whichever is greater.”
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Recommendation – Final AETExample Extractables RRF Database from GC/FID Method. 2-Fluorobiphenyl as internal standardAnalyte ID RF Value RRF ValueBHT 19.28 0.95Irganox 1076 7.4 0.35p-terphenyl-D14 17.40 0.88Bis (2-ethylhexyl) phthalate 14.38 0.712,6-d-tert-butylphenol 19.96 0.96Eicosane 15.73 0.77Diphenylamine 21.91 1.05Dibutyl phthalate 12.54 0.61
Mean 16.08 0.79Standard Deviation 4.66 0.23%RSD 28.98 29.00
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Recommendation – Final AET
Process for Determination of Estimated and Final AET
1. Determine estimated AET by converting SCT (0.15 µg/day) to units relative to an individual OINDP (e.g, µg/canister, µg/gram component, etc.).
2. Estimate position on the particular extractables/leachables profile of the SCT. This is the Estimated AET. The position should be based on:
• The RF of an appropriate internal standard; or
• The RF of an unambiguously identified major extractable/leachable.
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Recommendation – Final AET
Process for Determination of Estimated and Final AET
3. Evaluate analytical uncertainty:
• Create an appropriate RRF database.
• Determine the Standard Deviation (SD) and %Relative Standard Deviation (%RSD) of RRFs in the database;
• Use one (1) %RSD or a factor of 50% (of the Estimated AET), whichever is greater, to define the analytical uncertainty.
4. Establish the Final AET. The Final AET is defined as:
• Final AET = Estimated AET – “uncertainty factor”
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Leachables Profile – 1 Week TimepointExpanded Section
13.50 14.00 14.50 15.00 15.50 16.00 16.50 17.000
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Time-->
Abundance
TIC: 11100303.D
Final AET
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Concluding Points
• The process described here for determining the Final AET is an example. Alternative processes could be proposed.
• We welcome your comments and suggestions.
• Additional details are in the poster presentation.