Moleculedesign

Host cellselection

Upstreamprocess

Downstreamprocess

Formulation Fill &Finish

Storage

§ Sequence

§ Hydrophobicity

§ Proteases

§ Oxidative stress

§ Media

components

§ Posttranslational

modifications

§ Stirring

§ Temperature

§ Trace metals

§ pH

§ Air/liquid interface

§ Osmolality

§ Pressure

§ Shear forces

§ Mixing

§ pH

§ Air/liquid interface

§ Light

§ Shear forces

§ Excipients

§ Oxidation

§ Light

§ Agitation

§ Shear forces

§ Excipients

§ Oxidation

§ Freeze-thaw

§ Light

§ Temperature

§ Freeze-thaw

§ Shear forces

Advanced Formulations of Biopharmaceuticals

INTRODUCTION: In the past, the role of customized and tailored formulations during the development of biopharmaceuticals has been largely underestimated.

An advanced formulation strategy can significantly protect and stabilize the molecular integrity of the biomolecule and thus strongly improve the product quality,

leading to significant benefits for patients, physicians and pharma alike. The rapidly growing and increasingly competitive biopharmaceutical market requires on the

one hand individual solutions, particularly for higher product stability and a prolonged shelf life. On the other hand, there is a continuous pressure to reduce

development timelines and thus the time to clinic, which favors intelligent platform approaches. Since changes in the formulation after phase II clinical trial may

require additional clinical and toxicological studies, an early integration of all drug product-generating steps is aimed to avoid additional costs and a delayed market

entry. Here we show how a commercially attractive, individualized formulation based on the amino acid-driven Stabilizing and Protecting Solutions (SPS®) technology

platform can be generated without extending the timelines to the first clinical trials by using a highly integrated development process.

Missed opportunities in formulation development

Cosentyx® (secukinumab) Taltz® (ixekizumab) Siliq® (brodalumab)Novartis (1

st to market) Eli Lilly (2nd to market) Valeant (3

rd to market)

Shelf life, storage and handling

18 months shelf life,

refrigerated at 2–8 °C

24 months shelf life,

refrigerated at 2–8 °C;

In EU Taltz® may be stored

unrefrigerated for up to

5 days at ≤ 30 °C

24 months shelf life, refrigerated at

2–8 °C;

In US Siliq® may be stored

unrefrigerated for up to

14 days at room temperature ≤ 25 °C

§ Short development processes

§ Meeting specific needs, e.g.

§ Storage at elevated temperature

§ High concentration

§ Liquid formulation

§ Shortened re-suspension of lyoproducts

§ Reduction of viscosity and better stability

§ Providing freedom to operate

§ Extra patent protection

Formulation stability impacts costs in many ways

SPS®-based stabilization leads to less aggregates

The SPS® Formulation Technology Platform

SPS® improves high concentrated antibody formulations

The SPS® Formulation Rational Design Approach

CONCLUSION: The higher product quality achieved by the SPS® technology built in gene-to-vial

processes and manufacturing supports the customer to accomplish a significant

competitiveness in the market without compromising the development timelines.

FROM GENE-TO-VIAL PROCESSING

Jadranka Koehn2; Jens Altrichter1; Birgit Schwab2; Konstantin Petropoulos1; Sabine Hauck1

1LEUKOCARE AG, Am Klopferspitz 19, 82512 Martinsried, Germany, martin.scholz@leukocare.com2Rentschler Biopharma SE, Erwin-Rentschler-Str. 21, 88471 Laupheim, Germany, birgit.schwab@rentschler-biopharma.com

§ Excipients listed in pharmacopoeias (USP, EP, JP)

§ Many excipients also listed as inactive ingredient by FDA

§ Excipients easily sourceable

§ Formulations easily adaptable to specific target molecules and needs

§ Used for dry and liquid formulations

0

5

10

15

20

1 2

dyna

mic

visc

osity

[mPa

* s]

original formulation SPS®

Dynamic Viscosity of Trastuzumab (200 mg/mL) in Liquid Formulation

-40 %

1.89

0.230,0

0,5

1,0

1,5

2,0

aggr

egat

es [%

]

Aggregate Formation of Trastuzumab (200 mg/mL) in Liquid Formulation after 21 days at 30 °C

original formulation SPS®

§ SPS® database

§ Excipient library

§ Design matrix approach

SPS® IN GENE-TO-VIAL PROCESSING

Example: Advanced formulations for mAbs in psoriasis

Potential of advanced formulations

Method 1 Method 2

Excipient 2

Excip

ien

t 1

Excip

ien

t 3

Excipient 2

Excip

ien

t 1

Excip

ien

t 3

Method 3 Method 4

LC 1

804

Setup Acc. Aging Stability study

Tox

MCBClone stabilityCell line development

Analytical Development

MSR-FDDSP Development CR

Tox

MCBClone stabilityCell line developmentMSR CRUSP Confirmation

Analytical DevelopmentDSP Development CR

COMPARABLE TIMELINESTime to Tox based on USP platform without formulation development

Time to Tox based on USP platform with development of market-readyformulation

Formulation Development (FD) Tasks

General Development Task

MSR CRUSP Confirmation

(may be needed)

2018 Informa Survey: Project failure or delay because of formulation

challenges

Base: All respondents (n=105).

NO40%

YES60%

Have you ever experienced a project failure or a significant delay, because of formulation challenges?

38%52%

10%

Less than 12 months More than 12 months No delay, butproject/product

candidate completelystopped due to

formulation challengesBase: Respondents who experienced a project failure or delay (n=63).

How long was the project delayed because of the formulation challenges?

• Formulation issues led to project failure and significant delays for about 60% of responding companies

• Of those, a delay of more than 12 months was reported by 52%, 10% experienced complete failure

MCB, master cell bank preparation and release

MSR, material supply run; CR, consolidation run;

Tox, material supply for toxicology studies