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白帆生物

Preclinical Pharmaceutical Research

———— Laboratory-scale Process Development

Core Advantages

Rapid acquisition of robust and high-yield upstream cell production process

Ideally, the yield can be increased by50% or the quality of the expressed products can be improved

  • Upstream screening and process development were carried out in shaker /TPP/ Sartorius 2L bioreactor
  • 10L scale process confirmation, lock the best process
  • Perfect process magnification model, the process can be scaled up to 50-2000L Sartorius /Hyclone/GE and other different brand bioreactor
  • With Ambr 250 high throughput bioreactor, clone screening and process characterization can be carried out efficiently

Service Content

  • There are 50L and 200L bioreactors, which can be scaled up on the platform of Dragonsailpharma
  • With high quality and efficient technology transfer and amplification process, it can be efficiently scaled up to 2000L bioreactor
  • Writing IND application documents according to registration regulations
  • We can improve output and quality according to customer requirements (charge heterogeneity, glycan ratio optimization, etc.)
  • Our technology platform can provide technical services for different stages of the project

Core Advantages

A robust and efficient downstream protein purification process was rapidly obtained

Meet the development goals of improving yield, impurity and purity of different mab/dual antibody/fusion proteins

  • AKTA Pure/Avant for platform chromatography purification process development,rich experience in removing polymer,acid peak,basic peak,etc
  • The model is applied to the development of filtration and ultrafiltration processes
  • The 10L scale was used for process confirmation to lock the best process. The perfect scale-up model supported scale-up to 50-2000L production scale
  • Downstream process characterization work, packing/filter life verification, etc
  • In line with the IND of the United States and China virus verification work

Service Content

Deep filter

Cell harvesting liquid secreted from upstream cell culture can be used to remove cells and cell debris by microfiltration. The downstream department of dragonsailpharma designs deep filtration method for cell density and cell viability to make the filtered liquid meet the loading requirements of Protein A.

Protein A

After removing cells and cell debris, Protein A affinity chromatography packing was used for affinity chromatography capture, and the mab was rapidly captured from the culture medium. This step can remove A large amount of HCP, folded fragments, virus, HCD and medium components. The components of the Protein A column account for A large part of the downstream cost, and how to efficiently utilize the purification effect of Protein A is the key to this step. Based on years of experience, white-sail organisms optimize the dynamic loading, sample loading, leaching step, elution step and other parameters of affinity chromatography, and on this basis, they also screen different fillers. It not only ensures the affinity purification effect of protein, but also maximally improves the recovery of protein.

Virus inactivated

Virus inactivation was chosen here mainly because the eluent of Protein A was acidic, which was more conducive to virus inactivation in the recovered solution. In the inactivation of low pH virus, it is necessary to maintain the stability of antibody and ensure the effect of inactivation. In this step, the pH and time of virus inactivation will be examined to facilitate the production department to determine the hold time of the eluent.

Secondary deep filtration (clarifying filtration)

When the sample solution is inactivated by virus, some insoluble particles are produced. Deep filtration not only removes these insoluble particles, but also removes part of HCP and HCD.

Ion-exchange chromatography/hydrophobic exchange chromatography/composite exchange chromatography

After the antibody is captured by Protein A affinity chromatography, the impurities such as Protein A and residual HCP that will be shed during the affinity process still need to be further removed. At this time, ion exchange is usually used to carry out flow through mode anion exchange chromatography on the Protein after virus inactivation, so that the impurity binds to the column and the antibody flows through. The MAbs are then adsorbed by cation exchange chromatography to allow impurities to flow through. Individual antibodies, such as Bispecific antibodies and ADCs, are also purified by hydrophobic interaction chromatography or exchange chromatography with a combination of ionic and hydrophobic interactions. In this step of purification, dragonsailpharma biological system has developed the buffer type, ionic strength, pH, elution method and other processes. In the selection of fillers, the appropriate separation column will be finally determined by parallel comparison.

Nanofiltration to remove the virus

According to the requirements of regulations, the amount of virus in the protein solution for human injection needs to be strictly controlled, and the 20nm pore size membrane is usually selected for the nanofiltration of virus. In nanofiltration, the influence of transmembrane pressure, membrane area, sample concentration, buffer and other factors will be fully considered by white-sail organisms.

UF/DF

Before the final DS is generated, UF/DF is needed to adjust the protein concentration of DS and replace DS into the final preparation buffer, which is conducive to clinical use and stability of DS

Core Advantages

Rapid access to stable formulation and preparation process

Meet the requirements ofmab/biospecific antibody/fusion protein preparation development and >100mg/mldevelopment requirements

  • The formulation platform of the process development platform that meets the production needs
  • Formulation development, including screening of buffer systems, stabilizers, surfactants, etc.
  • Drug packaging material screening, compatibility research, sterilization filtration verification
  • Stability study, influence factor experiment
  • Preparation PROCESS DEVELOPMENT (MIXING PROCESS, STERILIZATION process, FREEZE-THAW process, etc.), process change/transfer, TAKING into account regulatory requirements

Service Content

The Process preparation Department is committed to the development of monoclonal antibody, biospecific antibody and fusion protein. The preparation platform meets the requirements of Chinese and American IND application, and can provide integrated R&D services from early preparation evaluation, prescription screening, preparation stability, process development to registration and application. At the same time, the preparation team has rich experience in the development of high concentration preparations, which can quickly obtain stable formulation and preparation process.

Formulation development

  • Pre-prescription study

    1. Physical and chemical Properties of active substances (Tm, Tagg, DLS, viscosity, etc.)
    2. Investigate the solubility of the preparation in the buffer system, and screen the concentration of the preparation
    3. Screening different types and different pH buffer (including histidine, citric acid, phosphate, etc.), to determine the preparation buffer system

  • Prescription screening

    According to the determined buffer system and concentration, DOE was used to design the prescription. Through the experiment of influencing factors (high temperature, shaking, light, freeze-thaw, etc.), the best stabilizer was screened, and the composition and concentration range of the formulation were determined.

  • Prescription confirming

    Final formulations are determined through accelerated stability and long-term stability studies.

  • Supportive research

    The packaging material selection and compatibility of preparation and DS were studied.

Comparison of Tm values of samples tested with Uncle

Filling process development

  • AFreeze-thaw stability of DS
  • DPreparation and mixing process of solution
  • BSelection of sterilization filter and investigation of filtration process
  • ETake into account different regulatory requirements, process confirmation and technology transfer
  • CFormulation process amplification
  • FInvestigation of relevant technology in the filling process
...
FlowCam Fluid Imaging Analysis system

Small amount of detection: 0.01mL sample can be detected
Imaging is intuitive: protein particles and silicone oil can be distinguished by morphological features
 Rapid detection: 1mL sample can be completed within 5 minutes

...
Freezing and thawing system

High detection flux: 10 samples were frozen or melted simultaneously
Good reproducibility: easy to compare between different batches of samples
 Scale up/down: easy to transfer process

Preclinical Pharmaceutical Research

———— Laboratory-scale Process Development

Core Advantages

Rapid acquisition of robust and high-yield upstream cell production process

Ideally, the yield can be increased by

50% or the quality of the expressed products can be improved

  • Upstream screening and process development were carried out in shaker /TPP/ Sartorius 2L bioreactor
  • 10L scale process confirmation, lock the best process
  • Perfect process magnification model, the process can be scaled up to 50-2000L Sartorius /Hyclone/GE and other different brand bioreactor
  • With Ambr 250 high throughput bioreactor, clone screening and process characterization can be carried out efficiently

Service Content

  • There are 50L and 200L bioreactors, which can be scaled up on the platform of Dragonsailpharma
  • With high quality and efficient technology transfer and amplification process, it can be efficiently scaled up to 2000L bioreactor
  • Writing IND application documents according to registration regulations
  • We can improve output and quality according to customer requirements (charge heterogeneity, glycan ratio optimization, etc.)
  • Our technology platform can provide technical services for different stages of the project

Core Advantages

A robust and efficient downstream protein purification process was rapidly obtained

Meet the development goals of improving yield, impurity and purity of different mab/dual antibody/fusion proteins

  • AKTA Pure/Avant for platform chromatography purification process development,rich experience in removing polymer,acid peak,basic peak,etc
  • The model is applied to the development of filtration and ultrafiltration processes
  • The 10L scale was used for process confirmation to lock the best process. The perfect scale-up model supported scale-up to 50-2000L production scale
  • Downstream process characterization work, packing/filter life verification, etc
  • In line with the IND of the United States and China virus verification work

Service Content

Deep filter

Cell harvesting liquid secreted from upstream cell culture can be used to remove cells and cell debris by microfiltration. The downstream department of dragonsailpharma designs deep filtration method for cell density and cell viability to make the filtered liquid meet the loading requirements of Protein A.

Protein A

After removing cells and cell debris, Protein A affinity chromatography packing was used for affinity chromatography capture, and the mab was rapidly captured from the culture medium. This step can remove A large amount of HCP, folded fragments, virus, HCD and medium components. The components of the Protein A column account for A large part of the downstream cost, and how to efficiently utilize the purification effect of Protein A is the key to this step. Based on years of experience, white-sail organisms optimize the dynamic loading, sample loading, leaching step, elution step and other parameters of affinity chromatography, and on this basis, they also screen different fillers. It not only ensures the affinity purification effect of protein, but also maximally improves the recovery of protein.

Virus inactivated

Virus inactivation was chosen here mainly because the eluent of Protein A was acidic, which was more conducive to virus inactivation in the recovered solution. In the inactivation of low pH virus, it is necessary to maintain the stability of antibody and ensure the effect of inactivation. In this step, the pH and time of virus inactivation will be examined to facilitate the production department to determine the hold time of the eluent.

Secondary deep filtration (clarifying filtration)

When the sample solution is inactivated by virus, some insoluble particles are produced. Deep filtration not only removes these insoluble particles, but also removes part of HCP and HCD.

Ion-exchange chromatography/hydrophobic exchange chromatography/composite exchange chromatography

After the antibody is captured by Protein A affinity chromatography, the impurities such as Protein A and residual HCP that will be shed during the affinity process still need to be further removed. At this time, ion exchange is usually used to carry out flow through mode anion exchange chromatography on the Protein after virus inactivation, so that the impurity binds to the column and the antibody flows through. The MAbs are then adsorbed by cation exchange chromatography to allow impurities to flow through. Individual antibodies, such as Bispecific antibodies and ADCs, are also purified by hydrophobic interaction chromatography or exchange chromatography with a combination of ionic and hydrophobic interactions. In this step of purification, dragonsailpharma biological system has developed the buffer type, ionic strength, pH, elution method and other processes. In the selection of fillers, the appropriate separation column will be finally determined by parallel comparison.

Nanofiltration to remove the virus

According to the requirements of regulations, the amount of virus in the protein solution for human injection needs to be strictly controlled, and the 20nm pore size membrane is usually selected for the nanofiltration of virus. In nanofiltration, the influence of transmembrane pressure, membrane area, sample concentration, buffer and other factors will be fully considered by white-sail organisms.

UF/DF

Before the final DS is generated, UF/DF is needed to adjust the protein concentration of DS and replace DS into the final preparation buffer, which is conducive to clinical use and stability of DS

Core Advantages

Rapid access to stable formulation and preparation process

Meet the requirements of

mab/biospecific antibody/fusion protein preparation development and >100mg/ml development requirements

  • The formulation platform of the process development platform that meets the production needs
  • Formulation development, including screening of buffer systems, stabilizers, surfactants, etc
  • Drug packaging material screening, compatibility research, sterilization filtration verification
  • Stability study, influence factor experiment
  • Preparation PROCESS DEVELOPMENT (MIXING PROCESS, STERILIZATION process, FREEZE-THAW process, etc.), process change/transfer, TAKING into account regulatory requirements

Service Content

The Process preparation Department is committed to the development of monoclonal antibody, biospecific antibody and fusion protein. The preparation platform meets the requirements of Chinese and American IND application, and can provide integrated R&D services from early preparation evaluation, prescription screening, preparation stability, process development to registration and application. At the same time, the preparation team has rich experience in the development of high concentration preparations, which can quickly obtain stable formulation and preparation process.

Formulation development

Pre-CMC study

1. Physical and chemical Properties of active substances (Tm, Tagg, DLS, viscosity, etc.)
2. Investigate the solubility of the preparation in the buffer system, and screen the concentration of the preparation
 3. Screening different types and different pH buffer (including histidine, citric acid, phosphate, etc.), to determine the preparation buffer system

Prescription screening

According to the determined buffer system and concentration, DOE was used to design the prescription. Through the experiment of influencing factors (high temperature, shaking, light, freeze-thaw, etc.), the best stabilizer was screened, and the composition and concentration range of the formulation were determined.

Prescription confirming

Final formulations are determined through accelerated stability and long-term stability studies.

Supportive research

The packaging material selection and compatibility of preparation and DS were studied.

Comparison of Tm values of samples tested with Uncle

Filling process development

  • A

    Freeze-thaw stability of DS

  • D

    Preparation and mixing process of solution

  • B

    Selection of sterilization filter and investigation of filtration process

  • E

    Take into account different regulatory requirements, process confirmation and technology transfer

  • C

    Formulation process amplification

  • F

    Investigation of relevant technology in the filling process

...
FlowCam Fluid Imaging Analysis system

Small amount of detection: 0.01mL sample can be detected
Imaging is intuitive: protein particles and silicone oil can be distinguished by morphological features
 Rapid detection: 1mL sample can be completed within 5 minutes

...
Freezing and thawing system

High detection flux: 10 samples were frozen or melted simultaneously
Good reproducibility: easy to compare between different batches of samples
Scale up/down: easy to transfer process

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