APPLICATION INFORMATION APPLICATION INFORMATION Introduction During various stages of the cell culturing process, centrifugation is frequently used to isolate extracel- lular products or to separate cells from their aque- ous environment. Traditionally, cells and media are first transferred from a cell culture flask to a 15-mL or 50-mL conical tube before centrifugation. These transfer steps require operator labor and time, the cost of the transfer vessel, and introduce the poten- tial for contamination during transfer. With the innovative Cell Culture Flask Adapters, the culture can be centrifuged directly in the flask. Data illus- trate that cell yield, cell viability, and endpoint analysis results are comparable when cell cultures are processed traditionally or centrifuged directly in the flask using Cell Culture Flask Adapters. Major Benefits of the Cell Culture Flask Adapters • Streamlined cell culturing process • Time, labor, and labware savings • Reduced potential for contamination What Are the Cell Culture Flask Adapters? The Cell Culture Flask Adapters are single-piece elas- tomeric (EPDM) adapters designed to allow centrifu- gation of T-75 † (75-cm 2 area) or T-25 † (25-cm 2 area) cell culture flasks in the Allegra X-15R and Allegra X-12 Series centrifuges using SX4750 and SX4750A rotors (Figure 1). The adapters stand up to the rigors of use (centrifugal force, cleaning, and sterilization) in the bioresearch laboratory. When to Use the Cell Culture Flask Adapters Cell Culture Flask Adapters support cell culture flasks during centrifugation. Centrifugation is used in the cell culturing process (seeding, passaging, or harvesting) and in studies of cellular activities (organelles, proteins, antibody production, etc.) and cellular products. During various phases (cell cycle, adhesion, motility, signal transduction, etc.) of the cellular study, centrifugation is used to separate or concentrate cells from culture media and/or to collect extracellular products. A-1990A BECKMAN COULTER CELL CULTURE FLASK ADAPTERS * Cell Separation Figure 1. Beckman Coulter Cell Culture Flask Adapters. * Beckman Coulter Cell Culture Flask Adapters have a patent pending. † Adapters currently available for Corning ‡ 75-cm 2 canted-neck cell culture flasks (PN 430641) and 25-cm 2 canted-neck cell culture flasks (PN 430639). ‡ Corning is a registered trademark of Corning Incorporated.
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A-1990A: Beckman Coulter Cell Culture Flask AdaptersThe Cell Culture Flask Adapter for T-75 flasks can be centrifuged up to 3024 rpm (2001 × g) with 50 mL (a very commonly used culture
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APPLICATION INFORMATIONAPPLICATION INFORMATION
Introduction During various stages of the cell culturing process,centrifugation is frequently used to isolate extracel-lular products or to separate cells from their aque-ous environment. Traditionally, cells and media arefirst transferred from a cell culture flask to a 15-mLor 50-mL conical tube before centrifugation. Thesetransfer steps require operator labor and time, thecost of the transfer vessel, and introduce the poten-tial for contamination during transfer. With theinnovative Cell Culture Flask Adapters, the culturecan be centrifuged directly in the flask. Data illus-trate that cell yield, cell viability, and endpointanalysis results are comparable when cell culturesare processed traditionally or centrifuged directlyin the flask using Cell Culture Flask Adapters.
Major Benefits of the Cell CultureFlask Adapters• Streamlined cell culturing process• Time, labor, and labware savings• Reduced potential for contamination
What Are the Cell Culture FlaskAdapters?The Cell Culture Flask Adapters are single-piece elas-tomeric (EPDM) adapters designed to allow centrifu-gation of T-75† (75-cm2 area) or T-25† (25-cm2 area)cell culture flasks in the Allegra X-15R and AllegraX-12 Series centrifuges using SX4750 and SX4750Arotors (Figure 1). The adapters stand up to the rigorsof use (centrifugal force, cleaning, and sterilization)in the bioresearch laboratory.
When to Use the Cell CultureFlask AdaptersCell Culture Flask Adapters support cell cultureflasks during centrifugation. Centrifugation is usedin the cell culturing process (seeding, passaging,or harvesting) and in studies of cellular activities(organelles, proteins, antibody production, etc.)and cellular products. During various phases(cell cycle, adhesion, motility, signal transduction,etc.) of the cellular study, centrifugation is used toseparate or concentrate cells from culture mediaand/or to collect extracellular products.
* Beckman Coulter Cell Culture Flask Adapters have a patent pending.† Adapters currently available for Corning‡ 75-cm2 canted-neck cell culture flasks
(PN 430641) and 25-cm2 canted-neck cell culture flasks (PN 430639). ‡ Corning is a registered trademark of Corning Incorporated.
Traditionally, the cells and media are trans-ferred from a cell culture flask to a container(typically a 15-mL or 50-mL conical tube). Aftercentrifugation, a cell pellet is either resuspendedand transferred back to the cell culture flask forcontinued growth or it is extracted for storage ordownstream analysis. These transfer steps can beeliminated when culturing and centrifugation arecarried out in the same flask using the Cell CultureFlask Adapters. The streamlined process isapplicable for various types of cell cultures(adherent, suspension, hybridoma, and primarycells; Figure 2).
Comparable Results Comparable results (Tables 1 and 2) have beenobtained when cell cultures are processed tradition-ally or centrifuged directly in flasks using the CellCulture Flask Adapters. • Comparable cell viability• Comparable end-point analysis results
- Viral PFU counts- Monoclonal antibody production- Cytokine protein measured by ELISA- Fluorescence detection of caspase from an
Culture Flask Adapters can be centrifuged at aspeed greater than that typically run in a 15-mLor 50-mL conical tube for cell concentration.This process can be performed without the dis-ruption of cells
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Figure 2. Centrifugation steps in the cell culturing process.
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Cell Line Culture Type Endpoint Analysis Tube Cell Culture Flask
(T-75)11
Vero Adherent Viral Titer 4.5E8 PFU1
1.8E8 PFU
HSVI production from culture
media of infected vero cells
Hybridoma Suspension Hybridoma cell line for monoclonal antibody 4.5 OD 3 / 5 mL SUP
2 4.5 OD / 5 mL SUP
production. The SUP 2, after filtering through
2E7 line a 0.2 µm filter, was applied to a column . 0.9 mg MAB / 450 mL SUP 0.7 mg MAB / 450 mL SUP
The OD recovery was measured on the effluent
5E5 line as reference to MAB 5
4
production / purification. 2.1 mg MAB / 450 mL SUP 1.7 mg MAB / 450 mL SUP
25-cm2 canted-neck cell culture flasks were used for the experiments.
2) All centrifugation runs conducted in room temperature (18
Centrifugation runs with the conical tubes and cell culture flasks were
conducted at the same speed and for the same duration of time.
oC-25oC).
3) Stages: S (Release from Frozen Storage) ; P (Passaging, Reseeding,Harvesting).
4) ND : No Data.
5) PHA : Phytohemaglutinin, a mitogen for T-cells.
6) % cell PT = 100% - [(cell in supernatant) / (total cell) x 100].
7) % cell PT = (cell in pellet) / (total cell) x 100.
* Corning is a registered trademark of Corning Incorporated.
1200-1500 (329-514) / 10
1200 (335) / 10
1200 (329) / 10
1200 (335) / 10
1200 (335) / 10
1200 (329) / 10
1700 (660) / 15
1200-1500 (329-514) / 10
RPM (x g ) / Time (min)
Centrifugation Parameters 2
1200 (329) / 10
1200 (329) / 10
1200 (335) / 10
1200-1500 (266-416) / 10
1200-1500 (266-416) / 10
1200-1500 (329-514) / 10
1500 (514) / 5
1200-1500 (266-416) / 10
1200-1500 (266-416) / 10
1200-1500 (329-514) / 10
1500 (416) / 5
Expansion); H (
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How to Use the Cell CultureFlask AdaptersFilled Flasks can easily be inserted into andextracted from the Cell Culture Flask Adapters(Figures 3 and 5).
Before first use and after cleaning of theadapter, lightly coat the inside of the bucket withdry release agent (PN 392819) to facilitate theremoval of the adapter from the SX4750 orSX4750A round bucket.
The orientation of the flask and adapterwith respect to the rotor is shown in Figure 4.Extraction of the flask from the adapter iseasy with minimal disturbance of the pellet(Figure 5).
Expect to Spin FasterHigher centrifugal force (up to 3000 rpm/2000 × g) may be used when centrifuging flasksin the Cell Culture Flask Adapters to optimizecell yield (Table 3).
Various types of cell cultures (adherent,suspension, and primary tissue) have beenshown to maintain good viability (> 90%) andcellular function when spun at higher forcesversus traditional processing (Table 2).
Figure 3. Filled flasks are easily inserted intothe adapter. With adapters for the Corning*
75-cm2 canted-neck flasks—insert with thick-seam side facing the direction of the arrows onthe adapter top; canted-top tilted toward theside of the adapter with the arrows. Adaptersfor Corning 25-cm2 canted-neck flasks can tiltin either direction.
Figure 4. Easily load the adapter into thebucket by grasping the adapter finger grips.Align the narrow sides of the flask to the bucketengraving and the wide sides parallel to thebucket pin pockets.
Table 3. Effect of Centrifugal Speed(RPM) on Cell Yield and Viability
Centrifugation Cell Type Speed 1
Cell Yield 2 Cell Viability
(rpm)
10 Minutes
Tube Cell
Culture
Flask3
Cell
Culture
Flask3
Tube
ATCC K562 1200 104% 48% 97% 97%
Suspension 2750 117% 114% 95% 92%
Prostate Cell Line 1200 180% 64% 93% 92%
Adherent 2500 133% 115% 92% 92%
Vero Cell 1100 85% 84% Comparable
Adherent, 25 mL 2500 148% 107% Comparable
1) All centrifugation runs conducted at room temperature (18°C to 25°C),
during a cell passaging stage.
2) % cell PT = (cell in pellet) / (total cell) x 100; or
% Recovery = (Total cell after spin) / (total cell before spin) x 100.
3) Corning* 75-cm2 canted-neck cell culture flasks were used for the experiments.
* Corning is a registered trademark of Corning Incorporated.
* Corning is a registered trademark of Corning Incorporated.
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Maximum Speed with the Cell CultureFlask AdapterThe maximum allowable centrifugal speeds ofthe Cell Culture Flask Adapter (rpm or g-force)are shown in Table 4. Maximum allowablespeed varies according to working volume.
The Cell Culture Flask Adapter for T-75flasks can be centrifuged up to 3024 rpm(2001 × g) with 50 mL (a very commonly usedculture volume). Speed reduction is required forhigher or lower working volumes. The adaptersfor T-25 cell culture flasks offer superior per-formance at 3200 rpm (2000 × g) up to 25 mL.
Your Pellet Will Look DifferentThe difference in geometry between the flatbottom of the flask and the conical tip of thetube leads to a different appearance of the cellpellet. When centrifuging the flask directly, thecell pellet is softer and spread more looselyover the bottom of the flask (Figure 6).
Even though the appearance of the cellpellet is different, the results from centrifugingin the flask have been comparable to those ofthe traditional method.
Figure 5. Easily remove the flask from the adapter: hold the side of the adapter as shown, lift the flaskstraight up, and continue lifting the flask straight up until it clears the adapter.
Table 4. Performance Range of Cell Culture Flasks
for T-75* and T-25* Flasks
3024
2000
1367
2001
875
2500
700
1700
2700
3700
0 10 20 30 40 50 60 70 80 90 100
Cell Culture Working Volume (mL)
Max S
peed
(R
PM
or
RC
F)
Adapters for
T-25 Flasks (RPM)
Adapters for
T-75 Flasks (RPM)
Adapters for T-25
Flasks (g-force)
Adapters for
T-75 Flasks
(g-force)
3200
2000
Figure 6. Different appearance of cell pelletobtained from tube or cell culture flaskcentrifugation.
* Corning is a registered trademark of Corning Incorporated. All other trademarks are the property of their respective owners.
Expect to Leave a Thin Layer ofMedia Above the PelletWhen centrifuging in a flask, the separation linebetween the cell pellet and supernatant is less clear-ly defined. After centrifugation, expect to retain athin layer of residual media when removing thesupernatant (Figure 7). More spent media or wash-ing buffer will be carried over to the next culture.This may result in diluting the strength of culturingnutrients. This phenomenon can be readily correctedwith a smaller culture volume and increased cen-trifugal speed as described in Table 3.
Major Benefits of Cell CultureFlask Adapters• Streamlined cell culturing process• Time, labor, and labware savings• Reduced potential for contamination
Additional Benefits from CellCulture Flask Centrifugation • Time and material savings multiply with the
number of passages performed• Some small and less-dense cells seed better
when centrifuged in the cell culture flask• Faster detachment of adherent cells during
cell recovery• Softer cell pellets can be more readily
resuspended
Supply List 369292 Cell Culture Flask Adapter (set of 2),
for Corning* 75-cm2 Canted-Neck CellCulture Flasks (PN 430641), includes 50-gram pack of dry release agent and 2 applicators
369295 Cell Culture Flask Adapter (set of 2),for Corning 25-cm2 Canted-Neck CellCulture Flasks (PN 430639), includes 50-gram pack of dry release agent and 2 applicators
392819 Replacement pack dry release agent(200 grams), includes 6 applicators