(19)
(11)EP 3 168 294 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
14.10.2020 Bulletin 2020/42

(21)Application number: 15818500.9

(22)Date of filing:  23.06.2015
(51)International Patent Classification (IPC): 
C12N 5/02(2006.01)
(86)International application number:
PCT/KR2015/006344
(87)International publication number:
WO 2016/006844 (14.01.2016 Gazette  2016/02)

(54)

WET GRANULATED CELL CULTURE MEDIUM AND PREPARATION METHOD THEREFOR

NASSGRANULIERTES ZELLKULTURMEDIUM UND HERSTELLUNGSVERFAHREN DAFÜR

MILIEU DE CULTURE CELLULAIRE GRANULAIRE HUMIDE ET SON PROCÉDÉ DE PRÉPARATION


(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30)Priority: 07.07.2014 KR 20140084634

(43)Date of publication of application:
17.05.2017 Bulletin 2017/20

(73)Proprietor: Ambrothia LLC
Daejeon 305-380 (KR)

(72)Inventor:
  • SEO, Hee Kyo
    Ulsan 681-819 (KR)

(74)Representative: Loo, Chi Ching et al
Albright IP Limited County House Bayshill Road
Cheltenham, Gloucestershire GL50 3BA
Cheltenham, Gloucestershire GL50 3BA (GB)


(56)References cited: : 
WO-A2-02/36735
JP-A- 2014 054 267
KR-A- 20100 012 361
KR-A- 20110 028 272
WO-A2-2009/152176
JP-A- 2014 054 267
KR-A- 20100 012 361
  
  • JAYMER FIKER RADOMINSKIB DADEYR HASSETTD CADY D: "A Novel Application of Granulation Technology to Improve Physical Properties and Biological Performance of Powdered Serum-Free Culture Media", ANIMAL CELL TECHNOLOGY: BASIC & APPLIED ASPECTS,, PAGE(S) 155 - 159 , 1 January 2002 (2002-01-01), XP009500921, ISBN: 978-90-481-5934-5 Retrieved from the Internet: URL:https://rd.springer.com/chapter/10.100 7/978-94-017-0728-2_28 [retrieved on 2017-10-26]
  • RICHARD FIKE ET AL: "Advanced Granulation Technology (AGTTM). An alternate format for serum-free, chemically-defined and protein-free cell culture media", CYTOTECHNOLOGY, KLUWER ACADEMIC PUBLISHERS, DO, vol. 36, no. 1-3, 1 July 2001 (2001-07-01) , pages 33-39, XP019236700, ISSN: 1573-0778, DOI: 10.1023/A:1014045104525
  • RUBINO O: "Fluid bed technology: overview and criteria for process selection", PHARMACEUTICAL TECHNOLOGY, ADVANSTAR COMMUNICATIONS,INC, US, vol. 23, no. 6, 1 January 1999 (1999-01-01), pages 104-113, XP009500955, ISSN: 1543-2521
  • SAURABH SRIVASTAVA ET AL: "Fluid Bed Technology: Overview and Parameters for Process Selection", INTERNATIONAL JOURNAL OF PHARMACEUTICAL SCIENCES AND DRUG RESEARCH : IJPSDR, vol. 2, no. 4, 1 October 2010 (2010-10-01) , pages 236-246, XP55292024, IN ISSN: 0975-248X
  • Anonymous: "Spray Granulation Agglomeration Coating Pelletizing Innovative Technologies for Granules and Pellets", , 17 October 2011 (2011-10-17), XP55355183, Retrieved from the Internet: URL:http://www.glatt.com/fileadmin/user_up load/content/pdf_downloads/AB_innovative_t echnologies_en_111017.pdf [retrieved on 2017-03-15]
  • Anonymous: "CHO CD EfficientFeed (TM) B AGT (TM) Nutrient Supplement Product Catalog No. Amount Storage Shelf Life*", , 1 January 2012 (2012-01-01), XP55355300, Retrieved from the Internet: URL:https://tools.thermofisher.com/content /sfs/manuals/CHO_CD_EfficientFeed_B_AGT_PI .pdf [retrieved on 2017-03-15]
  • LUPIS JC.: 'Advanced Granulation Technology? (AGT? dry media format) Culture Media: Benefits and Case Studies' WHITE PAPER May 2014, XP055381363
  • WONG, PM. ET AL.: 'Investigation on Side-Spray Fluidized Bed Granulation with Swirling Airflow' AAPS PHARMSCITECH vol. 14, no. 1, March 2013, pages 210 - 221, XP055381365
  
Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


Description

Technical Field



[0001] The present invention relates to a wet granulated cell culture medium preparation method and, more specifically, to a preparation method for a wet granulated cell culture medium which supports the growth of mammalian cells and/or insect cells and/or plant cells and bacteria.

Background Art



[0002] A cell culture medium supports and maintain the growth of cells in artificial environments.

[0003] According to the types of the organisms in that the growth thereof is supported, the cell culture medium may include different components of over 10 or sometimes 100.

[0004] Typically, the culture medium required for the growth of mammalian cells, insect cells, or plant cells may be more complicated in comparison with a minimal medium sufficient to support the growth of bacteria and yeast.

[0005] In the initial studies of the cell culture, it utilizes the culture medium including undefined components for example, plasma, serum, embryonic extracts, other non-restrictively biological extracts or peptone. Therefore, it has developed with the development of a chemically defined culture medium. Usually, the chemically defined culture medium is not limited exclusively thereto, but it includes amino acids, vitamins, metal ions, an antioxidant, a chelator, growth factors, buffers, hormones, chlorides, and other materials publicly known to persons skilled in the art.

[0006] Some cell culture mediums are provided as a sterile and aqueous liquid. The disadvantage of a liquid cell culture medium is a reduced shelf-life and difficulties of handling and storage. As a result, many cell culture mediums are provided as a dry powder mixture, which is finely milled. It is dissolved in water and/or aqueous solution to be prepared. Also it is proposed in a state of being dissolved together with the other supplements for the growth of biological cells so as to prepare biological drugs from substantial nutritional base and/or part of the cells.

[0007] The handling of finely pulverized powder has a significant disadvantage. For example, it is very difficult to handle in bulk. Especially, where a part of each raw material is bad for the health, it may cause health problems for worker of handling the materials. Also, although each component is not toxic, there are health problems to the works owing to the high level dust itself in the respirable air and the amount of the dust in the air strictly controlled in many countries. Moreover, when the amount of dust is excessive or the warning measured is insufficient to prevent the ignition by a spark, it can cause a dust explosion.

[0008] Additionally, adverse carrying conditions can be occurred in long-term carrying conditions in that at least one lighter component among dry powder mediums is moved to the surface thereof or at least one heavier component is moved to the bottom of the primary packing. The localized high concentrations and the deficiency of each component in the physical center of the mass material may be negative in many ways in terms of the production quality of the medium. In addition, a de-mixing can have more influence on the patterning of oligosaccharide vital absolutely to a biopharmaceutical quality of directly delivering the medium quality to patients, rather than the physical deficiency and the concentration of each component, for example, the production of target pharmaceutical molecules per the medium.

[0009] In another aspect using the dry powder medium finely milled, there is a difficulty of the dissolution of the fine powder in the aqueous solution for preparing a final aqueous cell culture medium. Also, it is very difficult to wet the fine-milled powder and dissolve it in the aqueous solution. Therefore, the handling of the powder medium and the use thereof are very complicated.

[0010] On account of a limitation of the dry powder medium on a stability, a mixing and a dissolution thereof, the medium of the dry form can be manufactured without important supplements for example, carbonates, hydrolysates, growth factors, and other microelements (the final user will replenish them when the liquid is prepared from the dry powder medium). Additional treats and supplements thereof will increase the potential on very minor errors and labors.

[0011] Powdered bacterial cell culture media may be produced by molding the granulated powder into small granules. The result is small and uniform particles having the benefit of the stability, the handling, and the performance.

[0012] US 6,383,810 B2 of Invitrogen corporation discloses a method for preparing a concentrated culture medium powder of eukaryotic cells. In the method thereof, it wets the dry powder cell culture medium by using a solvent and dries the wetted culture medium to obtain the dried and condensed cell culture medium.

[0013] This process has a big defect in that the entire medium components should be contacted with the water and the heating is required to remove the water. Thus, it can cause a significant side reaction of the medium components and a destruction or a deformation of the sensitive components with an unexpected result on the quality of the medium

[0014] As a result, it is clearly necessary to discover a new form of the culture medium of mammalian cells and/or insect cells and/or plant cells and bacteria without causing the destruction and/or the side reaction of the medium components while being easily treating it.

[0015] In addition, in order to supplement the clear disadvantage of the conventional powder type medium or dry granular type medium, attempts in the method capable of deriving the performance of the maximum circular medium through a minimal heat and a containing of additives have been required.

[0016] Figure 1 is a perspective view illustrating a drying and pressing equipment in accordance with the prior art.

[0017] Referring to figure 1, a roll press is shown as rolls (R1) and (R2) and a powder mixture (P1) is supplied to the roll press from the reservoir.

[0018] The compressed mixture come out from the roll press is standardized by a sieve (S). Parts of the product are removed for additional processing and packaging and parts (P2) of the powder having a particle size of less than 0.2 mm is subsequently reintroduced into the feed of the roll press.

[0019] In the Patent Literature 1, it solves partly the problem in that the dry powder mixture is finely powdered. However, the resultant product of the Patent Literature 1 is not uniform in shape and has an angular form.

[0020] Accordingly, since it bumps against each other to be broken during carrying and handling thereof, the granular shape is not properly maintained and parts thereof arc reformed into a fine powder. In other words, it is necessary to more increase the strength of the granular shape or change them into a circular shape. In addition, since it has difficulty in quantification thereof owing to a uniform shape of the particles, it is difficult to achieve an appropriate concentration of the medium.

[0021] Other methods for cell culture granulation are known from Patent Literature 2 and 3, and from Non-Patent Literature 1 to 3.

Patent Literature



[0022] 

Patent Literature 1: Korean Patent Laying-open Gazette No. 10-2014-0032370 (March 14,2014)

Patent Literature 2: WO02/36735A2 (May 10, 2002)

Patent Literature 3: JP2014 054267A (March 27, 2014)


Non-Patent Literature



[0023] 

Non-Patent Literature 1: JAYMER FIKER RADOMINSKIB DADEYR HASSETTD CADY D: "A Novel Application of Granulation Technology to Improve Physical Properties and Biological Performance of Powdered Serum-Free Culture Media", ANIMAL CELL TECHNOLOGY: BASIC & APPLIED ASPECTS, pages 155-159, (January 1, 2002), XP009500921

Non-Patent Literature 2: RICHARD FIKE ET AL: "Advanced Granulation Technology (AGTTM). An alternate format for serum-free, chemically-defined and protein-free cell culture media", CYTOTECHNOLOGY, KLUWER ACADEMIC PUBLISHERS, DO, vol. 36, no 1-3, pages 33-39 (July 1, 2001), XP019236700

Non-Patent Literature 3: LUPIS JC.: "Advanced Granulation Technology? (AGT? dry media format) Culture Media: Benefits and Case Studies", WHITE PAPER, (May 2014), XP055381363


Disclosure


Technical Problem



[0024] The present invention has been made in an effort to solve the problems of the conceptual description of the conventional art as described above, and the objective of the present invention is to provide a medium with granules of which has a high strength and a uniform shape and size.

[0025] Also, the present invention is to greatly improve productivity by not using additional processes involving a spray drier, mixing, pulverization, etc., allowing making granules with a single process, the number of which is relatively less than that of conventional methods, and granulizing 100% of the prepared powders.

Technical solution



[0026] It has been found that peptone containing/free or chemically defined mammalian, insect, plant and bacteria cell culture media can be produced in a wet granulated form by dissolving the mixed, finely milled powders of the dry medium components in purified water at a certain ratio and then spraying them in a fluid bed dryer.

[0027] No additives or coagulants are needed to aid the process.

[0028] The wet granulated cell culture media according to the present invention have a shape and strength superior to those of conventional granulated products, are excellent in appearance, are resistant to moisture and thus have a long shelf life, are easy to handle and pack, and can be produced under mild conditions so that no side reactions occur resulting from heating the medium components during the process of production.

[0029] Thus, the present invention relates to a preparation method for preparation of a cell culture medium which include the following steps: preparing an aqueous cell culture medium solution; and bottom spray granulation. The bottom spray granulation is performed with only the aqueous cell culture medium solution without adding separate seed or coagulant.

[0030] In a specific embodiment, the preparation method may include the following:
  1. (a) the step of providing a cell culture medium, in which the powders of the medium components are mixed or separate,
  2. (b) the step of dissolving the powders of the medium components, as a mixture or individually, in purified water at a certain ratio, and
  3. (c) spraying and granulating the dissolved cell culture medium with the bottom spray of a fluid bed granulator.


[0031] In a preferred embodiment, the cell culture medium that is provided in step (a) is a bacteria cell culture medium.

[0032] In a preferred embodiment, the cell culture medium that is provided in step (a) may comprise one or more saccharide components, one or more amino acids, one or more vitamins, one or more salts, one or more buffer components, one or more co-factors, one or more nucleic acids, tryptones or peptones.

[0033] In a preferred embodiment, the equivalent ratio of purified water to cell culture medium in the cell culture medium that is provided in step (b) may be 0.5∼3.

[0034] In the embodiment in accordance with the invention, step (c) is performed by the following steps:

(c1) feeding a cell culture medium solution to the bottom spray with a pump,

(c2) forming the cell culture medium sprayed by the bottom spray into fine particles by the high-pressure hot air blown from the bottom, and

(c3) forming the cell culture medium particles sprayed by the bottom spray into spherical

granules due to the surface tension generated by the bottom spray of performing continuous spraying.

[0035] In a preferred embodiment, the pump of (c1) feeds the dissolved cell culture medium into the bottom spray at a speed between 2ml/min and 5ml/min.

[0036] In a preferred embodiment, the temperature of the hot air of (c2) ranges from 60°C to 110°C.

[0037] In a preferred embodiment, the speed of the hot air of (c2) ranges from 1m/sec to 3m/sec.

Advantageous Effects



[0038] According to the wet granulated cell culture medium and the preparation method thereof of the present invention having the above constructions and actions, it relates to the wet granulated cell culture medium, especially, to the wet granulated cell culture medium which supports the growth of mammalian cells and/or insect cells and/or plant cells and bacteria and is to provide the medium with granules of which has a high strength and a uniform shape and size. The wet granulated cell culture media according to the present invention have a shape and strength superior to those of conventional granulated products, are excellent in appearance, are resistant to moisture and thus have a long shelf life, are easy to handle and pack.

[0039] According to the appliance of the present invention, the granules are prepared by spraying an aqueous cell culture medium solution which uses only clean purified water as the solvent, without adding an additional enhancer, adhesive, binder, coating material, co-solvent, etc. to a cell culture medium fed into a fluid bed processing system. Thus, the granules of the present invention are highly soluble when dissolved for use and excellent in flowability and thus have a greatly improved usability.

[0040] There is another effect capable of greatly improving productivity by not using additional processes involving a spray drier, mixing, pulverization, etc., allowing making granules with a single process, the number of which is relatively less than that of conventional methods, and granulizing 100% of the prepared powders.

Brief Description of Drawings



[0041] The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which:

Figure 1 is a perspective view illustrating a drying and pressing equipment in accordance with the prior art;

Figure 2 is a block diagram of the preparation process of the wet granulated cell culture medium according to the present invention;

Figure 3 shows an example of the fluid bed processing system;

Figure 4 shows a schematic diagram of a fluid bed processing system (400);

Figure 5 shows an example of the apparatus for preparation of the wet granulated cell culture medium according to the present invention;

Figure 6 shows the photographs of actual cell culture medium granules;

Figure 7 shows an enlargement of the photograph of Figure 6(a);

Figure 8 shows an enlargement of the photograph of Figure 6(b); and

Figure 9 shows an enlargement of the photograph of Figure 6(c).


[Reference Signs List]



[0042] 

210: Step of preparation of aqueous cell culture medium solution

2203: Step of forming the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray into spherical granules due to the surface tension generated by the bottom spray of performing continuous spraying

2204: Step of drying spherical granules

300: Fluid bed processing system

310: Arrow at the bottom

330: Form convected by hot air

400: Fluid bed processing system

420: Blower

430: Aqueous solution storage

450: Bottom spray


Best Mode


Mode for Invention



[0043] Hereinafter, the wet granulated cell culture medium according to the present invention and the preparation method therefor will be described more fully with reference to the accompanying drawings.

[0044] Figure 2 is a block diagram of the preparation process of the wet granulated cell culture medium according to the present invention.

[0045] Referring to Figure 2, the step of preparation of an aqueous cell culture medium solution (210) is illustrates.

[0046] The types of the cell culture media include mammalian, and/or insect and/or plant cell and bacteria culture media.

[0047] Examples of the animal cell culture media include DMEM, RPMI-1640, MCDB 131, MCDB 153, MDEM, IDEM, MEM, M199, McCoy s 5A, William's medium E, Leibovitz's L-15 medium, Grace's insect cell medium, IPL-41 insect cell medium, cell specific serum-free medium, etc., which are used for culturing keratin cells, epithelial cells, melanin cells, insect cells, etc.

[0048] Examples of the bacteria cell culture media include trypsin treated soy protein medium, ground brain-heart media, yeast extract media, peptone-yeast extract media, ground beef media, indole-nitrate media, LB media, YT media, SB media, SOB media, M9 minimal media, M63 minimal media, etc.

[0049] In a preferred embodiment of the cell culture medium, LB medium consists of tryptone, yeast extract and salt at the ratio of 2:1:2 as it is known.

[0050] In a preferred embodiment of the aqueous cell culture medium solution, the aqueous cell culture medium solution of LB medium is obtained by dissolving tryptone in water and dissolving yeast extract and salt in the same solution so that the equivalent ratio of tryptone, yeast extract and salt is 2: 1: 2.

[0051] The water is a solvent. Preferably, the water is distilled and/or deionized water, purified water or water for injection.

[0052] Figure 2 illustrates the step of bottom spray granulation (220).

[0053] It is preferred that the size of granules ranges from 0.5mm to 3.0mm. If the size thereof is larger than those, the granules do not easily dissolve in water, and if the size thereof is smaller than those, the granules still have the problems of the conventional technology.

[0054] The aqueous cell culture medium solution should be ready to be fed to a fluid bed processing system through a pump and sprayed.

[0055] The step of bottom spray granulation (220) can be subdivided into the following steps, which are described in more detail below.

[0056] The step of feeding the aqueous cell culture medium solution to a bottom spray with a pump (2201) means feeding the aqueous medium solution prepared at the step of preparation of an aqueous medium solution (210) to a fluid bed processing system.

[0057] In the step where the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray are formed into fine particles by the hot air blown from the bottom (2202), preferably, the temperature of the hot air ranges from 60°C to 110°C and the speed of the hot air ranges from 1m/sec to 3m/sec. Also, it is preferred that the feeding speed of the aqueous cell culture medium solution sprayed by the bottom spray range from 2ml/min to 5ml/min.

[0058] In the step where the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray are formed into spherical granules due to the surface tension generated by the bottom spray of performing continuous spraying (2203), further layers are formed onto the surface of the fine particles generated at the step where the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray are formed into fine particles by the hot air blown from the bottom (2202), due to the bubbles of aqueous cell culture medium solution continuously sprayed, so that the particles become spherical.

[0059] Preferably, in the step of feeding the aqueous cell culture medium solution to a bottom spray with a pump (2201), the step where the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray are formed into fine particles by the hot air blown from the bottom (2202), and the step where the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray are formed into spherical granules due to the surface tension generated by the bottom spray of performing continuous spraying (2203), the aqueous cell culture medium solution consists of 0.5 to 3 parts by weight of purified water with respect to 1 part by weight of cell culture medium.

[0060] The medium prepared according to the present invention is prepared as a high concentration solution because a seed, coagulant, enhancer, adhesive, binder, coating material, etc. other than the components of the aqueous cell culture medium solution cannot be additionally added.

[0061] In other words, the high concentration is to allow the bubbles of aqueous solution sprayed and dispersed to be dried by hot air and the resultant fine particles in the form of powder to act as a seed, so that seeds are formed autonomously without provision of a separate seed.

[0062] In addition, the bubbles of aqueous solution continuously sprayed adhere to the fine particles formed above and coat the surface thereof so that the fine particles are formed into granulated particles.

[0063] The step of drying spherical granules (2204) which are the resultant product of the step where the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray are formed into spherical granules due to the surface tension generated by the bottom spray of performing continuous spraying (2203), is performed in the same chamber.

[0064] In the step of drying spherical granules (2204), the pump for feeding the aqueous cell culture medium solution and the bottom spray for spraying the fed aqueous cell culture medium solution do not operate any more, and hot air blown by a blower fluidize the granules while adjusting the moisture content. Preferably, the moisture content of the spherical granules is 1 to 2%.

[0065] Theoretically, when using a fluid bed processing system, the moisture of liquid droplets (bubbles) of the aqueous cell culture medium solution sprayed into the fluid bed flow like a mist immediately evaporates to form fine powders, which act as seeds, even without seeds initially introduced into the product container, and abrasion between powders in the fluid bed flow leads to formation of cell culture medium granules.

[0066] However, it is difficult to control the conditions of initial fluidization and powder formation, and the initial phase takes a lot of time. For this reason, in the present invention, it takes about 10 hours to prepare granules of a desired shape and size.

[0067] However, each of the steps above are performed in one apparatus as a single continuous process until the final products are obtained. This advantage allows convenience in operation, production efficiency and labor saving.

[0068] After all the steps above are completed, spherical granules are collected from the chamber and then filtered with a sieve to homogenize the size thereof. Granules of preferably 50 mesh or below may be introduced again into the aqueous solution prepared at the step of preparation of an aqueous cell culture medium solution (210) and used again at the step of bottom spray granulation (220) (the step of collecting spherical granules from the chamber and homogenizing the size of the granules (230)).

[0069] Figure 3 shows an example of the fluid bed processing system.

[0070] In Figure 3, the arrow at the bottom (310) in the fluid bed processing system (300) indicates the direction toward which the hot air blows. The aqueous medium solution (320) is sprayed at the center of the fluid bed processing system (300) and convected by hot air (330).

[0071] During this process, the aqueous medium solution is dried by hot air and during the drying process, the granules are homogenized into spherical ones due to surface tension. The dried media in the form of granules have a higher strength than the granules according to conventional technology and thus resolves the problems of thereof.

[0072] Figure 4 shows a schematic diagram of a fluid bed processing system (400).

[0073] Figure 4 illustrates a chamber (410), which is a room in which an aqueous cell culture medium solution is sprayed and is a fluidization region in which the bubbles of an aqueous cell culture medium solution continuously sprayed flow.

[0074] In Figure 4, a blower (420) located at the lower part of the chamber blows hot air.

[0075] An aqueous solution storage (430) stores the aqueous cell culture medium solution prepared at the step of preparation of aqueous medium solution (210). In order to suppress proliferation of microorganisms, it is preferred that the temperature of the aqueous solution storage (430) be 4°C or less.

[0076] A pump (440) pulls out the aqueous solution in the aqueous solution storage (430) by applying a certain pressure in order to inject the solution into the chamber.

[0077] A bottom spray (450) is located at the lower part of the chamber and this consists of nozzles formed so as to allow the aqueous solution injected by the pump (440) to form bubbles.

[0078] Figure 5 shows an example of the apparatus for preparation of the wet granulated cell culture medium according to the present invention.

[0079] Figure 6 shows the photographs of actual cell culture medium granules.

(a) shows conventional cell culture medium granules, (b) shows cell culture medium granules prepared by the improved method according to Patent Document 1, and (c) shows the spherical cell culture medium granules according to the present invention.

(a) shows finely milled powders, (b) shows irregular and angular shapes, and (c) shows the homogeneous spherical granules according to the present invention.



[0080] Figure 7 shows an enlargement of the photograph of Figure 6(a).

[0081] Figure 8 shows an enlargement of the photograph of Figure 6(b).

[0082] Figure 9 shows an enlargement of the photograph of Figure 6(c).

[0083] While the present invention has been described with respect to the specific embodiments, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined in the following claims.

Industrial Applicability



[0084] According to the present invention, the granules are prepared by spraying an aqueous cell culture medium solution which uses only clean purified water as the solvent, without adding an additional enhancer, adhesive, binder, coating material, co-solvent, etc. to a cell culture medium fed into a fluid bed processing system Thus, the granules of the present invention are highly soluble when dissolved for use and excellent in flowability and thus have a greatly improved usability. Therefore, the granules of the present invention are expected to be useful in the field of cell culture.


Claims

1. A method for preparation of a cell culture medium, comprising the steps of:

preparation of an aqueous cell culture medium solution (210); and

bottom spray granulation (220); and characterized in that the bottom spray granulation is performed with only the aqueous cell culture medium solution without adding separate seed or coagulant.


 
2. The method for preparation of the cell culture medium as claimed in claim 1, further comprising the steps of collecting spherical granules from the chamber and homogenizing the size of the granules (230).
 
3. The method for preparation of the cell culture medium as claimed in claim 1, wherein the size of granules ranges from 0.5mm to 3.0mm.
 
4. The method for preparation of the cell culture medium as claimed in claim 1, wherein the aqueous cell culture medium solution consists of 0.5 to 3 parts by weight of purified water with respect to 1 part by weight of cell culture medium.
 
5. The method for preparation of the cell culture medium as claimed in claim 1, wherein the bottom spray granulation (220) comprises the steps of:

feeding the aqueous cell culture medium solution to a bottom spray with a pump (2201);

forming the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray into fine particles by the hot air blown from the bottom (2202);

forming the bubbles of the aqueous cell culture medium solution sprayed by the bottom spray into spherical granules due to the surface tension generated by the bottom spray of performing continuous spraying (2203); and

drying spherical granules (2204)


 
6. The method for preparation of the cell culture medium as claimed in claim 5, wherein the pump feeds the dissolved cell culture medium into the bottom spray at a speed of between 2ml/min and 5ml/min.
 
7. The method for preparation of the cell culture medium of claim 5, wherein the temperature of the hot air ranges from 60°C to 110°C.
 
8. The method for preparation of the cell culture medium of claim 5, wherein the speed of the hot air ranges from 1m/s to 3m/s.
 


Ansprüche

1. Verfahren zur Herstellung eines Zellkulturmediums, umfassend die folgenden Schritte:

Herstellung einer wässrigen Zellkulturmediumlösung (210); und

Boden-Sprühgranulation (220); und dadurch gekennzeichnet, dass die Boden-Sprühgranulation nur mit der wässrigen Zellkulturmediumlösung ohne Zugabe von separatem Keim oder Gerinnungsmittel durchgeführt wird.


 
2. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 1, ferner umfassend die Schritte des Sammelns von kugelförmigem Granulat aus der Kammer und des Homogenisierens der Größe des Granulats (230).
 
3. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 1, wobei die Größe des Granulats im Bereich von 0,5 mm bis 3,0 mm liegt.
 
4. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 1, wobei die wässrige Zellkulturmediumlösung aus 0,5 bis 3 Gewichtsteilen gereinigtem Wasser in Bezug auf 1 Gewichtsteil Zellkulturmedium besteht.
 
5. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 1, wobei das Boden-Sprühgranulieren (220) die folgenden Schritte umfasst:

Zuführen der wässrigen Zellkulturmediumlösung zu einer Boden-Sprühvorrichtung mit einer Pumpe (2201);

Bilden der Blasen der durch die Boden-Sprühvorrichtung in feine Partikel gesprühten wässrigen Zellkulturmediumlösung durch die vom Boden geblasene heiße Luft (2202);

Bilden der Blasen der durch die Boden-Sprühvorrichtung gesprühten wässrigen Zellkulturmediumlösung in kugelförmiges Granulat aufgrund der Oberflächenspannung, die durch die Boden-Sprühvorrichtung beim Durchführen eines kontinuierlichen Sprühens erzeugt wird (2203); und

Trocknen von kugelförmigem Granulat (2204).


 
6. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 5, wobei die Pumpe das gelöste Zellkulturmedium mit einer Geschwindigkeit zwischen 2 ml/min und 5 ml/min in die Boden-Sprühvorrichtung einspeist.
 
7. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 5, wobei die Temperatur der heißen Luft im Bereich von 60 ° C bis 110 ° C liegt.
 
8. Verfahren zur Herstellung des Zellkulturmediums nach Anspruch 5, wobei die Geschwindigkeit der heißen Luft im Bereich von 1 m/s bis 3 m/s liegt.
 


Revendications

1. Procédé de préparation d'un milieu de culture cellulaire, comprenant les étapes de :

préparation d'une solution aqueuse de milieu de culture cellulaire (210) ; et

granulation par pulvérisation inférieure (220) ; et caractérisé en ce que la granulation par pulvérisation inférieure est effectuée uniquement avec la solution aqueuse de milieu de culture cellulaire sans ajouter de semence ou de coagulant séparé.


 
2. Procédé de préparation du milieu de culture cellulaire selon la revendication 1, comprenant en outre les étapes de collecte de granules sphériques de la chambre et d'homogénéisation de la taille des granules (230).
 
3. Procédé de préparation du milieu de culture cellulaire selon la revendication 1, dans lequel la taille des granulés est comprise entre 0,5 mm et 3,0 mm.
 
4. Procédé de préparation du milieu de culture cellulaire selon la revendication 1, dans lequel la solution aqueuse de milieu de culture cellulaire est constituée de 0,5 à 3 parties en poids d'eau purifiée pour 1 partie en poids de milieu de culture cellulaire.
 
5. Procédé de préparation du milieu de culture cellulaire selon la revendication 1, dans lequel la granulation par pulvérisation inférieure (220) comprend les étapes :

d'alimentation de la solution aqueuse de milieu de culture cellulaire dans un pulvérisateur inférieur avec une pompe (2201) ;

de formation des bulles de la solution aqueuse de milieu de culture cellulaire pulvérisée par la pulvérisation inférieure en fines particules par l'air chaud soufflé depuis le fond (2202) ;

de formation des bulles de la solution aqueuse de milieu de culture cellulaire pulvérisée par la pulvérisation inférieure en granules sphériques en raison de la tension superficielle générée par la pulvérisation inférieure pour effectuer une pulvérisation continue (2203) ; et

de séchage de granules sphériques (2204).


 
6. Procédé de préparation du milieu de culture cellulaire selon la revendication 5, dans lequel la pompe alimente le milieu de culture cellulaire dissous dans le pulvérisateur inférieur à une vitesse comprise entre 2 ml/min et 5 ml/min.
 
7. Procédé de préparation du milieu de culture cellulaire selon la revendication 5, dans lequel la température de l'air chaud est comprise entre 60 °C et 110 °C.
 
8. Procédé de préparation du milieu de culture cellulaire selon la revendication 5, dans lequel la vitesse de l'air chaud varie de 1 m/s à 3 m/s.
 




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Cited references

REFERENCES CITED IN THE DESCRIPTION



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Patent documents cited in the description




Non-patent literature cited in the description