KR20090080385A - Device for cell culture - Google Patents

Abstract

A cell culture apparatus is provided to culture a cell in an incubator which forms atmosphere and select specific wavelength. A cell culture apparatus(100) comprises an incubator(110), sample resting part(120), and light irradiation part(130). The incubator provides culture environment of cell. The sample resting part is installed in plural layers inside incubator. The light irradiation part irradiates light to the sample resting part and has light source panel. The cell culture apparatus further comprises a control unit(134), power supply unit(135), input unit(136), and display unit(137).

Description

Cell culture device {Device for cell culture}

The present invention relates to a cell incubator, and more particularly, to a cell incubator including an incubator, a sample seating part, and a light irradiation part to test the effect of light energy of a specific wavelength on the growth of a cell.

In general, it is known that when light is irradiated to cells or tissues, energy levels of specific elements are increased and cells or tissue units are activated to have physiological results such as promoting cell division, promoting tissue regeneration, and promoting tissue metabolism.

Among these physiological factors, studies by Antonio L.B Pinheiro show that low-power laser treatments have anti-inflammatory, pain-reducing, and cell growth effects, especially those that are sustained. Among them, the effect on wound healing is different depending on the irradiation time and irradiation mode (CW or PLS) as well as the total light irradiation amount. During the study, the low power laser of 904nm, 8mw It was reported that light irradiation accelerated the healing of tissues (C. Lucas 1, The Effect of Low Level Laser Therapy (LLLT) on Stage III Decubitus Ulcers (Pressure Sores); a ProsPective Randomised Single Blind, Multicentre Pilot Study, Lasers Med Sci) (14) 94-100 (2000).

In addition, regeneration of wounded tissues has been studied that low-power laser treatments have this induction in some degree of damaged cells than in normal cells (Pinheiro, ALB, Nascimento, SC, Vieira, .ALB et al. 2001), Effects of LLLT on malignant cells; Study in Vitro.Rechman, P., Fried, D, Haning, P. Lasers in Dentistry Ⅶ, Billingnam: SPIE.56-60).

Cell proliferation is determined by wavelength, and low-power lasers affect cell proliferation. In particular, it has been studied that the effect of wavelength on low-intensity laser irradiation is influenced by wavelength length and irradiation mode. Stimulated Cell Proliferation In Vitro; Lasers in Surgury and Medicine 36: 8-12 (2005)).

However, since a light emitting source using a conventional general electrical resistance radiates with ultraviolet rays, visible rays, and infrared rays and a large amount of heat, it is not known the most effective wavelength for cell growth.

In addition, the conventional light irradiation method has a problem that the sample incubated in the incubator for light irradiation to take out the sample in the light irradiator, the light is irradiated and then put back into the incubator to incubate in the air exposure method. This causes the objectivity of the result to be lowered because the environment is contaminated with harmful substances in the air or inconsistent with the sample to be compared.

The present invention was invented to solve the above problems, and an object of the present invention is to provide a light irradiation unit having an incubator, a sample seating unit, and an LED element as a light source for culturing cells in an incubator that forms an atmosphere containing carbon dioxide. At the same time to provide a cell incubator that selects and irradiates only a specific wavelength desired.

Cell incubator according to an embodiment of the present invention is provided with a plurality of layers in the incubator, the incubator to provide a culture environment of the cell, the sample is seated on which the sample is seated and the sample seat is irradiated with light, each different It includes a light irradiation unit having a light source panel integrated with LED elements for irradiating the wavelength.

In a preferred embodiment, the incubator forms an atmosphere containing carbon dioxide.

In a preferred embodiment, the sample seat is formed of a transparent material to allow the light irradiation unit to irradiate the sample.

In a preferred embodiment, both inner walls of the incubator is provided with support rods so that the sample seat slides back and forth.

In a preferred embodiment, the light source panel is repeatedly arranged with a group of LEDs consisting of LED elements irradiating different wavelengths.

In a preferred embodiment, it further comprises a control unit connected to the light source panel to control the LED elements and a power supply unit connected to the control unit to supply power to the light source panel.

In a preferred embodiment, the control unit further comprises an input unit for inputting a control signal.

In a preferred embodiment, it further comprises a display unit connected to the control unit for displaying a signal output from the control unit.

According to the cell incubator of the present invention, the cell is incubated by incubating the cells in an incubator that forms an atmosphere containing carbon dioxide, including an incubator, a sample seat, and a light irradiation unit using the LED element as a light source. The cells are not exposed to the air, and the effect of light energy on the growth of the cell is tested.

In addition, according to the cell incubator of the present invention, when the sample receiving unit is arranged in a plurality of layers of different heights by 1cm intervals, and the same light in the same culture environment by irradiating light by placing the sample on each layer of the sample receiving unit There is an effect to experiment the effect on the cell growth according to the distance between the light irradiation section and the sample.

In addition, according to the cell incubator of the present invention, since the incubator maintains a temperature suitable for cell culture by forming an atmosphere containing carbon dioxide, it is a separate for minimizing the wavelength change according to the temperature of the light irradiation unit provided in the incubator There is no need to install a cooling fan.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a cell culture apparatus according to an embodiment of the present invention, Figure 2 is a view showing a light source panel according to an embodiment of the present invention.

Referring to Figure 1, the cell incubator 100 according to an embodiment of the present invention is installed in a plurality of layers in the incubator 110, the incubator 110 to provide a culture environment of the cells, the sample is seated It includes a light irradiation unit 130 having a light source panel 131 is integrated with a light emitting panel for irradiating light to the sample seating unit 120 and the sample seating unit 120, respectively, different wavelengths.

The incubator 110 is composed of a heat insulating box member having an opening and closing door 111 on one surface, the culture space is formed therein, and provides the culture environment necessary for cell culture to the culture space. In this case, the culture environment means a constant temperature, humidity, atmospheric pressure and the content of carbon dioxide required for cell culture.

As a result, the incubator 110 maintains a temperature suitable for cell culture by forming an atmosphere containing carbon dioxide, so that a separate wavelength for minimizing wavelength shift depending on the temperature of the light irradiation unit 130 is obtained. There is no need to install a cooling fan.

In addition, the supporting rod 112 is provided on both inner walls of the incubator 110 so that the sample seating part 120 slides back and forth.

At this time, the support rod 112 is arranged in a plurality of layers of different heights by about 1cm intervals to hang the sample seating portion 120 for each layer.

Thus, the sample seating unit 120 is arranged in a plurality of layers of different height by about 1cm interval by the support rod 112, the sample seated on the sample seating unit 120 of each layer is the same wavelength in the same culture environment Is irradiated with the light of the light irradiation unit 130 and the effect on the cell growth according to the distance of the sample can be tested.

In addition, the sample seating unit 120 is formed of a transparent material so that the light emitted from the light irradiation unit 130 passes through the sample seating unit 120 to irradiate the sample, the beaker or glass plate containing the sample is It is formed so that it can be stably seated.

The light irradiation unit 130 is connected to the light source panel 131 integrated with a plurality of LED elements, the light source panel 131 to control the LED elements and the control unit 134 and the light source It comprises a power supply unit 135 for supplying power to the panel 131.

As shown in FIG. 2, the light source panel 131 uses a light source in which a plurality of LED elements are integrated, and a power terminal 132 for applying power supplied by the power supply unit 135 to the LED elements at one side thereof. ).

In this case, when the LED elements integrated in the light source panel 131 are enlarged, each of the LED elements generates light having a different wavelength, respectively, the first LED 133a, the second LED 133b, and the third LED. LED group 133 provided with 133c and 4th LED 133d is formed.

2 illustrates an LED group 133 including a first LED 133a, a second LED 133b, a third LED 133c, and a fourth LED 133d, but the LED group 133 is illustrated. ) Is equipped with more LED elements each of which generates light of different wavelengths can generate light of various wavelengths.

The LED groups 133 as described above are concentrated over the entire surface of the light source panel 131, which causes the light source panel 131 to have a desired wavelength among visible wavelengths in visible light according to a control signal of the controller 134. To generate light.

Thus, the cell incubator 100 experiments the effect of light energy on cell growth without being exposed to air by culturing cells in the incubator 110 forming an atmosphere containing carbon dioxide and selecting and irradiating only a specific wavelength. It is effective.

In addition, the cell culture apparatus 100 may further include an input unit 136 for inputting a control signal to the controller 134 to set an experiment start time, an experiment end time, temperature, humidity, carbon dioxide content, light, and the like. have.

In addition, the cell culture apparatus 100 may further include a display unit 137 connected to the control unit 134 to display a signal output from the control unit 134 to check the currently set conditions.

In the above, the configuration and operation of the present invention has been shown in accordance with the above description and drawings, but this is merely an example, and various changes and modifications are possible without departing from the spirit and scope of the present invention. .

1 is a perspective view showing a cell culture device according to an embodiment of the present invention.

2 is a view showing a light source panel according to an embodiment of the present invention.

<Code Description of Main Parts of Drawing>

100: cell incubator 110: incubator

111: opening and closing door 112: support rod

120: sample receiving unit 130: light irradiation unit

131: light source panel 132: power supply terminal

133: LED group 133a: first LED

133b: second LED 133c: third LED

133d: fourth LED

Claims (8)

An incubator providing a culture environment for the cells; A sample seating part installed in a plurality of layers inside the incubator and on which a sample is seated; And A light irradiation unit irradiating light to the sample receiving unit and having a light source panel in which LED elements irradiating different wavelengths are integrated; Cell culture device comprising a. The method of claim 1, The incubator is a cell culture, characterized in that to form an atmosphere containing carbon dioxide. The method of claim 2, The sample seating portion is formed of a transparent material cell culture, characterized in that the light irradiation unit to irradiate the sample. The method of claim 3, wherein Cell incubator, characterized in that provided on the inner wall of the both sides of the incubator so that the sample mounting portion slides back and forth. The method according to any one of claims 1 to 4, The light source panel is a cell incubator, characterized in that the LED group consisting of LED elements for irradiating different wavelengths are arranged repeatedly. The method of claim 5, wherein And a power supply unit connected to the light source panel to control the LED elements and a power supply unit connected to the control unit to supply power to the light source panel. The method of claim 6, Cell culture apparatus further comprises an input unit for inputting a control signal to the control unit. The method of claim 6, And a display unit connected to the control unit to display a signal output from the control unit.

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