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Celloger® Mini Plus

Automated live cell imaging system

Celloger® Mini Plus is an automated live cell imaging system that is equipped with an advanced fluorescence and bright field microscopy, autofocusing and real time multi-position imaging technology. It provides you all the tools you need to acquire the best quality images and accurate research results. Various cell-based research work and applications can be done with this all-around system.

Expand your cell discoveries with Celloger® Mini Plus, automated live cell imaging system.

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Key
Features

01

Real-time monitoring

No need to take the cell sample out of the incubator, eliminating contamination concerns

02

Compact size

Easy to carry in and out of the incubator

03

Multi-position imaging

Fully motorized camera allows multi-point imaging up to 96 wells

04

High compatibility

Compatible with various cell culture vessel types

05

Z-stack imaging

Multiple focal planes can be captured using Z-stacking function

06

Image stitching

Stitching function enables analysis of larger volume and sections

07

User-friendly functions

Easy to use analysis tools such as confluency mark, growth curve and ruler are provided

08

Autofocusing

Increased focus speed and reproducibility with reliable autofocusing function


Real-time monitoring

  • - Maintaining the performance of a device working in a hot and humid environment is very challenging. With Celloger® Mini Plus, you can easily monitor live cells inside the incubator for a long time without disturbing the environment suitable for cell culture.

Compact size

    • - Celloger® Mini Plus is compact in size with 226(h) x 358(l) x 215(w)mm where several Celloger® Mini Plus systems can fit into a standard CO2 incubator.
    • - Since the system weighs about 5kg, it can be easily carried in and out of the incubator during the experiment.

Multi-point imaging

  • - Using the motorized camera that travels 117mm x 77mm, x and y axis respectively, multiple points within the travel range can be captured following the schedule (intervals, cycles, total time) set by the researcher.

Stable imaging performance

    • - Celloger® Mini Plus doesn’t have a moveable stage but instead, the camera inside the system moves to capture the images of cell in multiple positions (refer to the video above). Since the vessel and cell sample are in a steady state, this provides a stable environment for the cells to grow.

Time-lapse video

  • -  Images captured according to set schedule can be made into videos in simple clicks.

User-friendly functions

Autofocusing

Prievew record

Z-stacking

Stitching

Software package

Analysis tools

Specification

Dimension 226 x 358 x 215 mm
Weight 5.6kg / 12.3lb
Objective Lens 4X / 10X
Field of view 2X (2.53 × 1.90 mm) / 4X (1.19 x 0.90 mm) / 10X (0.57 x 0.43 mm)
Imaging modes Brightfield, Fluorescence(Green / Red)
Fluorescence Green: Excitation (470/40x) / Emission (510lp)
Red: Excitation (525/30x) / Emission (570lp)
Light source LED
Camera 5MP CMOS
Stage Motorized XYZ
Imaging positions Multiple
File export format TIFF, AVI (JPEG, PNG)
Culture vessels Flask, dish, well plate, slide
Operating environment 10~40℃, 20~95% humidity
Power requirements 100-240V, ~50/60Hz

Ordering information

Catalog No. Description
CRCLG-MPB02 Celloger® Mini Plus, Live cell imaging system (Bright Field, 2X)
CRCLG-MPB04 Celloger® Mini Plus, Live cell imaging system (Bright Field, 4X)
CRCLG-MPB10 Celloger® Mini Plus, Live cell imaging system (Bright Field, 10X)
CRCLG-MPBG04 Celloger® Mini Plus, Live cell imaging system (Bright Field + Green Fluorescence, 4X)
CRCLG-MPBG10 Celloger® Mini Plus, Live cell imaging system (Bright Field + Green Fluorescence, 10X)
CRCLG-MPBR04 Celloger® Mini Plus, Live cell imaging system (Bright Field + Red Fluorescence, 4X)
CRCLG-MPBR10 Celloger® Mini Plus, Live cell imaging system (Bright Field + Red Fluorescence, 10X)
CRCLG-MPWPS Vessel holder, Well plate 6~96 (Single)
CRCLG-MPTFS25 Vessel holder, T-FlaskA25cm2 (Single)
CRCLG-MPTFD25 Vessel holder, T-FlaskA25cm2 (Dual)
CRCLG-MPTFS75 Vessel holder, T-FlaskA75cm2 (Single)
CRCLG-MPPDD35 Vessel holder, Petri dish 35mm (Dual)
CRCLG-MPPDD60 Vessel holder, Petri dish 60mm (Dual)
CRCLG-MPPDS90 Vessel holder, Petri dish 90/100mm (Single)
CRCLG-MPSH03 Vessel holder, Slide (Triple)

Application note_An integrated live cell monitoring_Celloger® Mini Plus_EN

2022-07-29

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Application note_Analysis of Nocodazole-induced Cytotoxicity_Celloger® Mini Plus_EN

2022-10-26

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Application note_Cellular assay using brightfield and fluorescence-based live cell imaging_Celloger® series

2023-11-28

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Application note_Observation of Mitosis_Celloger® Mini Plus_EN

2022-09-22

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Application note_Zebrafish observation using the Z stacking function_Celloger® Mini Plus_EN

2023-11-28

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Brochure_Celloger® Mini Plus_CN

2022-06-10

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Brochure_Celloger® Mini Plus_EN

2022-04-07

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Brochure_Celloger® Mini Plus_KR

2023-03-09

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Manual_Celloger® Mini Plus_CN

2022-04-11

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Publications_Auto-LCI_Arokiasamy, Samantha, et al. British Journal of Pharmacology (2024).

2025-01-10

Link

Publications_Celloger® Mini Plus_Bae WJ, Kim S, Ahn JM, Han JH, Lee D. FASEB J. 2022;36(11):e22597.

2023-02-03

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Publications_Celloger® Mini Plus_Choi, Minjeong, et al. Biochemical and Biophysical Research Communications 734 (2024): 150652.

2025-01-10

Link

Publications_Celloger® Mini Plus_Danielli, Sara G., et al. Molecular Cancer Therapeutics (2024).

2024-03-27

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Publications_Celloger® Mini Plus_Jung, Sangmin, et al. ACS nano 18.36 (2024): 24909-24928.

2025-01-10

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Publications_Celloger® Mini Plus_Kim, Hyehyun, et al. Journal of Alzheimer’s Disease 102.3 (2024): 730-741.

2025-01-10

Link

Publications_Celloger® Mini Plus_Kim, Hyo In, et al. Annals of Surgery (2023): 10-1097.

2024-01-29

Link

Publications_Celloger® Mini Plus_Lee J, Kim DY, Kim Y, Shin US, Kim KS, Kim EJ. Int J Mol Sci. 2023;24(2):978.

2023-02-03

Link

Publications_Celloger® Mini Plus_Lee, Kyung-Ha, et al. Animal Cells and Systems 28.1 (2024): 326-33

2025-01-10

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Publications_Celloger® Mini Plus_Nanda, Sitansu Sekhar, et al. Nanomaterials 14.12 (2024): 1033.

2025-01-10

Link

Publications_Celloger® Mini Plus_Rossan Mathews, Melinda Grace, et al. Scientific Reports 14.1 (2024): 5606.

2024-03-27

Link

Publications_Celloger® Mini_Awasthi BP, Chaudhary P, Guragain D, Jee JG, Kim JA, Jeong BS. J Enzyme Inhib Med Chem. 2021;36(1):1884-1897.

2022-08-16

Link

Publications_Celloger® Mini_Kim HJ, Suh SS, Park J, et al. Onco Targets Ther. 2022;15:1375-1383.

2023-02-03

Link

Publications_Celloger® Mini_Kim, T. H., Song, Z., Jung, J., Sung, J. S., Kang, M. J., Shim, W. B.& Pyun, J. C. (2023).

2024-01-29

Link

Publications_Celloger® Mini_Yoon, Ju Bin, et al. Ecotoxicology and Environmental Safety 272 (2024)

2024-03-12

Link

Quick manual_Celloger® Mini Plus_EN

2022-06-10

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Celloger® Mini Plus I Cell proliferation

Observe the proliferation of HeLa cells in real-time every 1 hour for 110 hours.

Celloger® Mini Plus I Co-culture

Monitor the co-culture effects of K562 and NK92 cells (Calcein AM stained K562) for 18 hours.

Celloger® Mini Plus I Cytotoxicity

Cytotoxicity assay performed using time-lapse imaging of HeLa cells stained with green fluorescent dye.

Celloger® Mini Plus I Mitochondrial potential monitoring

The mitochondria of HeLa cells stained with TMRM were treated with CCCP to observe changes in fluorescence that indicate a crucial aspect of cellular health.

Celloger® Mini Plus I Neurite outgrowth

To observe neurite outgrowth in real-time, SH-SY5Y cells were stained with PKH26 dye on the third day of differentiation.

Celloger® Mini Plus I Nocodazole-mediated mitotic arrest

Time-lapse video of H2B-GFP transfected Hela cells treated with and without nocodazole.

Celloger® Mini Plus I Phagocytosis monitoring

Phagocytosis monitoring of LPS-stimulated Raw264.7 cell.

Celloger® Mini Plus I Spheroid screening

Monitoring concentration-dependent spheroid formation in two cell lines.

Celloger® Mini Plus I Wound healing assay

Wound healing assay was conducted using 4 different cell lines (HeLa, L929, CHO-k, U-2OS) and monitored at 30-minute intervals for 3 days.

Celloger® Mini Plus I Zebrafish observation

A transgenic Zebrafish (Larva) expressing green fluorescent protein was observed using the Celloger® Mini Plus Z-stacking function.