1 00:00:08,967 --> 00:00:13,388 Hi, I'm Joanna, a product manager for Cell Culture Solutions at Olympus. 2 00:00:13,388 --> 00:00:16,182 Today, I'll show you how you can improve your cell culture workflow 3 00:00:16,182 --> 00:00:20,770 with the Olympus Provi CM20 incubation monitoring system. 4 00:00:20,770 --> 00:00:24,315 Between seeding, growing, and checking cell counts and confluency, 5 00:00:24,315 --> 00:00:27,736 the cell culture process can be tedious and have inconsistencies 6 00:00:27,736 --> 00:00:29,946 that affect cell quality for processes 7 00:00:29,946 --> 00:00:33,908 such as live cell imaging, cell assays and mass cell production. 8 00:00:33,908 --> 00:00:36,411 The CM20 monitor can simplify this workflow 9 00:00:36,411 --> 00:00:40,165 and lead to a more consistent result, saving both time and money. 10 00:00:40,165 --> 00:00:43,251 Just place the imaging head and the cultures in the incubator 11 00:00:43,251 --> 00:00:47,797 and the system will remotely image, do cell counts and determine the confluency. 12 00:00:47,797 --> 00:00:49,132 With the CM20 monitor. 13 00:00:49,132 --> 00:00:51,342 there's no need to label, stain, detach 14 00:00:51,342 --> 00:00:53,678 or even remove the cultures from your incubator. 15 00:00:53,678 --> 00:00:56,931 The system will periodically scan multiple points of the vessel 16 00:00:56,931 --> 00:01:00,060 to provide a complete overview of your cell's health. 17 00:01:00,060 --> 00:01:03,688 Traditionally, we rely on our eyes to determine the quality of cell cultures. 18 00:01:03,688 --> 00:01:05,607 But if we use artificial intelligence 19 00:01:05,607 --> 00:01:08,777 to determine confluency then we reduce the user bias. 20 00:01:08,777 --> 00:01:12,614 The result then is a more reliable cell culture workflow. 21 00:01:12,614 --> 00:01:15,909 The system's A.I. technology automatically measures the health 22 00:01:15,909 --> 00:01:18,620 of cell cultures using consistent parameters. 23 00:01:18,620 --> 00:01:21,956 This provides quantitative, reproducible data. 24 00:01:21,956 --> 00:01:26,169 Simply teach the system by highlighting a few cells or colonies and paint them in. 25 00:01:26,169 --> 00:01:28,171 The algorithms do the rest of the work. 26 00:01:28,171 --> 00:01:31,466 And of course, the more you train, the more accurate your model becomes. 27 00:01:31,466 --> 00:01:34,886 The system is now ready to automatically analyze the cell cultures. 28 00:01:34,886 --> 00:01:37,931 Using these parameters the system will count the number of cells 29 00:01:37,931 --> 00:01:39,808 and determine the confluency. 30 00:01:39,808 --> 00:01:44,062 The data and analysis parameters can be easily stored, reused and transferred. 31 00:01:44,062 --> 00:01:46,773 This helps reduce training time and ensures that different users 32 00:01:46,773 --> 00:01:49,901 throughout the lab now follow the same procedures. 33 00:01:49,901 --> 00:01:53,696 The collected data can also be easily compared to current and past data. 34 00:01:53,696 --> 00:01:55,073 This enables you to detect 35 00:01:55,073 --> 00:01:58,785 an abnormal cell culture earlier on in your process, saving time 36 00:01:58,785 --> 00:02:03,873 and minimizing the use of costly lab consumables on unusable cell cultures. 37 00:02:03,873 --> 00:02:06,334 Get all this information and more at your fingertips 38 00:02:06,334 --> 00:02:09,587 while your cell cultures remain safely in the incubator. 39 00:02:09,587 --> 00:02:10,588 Thanks for watching. 40 00:02:10,588 --> 00:02:14,676 For more information or to set up an in-person or virtual demo, contact 41 00:02:14,676 --> 00:02:20,723 your local sales representative today or visit us at olympus-lifescience.com.