Volume 8

Journal of Biotechnology & Biomaterials

ISSN: 2155-952X

Euro Biotechnology 2018

October 11-12, 2018

conference

series

.com

October 11-12, 2018 | Moscow, Russia

21

st

European

Biotechnology Congress

Page 29

Igor l Katkov, J Biotechnol Biomater 2018, Volume 8

DOI: 10.4172/2155-952X-C5-099

KrioBlast

TM

-3 - a three module system for efficient cryopreservation of unfreezable cells

A

s we have stated before, there are 5 basics ways of achieving long-term storage, which ALL essentially lead to vitrification

of cells, namely: slow freezing (SF), equilibrium vitrification (E-VF), kinetic vitrification (K-VF), freeze-drying

(lyophilization), and va San Diego vacuum/air flow drying at temperatures above 0

o

C (xeropreservation). Previously, we

presented KrioBlast-2, a pilot version of the KrioBlast™ platform for cryopreservation by kinetic (very fast) vitrification. One

of the major advantages of K-VF over the existing approach for vitrification (E-VF) is that K-VF does not need the high

concentrations of potentially toxic and intracellular vitrificants (also called: cryoprotectants, which is not exactly correct in

this case) such as DMSO, ethylene glycol, dimethyl sulfamide. The pilot experiments on human pluripotent stem cells and

spermatozoa, which showed an equally excellent (80-90% of the untreated control), were presented. The other key advantage

of K-VF is its universality so the system is equally suitable for any kind of cells and tissues as soon as the characteristic thermal

time of the system, which basically depends on the geometry of the cryo container with the sample, is sufficiently short. In

this presentation, we will present the future development, the industrial three module system KrioBlast-3 that comprises 1)

the cooling chamber for hyperfast cooling, 2) the intermediate module for shipment or long term storage in liquid nitrogen,

and 3) the rewarming module. The second module has two port sites for the cooling and the rewarming modules so the

system resembles a space station. All operations of cooling, storage/shipment, and warming are done without any contact

of the sample with the ambient environment. The specific cryo containers for K-VF, namely VitriPlate

TM

, VitriComb

TM

, and

VitriScan

TM

for vitrification of cells in suspension, packed in straws, and attached to surface in multiwell systems respectively

are also discussed.

Recent Publications

1. Merino O, Sanchez R, Risopatron J, Isachenko E, Katkov II, et al. (2011) Cryoprotectant-free vitrification of fish

(Oncorhynchus mykiss)

spermatozoa: first report. Andrologia DOI: 10.1111/j.1439-0272.2011.01196.x.

2. Katkov II, Bolyukh A F, Chernetsov O A, Dudin P I et al. (2012) Kinetic Vitrification of Spermatozoa of Vertebrates:

What Can We Learn from Nature? In: Current Frontiers in Cryobiology, Eds: I I Katkov. DOI: 10.5772/34784.

3. Katkov II (2014) Stopping biological clocks: The science and art of biopreservation. BioProcess International 12(4):42-

52.

Biography

Igor L Katkov is a trained biophysicist with 30+ years of experience in cryobiology and cryogenic engineering. His last years of research have been focused

on the fundamental aspects of kinetic vitrification (K-VF) as well on designing the practical system for K-VF KrioBlast™ (in cooperation with V F Bolyukh).

Currently, the Head of the Laboratory of the Amorphous state at the Belgorod National Research University BelSU, Russia. He has recently accepted a

Professor level position as the Head of the Laboratory of Cryobiology at the V I Kulakov Research Center of Obstetrics, Gynecology and Perinatology

(RCGOP), Moscow, Russia and Chief Scientific Officer of Celltronix, San Diego, CA, USA.

prodvincell@hotmail.com

Igor l Katkov

Celltronix, USA

Belgorod National State Research University, Russian Federation