Igor I Katkov

Publications (6)10.15 Total impact

• Article: Vitrification of human laser treated blastocysts within cut standard straws (CSS): novel aseptic packaging and reduced concentrations of cryoprotectants.

  Vladimir Isachenko, Igor I Katkov, Sergey Yakovenko, Ayub G-M I Lulat, Murat Ulug, Ayse Arvas, Evgenia Isachenko
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  ABSTRACT: Vitrification of laser treated human blastocysts using reduced concentrations of permeable cryoprotectants was carried out by submerging cut standard straws (CSS) into liquid nitrogen. The CSS were made by cutting a standard 0.25 ml straw at an angle of approximately 45 degrees . After laser assisted hatching, 6 day blastocysts (n=250) were loaded into droplets of approximately 0.75 microl in the CSS and were either plunged directly into liquid nitrogen or first encased in a standard 0.5 ml straw (aseptic technique) before being vitrified. Permeable cryoprotectants (ethylene glycol+Me(2)SO) at concentrations of 15% and 20% v:v were tested for their effect on post warming re-expansion and post transfer pregnancy rates. Our results indicate that the use of reduced concentrations of cryoprotectants and aseptic packaging of blastocysts did not have any statistically significant impact on the study outcomes.
  Cryobiology 07/2007; 54(3):305-9. · 2.06 Impact Factor
• Article: Clean technique for cryoprotectant-free vitrification of human spermatozoa.

  Vladimir Isachenko, Evgenia Isachenko, Markus Montag, Victoria Zaeva, Irina Krivokharchenko, Frank Nawroth, Salvatore Dessole, Igor I Katkov, Hans van der Ven
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  ABSTRACT: Human spermatozoa can be successfully cryopreserved without the use of cryoprotectants through vitrification at very high warming rates. This is achieved by plunging a small amount of frozen sperm suspension into a warming medium, or a large amount of sperm suspension into an agitated warming medium. The aim of the present study was to compare the motility of human spermatozoa cryopreserved using four different methodologies of cooling and warming: cryoloops, droplets, open-pulled straws and standard open straws. Evaluation of two parameters, motility and viability rate of spermatozoa, suggests that all four methods are suitable for use in assisted reproductive technology. However, only the use of open-pulled straws as well as standard open straws allows the isolation of spermatozoa from liquid nitrogen with low potential risk of microbial contamination during freezing and storage, and is thereby a clean method of vitrification.
  Reproductive biomedicine online 04/2005; 10(3):350-4. · 2.04 Impact Factor
• Article: Cryoprotectant-free cryopreservation of human spermatozoa by vitrification and freezing in vapor: effect on motility, DNA integrity, and fertilization ability.

  Vladimir Isachenko, Eugenia Isachenko, Igor I Katkov, Markus Montag, Salvatore Dessole, Frank Nawroth, Hans Van Der Ven
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  ABSTRACT: Human spermatozoa can be successfully cryopreserved avoiding the use of cryoprotectants through vitrification at very high cooling rates (up to 7.2 x 10(5) degrees C/min). This is achieved by directly plunging a copper cryoloop loaded with a sperm suspension into liquid nitrogen. After storage, vitrified spermatozoa are instantly thawed by melting in an agitated, warm medium. The goal of the present study was to compare the quality of spermatozoa cryopreserved using this rapid vitrification method with that of spermatozoa cooled relatively slowly by preexposure of the loaded cryoloop to liquid nitrogen vapor (-160 degrees C) with speed in the range 150-250 degrees C/min) before immersion into liquid nitrogen. Both cooling modes led to comparable results in terms of the motility, fertilization ability, and DNA integrity of the warmed spermatozoa. In both cases, instant thawing by melting in a warm medium was essential for successful cryopreservation. Our findings suggest that optimal regimes for the cryoprotectant-free cryopreservation of spermatozoa need not be restricted to very fast cooling before storage in liquid nitrogen, a wide range of cooling rates being acceptable. Herein, we discuss the implications of this finding in the light of the physics of extra- and intracellular vitrification.
  Biology of Reproduction 11/2004; 71(4):1167-73. · 4.01 Impact Factor
• Article: Vitrification of mammalian spermatozoa in the absence of cryoprotectants: from past practical difficulties to present success.

  Eugenia Isachenko, Vladimir Isachenko, Igor I Katkov, Salvatore Dessole, Frank Nawroth
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  ABSTRACT: The use of cryoprotective agents for the conventional cryopreservation of human spermatozoa, oocytes, zygotes, early cleavage stage embryos and blastocysts is an integral part of almost every human IVF programme. Moreover, the cryopreservation of these types of cells by direct plunging into liquid nitrogen usually requires high cryoprotectant concentrations with consequent cytotoxic effects. This review covers the history of this problem, and in this light offers an explanation, through physico-chemical concepts, for one of the most recent developments in this area: the recovery of motile and potent spermatozoa after cryoprotectant-free vitrification.
  Reproductive biomedicine online 04/2003; 6(2):191-200. · 2.04 Impact Factor
• Article: Vitrification of human laser treated blastocysts within cut standard straws (CSS): Novel aseptic packaging and reduced concentrations of cryoprotectants

  Vladimir Isachenko, Igor I. Katkov, Sergey Yakovenko, Ayub G.-M.I. Lulat, Murat Ulug, Ayse Arvas, Evgenia Isachenko
  [show abstract] [hide abstract]
  ABSTRACT: Vitrification of laser treated human blastocysts using reduced concentrations of permeable cryoprotectants was carried out by submerging cut standard straws (CSS) into liquid nitrogen. The CSS were made by cutting a standard 0.25 ml straw at an angle of ∼45°. After laser assisted hatching, 6 day blastocysts (n = 250) were loaded into droplets of ∼0.75 μl in the CSS and were either plunged directly into liquid nitrogen or first encased in a standard 0.5 ml straw (aseptic technique) before being vitrified. Permeable cryoprotectants (ethylene glycol + Me2SO) at concentrations of 15% and 20% v:v were tested for their effect on post warming re-expansion and post transfer pregnancy rates. Our results indicate that the use of reduced concentrations of cryoprotectants and aseptic packaging of blastocysts did not have any statistically significant impact on the study outcomes.
  Cryobiology.
• Article: Low- and high-temperature vitrification as a new approach to biostabilization of reproductive and progenitor cells

  Igor I. Katkov, Vladimir Isachenko, Evgenia Isachenko, Min S. Kim, Ayub G-M.I. Lulat, Alastair M. Mackay, Fred Levine
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  ABSTRACT: Cells held in a liquid milieu undergo processes that cause progressive loss of viability. To prevent such degradation, cells need to be placed in conditions that essentially stop all chemical reactions for the duration of the time of storage. Because intracellular ice formation is lethal to most eukaryotic cells, stable storage of viable cells can be achieved only if intracellular vitrification without ice formation has occurred. This has been done by several methods, including equilibrium (slow) freezing, lyophilization (freeze-drying), and ice-free vitrification at subzero temperatures at moderate-to high cooling rates in the presence of cryoprotectants (‘conventional’ vitrification). In this paper, we discuss the mechanisms of vitrification, and specific aspects, advantages, and pitfalls of the different approaches. Particular emphasis is put on novel methods of cell preservation, such as cryoprotectant-free vitrification of sperm and high temperature vitrification by air/vacuum drying of progenitor and other nucleated cells.
  International Journal of Refrigeration.