2. Aim of this lectureโฆโฆโฆโฆโฆ.
โข Overview of the current technologies and approaches utilized in
sperm cryopreservation.
โข Consider the factors affect to results of cryopreservation
โข Sperm Cryodamage.
โข How to optimize semen cryopreservation.
โข Sperm preparation prior cryopreservation
โข Is cryopreservation induce DNA damage?
โข whether using fresh rather than cryopreserved sperm cells has the
same effect on reproductive outcome in ICSI.
โข Special and Future issues
3. What is sperm
cryopreservation?
โข A procedure to preserve sperm cells (commonly called sperm banking)
โข Cryopreservation is the freezing of cells or tissues to sub zero temperatures, typically -196 ยบ C
(boiling point of liquid nitrogen).
โข The first successful cryopreservation of spermatozoa was initiated over 50 years ago.
โข For human sperm, the longest reported successful storage is 22 years.
โข All biological activity is stopped or paused until it is thawed.
โข The freezing of sperm needs cryopreservation agents that minimize damage to the cells during
the freezing and thawing process
4. Why sperm cryopreservation is
performed ?
1. Semen containing a very limited number of spermatozoa or abnormal semen parameters.
2. For cancer patients to preserve their fertility prior to gonadotoxic chemotherapy or radiation.
3. Patients undergoing certain types of pelvic or testicular surgeries
4. Patients who suffer from degenerative illnesses such as diabetes or multiple sclerosis; spinal
cord disease or injury.
5. persons in occupations where a significant risk of gonadotoxicity prevails.
6. men undergoing surgical sterilization such as vasectomy.
7. allow donor semen samples to be quarantined while appropriate screening is performed to
prevent the transmission of infectious pathogens during therapeutic donor insemination (TDI).
8. used in combination with ART techniques.
5. How sperm cryopreservation is
performed?
โข The freezing of sperm needs cryopreservation agents that minimize damage to the cells during
the freezing and thawing process.
Cryoprotective agents (CPAs):
โข low molecular weight chemicals that serve to protect spermatozoa from freezing damage or ice
crystallization by decreasing the freezing point of materials.
โข CPAs can be toxic if used at high concentrations.
1. Permeating CPAs (penetrate the plasma membrane)
๏ถ such as dimethylacetaldehyde; dimethyl sulfoxide, glycerol, glycol, ethylene and
methanol
๏ถ stabilize cell plasma membrane proteins and reduce concentrations of electrolytes.
2. Nonpermeating CPAs (unable to penetrate the plasma membrane)
๏ถ such as albumins, dextrans, egg yolk citrate, hydroxyethyl, polyethylene glycols,
polyvinyl pyrollidone and sucrose
๏ถ minimize intracellular crystallization by increasing viscosity of the sample.
6. Benefits of cryoprotectants:
1. Maintaining sperm viability.
2. Improvement in the recovery of motile sperm by the use of zwitterion buffers has been
attributed to their ability to bind free hydrogen and hydroxy ions in the surrounding medium,
aiding in the dehydration process.
3. Improve sperm membrane fluidity.
4. Increase sperm longevity and percent survival.
5. Increase ability of sperm to penetrate cervical mucus post-thaw.
How sperm cryopreservation is
performed?
7. 1- Slow Freezing:
A] Manual freezing
- decreasing the temperature of the semen while adding a cryoprotectant in a stepwise manner
and after plunging the samples into liquid nitrogen.
- cooling rate of the specimen from room temperature to 5ยฐC is 0.5โ1ยฐC/min.
- The sample is then frozen from 5ยฐC to โ80ยฐC at a rate of 1โ10ยฐC/min. The specimen is then
plunged into liquid nitrogen at โ196ยฐC .
B] Slow programmable freezing
- Liquid nitrogen is poured into the tank, and the machine, once programmed, uses the software
data logging to obtain cooling from 20ยฐC to โ80ยฐC at rate of 1.5ยฐC/min and then at 6ยฐC/min;
at completion of the freezing the straws are removed and stored into liquid nitrogen at
โ196ยฐC. This takes about 40 min.
- Simple to use
- does not require continuous operator intervention
- increase the reproducibility of the freezing operations
Techniques for Cryopreservation
8. 2- Rapid Freezing:
โข requires direct contact between the straws and the nitrogen vapors for 8โ10 min and
immersion in liquid nitrogen at โ196ยฐC.
โข Inside nitrogen vapors there is a thermal gradient, as a function of the distance and the volume
of the liquid below.
โข The sample is initially mixed in dropwise manner with equal volume of cold cryoprotectant;
the mixture is loaded into the straws and left to incubate at 4ยฐC for 10 minutes.
โข The straws are then placed at a distance of 15โ20 cm (1 hr WHO) above the level of liquid
nitrogen (โ80ยฐC) for 15 min; after this stage, the straws are immersed in liquid nitrogen.
โข place the straws in horizontal position to minimize the heat difference between the two ends.
โข Low reproducibility
โข temperature drop curve cannot be controlled
โข and the freezing temperatures may vary from โ70, โ80, and โ99ยฐC.
Techniques for Cryopreservation
11. 3. Ultra-rapid freezing (Vitrification)
โข Until only recently, vitrification of spermatozoa was unsuccessful, possibly due to high
concentrations of permeable CPAs (30-50% compared to 5-7% with slow freezing) and low
tolerance of spermatozoa to permeable agents.
โข Even brief exposure to a high concentration of CPAs can lead to toxic and osmotic shock and
would be lethal for spermatozoa.
โข One possible strategy to lower the concentration of CPAs could be to increase the speed of
cooling and warming temperatures as higher rates of cooling and warming, require lower
concentrations of CPAs; these conditions can help eliminate intracellular ice crystallization,
and facilitate the formation of a glassy state .
โข Another option is to add non-permeable CPAs--such as carbohydrates--to permeable CPAs to
minimize osmotic shock by decreasing osmotic pressure and stabilizing the nuclear
membrane.
Techniques for Cryopreservation
13. Semen preparation pre-freeze
and post-thaw
โข The quality of ejaculated semen is also related to the outcome of cryopreservation.
โข For example, dead spermatozoa or leukocytes in pre-freezing semen detrimentally affect the
sperm survival rate and the fertility potential after thawing through the ROS generation
process
โข Sperm preparation before cryopreservation should be considered in routine sperm
cryopreservation.
โข Optimizing the concentration of progressive motile sperm cells before the freezing process is
recommended to ameliorate the fertilizing capacity of the frozen spermatozoa.
โข Semen preparation before freezing resulted in better sperm quality and fewer apoptotic sperm.
14.
15.
16. How to optimize semen
cryopreservation ?
Factors affecting the optimization of human sperm preservation:
Technical factorsBiological factors
Cryopreservation mediumGenetic factors
Addition/removal of cryoprotectantSexual abstinence
Cooling rateSeminal fluid quality
packingSeminal quality
Storage
Thawing
storage temperature
17. Cryopreservation and DNA
Damage
โข There is no agreement in the literature neither on whether cryopreservation induces DNA
damage nor on the amount of damage.
Because:
(1) different freezing procedures
(2) different tests to evaluate the DNA integrity
(3) different semen preparation techniques before cryopreservation (i.e., swimup or
density gradient centrifugation).
18. Cryopreservation and
Reproductive Outcome
Testicular Spermatozoa:
โข No statistically significant differences in all parameters examined (fertilization rate, cleavage
rate, embryo quality, implantation rate, clinical pregnancy rate, and ongoing pregnancy rate)
between ICSI cycles with fresh or cryopreserved testicular spermatozoa.
โข Only, De Croo and colleagues stated that fertilization, implantation, and live-birth rates per
embryo transfer are significantly lower after ICSI.
Epididymal Spermatozoa:
โข Tournaye and colleagues reported that the clinical pregnancy rate in ICSI cycles was
comparable between fresh and frozen-thawed epididymal spermatozoa.
โข Sukcharoen and colleagues came to the same conclusion; also Cayan and colleagues [64]
supported the same opinion.
โข In opposition Shibahara and colleagues stated that there was a significant difference in all
reproductive parameters examined between ICSI cycles with fresh or cryopreserved
epididymal spermatozoa, comparing ICSI cycles performed with fresh and thawed epididymal
spermatozoa.
19. Ejaculated Spermatozoa:
โข Kucznynski and colleagues did not report of any statistically significant differences in
fertilization rate between fresh and frozen semen patients.
โข ongoing pregnancies are significantly higher in ICSI patients when human sperm samples are
cryopreserved.
this suggests that properly performed cryopreservation selectively affects defective rather
than normal spermatozoa
โข Borges and his group demonstrated that
(1) using semen with normal motility the reproductive outcome obtained using fresh or frozen-
thawed spermatozoa is the same;
(2) in semen with decreased motility the fertilization rate with fresh sperm was higher than that
with the cryopreserved one, but no differences were detected in implantation and pregnancy.
The freezing-thawing procedure causes more damage in patients with alterations in semen
quality than that in patients with normal semen. However, once the oocyte is fertilized,
implantation and pregnancy rates are similar in patients with or without sperm anomalies.
Cryopreservation and
Reproductive Outcome
20. Future issues
โข Cryopreservation of human semen is extremely important to the field of male infertility.
However, there is dissension regarding the best cryopreservation protocol for humansemen.
โข To date there is no agreement in the literature on whether or not cryopreservation affects
sperm chromatin integrity or on the use of a unique and functional protocol for the freezing-
thawing procedure.
โข Further investigations are needed to fully understand the real influence of cryopreservation on
sperm DNA integrity and the impact of the use of cryopreserved spermatozoa on the
reproductive outcome, technical measures should be applied to provide maximum protection
to the male gametes: appropriate use of cryoprotectants before and sperm selection
technologies after cryopreservation seems to have the greatest impact on preventing DNA
fragmentation, thus improving sperm cryosurvival rates.
21. References
[1] Marlea Di Santo, Nicoletta Tarozzi, Marco Nadalini, and Andrea Borini. Human Sperm
Cryopreservation: Update on Techniques, Effect on DNA Integrity, and Implications for ART.
Advances in Urology. Volume 2012 (2012), Article ID 854837, 12 pages.
[2] 2014 Andrology and Embryology Review Course Manual of the American Board of
Bioanalysis (ABB).
[3] World Health Organisation: Department of Reproductive Health and Research WHO
laboratory manual for the examination and processing of human semen. 5th edition. 2010.
[4] Gardner DK, Weissman A, Howles CM, Shoham Z. Textbook of Assisted Reproductive
Techniques. 3rd ed. Vol. 1. In: Agarwal A, Erenpreiss J, Sharma R. Sperm chromatin assessment.
United Kingdom: Informa healthcare, 2009:67-84.
1-Removing or reduction the water content of spermatozoa by adding glycerol as acryoprotectant to minimize intracellular ice formation during freezing ,without the addition of cryoprotectant during freezing ,human spermatozoa are damaged by plasma membrane swelling as water expands during freezing ,acrosomal leakage and breakdown.
2-The cryoprotectant penetrate s the cell and displaces the intracellular water,an osmotic equilibrium is reached and the sperm cell returns to almost its original volume.this is accompanied by reduction in temperature reaches to -5 to -15 degree c. the inside of sperm cell remains unfrozen but super cooled intercellular water has higher chemical potential and diffuses out of the cell osmotic ally . Freezing continues extracellularly,resulting hyper tonicity and further redution in water from sperm cell ,leading to almost complete dehydration .
Some authors argue that conventional slow freezing, either manual or automated, causes extensive chemical-physical damage to the sperm probably because of ice crystallization.
Since the intracellular matrix of human spermatozoa contains large amounts of proteins and sugars, they can be successfully frozen in the absence of permeable CPAs using protein- and sugar-rich non-permeable agents
This observation seems to indicate that cryopreservation before ICSI might be helpful to eliminate senescent or deficient spermatozoa, thus, improving reproductive outcome