Exam 3 - Cryopreservation Flashcards
Why would someone use sperm banking?
Cancer-related therapy, Testicular or prostate surgery, Vasectomy, High-risk occupational exposure (e.g., military), IUI or ART, Times when partner’s schedule does not permit his availability
Why would someone use egg banking?
Cancer patients, Delaying reproduction, Failure to obtain sperm on transfer day, Ethical objections to embryo cryopreservation
What screenings do egg and sperm donation require?
psychological, genetic, and medical screening (including STDs)
donor sperm are frozen and quarantined for 6 months to permit re testing for STDs
What is cryopreservation?
cells or whole tissues are preserved by cooling them from body temperature (37C) to low temperatures in liquid nitrogen (-196C)
Why does cryopreservation work to preserve cells?
at low, sub zero temps, biological activity especially biochemical reactions that would lead to cell death are effectively stopped
What two ways are cells protected from freezing injury?
controlled cooling and thawing rate, and cryoprotectants
Describe the process of ice formation during cell freezing
- extracellular ice formation (exclude solutes)
- extracellular fluid becomes hypertonic to intracellular fluid (because solutes concentrate)
- cells dehydrate due to the hypertonicity
- some dehydration is ok because less water decreases risk of intracellular ice formation which can be lethal
What happens if the cooling rate is too slow or too fast?
too slow: too much dehydration from elevated solute concentrations extracellularly
too fast: rapid freezing injury due to intracellular ice formation (since they couldn’t dehydrate at all)
Is the optimal rate of cooling the same for all cells/tissues?
No!
How do the sizes of sperm, oocytes, and embryos compare?
sperm - head is approx. 5x3 micrometers
oocyte - 130 micrometers in diameter
embryo - single cell from a D3 embryo is approx. 40 micrometers in diameter
What are the two types of cryoprotectants and how do they work?
permeating:
- small molecules can diffuse across membranes
- form hydrogen bonds with water to prevent or slow intra/extra cellular ice formation
- protect cell from solution effects by diluting the electrolytes which can be toxic to the cell
- ex: propylene glycol, glycerol, DMSO
non-permeating:
- larger molecules remain extracellular
- slow or prevent extracellular ice formation
- control dehydration
- often used in combo with permeating
- ex: sucrose (disaccharide)
As cells cool, the extracellular fluid becomes —– concentrated
more
What is the typical post-thaw motility of frozen sperm? Why? What does this mean overall?
20-65% post thaw motility
decreased integrity of membranes (plasma m., acrosomal m., intracellular compartment m.)
altered energy metabolism and synthesis
overall, fresh sperm is better than frozen
What is the thaw survival rate for frozen embryos?
How do pregnancy rates compare for fresh vs frozen embryos?
thaw: day 5 blastocysts >90% survival
pregnancy: greater for frozen embryos than fresh embryos
What damage can happen to oocytes during freezing?
meiotic spindle -
- highly sensitive to temperature
- microtubule and microfilament damage may lead to abnormal division of chromosomes
- spindle reforms after thaw and may reform in an abnormal way
zona pellucida -
- hardening through premature cortical granule release
- cortical reaction normally occurs after fertilization to prevent polyspermy
- frozen oocytes require ICSI
