F. Rigali scite author profile

Summary Background Historically, cryopreservation of equine embryos >300 μm gave poor pregnancy rates until researchers collapsed the blastocoele cavity and aspirated the blastocoele fluid prior to vitrification. Objective To determine if aspiration of the blastocoele fluid prior to vitrification is essential for post warming survival. Study design In vivo experiments. Methods Fifty embryos were recovered on day 7–8 and washed in holding medium (HM; M‐199HEPES + 20% FBS + antibiotics). Embryos were punctured using a micromanipulator mounted 30 μm biopsy needle; following this 28 had >90% of their blastocoelic fluid actively aspirated while the remaining 22 were not‐aspirated. Embryos were then vitrified using a two‐step process with increasing concentrations of DMSO and ethylene glycol (7.5–15% v:v), and 0.5 mol/L sucrose in the final solution before being loaded onto a Cryolock device and plunged into liquid nitrogen. The embryos were warmed by plunging the Cryolock tip into HM with 1 mol/L sucrose at 37°C. After 1 min, the embryos were transferred to HM + 0.5 mol/L sucrose at RT for 4 min before transfer into HM for a further 4 min prior to transfer to a recipient mare. Results Mean (±s.e.) embryo diameter was not significantly different between the punctured and punctured plus aspirated group (646.4 ± 61.7 vs. 754.8 ± 59.1 μm, respectively; P = 0.215). Nonaspirated and aspirated embryos gave pregnancy rates of 10/22 (45%) and 21/28 (75%) respectively (P = 0.061). Sub‐dividing embryos on the basis of size showed that vitrification of larger embryos (>550 μm) yielded a significantly higher pregnancy rate when they were aspirated vs. not‐aspirated (13/18 [72%] vs. 1/10 [10%], respectively; P = 0.006), whereas there was no difference for smaller embryos (8/10 [80%] vs. 9/12 [75%], respectively; P = 0.8). Main limitations Group sizes are limited. Conclusion Aspiration of blastocoele fluid from embryos ≤550 μm is not a pre‐requisite for successful vitrification. The Summary is available in Spanish – see Supporting Information

show abstract

Successful vitrification of manually punctured equine embryos

Wilsher

Rigali

Kovacsy

et al. 2021

Equine Veterinary Journal

View full text Add to dashboard Cite

Background: Successful vitrification of equine expanded blastocysts requires collapse of the blastocoele cavity using a micromanipulator-mounted biopsy pipette on an inverted microscope. Such equipment is expensive and requires user skill.Objectives: To develop a manual method of blastocoele collapse prior to vitrification using commercial products. Study design: In vivo experiment.Methods: Seventy-nine Day 7 or 8 embryos were measured and graded. Twenty were vitrified following micromanipulator-assisted puncture and aspiration before being used to validate commercial human vitrification and warming kits containing, respectively, 2-step concentrations of DMSO and ethylene glycol (7.5%-15% v:v) and decreasing concentrations of sucrose. After warming, embryos were transferred to recipient mares. Once validated, the commercial kits were used to vitrify and warm a further 39 embryos which were punctured manually using a microneedle, 2 (5%) were damaged during puncture and excluded; 20 more embryos were vitrified without puncture. Embryos were grouped as follows: non-punctured ≤ 300µm (n = 10) and >300 to ≤560 µm (n = 10), punctured small (>300 to ≤560 µm; n = 17) and large (>560 µm; n = 10) and exposed to the equilibration solution (ES) in the kit for 6min.An additional group of punctured large embryos was exposed to ES for 8min (n = 10).For the initial warming step, embryos were exposed for 1min to the thawing solution at 42°C, before being moved to a dilution solution at room temperature.Results: Vitrified, manually punctured embryos ≤560 µm exposed to ES for 6min resulted in a pregnancy rate of 82% (14/17). Unpunctured embryos ≤300 µm gave an 80% (8/10) pregnancy rate. Larger unpunctured embryos, punctured embryos >560 µm and embryos exposed to ES for 8min gave significantly reduced pregnancy rates.Main limitations: Limited group sizes. Conclusion:High pregnancy rates can be achieved by manually puncturing ≤560 µm equine embryos prior to their vitrification and subsequent warming in commercial media.

show abstract

Puncture of the Equine Embryonic Capsule and Its Repair In Vivo and In Vitro

Wilsher

Rigali

Kovacsy

et al. 2020

Journal of Equine Veterinary Science

View full text Add to dashboard Cite

Pregnancy rates after manual puncture of equine embryos following direct transfer or vitrification

Wilsher

Rigali

Allen

2020

Journal of Equine Veterinary Science

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

F. Rigali

How healthy are clones and their progeny: 5 years of field experience

Vitrification of equine expanded blastocysts following puncture with or without aspiration of the blastocoele fluid

Successful vitrification of manually punctured equine embryos

Puncture of the Equine Embryonic Capsule and Its Repair In Vivo and In Vitro

Pregnancy rates after manual puncture of equine embryos following direct transfer or vitrification

Contact Info

Product

Resources

About