271 THE EFFECT OF TEMPERATURE ON HUMAN TESTICULAR TISSUE TO OPTIMIZE THE IN VITRO MATURATION OF PRE-FREEZE MOTILITY

Abstract

The development of intracytoplasmic sperm injection has made the use of testicular sperm a viable option for infertile men with obstructive and nonobstructive azoospermia. Over the past decade, testicular biopsies have been handled and processed using a variety of different methods. Whole biopsy pieces can be effectively cryopreserved in a 10% glycerol diluent (Schiewe et al. 1997 67, S115 abst); however, the ability to find viable, motile sperm post-thaw is improved when prefreeze motility exists. The purpose of this study was to comparatively document in vitro sperm motility enhancement over time at different temperatures, and to prove that an intermediate temperature (28 to 30°C) would optimize sperm longevity for up to 1 week. In this study, 10 men with obstructive azoospermia underwent a surgical, open testicular biopsy procedure. Each biopsy was placed in HEPES buffered-human tubal fluid (mHTF) medium supplemented with 5% human serum albumin (HSA; Irvine Sci., Santa Ana, CA, USA) and transported to the laboratory at room temperature. Each testis biopsy (TBx) was dissected into 8 equal pieces (approximately 2 × 2 × 1 mm). Five intact pieces of TBx were cryopreserved in separate cryovials for future use. The remaining TBx tissue was subdivided into 1 of 3 temperature treatment groups (24, 30, or 37°C) for extended IVM. The 30°C incubation condition was achieved by placing the dish(es) in a Styrofoam box placed on a 37°C warming plate. Each TBx was placed into a separate 100 × 35 mm Falcon dish in 150-μL droplets of mHTF under oil and shredded by needle dissection to disperse the contents of the seminiferous tubules. Reminant tissue was placed into another droplet for additional dissection, as needed. Sperm were analyzed for motility (graded as Type I = twitching, II = undulating, III = slow progression, and IV = rapid progression) at 0, 24, 96, and 144 h without replacing the IVM medium. The percentage increase in motility, compared with 0 h, was statistically contrasted across temperature treatments by chi-squared analysis. Testicular sperm motility ranged from 5 to 25% at 0 h and increased in all groups at 24 h. There was no difference in total motility at 24 h, but progressive motility was higher (P < 0.05) at 37°C compared with 24°C. Significant differences (P < 0.05) were observed in total percentage of motility/percentage of progressive motility at 96 h with treatment differences (*) being 30°C (66%*/44%*) > 24°C (42%*/14%) > 37°C (18%*/10%). This statistical trend continued at 144 h with 30°C (42%*/23%*) > 24°C (24%*/8%) > 37°C (9%*/5%). During this study, a viable pregnancy was achieved using a 30°C sample 8 days post biopsy, exceeding 2 previous healthy triplet pregnancies, which were successful using 4-day-old TBx specimens in 1996 and 2004. This study confirms that an intermediate IVM temperature of 30°C is optimal to enhance TBx cryopreservation, which in our laboratory is generally performed at 24 to 72 h of IVM. Our routine pregnancy success in applying ICSI with IVM, thawed TBx sperm discounts the concern some individuals express regarding DNA fragmentation of sperm over time.