Colin D. Matthews scite author profile

In this study, we have used time-lapse video cinematography to study fertilization in 50 human oocytes that had undergone intracytoplasmic sperm injection (ICSI). Time-lapse recording commenced shortly after ICSI and proceeded for 17-20 h. Oocytes were cultured in an environmental chamber which was maintained under standard culture conditions. Overall, 38 oocytes (76%) were fertilized normally, and the fertilization rate and embryo quality were not significantly different from 487 sibling oocytes cultured in a conventional incubator. Normal fertilization followed a defined course of events, although the timing of these events varied markedly between oocytes. In 35 of the 38 fertilized oocytes (92%), there were circular waves of granulation within the ooplasm which had a periodicity of 20-53 min. The sperm head decondensed during this granulation phase. The second polar body was then extruded, and this was followed by the central formation of the male pronucleus. The female pronucleus formed in the cytoplasm adjacent to the second polar body at the same time as, or slightly after, the male pronucleus, and was subsequently drawn towards the male pronucleus until the two abutted. Both pronuclei then increased in size, the nucleoli moved around within the pronuclei and some nucleoli coalesced. During pronuclear growth, the organelles contracted from the cortex towards the centre of the oocyte, leaving a clear cortical zone. The oocyte decreased in diameter from 112 to 106 microm (P < 0.0001) during the course of the observation period. The female pronucleus was significantly smaller in diameter than the male pronucleus (24.1 and 22.4 microm respectively, P = 0.008) and contained fewer nucleoli (4.2 and 7.0 respectively, P < 0.0001). After time-lapse recording, oocytes were cultured for 48 h prior to embryo transfer or cryopreservation. Embryo quality was related to fertilization events and periodicity of the cytoplasmic wave, and it was found that good quality embryos arose from oocytes that had more uniform timing from injection to pronuclear abuttal and tended to have a longer cytoplasmic wave. In conclusion, we have shown that time-lapse video cinematography is an excellent tool for studying fertilization and early embryo development, and have demonstrated that human fertilization comprises numerous complex dynamic events.

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Freeze-thaw-induced changes of the zona pellucida explains decreased rates of fertilization in frozen-thawed mouse oocytes

Carroll¹,

Depypere²,

Matthews³

1990

Reproduction

209

102

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Frozen-thawed oocytes have a reduced rate of fertilization (48.8%) when compared with unfrozen controls (97%). In this study we have used zona-drilling to bypass the zona pellucida and investigate whether the decreased rate of fertilization is due to freezing-induced changes in the zona pellucida which prevent sperm penetration. After zona drilling the fertilization rate of frozen-thawed oocytes (87.8%) was the same as for zona-intact unfrozen controls (88%), indicating that freeze-thaw-induced changes at the level of the zona pellucida were responsible for the decreased rate of fertilization. To determine whether the changes were occurring during the manipulations before and after freezing or the complete freeze-thaw cycle, oocytes were exposed to the complete set of manipulations normally experienced during cryopreservation and appropriate control groups. A small but significant decrease in the rate of fertilization (82.8%) was apparent in oocytes exposed to the manipulations before and after freezing compared with controls (92.2%). The freeze-thaw-induced changes in the zona pellucida therefore occur primarily during the complete freeze-thaw cycle itself and not the manipulations before and after freezing and are responsible for the decreased rate of fertilization observed in frozen-thawed oocytes.

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Fertilization failures and abnormal fertilization after intracytoplasmic sperm injection

1998

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This study addresses the incidence of failed (0%) and suboptimal (<50%) fertilization after intracytoplasmic sperm injection (ICSI), variation in the ICSI fertilization rate for specific couples, and the causes of fertilization failure and abnormal fertilization after ICSI. Failed fertilization occurred in only 37 of 1343 cycles (3%). The risk of failure was highest (37%) when only one oocyte was injected, and was lowest (0.8%) when five or more oocytes were collected. The incidence of suboptimal fertilization and the variation in the fertilization rate were studied in 87 couples who each had three cycles of ICSI in which four oocytes were injected with ejaculated spermatozoa. Approximately 74% of these couples achieved >50% fertilization in every cycle. Only 26% of the couples had <50% fertilization in one or more cycles, and most of these (17%) had only a single cycle with suboptimal fertilization. Only four of the 87 couples (5%) had suboptimal fertilization in all three cycles. The difference between the maximum and minimum fertilization rate for a couple was used as an index of variation of the fertilization rate. It was found that 47 couples (54%) had 0-25% variation, 33 couples (38%) had 26-50% fertilization and only seven couples (8%) had >50% variation. The causes of failed and abnormal fertilization were studied in unfertilized and abnormally fertilized oocytes after staining with Hoechst 33342. In total, 1005 unfertilized oocytes were studied, of which 828 (82%) were still at metaphase II and 177 (18%) were activated. Most of the oocytes (83%) contained a spermatozoon and, in the majority of these oocytes, the sperm head was partially or completely decondensed. Hence, failure of oocyte activation was the principal cause of fertilization failure. A similar pattern was observed in activated, unfertilized oocytes, although there was a higher incidence of intact spermatozoa in these oocytes compared with metaphase II, unfertilized oocytes. Interestingly, 56% of the activated oocytes contained a decondensed sperm head which was not processed into a male pronucleus. A total of 169 abnormally fertilized oocytes was also studied. Two anomalies were found: digyny due to retention of the second polar body and its subsequent transformation into a third pronucleus, and abnormal pronuclear size and number.

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A Specific Radioimmunoassay for Melatonin in Biological Tissue and Fluids and its Validation by Gas Chromatography-Mass Spectrometry

Kennaway¹,

Frith²,

Phillipou³

et al. 1977

Endocrinology

207

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A specific practical radioimmunoassay suited to determinations of melatonin in both tissues and body fluids is described. The rabbit antibody employed was raised to an antigen formed by condensation between N-acetylserotonin and the Mannich adduct of bovine serum albumin and formaldehyde. Substitution was shown by protonmagnetic resonance spectroscopy to occur exclusively at die 4 position of the indole nucleus. The antibody reacted with a variety of N-acetylated indoles, and absolute specificity was dependent upon the extraction procedure and column (Lipidex 5000) chromatography.In addition to the usual reliability criteria, the validity of the assay was checked by gas chromatography-mass spectrometry using [ 2 H 3 ]melatonin as an internal standard, the preparation of which is described. The occurrence of melatonin in the plasma of man, sheep, rat and chicken was confirmed, and its presence in the plasma of the pig (22-76 pg/ml), donkey (24-128 pg/ml), cow (20-320 pg/ml), camel (29-221 pg/ml) and a scincid lizard (20-500 pg/ml) established. A nocturnal rise in plasma melatonin content occurred in all species.Melatonin was found in the plasma of ewes 2-12 weeks after pinealectomy, but the nocturnal rise was abolished. The results establish a nyctohemeral variation in plasma melatonin in a wide variety of species, and indicate that sources of melatonin other than the pineal may assume precedence following pinalectomy. (Endocrinology 101: 119, 1977)

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Colin D. Matthews

Preliminary observations on polar body extrusion and pronuclear formation in human oocytes using time-lapse video cinematography

Freeze-thaw-induced changes of the zona pellucida explains decreased rates of fertilization in frozen-thawed mouse oocytes

Fertilization failures and abnormal fertilization after intracytoplasmic sperm injection

A Specific Radioimmunoassay for Melatonin in Biological Tissue and Fluids and its Validation by Gas Chromatography-Mass Spectrometry

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