Intracytoplasmic sperm injection in dysmorphic human oocytes

Zygote ◽  
1995 ◽  
Vol 3 (4) ◽  
pp. 283-288 ◽  
Author(s):  
Mina Alikani ◽  
Gianpiero Palermo ◽  
Alexis Adler ◽  
Massimo Bertoil ◽  
Marlena Blake ◽  
...  
Keyword(s):  
Intracytoplasmic Sperm Injection ◽  
Smooth Endoplasmic Reticulum ◽  
Polar Body ◽  
Light Microscopic Level ◽  
Human Oocytes ◽  
Fertilisation Rate ◽  
Polar Bodies ◽  
First Polar Body ◽  
Multiple Abnormalities ◽  
Further Development

SummaryFertilisation and development of dysmorphic human oocytes recovered from hyperstimulated ovaries have been evaluated following intracytoplasmic sperm injection (ICSI) for treatment of male infertility. A total of 2968 oocytes at metaphase II of meiosis were injected, of which 806 (27.2%) were dysmorphic at the light microscopic level. Cytoplasmic abnormalities included granularity, areas of necrosis, organelle clustering, vacuoles, and accumulating saccules of smooth endoplasmic reticulum. Anomalies of the first polar body and zona pellucida, as well as non-spherical shapes of oocytes, were also noted. Contrary to previous findings linking some dysmorphisms to non-assisted fertilisation failure, in this study no single abnormality led to a reduction in the fertilisation rate, nor was fertilisation compromised in oocytes with multiple abnormalities. The incidence of normal fertilisation (two pronuclei and two polar bodies) was 69% in both the dysmorphic and non-dysmorphic oocytes. While overall pregnancy and implantation results were not altered in the group of patients (n = 242) in whom at least one dysmorphic oocyte was injected, exclusive replacement of embryos which originated from dysmorphic oocytes led to a higher incidence of early pregnancy loss. It is concluded that aberrations in the morphology of human oocytes – most probably a product of controlled ovarian stimulation – are of little or no consequence to fertilisation or early cleavage after ICSI. It is possible, however, that these embryos have a reduced potential for implantation and further development.

In vitro fertilization and cleavage of mouse oocytes recombined with the first polar body

2008 ◽  
Vol 5 (2) ◽  
pp. 169-173 ◽  
Author(s):  
Wang Gong-Jin ◽  
Tan Xiao-Dong ◽  
Zhou Xiao-Long ◽  
Xu Xiao-Bo ◽  
Fan Bi-Qin
Keyword(s):  
Polar Body ◽  
Farm Animals ◽  
Blue Staining ◽  
Vitro Fertilization ◽  
Mouse Oocytes ◽  
Polar Bodies ◽  
First Polar Body ◽  
Different Temperatures ◽  
Further Development

AbstractThe developmental functions of oocytes of three strains of mice (Kunming, ICR and C57BL/6-Tg(CAG-EGFP)C14-Y01-FM131Osb) recombined with the nuclei of first polar bodies (Pbs I) were explored. Cumulus oocyte complexes (COCs) from the mice were collected after superovulation, then Pbs I were obtained from the COCs by 2% pronase treatment. The survival of Pbs I under different temperatures was identified by morphology and trypan blue staining. Later, the polar body I (Pb 1) nucleus and a little cytoplasm was injected into each oocyte, the nuclei of which had been enucleated by micromanipulation. Oocytes recombined with Pbs I were fertilized, then cultured in vitro in order to observe their further development. The results showed that the vigour of Pbs I was maintained for 12–14 h after superovulation, and was still maintained after 48 h at 4 °C. A total of 13 out of 117 recombined oocytes from Kunming and ICR mice, as well as 3 out of 38 recombined oocytes from C57BL/6-Tg(CAG-EGFP)C14-Y01-FM131Osb mice, developed into two-cell embryos. The experiments confirmed that mouse oocytes recombined with the nuclei of Pbs I could maintain fertilization and development. These results present valuable references for further utilization of genetic resources for farm animals

Effects of oocyte age, cumulus cells and injection methods on in vitro development of intracytoplasmic sperm injection rabbit embryos

Zygote ◽  
2004 ◽  
Vol 12 (1) ◽  
pp. 75-80 ◽  
Author(s):  
Yue-Liang Zheng ◽  
Man-Xi Jiang ◽  
Yan-Ling Zhang ◽  
Qing-Yuan Sun ◽  
Da-Yuan Chen
Keyword(s):  
Intracytoplasmic Sperm Injection ◽  
Polar Body ◽  
Cumulus Cells ◽  
Fertilization Rate ◽  
First Polar Body ◽  
Injection Methods ◽  
Blastocyst Rate ◽  
Repeated Aspiration ◽  
Rabbit Embryos

This study assessed the effects of oocyte age, cumulus cells and injection methods on in vitro development of intracytoplasmic sperm injection (ICSI) rabbit embryos. Oocytes were recovered from female rabbits superovulated with PMSG and hCG, and epididymal sperm were collected from a fertile male rabbit. The oocyte was positioned with the first polar body at 12 o'clock position, and a microinjection needle containing a sperm was inserted into the oocyte at 3 o'clock. Oolemma breakage was achieved by aspirating ooplasm, and the aspirated ooplasm and sperm were re-injected into the oocyte. The injected oocytes were cultured in M199 medium containing 10% fetal calf serum at 38 °C with 5% CO2 in air. The results showed that oocytes injected at 1 h post-collection produced a higher (p<0.05) fertilization rate than those injected at 4 or 7 h post-collection. Blastocyst rate in the 1 h group was higher (p<0.05) than in the 7 h group. Denuded oocytes (group A) and oocytes with cumulus cells (group B) were injected, respectively. Rates of fertilization and development of ICSI embryos were not significantly different (p<0.05) between the two groups. Four ICSI methods were applied in this experiment. In methods 1 and 2, the needle tip was pushed across half the diameter of the oocyte, and oolemma breakage was achieved by either a single aspiration (method 1) or repeated aspiration and expulsion (method 2) of ooplasm. In methods 3 and 4, the needle tip was pushed to the oocyte periphery opposite the puncture site, and oolemma breakage was achieved by either a single aspiration (method 3) or repeated aspiration and expulsion (method 4) of ooplasm. Fertilization rate in method 2 was significantly higher (p<0.05) than in methods 1 and 3. Blastocyst rates were not significantly different (p<0.05) among methods 1, 3 and 4, but method 2 produced a higher (p<0.05) blastocyst rate than method 3.

249 INTRACYTOPLASMIC SPERM INJECTION OF ELAND (TAUROTRAGUS ORYX) AND BONGO (TRAGELAPHUS EURYCERUS)ANTELOPE OOCYTES

2007 ◽  
Vol 19 (1) ◽  
pp. 241 ◽  
Author(s):  
G. Wirtu ◽  
C. E. Pope ◽  
M. C. Gomez ◽  
A. Cole ◽  
D. L. Paccamonti ◽  
...  
Keyword(s):  
Embryonic Development ◽  
Intracytoplasmic Sperm Injection ◽  
Transvaginal Ultrasound ◽  
Polar Body ◽  
Chemical Activation ◽  
Cumulus Cell ◽  
Calcium Ionophore ◽  
Male Gamete ◽  
Assisted Reproductive Technique ◽  
First Polar Body

Intracytoplasmic sperm injection (ICSI) is an assisted reproductive technique applicable in cases of limited male gamete availability. Moreover, it bypasses barriers of the oocyte, thus avoiding poorly understood species-specific capacitation events affecting sperm–egg interaction. In the present study, we evaluated the application of conventional and piezo drill-assisted ICSI and whether subsequent chemical activation is required for initiating embryonic development in eland (Taurotragus oryx) and bongo (Tragelaphus eurycerus) oocytes. Oocytes were collected using transvaginal ultrasound-guided follicular aspiration after gonadotropin-induced ovarian stimulation and incubated in modified TCM-199 medium (Gomez et al. 2000 Reprod. Fertil. Dev. 12, 423) containing 10% FBS. After 3 to 24 h, the cumulus cell layers were removed either by repeated mouth-pipetting and/or by using hyaluronidase. Oocytes with an extruded first polar body were used for ICSI and the other oocytes were returned to culture and evaluated every six hours Piezo drill-assisted (Kimura and Yanagimachi 1995 Biol. Reprod. 52, 709) or conventional (Gomez et al.) ICSI were done as described previously using glass pipettes with internal tip diameters of 9–10 µm. We used frozen–thawed or freshly collected spermatozoa that were kept in HEPES-buffered Tyrode's medium (Gomez et al.) for up to 24 h. Four to 6 h after ICSI, 3 activation treatments were examined: (1) none; (2) 7% ethanol, 5 min; or (3) calcium ionophore (5 µM, 5 min) followed by DMAP (2 mM, 4 h). Then we cultured oocytes in a humidified atmosphere of 5% O2, 5% CO2, and 90% N2 at 38.5°C in one of 3 media: SOF, α-MEM, or CR1aa containing essential and nonessential amino acids and FBS. Fifty-three of 70 (76%) eland oocytes survived after piezo-ICSI, and 13 of 16 (81%) survived after conventional ICSI. For bongo oocytes, 27 of 30 (90%) survived piezo-ICSI and all (n = 8) survived after conventional ICSI. Table 1 outlines cleavage data on Day 2. Generally, embryonic development was arrested at about 10 cells. In summary, eland and bongo oocytes can survive both conventional and piezo drill-assisted ICSI. Activation treatments do not appear to be a prerequisite for initiating cleavage after ICSI in eland and bongo antelope oocytes. Table 1.Cleavage of eland and bongo antelope oocytes after conventional or piezo-ICSI and three activation treatments

74 IN VIVO SURVIVAL OF DOMESTIC CAT OOCYTES AFTER VITRIFICATION, INTRACYTOPLASMIC SPERM INJECTION, AND TRANSFER TO RECIPIENTS

2008 ◽  
Vol 20 (1) ◽  
pp. 118 ◽  
Author(s):  
M. C. Gómez ◽  
N. Kagawa ◽  
C. E. Pope ◽  
M. Kuwayama ◽  
S. P. Leibo ◽  
...  
Keyword(s):  
Intracytoplasmic Sperm Injection ◽  
Polar Body ◽  
Oocyte Retrieval ◽  
Cumulus Cells ◽  
Domestic Cat ◽  
Minimal Amount ◽  
Vitro Fertilization ◽  
First Polar Body

The ability to cryopreserve female gametes efficiently holds immense economic and genetic implications. The purpose of the present project was to determine if domestic cat oocytes could be cryopreserved successfully by use of the Cryotop method. We evaluated (a) cleavage frequency after in vitro fertilization (IVF) v. intracytoplasmic sperm injection (ICSI) of in vivo- and in vitro-matured oocytes after vitrification, and (b) fetal development after transfer of resultant embryos into recipients. In vivo-matured cumulus–oocyte complexes (COCs) were recovered from gonadotropin-treated donors at 24 h after LH treatment, denuded of cumulus cells, and examined for the presence of the first polar body (PB). In vitro-matured COCs were obtained from ovaries donated by local clinics and placed into maturation medium for 24 h before cumulus cells were removed and PB status was determined. Oocytes were cryopreserved by the Cryotop method (Kuwayama et al. 2005 Reprod. Biomed. Online 11, 608–614) in a vitrification solution consisting of 15% DMSO, 15% ethylene glycol, and 18% sucrose. For IVF, oocytes were co-incubated with 1 � 106 motile spermatozoa mL–1 in droplets of modified Tyrode's medium in 5% CO2/air at 38�C (Pope et al. 2006 Theriogenology 66, 59–71). For ICSI, an immobilized spermatozoon was loaded into the injection pipette, which was then pushed through the zona pellucida into the ooplasm. After a minimal amount of ooplasm was aspirated into the pipette, the spermatozoon was carefully expelled, along with the aspirated ooplasm. After ICSI, or at 5 or 18 h post-insemination, in vivo- and in vitro-matured oocytes, respectively, were rinsed and placed in IVC-1 medium (Pope et al. 2006). As assessed by normal morphological appearance after liquefaction, the survival rate of both in vivo- and in vitro-matured oocytes was >90% (93–97%). For in vitro-matured oocytes, cleavage frequencies after IVF of control and vitrified oocytes were 73% (16/22) and 53% (30/57), respectively, as compared to 68% (19/28) after ICSI of vitrified oocytes (P > 0.05). For in vivo-matured oocytes, cleavage frequencies after IVF of control and vitrified oocytes were 55% (18/33) and 35% (6/17), respectively, compared to 50% (10/20) after ICSI of vitrified oocytes (P > 0.05). At 18–20 h after ICSI, 18 presumptive zygotes and four 2-cell embryos derived from vitrified in vitro-matured oocytes and 19 presumptive zygotes produced from seven in vivo-matured and 12 in vitro-matured vitrified oocytes were transferred by laparoscopy into the oviducts of two recipients at 24–26 h after oocyte retrieval. The two recipients were 9-month-old IVF/ET-derived females produced with X-sperm sorted by flow cytometry. At ultrasonography on Day 22, both recipients were pregnant, with three live fetuses observed in one recipient and one live fetus seen in the second recipient. On Day 63 and Day 66 of gestation, four live kittens were born, without assistance, to the two recipients. The one male and three female kittens weighed an average of 131 g. In summary, in vivo viability of zygotes/embryos produced by ICSI of cat oocytes vitrified by the Cryotop method was demonstrated by the birth of live kittens following transfer to recipients.

Review of the longevity of the second polar body in the mouse

Zygote ◽  
2003 ◽  
Vol 11 (1) ◽  
pp. 23-34 ◽  
Author(s):  
Roland Bartholomeusz
Keyword(s):  
Single Gene ◽  
Polar Body ◽  
Research Model ◽  
Polar Bodies ◽  
Single Gene Disorders ◽  
First Polar Body ◽  
Excellent Research ◽  
Second Polar Body ◽  
Normal Offspring ◽  
Potential Use

The polar bodies are derived from meiotic divisions during oogenesis and are contained together with the oocyte within the zona pellucida. Fertilisation triggers the second meiotic division, at which time the second polar body (PB2) is formed (Hogan et al., 1986; Schatten et al., 1988; Johnson & Everitt, 1995) There is no clear evidence on the fate of the polar bodies in any mammal including the mouse, which is the commonly used research model. However, the polar bodies are generally considered as waste material, and therefore not essential to embryo development. In recent years the polar bodies have gained prominence as they have been used in humans for pre-implantation genetic diagnostic purposes (PGD), of single gene disorders, such as determining whether an embryo may have inherited the cystic fibrosis allele from its mother (Munne et al., 1995; Strom et al., 1998; Rechitsky et al., 2000). PB2 also has a potential use in cloning, for the harvesting of stem cells. Wakayama et al. (1997) have shown that PB2 has the same genetic potential as the female pronuclei and can be used for the production of normal offspring in mice. The successful use of PB2 for these purposes is dependent on its age, for its longevity, rate and nature of degeneration has yet to be determined. While there is little doubt that the first polar body (PB1) experiences a necrotic fate, the same cannot be said for PB2, which may experience an apoptotic fate. Furthermore if PB2 experiences an apoptotic fate rather than a necrotic one, it would not only be the earliest evidence of apoptosis in a mammal but also provide an excellent research model for the study of apoptosis.

Caprine blastocyst formation following intracytoplasmic sperm injection and defined culture

Zygote ◽  
1997 ◽  
Vol 5 (3) ◽  
pp. 261-265 ◽  
Author(s):  
L. Keskintepe ◽  
P.C. Morton ◽  
S.E. Smith ◽  
M.J. Tucker ◽  
A.A. Simplicio ◽  
...  
Keyword(s):  
Breeding Season ◽  
Intracytoplasmic Sperm Injection ◽  
Polar Body ◽  
Egg Yolk ◽  
Cumulus Cells ◽  
Essential Amino Acids ◽  
Defined Medium ◽  
First Polar Body ◽  
Defined Culture ◽  
Oviduct Fluid

SummaryExperiments were undertaken to develop intracytoplasmic sperm injection (ICSI) to produce caprine embryos out of the normal breeding season. Oocytes were obtained from 2–6 mm ovarian follicles at slaughter. Selected oocytes with two to four layers of cumulus cells were incubated in 1 ml of H-TCM 199 supplemented with 10 μg each of oFSH and bLH (NHPP, NIDDK, NICHD, USDA) and 20% fetal bovine serum (FBS) in a thermos (38.5°C) for 4.5 h during transportation. Then, oocytes were transferred into 75 μl of freshly prepared maturation medium under paraffin oil and a mixture of 5% O2, 5% CO2 and 90% N2. Approximately 26 h after recovery oocytes were denuded by incubation with hyaluronidase (100 IU/ml) and pipetting and held at 38.5°C for 90 min. Spermatozoa frozen in egg yolk extender were thawed in a 37°C water bath for 15s. Motile fractions were selected by swim-up, then incubated for 90 mm in TALP with 10 μg heparin/ml. Each oocyte was positioned with its first polar body at 6 or 12 o'clock by a holding pipette. Sperm (1 μl) were added to 10 μl medium containing 10% polyvinylpyrrolidone. A sperm cell was aspirated into a pipette, and then injected head-first into the cytoplasm of an oocyte maintained in H-TCM 199 + 20% FBS at 37°C. Injected oocytes were transferred to HM and, after 90 min, cultured in 50 μl of BSA-free synthetic oviduct fluid plus polyvinyl alcohol, citrate and non-essential amino acids. Results demonstrate that caprine blastocysts can be produced outside the breeding season by the use of frozen-thawed semen and injection of sperm cells with broken tails into ova followed by culture in defined medium.

scholarly journals Developmental competence in vivo and in vitro of in vitro-matured equine oocytes fertilized by intracytoplasmic sperm injection with fresh or frozen-thawed spermatozoa

Reproduction ◽  
2002 ◽  
pp. 455-465 ◽  
Author(s):  
YH Choi ◽  
CC Love ◽  
LB Love ◽  
DD Varner ◽  
S Brinsko ◽  
...  
Keyword(s):  
Intracytoplasmic Sperm Injection ◽  
Polar Body ◽  
Cumulus Cells ◽  
Fertilization Rate ◽  
Developmental Competence ◽  
Cleavage Rate ◽  
First Polar Body ◽  
Bovine Oocytes

This study was undertaken to evaluate the development of equine oocytes in vitro and in vivo after intracytoplasmic sperm injection (ICSI) with either fresh or frozen-thawed spermatozoa, without the use of additional activation treatments. Oocytes were collected from ovaries obtained from an abattoir and oocytes classified as having expanded cumulus cells were matured in M199 with 10% fetal bovine serum and 5 microU FSH ml(-1). After 24-26 h of in vitro maturation, oocytes with a first polar body were selected for manipulation. Fresh ejaculated stallion spermatozoa were used for the experiment after swim-up for 20 min in sperm-Tyrode's albumen lactate pyruvate. Frozen-thawed spermatozoa from the same stallion were treated in a similar way. Spermatozoa were immobilized and injected into the oocytes using a Piezo drill. Presumptive zygotes were cultured in G1.2 medium for 20 or 96 h after the injection was administered, or were transferred to the oviducts of recipient mares and recovered 96 h later. In addition, bovine oocytes with first polar bodies were injected with the two types of stallion spermatozoa and fixed 20 h after injection to examine pronuclear formation. Fertilization rate (pronucleus formation and cleavage) at 20 h after injection of spermatozoa was not significantly different between fresh and frozen-thawed sperm groups in either equine or bovine oocytes. Pronucleus formation after injection of spermatozoa into bovine oocytes was significantly higher than that for equine oocytes (P < 0.05). There were no significant differences in cleavage rate or average number of nuclei at 96 h between equine oocytes injected with fresh or frozen-thawed spermatozoa. However, embryos developed in vivo for 96 h had a significantly higher number of nuclei in both sperm treatments compared with those cultured in vitro. These results indicate that good activation rates may be obtained after injection of either fresh or frozen-thawed equine spermatozoa without additional activation treatment. Injection of frozen-thawed equine spermatozoa results in similar embryo development to that obtained with fresh equine spermatozoa. In vitro culture of equine zygotes in G1.2 medium results in a similar cleavage rate but reduced number of cells compared with in vivo culture within the oviduct. Bovine oocytes may be useful as models for assessing sperm function in horses.

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