Pregnancy following fertilization of zona-free, coronal cell intact human ova: Case Report

Stanger, James; Stevenson, Karen; Lakmaker, A.D.; Woolcott, Robert

doi:10.1093/humrep/16.1.164

Cited by 47 publications

(26 citation statements)

References 17 publications

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“…4 Young's modulus of the human ZP determined using the shell model. Significant differences were found between embryos and oocytes using this model, (p<0.05) tal reasons [49][50][51][52][53]. This was characterized by different deformation when the aspiration pressure was applied and consequently the unlike slope of the negative applied pressure (Δp) versus the equilibrium length of ZP projection to the internal pipette radius (L/r i ) for the oocytes/ embryos of different donors clarified this claim.…”

Section: Discussionmentioning

confidence: 92%

Alteration in the Mechanical Properties of Human Ovum Zona Pellucida Following Fertilization: Experimental and Analytical Studies

et al. 2010

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The unfertilized oocyte is surrounded by a spherical layer called the zona pellucida (ZP). The physical hardness of this layer plays a crucial role in fertilization and it is largely unknown because of the lack of appropriate measuring and modeling methods. Recently, considerable biomedical attentions have concentrated on determination of the mechanical properties of oocytes as a single cell. In order to investigate the biophysical characteristics of mammalian oocytes, a change in the elasticity of human ZP has been quantitatively evaluated before and after fertilization. Young's modulus of ZP of metaphase-II (MII) and pronuclear (PN) stages have been estimated using two different protocols of the micropipette aspiration, step-by-step and continuous increase in pressure, in combination with proportional theoretical models. Experimental results clearly demonstrated that after fertilization the mean Young's modulus of the ZP calculated from the step-bystep aspiration test (MII: 7.34±1.36 kPa vs PN: 13.18± 1.17 kPa.) and continuous aspiration test (MII: 2.41±0.75 kPa vs. PN: 4.43±1.66 kPa) significantly increased, (p<0.05).Mathematical Evaluation of the results shows that although the results of the two methods are different but both confirm that the hardening of ZP will increase following fertilization. As can be seen, different experimental methods can influence the choice of the models and this in turn will lead the mechanical properties to be found.

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Section: Discussionmentioning

confidence: 92%

Alteration in the Mechanical Properties of Human Ovum Zona Pellucida Following Fertilization: Experimental and Analytical Studies

et al. 2010

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“…The zonafree oocytes may be fertilized normally after ICSI and develop to the blastocyst stage [165]. Pregnancy in human [166] and live birth in mouse [167] and pig [168] have been obtained after transfer of embryos resulting from zona-free oocytes.…”

Section: Oocyte Morphologymentioning

confidence: 99%

Intracytoplasmic Sperm Injection – Factors Affecting Fertilization

Javed¹,

Michael²

2012

Enhancing Success of Assisted Reproduction

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“…Since ZP dysmorphisms are probably caused by an altered secretion and/or patterning of the glycoproteic matrix (46), some Authors tried to relate ZP thickness and darkness to oocyte quality. Severe changes in thickness (Figure 16) or the complete lack of ZP are extremely rare (47) and the results are still controversial (1). As to the discoloration degree, it has been postulated that brown zonae can be related to better IVF/ICSI and clinical results such as fertilization rates, embryo quality and pregnancy rates (48).…”

Section: Zona Pellucidamentioning

confidence: 99%

Morphological selection of oocytes

Iussig¹

2015

cce

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SummaryNon-invasive morphological evaluation of oocytes is a key routinary laboratory approach in the selection of the "best" gamete to be used for in vitro fertilization (IVF). This early selection may be useful in order to increase the overall effectiveness of assisted reproduction techniques (ART) and it may be especially helpful in case of legal/ethical restrictions in the production of supernumerary embryos. This review focuses on the state-ofart of the literature regarding egg morphological features predictive of embryo further development and viability, from the evaluation of Cumulus-Oocyte Complex (COC) to the assessment of nuclear and cytoplasmic maturity. Investigated structures are namely COC, meiotic spindle, egg shape and volume, ooplasm texture, zona pellucida, perivitelline space and first polar body. Interestingly, only few morphological anomalies have been unanimously associated with embryo developmental competence, thus having a true prognostic value, the remaining being considered only phenotypic variants of unknown biological significance. IntroductionThe oocyte morphological evaluation represents a key point in the everyday laboratory routine. In fact, since the embryo is the resultant of the correct meeting of an egg and a spermatozoon, likely oocyte quality should be related to its developmental competence and ability to implant. The early selection of the oocytes to be used for in vitro fertilization techniques would be a valid tool for the reduction of the number of embryos to be created without affecting the overall pregnancy. Scientific literature on the subject has been really prolific in the last decade. Surely many Authors have spent a great effort in order to find a correlation between certain morphological dysmorphisms and the IVF/ICSI and clinical outcomes; to this regard, a lot of grading systems have been proposed over the years. Nevertheless, only recently these data have been reviewed in order to draw general conclusions and propose standardization in the interpretation of the data (1, 2). Interestingly, it has been concluded that only few morphological anomalies are truly associated with embryo developmental competence, whereas the majority of them can be ascribed to phenotypic variance (1). Cumulus-oocyte complexDuring follicle maturation granulosa cells (GCs) commence differentiation into mural GCs (lining the follicle walls) and cumulus cells (CCs) (surrounding the oocyte). The structure formed by CCs and the enclosed egg is called Cumulus-Oocyte Complex (COC) (3). Mini-review

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Pregnancy following fertilization of zona-free, coronal cell intact human ova: Case Report

Cited by 47 publications

References 17 publications

Alteration in the Mechanical Properties of Human Ovum Zona Pellucida Following Fertilization: Experimental and Analytical Studies

Alteration in the Mechanical Properties of Human Ovum Zona Pellucida Following Fertilization: Experimental and Analytical Studies

Intracytoplasmic Sperm Injection – Factors Affecting Fertilization

Morphological selection of oocytes

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