about
The Impact of Biopsy on Human Embryo Developmental Potential during Preimplantation Genetic DiagnosisDetecting mosaicism in trophectoderm biopsies: current challenges and future possibilitiesPre-implantation genetic testing in ART: who will benefit and what is the evidence?Genome-wide maps of recombination and chromosome segregation in human oocytes and embryos show selection for maternal recombination ratesComparison of array comparative genomic hybridization and quantitative real-time PCR-based aneuploidy screening of blastocyst biopsiesReduction of multiple pregnancies in the advanced maternal age population after implementation of an elective single embryo transfer policy coupled with enhanced embryo selection: pre- and post-intervention study45,X product of conception after preimplantation genetic diagnosis and euploid embryo transfer: evidence of a spontaneous conception confirmed by DNA fingerprintingConsistent and reproducible outcomes of blastocyst biopsy and aneuploidy screening across different biopsy practitioners: a multicentre study involving 2586 embryo biopsiesDiscordant Growth of Monozygotic Twins Starts at the Blastocyst Stage: A Case StudyPrevention of neural tube defects and maternal gestational diabetes through the inositol supplementation: preliminary results.Induced Pluripotent Stem Cell Differentiation and Three-Dimensional Tissue Formation Attenuate Clonal Epigenetic Differences in Trichohyalin.Preimplantation genetic diagnosis for aneuploidy testing in women older than 44 years: a multicenter experience.MicroRNAs in spent blastocyst culture medium are derived from trophectoderm cells and can be explored for human embryo reproductive competence assessment.Implementing PGD/PGD-A in IVF clinics: considerations for the best laboratory approach and management.The why, the how and the when of PGS 2.0: current practices and expert opinions of fertility specialists, molecular biologists, and embryologistsElectronic witness system in IVF-patients perspective.Diagnosis and clinical management of duplications and deletions.Correlation between standard blastocyst morphology, euploidy and implantation: an observational study in two centers involving 956 screened blastocysts.Mosaicism between trophectoderm and inner cell mass.Sequential comprehensive chromosome analysis on polar bodies, blastomeres and trophoblast: insights into female meiotic errors and chromosomal segregation in the preimplantation window of embryo development.Developmental clock compromises human twin model created by embryo splitting.No evidence of association between blastocyst aneuploidy and morphokinetic assessment in a selected population of poor-prognosis patients: a longitudinal cohort study.FISH reanalysis of inner cell mass and trophectoderm samples of previously array-CGH screened blastocysts shows high accuracy of diagnosis and no major diagnostic impact of mosaicism at the blastocyst stage.Incidence of β-thalassemia carrier on 1495 couples in preconceptional period.Reply: Questions about the accuracy of polar body analysis for preimplantation genetic screening.Human Embryos Created by Embryo Splitting Secrete Significantly Lower Levels of miRNA-30c.Segregation of mitochondrial DNA heteroplasmy through a developmental genetic bottleneck in human embryos.Human female meiosis revised: new insights into the mechanisms of chromosome segregation and aneuploidies from advanced genomics and time-lapse imaging.Abnormally fertilized oocytes can result in healthy live births: improved genetic technologies for preimplantation genetic testing can be used to rescue viable embryos in in vitro fertilization cycles.Generation of meiomaps of genome-wide recombination and chromosome segregation in human oocytes.Follicular versus luteal phase ovarian stimulation during the same menstrual cycle (DuoStim) in a reduced ovarian reserve population results in a similar euploid blastocyst formation rate: new insight in ovarian reserve exploitation.Artificial oocyte activation with calcium ionophore does not cause a widespread increase in chromosome segregation errors in the second meiotic division of the oocyte.Karyomapping identifies second polar body DNA persisting to the blastocyst stage: implications for embryo biopsy.A cautionary note against embryo aneuploidy risk assessment using time-lapse imaging.A prospective randomized noninferiority study comparing recombinant FSH and highly purified menotropin in intrauterine insemination cycles in couples with unexplained infertility and/or mild-moderate male factor.Associations of blastocyst features, trophectoderm biopsy and other laboratory practice with post-warming behavior and implantationInconclusive chromosomal assessment after blastocyst biopsy: prevalence, causative factors and outcomes after re-biopsy and re-vitrification. A multicenter experienceDiagnostic efficacy of blastocoel fluid and spent media as sources of DNA for preimplantation genetic testing in standard clinical conditionsBiochemical pregnancy loss after frozen embryo transfer seems independent of embryo developmental stage and chromosomal statusPrevalence of XXY karyotypes in human blastocysts: multicentre data from 7549 trophectoderm biopsies obtained during preimplantation genetic testing cycles in IVF
P50
Q26768198-B913E89E-F7A0-47D9-8E86-C2778713CDCBQ28071260-633C6342-07D7-4141-A6DD-1F0FFA57EC51Q28072316-C909C424-23E5-45AA-A683-A8F6D6F676BCQ28603618-5F7E52F0-2DB4-4C49-B506-8B3626BC8AA4Q35722205-1ABB469A-8082-4FD8-8620-7FD28FBD5795Q35974858-1EAB6A1A-202E-462F-81EE-68155A1B72C9Q36124689-99166A1C-FC96-4066-B296-C83364C8F19AQ36368721-3F86024D-4BDA-4F3B-A701-A9DEEBB0A336Q36379468-B5F9EB40-4A26-41CF-A765-7DE27CC06587Q38644874-FAB2D96B-37AB-48E9-AB96-6463ECA2781BQ38755657-7F47CE5D-400C-4A71-89B2-3463DC11B524Q38825096-020181DC-0B1C-4980-AC1E-9B7C055B317EQ38829032-D1F9F006-5599-4D06-881F-F0D0B58D3831Q38841178-9F61EDC3-341B-48C1-B421-8E350AA31E36Q38852215-24677008-DE29-49CD-97CA-DE31772490D1Q38889064-DBC8EC8D-6069-433E-A613-D14CBD08C1D9Q39063598-34CC467F-2B08-4E0D-BD65-98BFDC251AD9Q39242997-93D729E4-4D71-4343-926C-15453B192719Q39256280-FEAF5D96-0E56-4138-8D60-9E7942312335Q39520963-41BB1A7E-C868-463A-930A-52558E3B8D52Q40406158-31D0ED0B-9CAC-4172-A1E3-D01FE6CC21CEQ41627714-CB0110A1-0946-4561-A239-F297A65DFDFFQ45785591-F1C996A4-FB99-4089-9050-8E555AF3D799Q45840315-0D92B6F5-EBBA-4742-B6C9-55956376D4CCQ46262274-D9F1B529-ECCF-45DE-9107-2077574BAF3CQ47168667-CAC0D2F3-8C48-4828-93B9-C44402EEEC05Q47553086-5432F7BB-F339-4E82-B4CE-2B5446F815A4Q47624886-BAC2C9FB-5B56-4386-9AAD-63CBDEF8C341Q48512757-69778040-883A-4135-A2A9-C92F524C2673Q48548204-3978CEBD-326C-4C1C-B90C-9CAEABA71EE6Q48554457-C45475FA-7DCD-4ADE-9A41-1EF9C4FBD3D4Q48562252-2B56C519-5B00-4C7D-93D2-1D86E7C61F4DQ48569280-9DC86141-00FB-4A46-BC30-6CBCB6676BACQ51122861-2B0771BC-3AFD-4141-87E0-5B6161222D3AQ51655479-089361CA-4B73-4D52-8F90-7EB0F5DF7DB0Q57090962-671D970C-2B03-4608-8031-FA4D2E483421Q57091007-ED526710-66D7-43A9-954B-ED117F825DFDQ57486322-38BC3B85-FD39-40C4-9117-73683027BB40Q57494911-D6F6F8C0-397A-4E29-AB6E-DEC7EF0BDCA8Q57572214-26E92CE2-722A-4BC4-A0B4-292F7AD2CA5A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Antonio Capalbo
@ast
Antonio Capalbo
@en
Antonio Capalbo
@es
Antonio Capalbo
@nl
Antonio Capalbo
@sl
type
label
Antonio Capalbo
@ast
Antonio Capalbo
@en
Antonio Capalbo
@es
Antonio Capalbo
@nl
Antonio Capalbo
@sl
prefLabel
Antonio Capalbo
@ast
Antonio Capalbo
@en
Antonio Capalbo
@es
Antonio Capalbo
@nl
Antonio Capalbo
@sl
P106
P21
P31
P496
0000-0003-0109-323X
P569
2000-01-01T00:00:00Z