Nathan R. Treff

What is he best known for?

The fields of study he is best known for:

• Gene
• DNA
• Genetics

His main research concerns Aneuploidy, Blastocyst, Gynecology, Genetics and SNP array. His Aneuploidy study improves the overall literature in Chromosome. His biological study spans a wide range of topics, including In vitro fertilisation, Andrology and Randomized controlled trial.

His Andrology study combines topics from a wide range of disciplines, such as Embryonic stem cell and Oocyte. His Gynecology research incorporates themes from Pregnancy, Single Embryo Transfer, Biopsy, Trophectoderm biopsy and Obstetrics. His Preimplantation genetic diagnosis and Genotyping study in the realm of Genetics connects with subjects such as Redaction and Large scale data.

His most cited work include:

• Blastocyst biopsy with comprehensive chromosome screening and fresh embryo transfer significantly increases in vitro fertilization implantation and delivery rates: a randomized controlled trial. (393 citations)
• The nature of aneuploidy with increasing age of the female partner: a review of 15,169 consecutive trophectoderm biopsies evaluated with comprehensive chromosomal screening (380 citations)
• Cleavage-stage biopsy significantly impairs human embryonic implantation potential while blastocyst biopsy does not: a randomized and paired clinical trial. (344 citations)

What are the main themes of his work throughout his whole career to date?

Nathan R. Treff spends much of his time researching Genetics, Aneuploidy, Embryo, Andrology and Chromosome. His research in Aneuploidy intersects with topics in SNP array, Gynecology, Blastocyst, Ploidy and Genetic testing. Nathan R. Treff has researched Gynecology in several fields, including Pregnancy and Single Embryo Transfer.

His Embryo study combines topics in areas such as Molecular biology, DNA profiling and Chromosomal translocation. His work carried out in the field of Andrology brings together such families of science as Blastocyst Transfer, Mitochondrial DNA and Polar body. His Chromosome research incorporates elements of Biopsy, Computational biology and Mitosis.

He most often published in these fields:

• Genetics (50.37%)
• Aneuploidy (33.46%)
• Embryo (27.94%)

What were the highlights of his more recent work (between 2015-2021)?

• Genetics (50.37%)
• Aneuploidy (33.46%)
• Embryo (27.94%)

In recent papers he was focusing on the following fields of study:

The scientist’s investigation covers issues in Genetics, Aneuploidy, Embryo, Genetic testing and Andrology. His research on Aneuploidy also deals with topics like

• Genotyping most often made with reference to Single-nucleotide polymorphism,
• Oocyte which is related to area like Advanced maternal age. The concepts of his Embryo study are interwoven with issues in Embryonic stem cell, Transcriptome and Retrospective cohort study.

His study looks at the relationship between Andrology and topics such as Blastocyst Transfer, which overlap with Catheter. His work in Blastocyst covers topics such as Mitochondrial DNA which are related to areas like Cell biology. The study incorporates disciplines such as Ploidy and Computational biology in addition to Chromosome.

Between 2015 and 2021, his most popular works were:

• Endometrial microbiome at the time of embryo transfer: next-generation sequencing of the 16S ribosomal subunit. (89 citations)
• The why, the how and the when of PGS 2.0: current practices and expert opinions of fertility specialists, molecular biologists, and embryologists. (85 citations)
• Detecting mosaicism in trophectoderm biopsies: current challenges and future possibilities. (73 citations)

In his most recent research, the most cited papers focused on:

• Gene
• DNA
• Genetics

His primary areas of study are Aneuploidy, Genetics, Bioinformatics, Genetic testing and Blastocyst. His study in Aneuploidy is interdisciplinary in nature, drawing from both Oncology, Trisomy, Molecular biology, Ploidy and Single-nucleotide polymorphism. He usually deals with Genetic testing and limits it to topics linked to In vitro fertilisation and Embryogenesis.

His Blastocyst study introduces a deeper knowledge of Embryo. His work in Embryo addresses subjects such as Andrology, which are connected to disciplines such as Singleton, Mitochondrial DNA and Cohort. His Chromosome research integrates issues from SNP array and Chromosomal translocation.

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