Your search keyword '"C. Halicigil"' showing total 4 results

1. FROM OOCYTES TO A LIVE BIRTH: DOES PGT-A HELP OR HARM?

Author

R, Sabbagh, primary, S, Nichols-Burns, additional, C, Halicigil, additional, J, Quinlan, additional, JS, Shah, additional, A, Korkidakis, additional, A, Penzias, additional, P, Patrizio, additional, and D, Sakkas, additional

Published

2022

2. Good laboratory practice for PGT-M: Turkish Society of Reproductive Medicine guidelines.

Author

Unsal E, Aktuna S, Arda B, Balaban B, Baltaci V, Bayram A, Bozdag G, Candan ZN, Cetinkaya M, Ceylaner S, Findikli N, Goksever Celik H, Halicigil C, Kahraman S, Kayacaglayan M, Keles I, Kurtoglu A, Mutlu A, Ozgon G, Sukur YE, Tufekci MA, Yakin K, Yelke H, Yildiz S, and Ata B

Subjects

Humans, Turkey, Female, Genetic Testing standards, Pregnancy, Societies, Medical, Reproductive Techniques, Assisted standards, Reproductive Medicine standards, Reproductive Medicine ethics, Preimplantation Diagnosis standards

Abstract

This guideline was prepared by the Turkish Society of Reproductive Medicine to define the conditions and requirements for an outsourced preimplantation genetic testing (PGT) programme in line with the experience and needs of practitioners. This guideline is intended to be a reference document for assisted reproductive technology centres, genetic diagnosis centres, non-governmental organizations working on reproductive health, legal experts, consultants working on laboratory accreditation, academicians specializing in ethical issues, and policy makers. The Consortium aims to provide recommendations addressing the challenges of genetic testing, especially PGT for monogenic diseases (PGT-M) due to the high rate of consanguineous marriage in Turkey. For this purpose, this summary document specifically includes challenges and recommendations regarding PGT-M practice, and aims to identify and aid in prevention of errors leading to misdiagnosis. The recommendations can be modified to fit other locations., (Copyright © 2024 Reproductive Healthcare Ltd. Published by Elsevier Ltd. All rights reserved.)

Published

2024

3. Beyond Earth's bounds: navigating the frontiers of Assisted Reproductive Technologies (ART) in space.

Author

Chaplia O, Mathyk BA, Nichols-Burns S, Basar M, and Halicigil C

Subjects

Humans, Space Flight, Female, Animals, Weightlessness, Male, Reproductive Techniques, Assisted trends, Cryopreservation methods, Cryopreservation trends

Abstract

As interest in deep space travel grows exponentially, understanding human adaptation in becoming an interplanetary species is crucial. This includes the prospect of reproduction. This review summarizes recent updates and innovations in assisted reproductive technologies (ART) on Earth, while also discussing current challenges and areas for improvement in adapting ART studies to the space environment. We discuss the critical components of ART - gamete handling and preparation, fertilization, embryo culture, and cryopreservation - from the daily practice perspective of clinical embryologists and reproductive endocrinologists and lay out the complicated path ahead.In vitro embryo development in low Earth orbit and beyond remains questionable due to synergetic effects of microgravity and radiation-induced damage observed in simulated and actual in-space mammalian studies. Cryopreservation and long-term storage of frozen samples face substantial obstacles - temperature limitations, lack of trained personnel, and absence of adapted cosmic engineering options. We touch on recent innovations, which may offer potential solutions, such as microfluidic devices and automated systems. Lastly, we stress the necessity for intensive studies and the importance of an interdisciplinary approach to address numerous practical challenges in advancing reproductive medicine in space, with possible implications for both space exploration and terrestrial fertility treatments., (© 2024. The Author(s).)

Published

2024

4. Disposable paper-based microfluidics for fertility testing.

Author

Sarabi MR, Yigci D, Alseed MM, Mathyk BA, Ata B, Halicigil C, and Tasoglu S

Abstract

Fifteen percent of couples of reproductive age suffer from infertility globally and the burden of infertility disproportionately impacts residents of developing countries. Assisted reproductive technologies (ARTs), including in vitro fertilization (IVF) and intracytoplasmic sperm injection (ICSI), have been successful in overcoming various reasons for infertility including borderline and severe male factor infertility which consists of 20%-30% of all infertile cases. Approximately half of male infertility cases stem from suboptimal sperm parameters. Therefore, healthy/normal sperm enrichment and sorting remains crucial in advancing reproductive medicine. Microfluidic technologies have emerged as promising tools to develop in-home rapid fertility tests and point-of-care (POC) diagnostic tools. Here, we review advancements in fabrication methods for paper-based microfluidic devices and their emerging fertility testing applications assessing sperm concentration, sperm motility, sperm DNA analysis, and other sperm functionalities, and provide a glimpse into future directions for paper-based fertility microfluidic systems., Competing Interests: The authors declare the following competing financial interest(s): S.T. is a co-founder of and has equity interest in GetDeHealth, a company that is developing microfluidic technologies for point-of-care diagnostic and wellness solutions. The interests of S.T. were viewed and managed in accordance with the conflict of interest policies. Author S.T. is a member of the iScience Editorial Board. B.A. is a member of ART Fertility Clinics, a company working on human reproductive medicine. The interests of B.A. were viewed and managed in accordance with the conflict of interest policies. The authors have no other relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript apart from those disclosed., (© 2022 The Author(s).)

Published

2022