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New Technologies in the IVF lab.for embryo selection

New Technologies in the IVF lab.for embryo selection. Basak Balaban Head of IVF Laboratory VKF American Hospital. AMER IC AN HOSPITAL. TJOD 2014. Future of ART Lab. applications? OVERVIEW.

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New Technologies in the IVF lab.for embryo selection

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  1. New Technologies in the IVF lab.for embryo selection Basak Balaban Head of IVF Laboratory VKF American Hospital AMERICAN HOSPITAL TJOD 2014

  2. Future of ART Lab. applications?OVERVIEW • There are two main important items that needs to be improved in IVF laboratory applications in the future for maximum clinical efficiency • İdeal culture for gametes & embryos. Keeping the cell viability as equal to in-vivo • Selection techniques for the best viable gamete & embryo that would lead to highest implantation potential is required. Predictive value of morphologically selection is limited, therefore more objective selection techniques are being studied A. Biomarkers for oocyte/embryo selection *** Measurement of uptake and secretion of single or specific molecules in the culture medium *** Omics technologies (Genomics, Transcriptomics, Metabolomics, Proteomics), *** Microfluidics with combined omics technology *** Monitorization systems for examining the embryo development more dynamicaly than morphological evaluation *** Birefrigence imaging of oocytes

  3. Current Embryo Assessment Strategies based on Morphology • Association between the morphology and quality/viability of human embryos has been established early during the development of IVF (Edwards 1984) • Even after 30 years assessment of in-vitro grown embryos is performed largely based on morphology. • Although the currently used embryo assessment strategies have been useful in increasing pregnancy rates, and decreasing multiple pregnancies , their accuracy is still far from ideal

  4. Aydıner et al., Cur.Mol.Med. 2010

  5. Standardized Grading Sheme for Morphological Assessment of Embryos

  6. The phases of new techniques

  7. More objective biomarkers for gamete/embryo selection??? Measurement of specific molecules secreted within the culture environment of the embryo, Objective biomarker for gamete/embryo viability? + F&S 2011 Tejera E quality & IR These investigational approaches are all based on the hypothesis that ̋ an embryo that results in a pregnancy alters its environment differently compared to a non-viable embryo ̏ Aydıner et al., Cur.Mol.Med. 2010

  8. Soluble Human Leukocyte Antigen-G(sHLA-G) • HLA-G molecule may play a role in immune tolerance in pregnancy, being expressed in the plasenta . Both membrane and soluble forms (sHLA-G) are identified, possibilly sHLA-G having the role of protecting the developing embryo from the maternal immune system. This led the detection of HLA-G mRNA expression in oocytes & embryos, and a positive correlation was found between embryonic HLA-G mRNA expression and pregnancy (Jurisicova 1996) • It’s suggested that there’s a positive correlation between sHLA-G in the culture media (measured by ELISA) and increased embryo viability and improved pregnancy rates • Vercammen 2008, HR Update Meta-Analysis of 11 studies/1813 patients sHLA-G in embryo culturesupernatants is moderately helpful to predict the ability toachieve a pregnancy in women undergoing infertility treatment.If the embryos are of good quality, however, sHLA-G has a much better diagnostic performance. Our findings underscore the need to address the criticallyimportant issues related to single-embryo transfer, single culturecondition, and sHLA-G detection threshold • Leptin • Secretion of leptin, a small pleitropic peptide linked to food consumption and energy balance, measured in the spent embryo culture medium had shown a positive correlation with blastocyst development ***Both methods are technicially challenging and not practical for a clinical setting

  9. G-CSF-Granulocyte colony-stimulating factor • Plays an important role in early cross talk between mother and conceptus • Regulates reproductive processes at different times during women’s reproductive life Ledee et al., HR 2013 Leede HR 2008, J Reprod. Imm. 2010, F&S 2011

  10. OMICS Technologies • Novel technologies that allow simultaneous profiling of multiple markers (measured from secreted and consumed components within culture medium) of embryonic phenotype • Genomics (requires embryo biopsy-Invasive) • Transciptomics (requires embryo biopsy-Invasive) • Proteomics • Metabolomics • Most of the techniques are invasive, technically challenging, and time consuming, and require agents such as radioactive probes or fluorescent dyes, making them unsuitable for assessment of embryo viability in a clinical setting • Taking into account the complexity and diversity of the human embryo, it would seem reasonable to envisage a combined omics contribution to the characterization of the human embryonic secretome

  11. Nagy et al., RBM Online 2008 Katz et al., MHR 2009

  12. Transcriptomics • Transciptome: All transcribed elements, regardless of whether they are protein-coding sequences or not • Transcriptomics: Microarray analysis through RNA for investigation of gene expression in oocytes and embryos • Small RNA molecules such as microRNAs are isolated and processed. Main focus of transcriptomics is directed at protein-encoding RNAs (mRNA) • Aside from mRNAs,RNA subtypes involved in the maturation process of mRNAs and rRNAs , respectively localized in the nucleus (small nuclear RNAs)and in the nucleolus (small nucleolar RNAs) are important components of transcriptomics • Proportion of mRNAs in a transcriptome account for only 1-2% of total RNA content in somatic cells

  13. Proteomics • Entire complement of proteins expressed by a single embryo at a given time is called the embryonic proteome, and it’s study is proteomics. Since this is related with gene expression, it can give insight into cellular health and viability. • The secretome is the subset of proteins that are exported from the cell in which build up the culture environment • Changes in protein profiles were detected between embryos of different developmental stages, as well as between embryos that progressed versus those arrested. (Katz-Jaffe 2008) • Despite new advances in proteomic techs.,knowledge of the proteome of the mammalian preimplantation embryo remains limited. The combined effect of limited template, low protein expression and the lack of sensitivity of proteomic platforms are the main hurdles

  14. Vergouw et al., HR 2012 had also shown no beneficial effect in addition to morphology

  15. Genomics • Studying the DNA constitution/sequence of cells • DNA determines the sequence of transcripts and is central to protein synthesis and phenotype determination.The existance of genetic determinants for embryo viability is therefore conceivable and could be identified by analysing individual’s DNA. However, specific DNA variant sequences associated with increased viability have not been identified. • In addition the variability in the DNA within a cohort of embryos generated by a given couple will be limited to meiotic recombination. Therefore whether an analysis of embryonic DNA sequence can generate information on embryo viability is still unknown

  16. PGS-Preimplantation Genetic Screening • Whereas DNA sequence analysis is not likely strategy for embryo viability assessment, chromosome numbers and integrity can determine embryo viability • FISH (fluorescent in situ hybridization)-9-12 chromosomes can be tested. However, randomized controlled trials showed no improvement in IVF outcome parameters and some found decrease in IR&PR (Staessen 2004,2008, Mastenbrook 2007,Checa 2009)

  17. Lack of benefit from PGS with FISH; *Injury to the embryo from blastomere biopsy *Mosaicism of the embryo for aneuploidy(potentially leading to false + diagnosis) *Limited no.of chromosomes studied (potentially leading to false – diagnosis) *FISH only detects the presence or the absence of the chromosomal region targeted by the probe(usually at the centromere), and does not provide information about the remainder of the chromosome

  18. PGS-Preimplantation Genetic Screening • PGS using comparitive genomic hybridization (CGH); • Conventional CGH: Advantage over FISH is that the copy no.of all chromosomes can be determined. More detailed analysis of the entire length of each chromosome can be obtained, allowing detection of chromosome segments imbalance(Wilton 2005). Disadvantage is the length of time (3-4 days) required for the procedure, embryos need to be cryopreserved and transferred in the following cycle • Microarray CGH: Analysis completed in <48hrs. No need to cryopreserve cleavage stage embryos or PB screened zygotes

  19. *Day 5 biopsy & 6 ET can only be used for good prognosis patients *TB can only be applied for exp.blasts. *Risk of decreasing the implantation potential of a poor quality blast. by day 6 ET

  20. Microfluidics Microfluidic technology provides a unique means of interfacing known analytical methods for embryo developmental physiology and molecular phenotypes in real time • Fluid handling systems (made of glass or polymer; PDMS) incorporating • structural flow features (eg. branced or unbranched channels) that exploit • the unique physical differences between macro- and micro scale fluids. They • utilize rectilinear fluid channels width >100µm with respect to height >10µm • and up to centimetres long. ( 10µl of culture medium,and 10 mm long would • hold 10nL. Volume:cross section area x lengthFor ex. a human blastocyst • is 175-225 µm in diameter, equating to 5 nL in volume capacity • Aim: Ideal device could be an active, continuous culture platform with • integrated time-lapse imaging and metabolomic or secretomic endpoints, • Providing real-time physiological outputs as the embryo develops, as well • as sampling for interface with more detailed molecular analysis. • Details to be solved before using these devices in clinical practice, • Suitability of microfluidics for analysis of oocyte & embryo morphology, integration of time-lapse monitorization • Adaptation of combined omics technology for oocytes & embryos To produce devices with more automation and less user intervention to systematize assisted reproductive technology laboratories Gardner et al., Human Gametes and Preimplantion Embryos. Assessment and Diagnosis, 2013

  21. Viability assessment by birefringence imaging with polarization microscopy Spindle imaging of the MII oocyte De Santis et al., RBM Online 2005 During meiosis and fertilization meiotic spindles are responsible for proper segregation of the nuclear material, and abnormalities in this fragile structure can lead to infertility, miscarriage and genetic diseases, such as Down syndrome

  22. Why are results contradictory? • The dynamics of spindle formation during oocyte maturation were not considered • Spindle visualization might change within the maturation stages: MI-1st.PB extrution- telaphase I (MS dissapear for 40-60 minutes!!)- MII 2. The microtubules of the MS are highly sensitive to chemical (hyaluronidase), and physical changes ( temperature& pH variations) that may occur during oocyte handling. Shift of the PB1 position may also be related to physical displacement during denudation. • A precise classification spindle imaging should be performed repeatedly: after hyaluronidase treatment and immediately prior to ICSI ***Spindle retardance, length, angle to PB, age differences are also confounding parameters should also be precisely evaluated Rienzi et al., RBM Online 2005 Montag et al.,RBM Online 2006

  23. Oocyte zona birefringence intensity High zona birefringence Low zona birefringence undetectable Montag et al.,RBM Online 2008 Ebner-Balaban F&S 2010 Polarization microscopy allows the distinction of three layers within the ZP. Inner layer exhibits the highest birefringence(Pelletier 2004). Zona birefringence intensity is higher in conception cycles(Shen 2005) Themultilaminar structure of theZP revealed by polarization microscopy is directly linked to the paracrystalline network structure of the zona which is formed during the follicular maturation by the oocyte. So a high birefringence of the inner zona layer might indicate an optimal formation of the ordered structure during oocyte maturation. HZB oocytes can have better conditions during follicular growth and maturation compared with a LZB oocyte with unordered zona structure. Regular structural integrity of ZP may reflect an optimal cytoplasmic potential of an oocyte and its various cellular and molecular structures

  24. Ebner - Balaban F&S 2010

  25. Time-lapse imaging; morphokinetics • One of the fundamental problems of the current embryo quality assessment by morphology is the static evaluation of a highly dynamic developing entity. Current systems analyze the morphology at a few predefined time points during embryo development preimplantation, with the consequent lack of information about what happened between the analyzed points. Thus continual monitoring might provide one strategy to collect a complete picture of embryo developmental kinetics and improve the success rate of viable embryo selection • So far 2 algorithm have been proposed for morphokinetic embryo selection to improve success rates based on parameters derived from time-lapse measurements ** Wong Nat Biotechnology 2010; Analyzed time-lapse image series of embryo development to identify predictive markers of blastocyst development and the underlying gene expression profile (arrested /normal developing) Sample was composed of supernumerary embryos cryopreserved at the 2PN stage and donated to research. None of the embryos were transferred. No data on IR were obtained. Hierarchy of morphokinetic markers were not used for decision making ** Meseguer HR 2010, F&S 2012

  26. Morphokinetic identification of cell cycles: t2,t3,t4,t5,cc2,s2 t2 :1st.cell division cc1 :1st.cell cycle s1 :1st.syncrony Correlation between time taken to reach each development milestrone and the implantation potential of each embryo Meseguer et al.,HR 2011

  27. Time-lapse markers used for clinical outcome predictions Chen et al.,F&S 2013

  28. Conclusions • Morphological markers higly subjective/ predictive value limited! **BUT still remain to be the solely method of choice, and evidence based !! • New objective biomarkers for oocyte and embryo selection • Most likely to be used in the nearest future? • Utilization of polarized microscopy, Time-lapse monitoring : morphokinetics can be widely spread out in clinical setting with more prospective randomized proofs. Perhaps a combination of these systems might be considered in the near future? 2. To be used in the future with improvements? • Combined omics technology integrated into microfluidic devices? More time needed ***FAST, EASY-TO-USE ,NON-INVASIVE and COST EFFECTIVE

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