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38 - Medical Strategies to Improve ART Outcome: Current Evidence

from PART III - ASSISTED REPRODUCTION

Published online by Cambridge University Press:  04 August 2010

By
C. M. Boomsma  and
N. S. Macklon
Edited by
Botros R. M. B. Rizk ,
Juan A. Garcia-Velasco ,
Hassan N. Sallam  and
Antonis Makrigiannakis
Botros R. M. B. Rizk
Affiliation:
University of South Alabama
Juan A. Garcia-Velasco
Affiliation:
Rey Juan Carlos University School of Medicine,
Hassan N. Sallam
Affiliation:
University of Alexandria School of Medicine
Antonis Makrigiannakis
Affiliation:
University of Crete
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Summary

INTRODUCTION

In recent years, much progress has been made in improving embryo quality and selection for transfer after in vitro fertilization (IVF). These include technical improvements in oocyte and embryo culture conditions, assisted hatching, the use of sequential media, and the use of embryo-endometrial coculture for selected patients. Moreover, preimplantation genetic screening (PGS) has been introduced with the aim of improving embryo selection on the basis of chromosomal compliment. However, despite these advances, even when embryos are considered to be of high quality using morphological and chromosomal criteria, implantation rates remain around 25–35 percent per embryo transfer procedure (The European IVF-monitoring program, 2005).

High rates of implantation failure and early pregnancy loss in IVF continue to be a considerable cause of frustration to both patients and clinicians. The practice of transferring multiple embryos to increase the chance of implantation continues in contemporary practice. However, this approach is now being seen less as the “solution” to low implantation rates but rather more as the cause of the most important problem arising from IVF treatment: that of multiple pregnancy (Fauser et al., 2005). The widespread adoption of single-embryo transfer (SET) is recognized to be necessary if the morbidity associated with IVF multiple pregnancies is to be reduced (Fauser et al., 2005). In order to improve implantation rates in the age of SET, medical strategies designed to increase the chance of successful implantation are sought and applied in practice, often before they have been subject to appropriate clinical assessment in the context of randomized controlled trials (RCTs) (Boomsma and Macklon, 2006).

Keywords

aromatase inhibitorsaspirinembryo implantationembryo transferinsulin-sensitizing drugsluteal phase managementnitric oxide donorsin vitro fertilizationovarian stimulation protocol
Type
Chapter
Information
Infertility and Assisted Reproduction , pp. 349 - 360
Publisher: Cambridge University Press
Print publication year: 2008

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References

Aboulghar, MA, Mansour, RT, Serour, GI. 1998. Controversies in the modern management of hydrosalpinx. Human Reproduction Update 4 882–890.CrossRefGoogle ScholarPubMed
Ando, T, Suganuma, N, Furuhashi, M, Asada, Y, Kondo, I, Tomoda, Y. 1996. Successful glucocorticoid treatment for patients with abnormal autoimmunity on in vitro fertilization and embryo transfer. Journal of Assisted Reproduction and Genetics 13 776–781.CrossRefGoogle ScholarPubMed
Baart, EB, Martini, E, Eijkemans, MJC, Opstal, D, Beckers, NG, Verhoeff, A, Macklon, NS, Fauser, BC. 2006. Milder ovarian stimulation for in vitro fertilization reduces aneuploidy in the human preimplantation embryo: a randomized controlled trial. Human Reproduction (in press).Google Scholar
Bancsi, , Broekmans, FJM, Mol, BWJ, Habbema, JD, te Velde, ER. 2003. Performance of basal follicle-stimulating hormone in the prediction of poor ovarian response and failure to become pregnant after in vitro fertilization: a meta-analysis. Fertility and Sterility 79 1091–1100.CrossRefGoogle ScholarPubMed
Barker, DJ. 1994. Maternal and fetal origins of coronary heart disease. Journal of the Royal College of Physicians of London 28 544–551.Google ScholarPubMed
Barnhart, K, Dunsmoor-Su, R, Coutifaris, C. 2002. Effect of endometriosis on in vitro fertilization. Fertility and Sterility 77 1148–1155.CrossRefGoogle ScholarPubMed
Battaglia, C, Regnani, G, Marsella, T, Facchinetti, F, Volpe, A, Venturoli, S, Flamigni, C. 2002. Adjuvant L-arginine treatment in controlled ovarian hyperstimulation: a double-blind, randomized study. Human Reproduction 17 659–665.CrossRefGoogle ScholarPubMed
Battaglia, C, Salvatori, M, Maxia, N, Petraglia, F, Facchinetti, F, Volpe, A. 1999. Adjuvant L-arginine treatment for in-vitro fertilization in poor responder patients. Human Reproduction 14 1690–1697.CrossRefGoogle ScholarPubMed
Beckers, NG, Macklon, NS, Eijkemans, MJ, Ludwig, M, Felberbaum, RE, Diedrich, K, Bustion, S, Loumaye, E, Fauser, BC. 2003. Nonsupplemented luteal phase characteristics after the administration of recombinant human chorionic gonadotropin, recombinant luteinizing hormone, or gonadotropin-releasing hormone (GnRH) agonist to induce final oocyte maturation in in vitro fertilization patients after ovarian stimulation with recombinant follicle-stimulating hormone and GnRH antagonist cotreatment. Journal of Clinical Endocrinology Metabolism 88 4186–4192.CrossRefGoogle ScholarPubMed
Blois, SM, Joachim, R, Kandil, J, Margni, R, Tometten, M, Klapp, BF, Arck, PC. 2004. Depletion of CD8+ Cells abolishes the pregnancy protective effect of progesterone substitution with dydrogesterone in mice by altering the Th1/Th2 cytokine profile. The Journal of Immunology 172 5893–5899.CrossRefGoogle ScholarPubMed
Boomsma, CM, Eijkemans, MJ, Keay, SD, Macklon, NS. 2006. Peri-implantation glucocorticoid administration for assisted reproductive technology cycles. Cochrane Database of Systematic Reviews (in press).CrossRefGoogle Scholar
Boomsma, CM, Macklon, NS. 2006. What can the clinician do to improve implantation?Reproductive Biomedicine Online 13 845–855.CrossRefGoogle ScholarPubMed
Boxmeer, JC, Brouns, MM, Lindemans, J, Martini, E, Macklon, NS, Steegers-Teunissen, RPM. 2005. Folic acid treatment affects oocyte environment. Journal of Social Gynecological Investigation 12 24A.Google Scholar
Boxmeer, JC, Smit, M, Weber, RFA, Lindemans, J, Romijn, JC, Eijkemans, MJC, Macklon, NS, Steegers-Teunissen, RPM. 2006. Seminal plasma cobalamin significantly correlates with sperm concentration. Journal of Social Gynecological Investigation (in press).Google Scholar
Buckett, WM. 2003. A meta-analysis of ultrasound-guided versus clinical touch embryo transfer. Fertility and Sterility 80 1037–1041.CrossRefGoogle ScholarPubMed
Buckett, WM. 2006. A review and meta-analysis of prospective trials comparing different catheters used for embryo transfer. Fertility and Sterility 85 728–734.CrossRefGoogle ScholarPubMed
Checa, MA, Requena, A, Salvador, C, Tur, R, Callejo, J, Espinos, JJ, Fabregues, F, Herrero, J; Reproductive Endocrinology Interest Group of the Spanish Society of Fertility. 2005. Insulin-sensitizing agents: use in pregnancy and as therapy in polycystic ovary syndrome. Human Reproduction Update 11 375–390.CrossRefGoogle ScholarPubMed
Cole, PA, Robinson, CH. 1990. Mechanism and inhibition of cytochrome P-450 aromatase. Journal of Medicinal Chemistry 33 2933–2942.CrossRefGoogle ScholarPubMed
Collins JA BEWAR, . 1995. The prognosis for live birth among untreated infertile couples. Fertility and Sterility 64 22–28.Google Scholar
Coroleu, B, Barri, PN, Carreras, O, Martinez, F, Parriego, M, Hereter, L, Parera, N, Veiga, A, Balasch, J. 2002. The influence of the depth of embryo replacement into the uterine cavity on implantation rates after IVF: a controlled, ultrasound-guided study. Human Reproduction 17 341–346.CrossRefGoogle ScholarPubMed
Costea, DM, Gunn, LK, Hargreaves, C, Howell, RJ, Chard, T. 2000. Delayed luteo-placental shift of progesterone production in IVF pregnancy. International Journal of Gynaecology and Obstetrics 68 123–129.CrossRefGoogle ScholarPubMed
Costello, MF, Chapman, M, Conway, U. 2006. A systematic review and meta-analysis of randomized controlled trials on metformin co-administration during gonadotrophin ovulation induction or IVF in women with polycystic ovary syndrome. Human Reproduction 21 1387–1399.CrossRefGoogle ScholarPubMed
Coulam, CB, Stern, JJ, Soenksen, DM, Britten, S, Bustillo, M. 1995. Comparison of pulsatility indices on the day of oocyte retrieval and embryo transfer. Human Reproduction 10 82–84.CrossRefGoogle ScholarPubMed
Daya, S, Gunby, J. 2004. Luteal phase support in assisted reproduction cycles. Cochrane Database of Systematic Review CD004830.CrossRefGoogle ScholarPubMed
Daya, S. 2006. Is there a benefit of low-dose aspirin in assisted reproduction?Current Opinions in Obstetrics and Gynecology 18 313–318.CrossRefGoogle Scholar
Jong-Potjer, LC, Elsinga, J. 2006. Preconception counselling in general practice. Doctoral thesis.Google Scholar
Devroey, P, Bourgain, C, Macklon, NS, Fauser, BC. 2004. Reproductive biology and IVF: ovarian stimulation and endometrial receptivity. Trends in Endocrinology and Metabolism 15 84–90.CrossRefGoogle ScholarPubMed
Dey, SK, Lim, H, Das, SK, Reese, J, Paria, BC, Daikoku, T, Wang, H. 2004. Molecular cues to implantation. Endocrine Reviews 25 341–373.CrossRefGoogle Scholar
Di Nisio, M, Peters, L, Middeldorp, S. 2005. Anticoagulants for the treatment of recurrent pregnancy loss in women without antiphospholipid syndrome. Cochrane Database of Systematic Reviews CD004734.CrossRefGoogle ScholarPubMed
Donderwinkel, PF, Schoot, DC, Pache, TD, Jong, FH, Hop, WC, Fauser, BC. 1993. Luteal function following ovulation induction in polycystic ovary syndrome patients using exogenous gonadotrophins in combination with a gonadotrophin-releasing hormone agonist. Human Reproduction 8 2027–2032.CrossRefGoogle ScholarPubMed
Duvan, CI, Ozmen, B, Satiroglu, H, Atabekoglu, CS, Berker, B. 2006. Does addition of low-dose aspirin and/or steroid as a standard treatment in nonselected intracytoplasmic sperm injection cycles improve in vitro fertilization success? A randomized, prospective, placebo-controlled study. Journal of Assisted Reproductive Genetics 23 15–21.CrossRefGoogle ScholarPubMed
Eijkemans, MJC, Imani, B, Mulders, AGMG, Habbema, JD, Fauser, BCJM. 2003. High singleton live birth rate following classical ovulation induction in normogonadotrophic anovulatory infertility (WHO 2). Human Reproduction 18 2357–2362.CrossRefGoogle Scholar
Empson, M, Lassere, M, Craig, J, Scott, J. 2005. Prevention of recurrent miscarriage for women with antiphospholipid antibody or lupus anticoagulant. Cochrane Database of Systematic Reviews CD002859.CrossRefGoogle ScholarPubMed
Empson, M, Lassere, M, Craig, JC, Scott, JR. 2002. Recurrent pregnancy loss with antiphospholipid antibody: a systematic review of therapeutic trials. Obstetrics Gynecology 99 135–144.Google ScholarPubMed
The European IVF-monitoring program. 2005. Assisted reproductive technology in Europe, 2001. Results generated from European registers by ESHRE. Human Reproduction20 1158–1176.
Fanchin, R, Righini, C, Ziegler, D, Olivennes, F, Ledee, N, Frydman, R. 2001. Effects of vaginal progesterone administration on uterine contractility at the time of embryo transfer. Fertility and Sterility 75 1136–1140.CrossRefGoogle ScholarPubMed
Fanchin, R, Righini, C, Olivennes, F, Taylor, S, Ziegler, D, Frydman, R. 1998. Uterine contractions at the time of embryo transfer alter pregnancy rates after in-vitro fertilization. Human Reproduction 13 1968–1974.CrossRefGoogle ScholarPubMed
Fauser, BC, Devroey, P, Macklon, NS. 2005. Multiple birth resulting from ovarian stimulation for subfertility treatment. Lancet 365 1807–1816.CrossRefGoogle ScholarPubMed
Fauser, BC, Devroey, P, Yen, SS, Gosden, R, Crowley, WF Jr., Baird, DT, Bouchard, P. 1999. Minimal ovarian stimulation for IVF: appraisal of potential benefits and drawbacks. Human Reproduction 14 2681–2686.CrossRefGoogle ScholarPubMed
Fauser, BC, Macklon, NS. 2004. Medical approaches to ovarian stimulation for infertility. In Yen and Jaffe's Reproductive Endocrinology, Strauss, BRJF, Ed. Elsevier Saunders: Philadelphia.Google Scholar
Fauser, BCJM, Devroey, P. 2003. Reproductive biology and IVF: ovarian stimulation and luteal phase consequences. Trends in Endocrinology and Metabolism 14 236–242.CrossRefGoogle ScholarPubMed
Gaast, MH, Eijkemans, MJC, Net, JB, Boer, EJ, Burger, CW, Leeuwen, FE, Fauser, BC, Macklon, NS. 2006. The optimum number of oocytes for a successful first IVF treatment cycle. Reproductive Biomedicine Online (in press).Google ScholarPubMed
Garcia, J, Jones, GS, Acosta, AA, Wright, GL Jr. 1981. Corpus luteum function after follicle aspiration for oocyte retrieval. Fertility and Sterility 36 565–572.CrossRefGoogle ScholarPubMed
Geva, E, Amit, A, Lerner-Geva, L, Yaron, Y, Daniel, Y, Schwartz, T, Azem, F, Yovel, I, Lessing, JB. 2000. Prednisone and aspirin improve pregnancy rate in patients with reproductive failure and autoimmune antibodies: a prospective study. American Journal of Reproductive Immunology 43 36–40.CrossRefGoogle ScholarPubMed
Goswami, SK, Das, T, Chattopadhyay, R, Sawhney, V, Kumar, J, Chaudhury, K, Chakravarty, BN, Kabir, SN. 2004. A randomized single-blind controlled trial of letrozole as a low-cost IVF protocol in women with poor ovarian response: a preliminary report. Human Reproduction 19 2031–2035.CrossRefGoogle ScholarPubMed
Greb, RR, Behre, HM, Simoni, M. 2005. Pharmacogenetics in ovarian stimulation—current concepts and future options. Reproductive Biomedicine Online 11 589.CrossRefGoogle ScholarPubMed
Griesinger, G, Franke, K, Kinast, C, Kutzelnigg, A, Riedinger, S, Kulin, S, Kaali, SG, Feichtinger, W. 2002. Ascorbic acid supplement during luteal phase in IVF. Journal of Assisted Reproduction and Genetics 19 164–168.CrossRefGoogle ScholarPubMed
Guimond, MJ, Wang, B, Croy, BA. 1998. Engraftment of bone marrow from severe combined immunodeficient (SCID) mice reverses the reproductive deficits in natural killer cell-deficient tg epsilon 26 mice. Journal of Experimental Medicine 187 217–223.CrossRefGoogle ScholarPubMed
Healey, S, Tan, SL, Tulandi, T, Biljan, MM. 2003. Effects of letrozole on superovulation with gonadotropins in women undergoing intrauterine insemination. Fertility and Sterility 80 1325–1329.CrossRefGoogle ScholarPubMed
Heijnen, EM, Eijkemans, MJ, Hughes, EG, Laven, JS, Macklon, NS, Fauser, BC. 2005. A meta-analysis of outcomes of conventional IVF in women with polycystic ovary syndrome. Human Reproduction Update.Google ScholarPubMed
Heijnen, EM, Macklon, NS, Fauser, BC. 2004. What is the most relevant standard of success in assisted reproduction? The next step to improving outcomes of IVF: consider the whole treatment. Human Reproduction 19 1936–1938.CrossRefGoogle ScholarPubMed
Hohmann, FP, Macklon, NS, Fauser, BC. 2003. A randomized comparison of two ovarian stimulation protocols with gonadotropin-releasing hormone (GnRH) antagonist cotreatment for in vitro fertilization commencing recombinant follicle-stimulating hormone on cycle day 2 or 5 with the standard long GnRH agonist protocol. Journal of Clinical Endocrinology Metabolism 88 166–173.CrossRefGoogle ScholarPubMed
Johnson, NP, Mak, W, Sowter, MC. 2002. Laparoscopic salpingectomy for women with hydrosalpinges enhances the success of IVF: a Cochrane review. Human Reproduction 17 543.CrossRefGoogle ScholarPubMed
Jones, HW Jr. 1996. What has happened? Where are we?Human Reproduction 11 7.CrossRefGoogle Scholar
Kolibianakis, EM, Bourgain, C, Papanikolaou, EG, Camus, M, Tournaye, H, Steirteghem, AC, Devroey, P. 2005. Prolongation of follicular phase by delaying hCG administration results in a higher incidence of endometrial advancement on the day of oocyte retrieval in GnRH antagonist cycles. Human Reproduction 20 2453–2456.CrossRefGoogle Scholar
Kontoravdis A, Makrakis E, Pantos K, Botsis D, Deligeoroglou E, Creatsas G. Proximal tubal occlusion and salpingectomy result in similar improvement in in vitro fertilization outcome in patients with hydrosalpinx. Fertility and Sterility (in press).
Korn, AP, Bolan, G, Padian, N, Ohm-Smith, M, Schachter, J, Landers, DV. 1995. Plasma cell endometritis in women with symptomatic bacterial vaginosis. Obstetrics and Gynecology 85 387–390.CrossRefGoogle ScholarPubMed
Kuo, HC, Hsu, CC, Wang, ST, Huang, KE. 1997. Aspirin improves uterine blood flow in the peri-implantation period. Journal of the Formosan Medical Association 96 253–257.Google ScholarPubMed
Ledee-Bataille, N, Bonnet-Chea, K, Hosny, G, Dubanchet, S, Frydman, R, Chaouat, G. 2005. Role of the endometrial tripod interleukin-18, -15, and -12 in inadequate uterine receptivity in patients with a history of repeated in vitro fertilization-embryo transfer failure. Fertility and Sterility 83 598–605.CrossRefGoogle ScholarPubMed
Lee, TH, Wu, MY, Chen, MJ, Chao, KH, Ho, HN, Yang, YS. 2004. Nitric oxide is associated with poor embryo quality and pregnancy outcome in in vitro fertilization cycles. Fertility and Sterility 82 126–131.CrossRefGoogle ScholarPubMed
Lintsen, AM, Pasker-de Jong, PC, Boer, EJ, Burger, CW, Jansen, CA, Braat, DD, Leeuwen, FE. 2005. Effects of subfertility cause, smoking and body weight on the success rate of IVF. Human Reproduction 20 1867–1875.CrossRefGoogle ScholarPubMed
Liversedge, NH, Turner, A, Horner, PJ, Keay, SD, Jenkins, JM, Hull, MG. 1999. The influence of bacterial vaginosis on in-vitro fertilization and embryo implantation during assisted reproduction treatment. Human Reproduction 14 2411–2415.CrossRefGoogle ScholarPubMed
Lord, JM, Flight, IH, Norman, RJ. 2003. Insulin-sensitising drugs (metformin, troglitazone, rosiglitazone, pioglitazone, D-chiro-inositol) for polycystic ovary syndrome. Cochrane Database of Systematic Reviews. Issue 2. Art.No.: CD003053.Google ScholarPubMed
Luck, MR, Jeyaseelan, I, Scholes, RA. 1995. Ascorbic acid and fertility. Biology of Reproduction 52 262–266.CrossRefGoogle ScholarPubMed
Luck, MR, Zhao, Y. 1993. Identification and measurement of collagen in the bovine corpus luteum and its relationship with ascorbic acid and tissue development. Journal of Reproduction and Fertility 99 647–652.CrossRefGoogle ScholarPubMed
Ma, Wg, Song, H, Das, SK, Paria, BC, Dey, SK. 2003. Estrogen is a critical determinant that specifies the duration of the window of uterine receptivity for implantation. Proceedings of the National Academy of Sciences 100 2963–2968.CrossRefGoogle ScholarPubMed
Macklon, NS, Fauser, BC. 2000. Impact of ovarian hyperstimulation on the luteal phase. Journal of Reproduction and Fertility 55 101–108.Google ScholarPubMed
Macklon, NS, Pieters, MHEC, Fauser, BCJM. 2004. Indications for IVF treatment: from diagnosis to prognosis. In Textbook of Assisted Reproductive Techniques: Laboratory and Clinical Perspectives, edn 2, Gardner, DK, Weissman, A, Howles, CM, Shoham, Z, Eds. London: Taylor and Francis.Google Scholar
Macklon, NS, Stouffer, RL, Giudice, LC, Fauser, BC. 2006. The science behind 25 years of ovarian stimulation for in vitro fertilization. Endocrine Reviews 27 170–207.CrossRefGoogle ScholarPubMed
Mitwally, MF, Casper, RF. 2003. Aromatase inhibition reduces gonadotrophin dose required for controlled ovarian stimulation in women with unexplained infertility. Human Reproduction 18 1588–1597.CrossRefGoogle ScholarPubMed
Mitwally, MF, Casper, RF. 2004. Aromatase inhibition reduces the dose of gonadotropin required for controlled ovarian hyperstimulation. Journal of Social Gynecological Investigation 11 406–415.CrossRefGoogle ScholarPubMed
Miyazaki, S, Tanebe, K, Sakai, M, Michimata, T, Tsuda, H, Fujimura, M, Nakamura, M, Kiso, Y, Saito, S. 2002. Interleukin 2 receptor gamma chain (gamma(c)) knockout mice show less regularity in estrous cycle but achieve normal pregnancy without fetal compromise. American Journal of Reproductive Immunology 47 222–230.CrossRefGoogle ScholarPubMed
Nestler, JE. 2002. Should patients with polycystic ovarian syndrome be treated with metformin?: an enthusiastic endorsement. Human Reproduction 17 1950–1953.CrossRefGoogle Scholar
Norman, RJ, Clark, AM. 1998. Obesity and reproductive disorders: a review. Reproduction, Fertility and Development 10 55–63.CrossRefGoogle ScholarPubMed
Nyboe, AA, Popovic-Todorovic, B, Schmidt, KT, Loft, A, Lindhard, A, Hojgaard, A, Ziebe, S, Hald, F, Hauge, B, Toft, B. 2002. Progesterone supplementation during early gestations after IVF or ICSI has no effect on the delivery rates: a randomized controlled trial. Human Reproduction 17 357–361.CrossRefGoogle Scholar
Oliveira, JB, Martins, AM, Baruffi, RL, Mauri, AL, Petersen, CG, Felipe, V, Contart, P, Pontes, A, Franco, JG Jr. 2004. Increased implantation and pregnancy rates obtained by placing the tip of the transfer catheter in the central area of the endometrial cavity. Reproductive Biomedicine Online 9 435–441.CrossRefGoogle ScholarPubMed
Pakkila, M, Rasanen, J, Heinonen, S, Tinkanen, H, Tuomivaara, L, Makikallio, K, Hippelainen, M, Tapanainen, JS, Martikainen, H. 2005. Low-dose aspirin does not improve ovarian responsiveness or pregnancy rate in IVF and ICSI patients: a randomized, placebo-controlled double-blind study. Human Reproduction 20 2211–2214.CrossRefGoogle ScholarPubMed
Paszkowski, T, Clarke, RN, Hornstein, MD. 2002. Smoking induces oxidative stress inside the Graafian follicle. Human Reproduction 17 921–925.CrossRefGoogle ScholarPubMed
Popovic-Todorovic, B, Loft, A, Bredkjaeer, HE, Bangsboll, S, Nielsen, IK, Andersen, AN. 2003a. A prospective randomized clinical trial comparing an individual dose of recombinant FSH based on predictive factors versus a ‘standard’ dose of 150 IU/day in ‘standard’ patients undergoing IVF/ICSI treatment. Human Reproduction 18 2275–2282.CrossRefGoogle ScholarPubMed
Popovic-Todorovic, B, Loft, A, Lindhard, A, Bangsboll, S, Andersson, AM, Andersen, AN. 2003b. A prospective study of predictive factors of ovarian response in ‘standard’ IVF/ICSI patients treated with recombinant FSH. A suggestion for a recombinant FSH dosage normogram. Human Reproduction 18 781–787.CrossRefGoogle ScholarPubMed
The Practice Committee of the American Society for Reproductive M. 2006. Smoking and infertility. Fertility and Sterility86 S172–S177.
Quenby, S, Kalumbi, C, Bates, M, Farquharson, R, Vince, G. 2005. Prednisolone reduces preconceptual endometrial natural killer cells in women with recurrent miscarriage. Fertility and Sterility 84 980–984.CrossRefGoogle ScholarPubMed
Rizk, B, Abdalla, H. 2008. In Vitro fertilization. In: Rizk, B, Abdalla, H (Eds.), Infertility and Assisted Reproductive Technology. Oxford: United Kingdom. Cambridge University Press, chapter 7, pp. 112–114.CrossRefGoogle Scholar
Romundstad, LB, Romundstad, PR, Sunde, A, During, Vv, Skjarven, R, Vatten, LJ. 2006. Increased risk of placenta previa in pregnancies following IVF/ICSI; a comparison of ART and non-ART pregnancies in the same mother. Human Reproduction 21 1532–4.CrossRefGoogle ScholarPubMed
Rubinstein, M, Marazzi, A, Polak dF, . 1999. Low-dose aspirin treatment improves ovarian responsiveness, uterine and ovarian blood flow velocity, implantation, and pregnancy rates in patients undergoing in vitro fertilization: a prospective, randomized, double-blind placebo-controlled assay. Fertility and Sterility 71 825–829.CrossRefGoogle ScholarPubMed
Salim, R, Ben Shlomo, I, Colodner, R, Keness, Y, Shalev, E. 2002. Bacterial colonization of the uterine cervix and success rate in assisted reproduction: results of a prospective survey. Human Reproduction 17 337–340.CrossRefGoogle ScholarPubMed
Simon, C, Cano, F, Valbuena, D, Remohi, J, Pellicer, A. 1995. Clinical evidence for a detrimental effect on uterine receptivity of high serum oestradiol concentrations in high and normal responder patients. Human Reproduction 10 2432–2437.CrossRefGoogle ScholarPubMed
Stern, C, Chamley, L, Norris, H, Hale, L, Baker, HW. 2003. A randomized, double-blind, placebo-controlled trial of heparin and aspirin for women with in vitro fertilization implantation failure and antiphospholipid or antinuclear antibodies. Fertility and Sterility 80 376–383.CrossRefGoogle ScholarPubMed
Strandell, A, Lindhard, A, Waldenstrom, U, Thorburn, J. 2001. Hydrosalpinx and IVF outcome: cumulative results after salpingectomy in a randomized controlled trial. Human Reproduction 16 2403–2410.CrossRefGoogle Scholar
Strandell, A. 2005. The patient with hydrosalpinx. In IVF in the Medically Complicated Patient: A Guide to Management, Macklon, NS, Ed. Abingdon: Taylor and Francis.Google Scholar
Tang, T, Glanville, J, Orsi, N, Barth, JH, Balen, AH. 2006. The use of metformin for women with PCOS undergoing IVF treatment. Human Reproduction 21 1416–1425.Google Scholar
Tarlatzis, BC, Zepiridis, L, Grimbizis, G, Bontis, J. 2003. Clinical management of low ovarian response to stimulation for IVF: a systematic review. Human Reproduction Update 9 61–76.CrossRefGoogle ScholarPubMed
Templeton, A, Morris, JK, Parslow, W. 1996. Factors that affect outcome of in-vitro fertilisation treatment. Lancet 348 1402–1406.CrossRefGoogle ScholarPubMed
Urman, B, Mercan, R, Alatas, C, Balaban, B, Isiklar, A, Nuhoglu, A. 2000. Low-dose aspirin does not increase implantation rates in patients undergoing intracytoplasmic sperm injection: a prospective randomized study. Journal of Assisted Reproduction and Genetics 17 586–590.CrossRefGoogle Scholar
Rooij, IAJ, Bancsi, LFJM, Broekmans, FJM, Looman, CWN, Habbema, JD, te Velde, ER. 2003. Women older than 40 years of age and those with elevated follicle-stimulating hormone levels differ in poor response rate and embryo quality in in vitro fertilization. Fertility and Sterility 79 482–488.CrossRefGoogle ScholarPubMed
Waldenstrom, U, Hellberg, D, Nilsson, S. 2004. Low-dose aspirin in a short regimen as standard treatment in in vitro fertilization: a randomized, prospective study. Fertility and Sterility 81 1560–1564.CrossRefGoogle Scholar
Wegmann, TG, Lin, H, Guilbert, L, Mosmann, TR. 1993. Bidirectional cytokine interactions in the maternal-fetal relationship: is successful pregnancy a TH2 phenomenon?Immunology Today 14 353–356.CrossRefGoogle ScholarPubMed
Younglai, EV, Holloway, AC, Foster, WG. 2005. Environmental and occupational factors affecting fertility and IVF success. Human Reproduction Update 11 43–57.CrossRefGoogle ScholarPubMed
Zenzes, MT, Krishnan, S, Krishnan, B, Zhang, H, Casper, RF. 1995a. Cadmium accumulation in follicular fluid of women in in vitro fertilization-embryo transfer is higher in smokers. Fertility and Sterility 64 599–603.CrossRefGoogle ScholarPubMed
Zenzes, MT, Wang, P, Casper, RF. 1995b. Cigarette smoking may affect meiotic maturation of human oocytes. Hum Reprod 10 3213–3217.Google ScholarPubMed

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