Presentation is loading. Please wait.

Presentation is loading. Please wait.

Prediction and prevention of OHSS - an evidence-based approach Hassan N. Sallam, MD, FRCOG, PhD (London) Professor in Obstetrics and Gynaecology The University.

Similar presentations


Presentation on theme: "Prediction and prevention of OHSS - an evidence-based approach Hassan N. Sallam, MD, FRCOG, PhD (London) Professor in Obstetrics and Gynaecology The University."— Presentation transcript:

1 Prediction and prevention of OHSS - an evidence-based approach Hassan N. Sallam, MD, FRCOG, PhD (London) Professor in Obstetrics and Gynaecology The University of Alexandria, and Clinical and Scientific Director, Alexandria Fertility Center, Alexandria, Egypt 3rd Congress of Society of Reproductive Medicine, 5 – 9 October 2011, Antalya / Turkey

2 The old Alexandria medical school

3 The uterus (after Soranos of Ephesus)

4 Ovarian hyperstimulation syndrome (OHSS) Rabau et al, Am J Obstet Gynecol 98: 92, 1967

5 Ovarian hyperstimulation syndrome Ovarian hyperstimulation syndrome (OHSS) is a rare iatrogenic complication of ovarian stimulation occurring during the luteal phase or during early pregnancy. It is potentially fatal and is difficult to predict. Fortunately, the reported prevalence of the severe form of OHSS is small, ranging from 0.5 to 5%.

6 OHSS – a potentially fatal complication Figueroa-Casas. Extraordinary ovarian reaction to gonadotropins: fatal case. Ann Circ (Rosario): 23: 116, 1958 Schenker and Weinstein. Ovarian hyperstimulation syndrome: a current survey. Fertil Steril 30: 255, 1978 Fineschi et al. An immunohistochemical study in a fatality due to ovarian hyperstimulation syndrome. Int J Legal Med 120: 293, 2006 Madill et al. Ovarian hyperstimulation syndrome: a potentially fatal complication of early pregnancy. J Emerg Med 35: 283, 2008

7 Early and late OHSS Early onset OHSS 3 to 7 days after HCG Excessive response to stimulation Late onset OHSS 12 to 17 days after HCG Due to pregnancy Lyons et al, Hum Reprod. 9: 792, 1994; Mathur et al, Fertil Steril 73: 901, 2000

8 Classification (grading) of OHSS Rabau et al, 1967 Schenker and Weinstein, 1978 Golan et al, 1989 Navot et al, 1992 Rizk and Aboulghar, 1999 Rabau et al, Am J Obstet Gynecol 98: 92, 1967; Schenker and Weinstein, Fertil Steril 30: 155, 1978; Golan et al, Obstet Gynecol Surv 44: 430, 1989; Navot et al, Fertil Steril 58: 249, 1992; Rizk and Aboulghar, Textbook of IVF and ART 9: 131, 1999

9 OHSS grading (Golan et al, 1989) Mild Moderate Severe

10 Pathophysiology of OHSS

11 Prevention of OHSS 1. Prediction of OHSS 2. Primary prevention (before starting HMG/FSH) 3. Secondary prevention (after starting HMG/FSH and before HCG administration)

12 Evidence-based medicine Level A – The recommendation based on good and consistent scientific evidence (RCT) Level B – The recommendation is based on limited or inconsistent scientific evidence (CT, cohort, case control) Level C – The recommendation is based primarily on consensus and expert opinion

13 Prevention of OHSS 1. Prediction of OHSS 2. Primary prevention (before starting HMG/FSH) 3. Secondary prevention (after starting HMG/FSH and before HCG administration)

14 Prediction of OHSS (A) Risk factors: PCOS, young patients, low BMI, previous OHSS, pregnancy, genetic predisposition (B) Biochemical indices: Plasma oestradiol peak, insulin resistance, serum VEGF, von Willebrand factor, FSH, AMH (C) Ultrasound indices: PCO pattern, high AFC, ovarian volume, low intra-ovarian vascular resistance

15 Prediction of OHSS (A) Risk factors: PCOS, young patients, low BMI, previous OHSS, pregnancy, genetic predisposition (B) Biochemical indices: Plasma oestradiol peak, insulin resistance, serum VEGF, von Willebrand factor, FSH, AMH (C) Ultrasound indices: PCO pattern, high AFC, ovarian volume, low intra-ovarian vascular resistance

16 Polycystic ovary syndrome (Chereau, 1844; Stein and Leventhal, 1934) Read at a meeting of the Central Association of Obstetricians and Gynecologists, November 1 to 3, 1934, New Orleans, La

17 Relationship between PCOS and OHSS StudyPatients with OHSS ControlsP value Smitz et al, 199050% (5/10)None (0/1663)<0.0001 MacDougall et al, 1992 63 % (5/8)None (0/1287)<0.0001 Delvigne et al, 1993 37 % (47/128)15 % (38/256)<0.0001 Smitz et al, Hum Reprod 5: 933, 1990; MacDougall et al, Hum Reprod 7: 597, 1992; Delvigne et al, Hum Reprod 8: 1361, 1993

18 Relationship between age and OHSS StudyPatients with OHSS (Age in years) Controls (Age in years) P value Navot et al, 198827.8 ± 3.631.5 ± 5.7<0.05 Lyons et al, 199429.7 ± 1.833.9 ± 0.15<0.05 Delvigne et al, 1993 30.2 ± 3.532.0 ± 4.5<0.05 Enskog et al, 199930.2 ± 0.732.5 ± 0.2<0.05

19 Relationship between BMI and OHSS StudyNumber of patients with OHSS Number of control subjects P value Papanikolau et al, 2006 23.13 ± 0.823.05 ± 0.1NS Delvigne et al, 1993 22.0 ± 3.421.9 ± 3.2NS Enskog et al, 199923.2 ± 0.9223.0 ± 0.16NS Papnikolau et al, Fertil Steril 85: 112, 2006; Delvigne et al, Hum Reprod 9: 1361, 1993; Enskog et al, Fertil Steril 71: 808, 1999

20 Genetic predisposition to predict OHSS FSH receptor FSH

21 Genetic predisposition to predict OHSS Allelic frequenciesGenotypic frequencies ATAAATTT Caucasian controls 40% (78)60 % (118)17 % (17)45 % (44)38 % (37) IVF controls 48 % (121)52 % (131)25 % (31)47 % (59)28 % (36) OHSS patients 55 % (41)45 % (33)30 % (11)51 % (19)19 % (7) P valueNS Daelemans et al, J Clin Endocrinol Metab 89:6310, 2004

22 Prediction of OHSS (A) Risk factors: PCOS, young patients, low BMI, previous OHSS, pregnancy, genetic predisposition (B) Biochemical indices: Plasma oestradiol peak, insulin resistance, serum VEGF, von Willebrand factor, FSH, AMH (C) Ultrasound indices: PCO pattern, high AFC, ovarian volume, low intra-ovarian vascular resistance

23 Plasma E2 concentration to predict OHSS Cut-off value For E2 = 2560 ng/L For follicles >12 Papanikolau et al, Fertil Steril 85: 112, 2006

24 Insulin resistance to predict OHSS in PCOS Normo- insulinaemic (n = 21) Hyper- insulinaemic (n = 31) P value Mean total dose of HMG ± SD (IU) 1395 ± 4721507 ± 727NS Mean dose/BMI ± SD (IU/BMI) 57.7 ± 18.754 ± 18NS Ovulation rate (n/cycle) 85.7 % (18/21)83.8% (26/31)NS OHSS rate (n/cycle) 23.8 % (5/21)64.5 % (20/31)<0.05 * Pregnancy rate (n/cycle) 28.5 % (6/21)16% (5/31)NS Abortions (n/pregnancies) 16.6 % (1/6)20% (1/5)NS Felghesu et al. JCEM 82: 644, 1997

25 Serum VEGF to predict OHSS Early onset OHSS Ludwig et al, Hum Reprod 13: 30, 1998 Late onset OHSS

26 Von Willebrand factor to predict OHSS Todorow et al, Hum Reprod 8: 2039, 1993

27 Day 3 FSH to predict OHSS Onagawa et al, Gynecol Endocrinol 18:335-40, 2004 PregnantNon-pregnantP value 4.4+/-1.3 mIU/ml 6.1+/-2.9 mIU/ml 0.001 OHSSNo OHSSP value 4.5+/-1.2 mIU/ml 5.9+/-2.8 mIU/ml 0.003 Cut-off point = 5.25 mIU/ml

28 AMH to predict OHSS Lee et al. Hum Reprod 23: 160, 2008 AMH Age BMI Cut-off value 3.36 ng/ml Cut-off value 33 years Cut-off value 18.44 Kg/m 2

29 AMH to predict ovarian response Early follicularMid-luteal Cut-off (ng/mL)2.7 Sensitivity (%)83.391.7 Specificity (%)82.488.2 PPV (%)76.984.6 NPV (%)87.293.8 Accuracy (%)82.889.6 Elgindy et al, Fertil Steril 89:1670, 2008

30 Prediction of OHSS (A) Risk factors: PCOS, young patients, low BMI, previous OHSS, pregnancy, genetic predisposition (B) Biochemical indices: Plasma oestradiol peak, insulin resistance, serum VEGF, von Willebrand factor, FSH, AMH (C) Ultrasound indices: PCO pattern, high AFC, ovarian volume, low intra-ovarian vascular resistance

31 PCO pattern to predict OHSS Rizk and Smitz, Hum Reprod 7: 320, 1992; Delvigne et al, Hum Reprod 8: 1353, 1993

32 Antral follicle count (Tomas et al, 1997) Transvaginal ultrasound After ovarian suppression with GnRHa and before starting FSH Follicles 2 to 5 mm in both ovaries Patients with <5 follicles in both ovaries were poor responders Tomas et al, Hum Reprod 12(2):220, 1997

33 Trans-vaginal scan showing antral follicles Right ovaryLeft ovary

34 AFC to predict ovarian response Kwee et al, RBEJ 5:9, 2007

35 Total AFC SensitivitySpecificityPPVAccuracy <40.210.990.860.78 <50.280.990890.80 <60.410.950.750.89 <70.690.800.560.77 <80.760.740.510.75 AFC to predict poor responders Kwee et al, RBEJ 5:9, 2007

36 Total AFC SensitivitySpecificityPPVAccuracy <100.940.710.360.76 <120.880.800.440.81 <140.820.890.580.88 <160.470.960.670.88 <180.290.980.710.87 AFC to predict hyper responders Kwee et al, RBEJ 5:9, 2007

37 AFC versus AMH to predict poor response Hendricks et al, Fertil Steril 83(2): 291, 2005 Broer et al, Fertil Steril 91: 705, 2009 AMH AFC

38 AFC v/s AMH to predict hyper-response Broer et al, Hum Reprod Update 17: 46, 2011 AFC AMH

39 Predictors of OHSS (Sallam et al, 2011) OHSSNo OHSSP value No. of cycles1122 Day 3 FSH (mIU/ml)5.97 (2.05) 9.31 (3.01)0.204 Day 3 LH (mIU/ml)6.70 (3.14) 5.74 (3.64)0.230 Day 3 E2 (pg/ml)38.67 (14.41) 34.66 (9.00)0.33 Day 3 leptin (ng/ml)40.27 (28.06) 44.77 (25.71)0.324 Day 3 VEGF (pg/ml)438.00 (178.08) 448.27 (216.81)0.446 Day 3 AFC21.64 (3.20) 14.32 (3.81)< 0.0002* Day 3 AMH (ng/ml)4.50 (2.87) 2.17 (1.55)< 0.005* E2 on HCG day (pg/ml)5965.82 (1191.99) 2207.27 (659.32)< 0.0001* Sallam et al, Predictors of OHSS, submitted for publication

40 ROC curves comparing AMH and AFC Sallam et al, Predictors of OHSS, submitted for publication AFC AMH Cut-off value =>14 Cut-off value 3.36 ng/ml

41 Ovarian volume Age Group Mean Ovarian volume (ml) SD (ml) 95% Confidence Interval % Ovaries Imaged 1 day to 3 months 1.060.960.03-3.5670 4-12 months1.050.670.18-2.71100 13-24 months0.670.350.15-1.6890 2 -12 years0.46-0.13-0.9 (range)- 13-20 years4.0-1.8-5.7 (range)- Cohen et al, AJR 160: 583, 1993; Orsini et al, Radiology 153:113, 1984; Sample et al. Radiology 125:477, 1977; Ivarsson et al, Arch Dis Child 58, 352, 1983

42 Ovarian volume Ivarsson et al, Arch Dis Child 58, 352, 1983

43 3-D U/S in obstetrics and gynaecology

44 Ovarian volume to predict OHSS OHSSControlsP value No. of patients886 Days of stimulation10.5 ± 2.510.5 ± 1 8NS Oestradiol (pg/ml)2439 ± 1350937 ± 6860.0001 No. of follicles23.3 ± 4.313.8 ± 7.50.0025 No. of oocytes164 ± 265.9 ± 3 00.0001 Cycle length34.1 ± 5.828.7 ± 2 20.0001 Body wt before stimulation55.4 ± 3.862.8 ± 110.011 Body wt after stimulation54 3 ± 4.562.9 ± 10. 70.03 Ovarian volume (ml)13.2 ± 58.9 ± 3.70.035 Danninger et al, Hum Reprod 11: 1597, 1996

45 Perifollicular blood flow to predict OHSS Oyesanya, Fertil Steril 65: 874, 1996

46 Intrafollicular hemodynamics to predict OHSS OHSSControlsP value Mean age (years)32.63 ± 1.7731.48 ± 3.87NS Mean duration of infertility (years) 6.00 ± 2.195.29 ± 2.73NS Maximal peak systolic velocity 0.15 ± 0.040.21 ± 0.10NS Mean minimal pulsatility index 0.89 ± 0.300.79 ± 0.14NS Mean minimal resistance indexes 0.56 ± 0.050.53 ± 0.06NS Oyesanya, Fertil Steril 65: 874, 1996

47 Combination of indices to predict OHSS Regression analysis showed that the dependent factors were: (1) Log oestradiol, (2) Slope of log oestradiol, (3) HMG dosage, (4) No. of oocytes retrieved and (5) LH/FSH ratio. The following formula was devised: Delvigne et al, Hum Reprod 8: 1353, 1993 PPV = 78.5 %; FNR = 18.1%

48 Conclusion 1 - Prediction Good predictorsBad predictorsFurther evaluation PCOSGenetic predisposition PCO pattern Young ageSerum VEGFBMI AFCVon Willebrand factor Day 3 FSH E2 level on day of HCG Perifollicular blood flow Insulin resistance Ovarian volume AMH

49 Prevention of OHSS 1. Prediction of OHSS 2. Primary prevention (before starting HMG/FSH) 3. Secondary prevention (after starting HMG/FSH and before HCG administration)

50 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

51 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

52 Nugent et al, Cochrane Database: Issue 1, 2009 FSH versus HMG to prevent OHSS

53 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

54 Chronic low-dose step-up protocol Homburg et al, Fertil Steril 63: 729, 1995

55 Low dose step-up protocol (RCT) ConventionalStep-upP value No. of cycles4849 Oestradiol on the day of HCG (pg/ml) 1258.6 ± 1003533.5 ± 5250.001 No. of pregnancies7 (14.6%)7 (14.3%)NS No. of abortions1 (14.3%) NS No. of multiple pregnancies 2 (28.6%)1(14.3%)NS No. of OHSS13 (27.1%)4 (8.3%)0.05 Mild OHSS5 (10.4%)4 (8.3%)NS Moderate OHSS8 (16.7%)0 (0%)0.01 Sengoku et al, Hum Reprod 14: 349, 1999

56 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

57 Step-down protocol Mizunuma et al, Fertil Steril 55: 1195, 1991

58 Step-up, step-down and conventional protocols (RCT) ProtocolConventional (n = 19) Step down (n = 24) Step up (n = 25) P value Small follicles7.6 ± 1.9 *6.3 ± 1.03.1 ± 0.7 *<0.05 Medium follicles5.7 ± 1.2 *5.0 ± 0.82.3 ± 0.6 *<0.05 Large follicles1.5 ± 0.31.2 ± 0.21.3 ± 0.3NS Andoh et al, Fertil Steril 70: 840, 1998

59 Santbrink and Fauser, J Clin Endocrinol Metab 82: 3597, 1997 Step-up versus step-down protocol (RCT) Step-up (n=18) Step down (n=17)p

60 Step-up versus step-down protocol (RCT) Low dose step-upStep downP value No. of patients1918 Duration of treatment (days) 1890.003 No. of ampoules2014NS Monofollicle growth 6 (39%)17 (100 %)< 0.001 Ovulation rate84 %89 %NS Ongoing pregnancies 25NS OHSS00NS Santbrink and Fauser, J Clin Endocrinol Metab 82: 3597, 1997

61 Chronic low-dose step-up versus step- down protocol (RCT) Low dose step-upStep downP value No. of patients8572 Duration of treatment (days) 15.2 ± 79.7 ± 3.1< 0.001 Total dose of rec-FSH (IU) 951 ± 586967 ± 458NS Mono-follicular growth 68.2%32%< 0.0001 Ovulation rate70.3%61.7%0.02 Pregnancies/cycle18.7%15.8%NS OHSS2.25%11%<0.001 Christian-Maitre et al, Hum Reprod 18:1626, 2003

62 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

63 Alternate day HMG to prevent OHSS Nugent et al, Cochrane Database: Issue 1, 2009

64 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

65 Sequential FSH regimen to prevent OHSS (RCT) Step-up protocol step-down protocol Sequential protocol P value No. of cycles75 No. of clinical pregnancies (rate) 182033<0.05 Pregnancy rate31.0 %32.2 %48.5 %NS No. of multiple pregnancies (rate) 4 (22.2%)5 (25.0%)8 (24.0%) NSNS Rate of hyperstimulation 5.2 %13 % *5.9 %<0.05 Koundouros, Fertil Steril 90: 569, 2009

66 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

67 In-vitro maturation to prevent OHSS (CCT) IVMIVFOR (95% CI) No. of cycles107 Implantation rate (%)9.517.10.51 (0.31, 0.84) * Clinical pregnancy [n (%)]23 (21.5)36 (33.7)0.54 (0.28, 1.04) Live birth [n (%)]17 (15.9)28 (26.2)0.53 (0.26, 1.10) Multiple live births [n (% of total live births)] 7 (41.2)10 (37.0)1.26 (0.30, 5.11) Moderate or severe OHSS012 (11.2%)0.036 (0.002- 0.608) * Child et al, Obstet Gynecol 100: 665, 2002

68 Primary prevention (before starting HMG/FSH) FSH or HMG Low dose step-up protocol Step-down protocol Alternate day HMG/FSH Sequential protocol In-vitro maturation (IVM) GnRH antagonists

69 GnRHa v/s antagonists to prevent OHSS, 2009 Al-Inany et al, Cochrane Database: Issue 1, 2009

70 LBR in GnRH agonists v/s antagonists, 2009 Al-Inany et al, Cochrane Database: Issue 1, 2009

71 GnR a v/s antagonists to prevent OHSS, 2011 Al-Inany et al, Cochrane Database Syst Rev 11;(5):CD001750, 2011

72 LBR in GnRH agonists v/s antagonists, 2011 Al-Inany et al, Cochrane Database Syst Rev 11;(5):CD001750, 2011

73 Conclusion 2 – Primary prevention The following approaches are associated with a lower incidence of OHSS: FSH compared to HMG (without GnRHa) (A) Step-up compared to conventional protocol (A) GnRH antagonists compared to agonists (A) IVM compared to IVF but with a lower LBR (B) Sequential compared to step down protocol (A)

74 Conclusion 2 – Primary prevention (cont…) The following approaches are equivocal in the primary prevention of OHSS: Alternate days compared to conventional protocol (A) Sequential compared to step-up protocol (A) The following approaches need further evaluation: Step-up compared to step down protocol

75 Prevention of OHSS 1. Prediction of OHSS 2. Primary prevention (before starting HMG/FSH) 3. Secondary prevention (after starting HMG/FSH and before HCG administration)

76 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

77 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

78 Cancellation of the cycle - attitude of 141 physicians High risk patient Moderate risk patient Low risk patient P value Proceed with IVF8 %22 %38 %<0.001 Cancel cycle14 % 7 %NS Take some preventive measures 78 %64 %55 %<0.01 Delvigne and Rozenberg, Hum Reprod 16: 2491, 2001

79 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

80 Coasting to prevent OHSS - Guidelines 1. Start at Serum E2 >4,500 pg/mL E2 production >150 pg/follicle 16–18 mm >15 mature follicles 2. Measure E2 on a daily basis 3. Give hCG when E2 level falls to <3,500 pg/mL 4. Abandon if E2 level rises to >6,500 pg/mL >30 mature follicles Coasting takes >4 days Garcia-Velasco et al, Fertil Steril 85: 547, 2006

81 Incidence of OHSS OR = 0.53 (95% CI = 0.23 to 1.23) Live birth rate OR = 0.48 (95% CI = 0.14 to 1.62) Clinical pregnancy rate OR = 0.69 (95% CI = 0.44 to 1.08) Oocytes retrieved OR = -3.92 (95% CI -4.47 to -3.37) * Coasting to prevent OHSS (Cochrane) D’Angelo et al, Cochrane Database Syst Rev 15;(6):CD002811, 2011

82 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

83 Diminish HCG dose (OS) 21 infertile patients at risk of OHSS Low dose of HCG (i.e. 2500 IU) No moderate or severe OHSS 13 women (61.9%) conceived Three twin pregnancies Nargund et al. RBMOnline 14: 682, 2007

84 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

85 Incidence of OHSS after GnRH agonists to trigger ovulation (MA) Reference No patients with agonist trigger No of patients with hCG trigger Patients with OHSS post agonist Patients with OHSS post hCG (%) P value Babayof et al, 2006 (RCT) 15130/154/13 (31%)<0.05 Engmann et al, 2008 (RCT) 33320/3310/32 (31%)<0.001 Acevedo et al, 2006 (RCT) 30 0/305/30 (17%)<0.05 TOTAL78750/7819/75 (25%)<0.001 Kol and Solt, JARG 25: 63, 2008

86 GnRH agonists to trigger ovulation Griesinger et al, Human Reprod Update 12: 159, 2006

87 GnRH agonists to trigger ovulation Youssef et al, Cochrane Database Syst Rev 10;(11):CD008046, 2010 OHSS incidence per randomised woman OR = 0.10 (95% CI = 0.01 to 0.82) * GnRH agonist versus HCG (LBR) OR = 0.44 (95% CI = 0.29 to 0.68) * GnRH agonist versus HCG (OPR) OR = 0.45 (95% CI = 0.31 to 0.65) *

88 GnRH agonists to trigger ovulation with modified luteal support (OS) No OHSS after GnRHa triggering 5% risk difference (with 95% CI: -0.07 to 0.02) Delivery rate after modified luteal support 6% risk difference (95% CI: -0.14 to 0.2) Delivery rate after conventional luteal support 18% risk difference (95% CI: -0.36 to 0.01) Humaidan, Hum Reprod Update 17(4):510-24, 2011

89 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

90 Costello et al. Hum Reprod 21:1387, 2006 Metformin versus placebo or no treatment in IVF for to prevent OHSS in PCOS patients OR = 0.21; 95% CI = 0.11–0.41, P < 0.00001

91 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

92 Albumin for the prevention of OHSS Aboulghar et al, Cochrane Database: Issue 1, 2009

93 Hydroxyethyl starch (HES) to prevent OHSS (CCT) HESControl groupP value No. of patients10082 No. of pregnancies 2824NS Moderate OHSS1032<0.00001 Severe OHSS27NS Graf et al, Hum Reprod 12: 2599, 1997

94 HES versus albumin to prevent OHSS (RCT) HES (n = 85) Albumin (n =82) Control group (n = 83) P value Moderate OHSS 5 (5.9 %)4 (4.9 %)12 (14.5 %)<0.05 Severe OHSS004 (4.8 %)<0.05 Overall cases of OHSS 5 (5.9 %)4 (4.89 %)16 (19.2 %)<0.01 Gokmen et al, Eur J Obstet Gyn Reprod Biol 96: 187, 2001

95 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

96 Effect of cabergoline on rats with OHSS A = Vascular permeability B = Serum prolactin C = Plasma progesterone Gomez et al, Endocrinol 147: 5400, 2006 Cabergoline inactivates the VEGF receptor 2 (VEGFR-2)

97 Cabergoline to prevent OHSS (RCT) Albumin + Cabergoline Albumin onlyP value No. of patients83 Early OHSS012 (15.0 %)< 0.001 Late OHSS9 (10/8 %)93(3.8 %)NS Carizza et al, RBMOnline 17: 751, 2008

98 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

99 I.V. Calcium to prevent OHSS (CCT) I.V. CalciumControl groupP value No. of patients84371 OHSS3 (3.6%)60 (16.2%)<0.01 Pregnancies (CPR)34 (40.5%)107 (28.8%)<0.05 Deliveries (LBR)32 (38.1%)92 (24.8%)<0.02 Gurgan et al, Fertil Steril 96: 53-7, 2011

100 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

101 Embryo freezing to prevent OHSS D’Angelo and Amso, Cochrane Database: Issue 2, 2002

102 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

103 GnRH agonists + embryo freezing to prevent OHSS (OS) % (n)95% CI Biochemical PR/patient5.3 % (1/19)0.9 % – 24.6 % Ongoing PR/patient36.8 % (7/19)19.1 % – 59.0 % Ongoing PR/first ET31.6 % (6/19)15.4 % – 54.0 % Cumulative ongoing PR/ET 29.2 % (7/24)14.9 % – 49.2 % OHSS0 % (0/24) Griesinger et al, Human Reprod 22: 1348, 2007

104 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

105 Unilateral follicle aspiration before HCG (RCT) Unilateral follicle aspiration (n = 16) Controls (n = 15) P value Oestradiol (pmol/l) 15 982 ± 82716 243 ± 593NS Mild OHSS13NS Moderate OHSS11NS Severe OHSS21NS Clinical pregnancy rate 6/16 (37.5%)7/15 (46.6%)NS Egbase et al, Hum Reprod 12: 2603, 1997

106 Late prevention (after starting HMG/FSH and before HCG) Cancellation of the cycle Coasting Diminish HCG dose GnRHa to trigger ovulation Metformin Albumin Cabergoline I.V. Calcium Cryopreservation of embryos GnRH agonists + embryo freezing Unilateral follicle aspiration before HCG Laparoscopic ovarian electro-cautery

107 Laparoscopic ovarian electro-cautery (RCT) Conventional IVF (n = 25) LOE + IVF (n = 25) P value Cancellations due to OHSS risk50 0.025 * Moderate OHSS410.174 Mean number of oocytes7.3710.28 Mean embryos transferred2.52.6 Pregnancy rate/cycle8/25 (32.0 %)9/25 (36.0 %)0.765 Rimington et al, Hum Reprod 12: 1443, 1997

108 Conclusion 3 – Secondary prevention The following approaches prevent OHSS: Triggering ovulation with GnRH agonists (A) Metformin administration (A) Intravenous albumin (A) Hydroxyethyl starch (A) Cabergoline for early OHSS (A) Laparoscopic ovarian electrocautery (A) The following approaches do not prevent OHSS Coasting (A) Cabergoline for late OHSS (A)

109 Conclusion 3 – Secondary prevention (cont…) The following approaches are equivocal in preventing OHSS: Coasting versus unilateral oocyte aspiration (A) GnRH antagonists versus coasting (A) The following approaches await further evaluation: Cancellation of the cycle Diminishing the dose of HCG Embryo freezing Triggering with GnRHa + embryo freezing

110 Prediction and prevention of OHSS - an evidence-based approach Hassan N. Sallam, MD, FRCOG, PhD (London) Professor in Obstetrics and Gynaecology The University of Alexandria, and Clinical and Scientific Director, Alexandria Fertility Center, Alexandria, Egypt 3rd Congress of Society of Reproductive Medicine, 5 – 9 October 2011, Antalya / Turkey

111

112 Coasting to prevent OHSS (OS) Egbase et al, Hum Reprod 15: 2082, 2000

113 Coasting to prevent OHSS (OS) CharacteristicOutcome No. of patients15 Mean age (years ) ± SD 33.5 ± 2.8 Body mass index ± SD34.8 ± 5.2 No. of ampoules ± SD50.2 ± 16.5 Moderate OHSS (%)3 (20 %) Severe OHSS3 (20 %) Clinical pregnancy rate5/15 (33.3 %) Egbase et al, Hum Reprod 15: 2082, 2000

114 Coasting versus early unilateral follicular aspiration to prevent OHSS D’Angelo and Amso, Cochrane Database Issue 1, 2009

115 GnRH antagonists versus coasting to prevent OHSS (RCT) Coasting (n = 96) GnRH antagonist (n = 94) P value No. of high quality embryos (SD) 2.21 ± 1.12.87 ± 1.2<0.0001 Mean number of oocytes (SD) 14.06 ± 5.2016.5 ± 7.60<0.02 Clinical pregnancy rate47.9 %55.3 %NS Severe OHSSNone NS Aboulghar et al, RBMOnline 15: 271, 2007

116 Conclusion 1 - Prediction Good predictorsBad predictors PCOSBMI Young ageGenetic predisposition PCO patternSerum VEGF AFCVon Willebrand factor E2 level on day of HCGPerifollicular blood flow Insulin resistance Large ovarian volume AMH


Download ppt "Prediction and prevention of OHSS - an evidence-based approach Hassan N. Sallam, MD, FRCOG, PhD (London) Professor in Obstetrics and Gynaecology The University."

Similar presentations


Ads by Google