Effectiveness of lifestyle intervention in subgroups of obese infertile women: a subgroup analysis of a RCT

Do age, ovulatory status, severity of obesity and body fat distribution affect the effectiveness of lifestyle intervention in obese infertile women? We did not identify a subgroup in which lifestyle intervention increased the healthy live birth rate however it did increase the natural conception rat...

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Published inHuman reproduction (Oxford) Vol. 31; no. 12; pp. 2704 - 2713
Main Authors van Oers, A M, Groen, H, Mutsaerts, M A Q, Burggraaff, J M, Kuchenbecker, W K H, Perquin, D A M, Koks, C A M, van Golde, R, Kaaijk, E M, Schierbeek, J M, Oosterhuis, G J E, Broekmans, F J, Vogel, N E A, Land, J A, Mol, B W J, Hoek, A
Format Journal Article
LanguageEnglish
Published England 01.12.2016
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Summary:Do age, ovulatory status, severity of obesity and body fat distribution affect the effectiveness of lifestyle intervention in obese infertile women? We did not identify a subgroup in which lifestyle intervention increased the healthy live birth rate however it did increase the natural conception rate in anovulatory obese infertile women. Obese women are at increased risk of infertility and are less likely to conceive after infertility treatment. We previously demonstrated that a 6-month lifestyle intervention preceding infertility treatment did not increase the rate of healthy live births (vaginal live birth of a healthy singleton at term) within 24 months of follow-up as compared to prompt infertility treatment in obese infertile women. Natural conceptions occurred more frequently in women who received a 6-month lifestyle intervention preceding infertility treatment. This is a secondary analysis of a multicentre RCT (randomized controlled trial), the LIFEstyle study. Between 2009 and 2012, 577 obese infertile women were randomly assigned to a 6-month lifestyle intervention followed by infertility treatment (intervention group) or to prompt infertility treatment (control group). Subgroups were predefined in the study protocol, based on frequently used cut-off values in the literature: age (≥36 or <36 years), ovulatory status (anovulatory or ovulatory), BMI (≥35 or <35 kg/m ) and waist-hip (WH) ratio (≥0.8 or <0.8). Data of 564 (98%) randomized women who completed follow-up were analyzed. We studied the effect of the intervention program in various subgroups on healthy live birth rate within 24 months, as well as the rate of overall live births (live births independent of gestational age, mode of delivery and health) and natural conceptions within 24 months. Live birth rates included pregnancies resulting from both treatment dependent and natural conceptions. Logistic regression models with randomization group, subgroup and the interaction between randomization group and subgroup were used. Significant interaction was defined as a P-value <0.1. Neither maternal age, ovulatory status nor BMI had an impact on the healthy live birth rate within 24 months, nor did they influence the overall live birth rate within 24 months after randomization. WH ratio showed a significant interaction with the effect of lifestyle intervention on healthy live birth rate (P = 0.05), resulting in a lower healthy live birth rate in women with a WH ratio <0.8. WH ratio had no interaction regarding overall live birth rate (P = 0.27) or natural conception rate (P = 0.38). In anovulatory women, the effect of lifestyle intervention resulted in more natural conceptions compared to ovulatory women (P-value for interaction = 0.02). There was no interaction between other subgroups and the effect of the intervention on the rate of natural conception. Since this was a subgroup analysis of a RCT and sample size determination of the trial was based on the primary outcome of the study, the study was not powered for analyses of all subgroups. Our finding that lifestyle intervention leads to increased natural conception in anovulatory obese women could be used in the counselling of these women, but requires further research using an appropriately powered study in order to confirm this result. The study was supported by a grant from ZonMw, the Dutch Organisation for Health Research and Development (50-50110-96-518). The Department of Obstetrics and Gynaecology of the UMCG received an unrestricted educational grant from Ferring pharmaceuticals BV, The Netherlands. Ben Mol is a consultant for ObsEva, Geneva. Annemieke Hoek received a speaker's fee for a postgraduate education from MSD pharmaceutical company, outside the submitted work. The LIFEstyle study was registered at the Dutch trial registry (NTR 1530).
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ISSN:0268-1161
1460-2350
DOI:10.1093/humrep/dew252