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Antenatal dietary supplementation with myo‐inositol in women during pregnancy for preventing gestational diabetes

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Abstract

Background

Gestational diabetes, glucose intolerance with onset or first recognition during pregnancy, is a rising problem worldwide. Both non‐pharmacological and pharmacological approaches to the prevention of gestational diabetes have been, and continue to be explored. Myo‐inositol, an isomer of inositol, is a naturally occurring sugar commonly found in cereals, corn, legumes and meat. It is one of the intracellular mediators of the insulin signal and correlated with insulin sensitivity in type 2 diabetes. The potential beneficial effect on improving insulin sensitivity suggests that myo‐inositol may be useful for women in preventing gestational diabetes.

Objectives

To assess if antenatal dietary supplementation with myo‐inositol is safe and effective, for the mother and fetus, in preventing gestational diabetes.

Search methods

We searched the Pregnancy and Childbirth Group's Trials Register, ClinicalTrials.gov, WHO ICTRP (2 November 2015) and reference lists of retrieved studies.

Selection criteria

We sought published and unpublished randomised controlled trials, including conference abstracts, assessing the effects of myo‐inositol for the prevention of gestational diabetes mellitus (GDM). Quasi‐randomised and cross‐over trials were not eligible for inclusion, but cluster designs were eligible. Participants in the trials were pregnant women. Women with pre‐existing type 1 or type 2 diabetes were excluded. Trials that compared the administration of any dose of myo‐inositol, alone or in a combination preparation were eligible for inclusion. Trials that used no treatment, placebo or another intervention as the comparator were eligible for inclusion.

Data collection and analysis

Two review authors independently assessed trials for inclusion, risk of bias and extracted the data. Data were checked for accuracy.

Main results

We included four randomised controlled trials (all conducted in Italy) reporting on 567 women who were less than 11 weeks' to 24 weeks' pregnant at the start of the trials. The trials had small sample sizes and one trial only reported an interim analysis. Two trials were open‐label. The overall risk of bias was unclear.

For the mother, supplementation with myo‐inositol was associated with a reduction in the incidence of gestational diabetes compared with control (risk ratio (RR) 0.43, 95% confidence interval (CI) 0.29 to 0.64; three trials; n = 502 women). Using GRADE methods this evidence was assessed as low with downgrading due to unclear risk of bias for allocation concealment in two of the included trials and lack of generalisability of findings. For women who received myo‐inositol supplementation, the incidence of GDM ranged from 8% to 18%; for women in the control group, the incidence of GDM was 28%, using International Association of Diabetes and Pregnancy Study Groups Consensus Panel 2010 criteria to diagnose GDM.

Two trials reported on hypertensive disorders of pregnancy, a primary maternal outcome of this review. There was no clear difference in risk of hypertensive disorders of pregnancy between the myo‐inositol and control groups (average RR 0.43, 95% CI 0.02 to 8.41; two trials; n = 398 women; Tau2 = 3.23; I2 = 69%). Using GRADE methods, this evidence was assessed as very low, with downgrading due to wide confidence intervals with very low event rates, a small sample size, and lack of blinding and unclear allocation concealment methods, and a lack of generalisability. For women who received myo‐inositol the risk of hypertensive disorders of pregnancy ranged from 0% to 33%; for women in the control group the risk was 4%.

For the infant, none of the included trials reported on the primary neonatal outcomes of this systematic review (large‐for‐gestational age, perinatal mortality, mortality or morbidity composite).

In terms of this review's secondary outcomes, there was no clear difference in the risk of caesarean section between the myo‐inositol and control groups (RR 0.95, 95% CI 0.76 to 1.19; two trials; n = 398 women). Using GRADE methods, this evidence was assessed as low, with downgrading due to unclear risk of bias in one trial and lack of generalisability. For women who received myo‐inositol supplementation, the risk of having a caesarean section ranged from 34% to 54%; for women in the control group the was 45%. There were no maternal adverse effects of therapy in the two trials that reported on this outcome (the other two trials did not report this outcome).

Two trials found no clear difference in the risk of macrosomia between infants whose mothers received myo‐inositol supplementation compared with controls (average RR 0.35, 95% CI 0.02 to 6.37; two trials; n = 398 infants;Tau2 = 3.33; I2 = 73%). Similarly, there was no clear difference between groups in terms of neonatal hypoglycaemia (RR 0.36, 95% CI 0.01 to 8.66) or shoulder dystocia (average RR 2.33, 95% CI 0.12 to 44.30, Tau2 = 3.24; I2 = 72%).

There was a lack of data available for a large number of maternal and neonatal secondary outcomes, and no data for any of the long‐term childhood or adulthood outcomes, or for health service cost outcomes.

Authors' conclusions

Evidence from four trials of antenatal dietary supplementation with myo‐inositol during pregnancy shows a potential benefit for reducing the incidence of gestational diabetes. No data were reported for any of this review's primary neonatal outcomes. There were very little outcome data for the majority of this review's secondary outcomes. There is no clear evidence of a difference for macrosomia when compared with control.

The current evidence is based on small trials that are not powered to detect differences in outcomes including perinatal mortality and serious infant morbidity. All of the included studies were conducted in Italy which raises concerns about the lack of generalisability of the evidence to other settings. There is evidence of inconsistency and indirectness and as a result, many of the judgements on the quality of the evidence were downgraded to low or very low quality (GRADEpro Guideline Development Tool).

Further trials for this promising antenatal intervention for preventing gestational diabetes are encouraged and should include pregnant women of different ethnicities and varying risk factors and use of myo‐inositol (different doses, frequency and timing of administration) in comparison with placebo, diet and exercise or pharmacological interventions. Outcomes should include potential harms including adverse effects.

PICOs

Population
Intervention
Comparison
Outcome

The PICO model is widely used and taught in evidence-based health care as a strategy for formulating questions and search strategies and for characterizing clinical studies or meta-analyses. PICO stands for four different potential components of a clinical question: Patient, Population or Problem; Intervention; Comparison; Outcome.

See more on using PICO in the Cochrane Handbook.

Plain language summary

Taking myo‐inositol as a dietary supplement during pregnancy to prevent the development of gestational diabetes

What is the issue?

This review aimed to investigate if myo‐inositol is an effective antenatal dietary supplement for preventing gestational diabetes in pregnant women. Women who develop gestational diabetes have a higher risk of experiencing complications during pregnancy and birth, as well as developing diabetes later on in life. The babies of mothers who have gestational diabetes can be larger than they should be potentially causing injuries to the babies at birth. These babies are at risk of diabetes even as young children or young adults.

Why is this important?

The number of women being diagnosed with gestational diabetes is increasing around the world so finding simple and cost‐effective ways to prevent women developing gestational diabetes is important. Myo‐inositol is a naturally occurring sugar found in cereals, corn, green vegetables and meat that has a role in the body's sensitivity to insulin.

What evidence did we find?

We searched for studies on 2 November 2015 and included four small randomised controlled trials involving a total of 567 women who were less than 11 weeks' to 24 weeks' pregnant at the start of the trials. The quality of the evidence was assessed as low or very low and the overall risk of bias was unclear.

Myo‐inositol was associated with a reduction in the rate of gestational diabetes (low quality evidence), reducing the incidence from 28% in women who did not take the supplement, to between 8% and 18% in the women who took it. There was no difference between groups in terms of the number of women who had hypertensive disorders of pregnancy (including pre‐eclampsia, eclampsia and abnormally high blood pressure during pregnancy) (very low quality evidence). The trials did not provide any information about the number of babies that died (either before being born or shortly afterwards) or babies that were large‐for‐gestational age. There were no maternal adverse effects of therapy in the two trials that reported on this outcome (the other two trials did not mention this).

This review did not find any impact on other outcomes such as the risk of having a caesarean section (low quality evidence), a large baby, obstructed labour when the baby's shoulder becomes stuck (shoulder dystocia) or a baby with low blood glucose levels. This may be due to the trials being too small to detect differences in these outcomes and the outcomes not being reported by all trials. All four trials were from Italy.

The included trials did not report on a large number of other mother and baby outcomes listed in this review and nor were there any data relating to longer‐term outcomes for the mother or the infant, or the cost of health services.

What does this mean?

Myo‐inositol as a dietary supplement during pregnancy shows promise in preventing gestational diabetes but there is not enough evidence at this stage to support its routine use. Further large, well‐designed, randomised controlled trials are required to assess the effectiveness of myo‐inositol in preventing gestational diabetes and improving other health outcomes for mothers and their babies.

Ideally, future studies should consider involving women from different ethnicities and with differing risk factors for gestational diabetes. It would be useful for future studies to consider the ways that myo‐inositol can be used (different doses, frequency and when to take it) and compare the intervention with a placebo control, diet and exercise or pharmacological interventions. We recommend that future studies utilise the outcomes listed in this review and that potential harms, including adverse effects are included.