Abstract
IntroductionGestational diabetes mellitus (GDM) is associated with vascular dysfunction. Sympathetic nervous system activity (SNA) is an important regulator of vascular function, and is influenced by glucose and insulin. The association between GDM and SNA (re)activity is unknown. We hypothesize that women with GDM would have increased SNA during baseline and during stress.MethodsEighteen women with GDM and 18 normoglycemic pregnant women (controls) were recruited. Muscle SNA (MSNA; peroneal microneurography) was assessed at rest, during a cold pressor test (CPT) and during peripheral chemoreflex deactivation (hyperoxia). Spontaneous sympathetic baroreflex gain was quantified versus diastolic pressure at rest and during hyperoxia.ResultsAge, gestational age (third trimester) and pre‐pregnancy body mass index and baseline MSNA was not different among the groups. Women with GDM had a similar increase in MSNA, but a greater pressor response to CPT compared to controls (% change in MAP 17 ± 7% vs. 9 ± 9%; p = .004). These data are consistent with a greater neurovascular transduction in GDM (% change in total peripheral resistance/% change in burst frequency [BF]: 15.9 ± 30.2 vs. −5.2 ± 16.4, p = .03). Interestingly, women with GDM had a greater reduction in MSNA during hyperoxia (% change in BF −30 ± 19% vs. −6 ± 17%; p = .01).ConclusionWomen diagnosed with GDM have similar basal SNA versus normoglycemic pregnant women, but greater neurovascular transduction, meaning a greater influence of the sympathetic nerve activity in these women. We also document evidence of chemoreceptor hyperactivity, which may influence SNA in women with GDM but not in controls.
Highlights
Gestational diabetes mellitus (GDM) is associated with vascular dysfunction
To the best of our knowledge, this is the first assessment of sympathetic nervous system function in women with GDM including assessments of mechanisms of control
Muscle sympathetic nervous activity (SNA) (MSNA) was similar between groups at rest, women with GDM had an augmented blood pressure response to cold pressor test (CPT) consistent with a greater sympathetic neurovascular transduction
Summary
This research has been funded by generous supporters of the Lois Hole Hospital for Women through the Women and Children's Health Research Institute (WCHRI, RES0018745), as well as the Alberta Diabetes Institute (RES0036930). LMR is funded by the Molly Towell Perinatal Research Foundation (RES0041143). RJS is funded by the Canadian Institutes for Health Research, WCHRI Doctoral Research Award (GSD-146252) and Alberta Innovates Graduate Studentship (RES042403). CDS and MHD are supported by a Heart and Stroke Foundation of Canada Grant in Aid (G-16-00014033). MHD is funded by a Heart & Stroke Foundation of Canada (HSFC)/ Health Canada Improving Heart Health for Women Award, National and Alberta HSFC New Investigator Award (HSFC NNIA Davenport). CDS is funded by a HSFC Joint National and Alberta New Investigator Award (HSFC NNIA Steinback).
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