Table 2.
Climate factors and GDM study table
| Author, Year | Study size & location | Study characteristics | Age range or Mean ± SD | Exposure measures | GDM screening & diagnostic criteria | Model covariates | Main findings |
|---|---|---|---|---|---|---|---|
| Meek, 2020 [37] | n = 23,375 United Kingdom | Cohort: enrolled pregnant women with singleton pregnancies from 1/2004 to 12/2008 | 30.7 ± 5.6 years |
A) Season: day of delivery B) Ambient temperature (°C): daily mean temp on day of screening |
2-step approach: 1) 50-g GCT at 28 weeks, if > 7.7 mmol/l 2) 75-g OGTT OGTT criteria: WHO 1999 (1/2004–8/2007) Modified WHO 1999 (8/2007–12/2008) |
Maternal age, BMI, parity, ethnicity |
•GDM incidence varied significantly by day of glucose screening throughout the year (p = 0.031). GDM incidence was highest in births during Sept/Oct and lowest in births during March •Daily mean temperature on day of GCT screening were associated with increased risk of abnormal GCT (OR 1.21, 95% CI: 1.10, 1.32 per 5 °C increase) and increased odds of GDM (OR 1.13, 95% CI: 1.02, 1.25 per 5 °C increase) |
| Molina-Vega, 2020 [38] | n = 2366 Malaga, Spain | Cohort: retrospective cohort of women referred to a Pregnancy and Diabetes clinic for GDM screening | 32 ± 5.2 years |
A) Ambient temperature: 1) mean ∆ temp 2) mean temp Day of OGTT, 14 days pre-OGTT, and 28 days pre-OGTT B) Season Winter (Dec 21st – Mar 20th) Spring (Mar 21st – Jun 20th) Summer (Jun 21st – Sep 20th) Autumn (Sep 21st – Dec 20th) |
NDDG criteria | Maternal age |
•Odds of GDM were highest in summer (OR 1.78 CI: 1.34, 2.37) compared to autumn •Higher mean temperature on the day of OGTT screening and 14- and 28-days pre-OGTT were associated with increased risk of GDM diagnosis (e.g. Mean temp on day of OGTT: OR 1.03, 95% CI: 1.01, 1.05) •When stratified, these associations were only present in the seasons where temperatures were increasing (Mar-Aug) |
| Su, 2020 [21] | n = 371,131 Taiwan | Cohort: population-based cohort study of pregnant women with deliveries between 2013 and 2014 in Taiwan | Not provided |
A) Season B) Ambient temperature (°C): 1) mean temp 2) daily temp ∆. Mean temperature: day of OGTT, 7, 14, 21, 28, 35 days pre-OGTT. Temperature ∆: daily difference between min and max temp on OGTT day and average ∆ 7, 14, 21, 28, 35 days pre-OGTT |
IADPSG & Carpenter and Coustan criteria | Maternal age |
•Age-adjusted odds of GDM were highest is summer (OR 1.05, 95% CI: 1.04, 1.07) and fall (OR 1.04, 95% CI: 1.02, 1.06) compared to winter •Increased mean daily temperature (per 1 °C increase) was associated with increased age-adjusted odds of GDM for mean temperatures between 14 and 17 °C (OR 1.03, 95% CI: 1.02, 1.03) and even more strongly for temperatures between 28 and 30 °C (OR 1.54, 95% CI: 1.48, 1.60) •Increased daily temperature difference (per 1 °C increase) was associated with lower odds of GDM (OR 0.90, 95% CI: 0.87, 0.92) |
| Petry, 2019 [39] | n = 1074. Cambridge, United Kingdom | Cohort: Cambridge Baby Growth Study, enrolled pregnant women during early pregnancy between 4/2001–3/2009 | 33.4 years | Season: Winter (Dec-Feb) Spring (Mar-May) Summer (Jun-Aug) Autumn (Sep-Nov) | IADPSG (based on fasting and 1 h only) | •Season of OGTT was not associated with GDM | |
| Shen, 2019 [40] | n = 2120. Brisbane & Newcastle, Australia | Cohort: Women enrolled at Australian sites of the Hyperglycemia and Adverse Pregnancy Outcome (HAPO) from 2001 to 2006 | 29.6 ± 5.4 years | Season: Winter (Jun-Aug) Spring (Sep-Nov) Summer (Dec-Feb) Autumn (Mar-May) | WHO criteria | •No significant difference in GDM prevalence by season | |
| Retnakaran, 2018 [41] | n = 1464. Toronto, Canada | Cohort: enrolled pregnant women at time of GDM screening | 34 ± 4 years |
Ambient temperature (°C): 1) mean temp 2) daily temp change. Mean temperature: day of OGTT, 7, 14, 21, 28, 35, 42, 49, 56 days pre-OGTT. Temperature ∆: daily difference between min and max temp on OGTT day and average ∆ 7, 14, 21, 28, 35, 42, 49, 56 days pre-OGTT |
NDDG criteria (All women received OGTT) | Maternal age, ethnicity, FH of diabetes, pp-BMI, GWG up to OGTT, weeks gestation at OGTT |
•Temperature ∆ was associated with increased risk of GDM, only in the season where daily temperature was increasing •For example, in Feb-July temperature ∆ in the preceding 14 days was associated with GDM (OR 1.20, 95% CI: 1.05, 1.37) |
| Vasileiou, 2018 [27] |
A) n = 7618 B) n = 768 Athens, Greece |
Two cohorts: A) Retrospective cohort: pregnant women who underwent a 100 g OGTT from 2002 to 2012. B) Prospective cohort: pregnant women enrolled in 3rd trimester followed over 18 month period from 1/2013–6/2014. |
Not provided |
A) Season B) Ambient Temperature: 1) Mean monthly temperature 2) Daily temperature @ 9 am Three temp groups: 1) < 24.9 °C 2) 25–29.9 °C 3) > 30 °C |
Study A: Carpenter and Coustan criteria Study B: IADPSG criteria |
Unadjusted |
Study A: •Odds of GDM were significantly higher in summer compared to winter (OR 1.65. 95% CI: 1.43, 1.90) Study B: •Temperature was not associated with GDM |
| Chiefari, 2017 [42] | n = 5473, Calabria, Italy | Cohort: Study population formed based on women who underwent an OGTT for GDM screening at a hospital in Calabria, Italy from 8/2011–12/2016. | 33 (29–36) years | Seasons: Fall, Winter, Spring, Summer, Warm half & cold half of the year | IADPSG criteria | Unadjusted |
•GDM incidence was significantly higher in summer (33.7%) and lower in the winter (23.3%) compared to the spring and fall •GDM incidence was significantly lower in the cold (< 15 °C; 24.2%) compared to warm (> 15 °C; 31.4%) half of the year |
| Booth, 2017 [43] | n = 555,911, Toronto, Canada | Cohort: study population formed of births in greater Toronto area from 4/1/2002–3/31/2014 from administrative health databases. | 30.9 ± 5.4 years | Ambient temperature: Average temperature 30-days pre-GDM screening (27 weeks) | ICD-10-CA codes (E10, E11, E13, E14, O24) or ≥ 2 diabetes insurance claims in the last 120 days of pregnancy | Maternal age, parity, neighborhood income, world region, year |
•Significant association between higher ambient temperature and greater odds of GDM •Each 10 °C increase in mean 30-day temp associated with a 6% increased odds of GDM (OR 1.06, 95% CI: 1.04–1.07) |
| Katsarou, 2016 [25] | n = 11,538, Skane county, Sweden | Cohort: Mamma Study, recruited women from 4 obstetric delivery departments in Skane county, Sweden from 2003 to 2005. | 29.9 ± 5.1 years | Seasons: Winter (Dec-Feb) Spring (Mar-May) Summer (June-Aug) Fall (Sept-Nov) Mean monthly ambient temperature | WHO (1999) criteria, 2 h OGTT threshold | Maternal age |
•GDM frequency differed significantly by month and season (highest in June/Summer and lowest in March/Spring) •OGTT during summer was associated with increased frequency of GDM compared to all other seasons (OR 1.51, 95% CI: 1.24–1.83) |
| Verburg, 2016 [44] | n = 60,30, South Australia | Cohort: women with singleton births from South Australian Perinatal Statistics Collection (SAPSC) data from 2007 to 2011. | < 20 to > 40 |
Estimated date of conception (eDoC) Based on birth date and gestational age at birth (dating ultrasound and/or LMP) *Note Australian Summer (Dec-Feb) Winter (June-Aug) |
ADIPS (1998) criteria | Maternal age, BMI, parity, ethnicity, socioeconomic status, chronic hypertension |
•GDM was significantly associated with season of eDoC (p < 0.001) •Adjusted incidence of GDM was highest in pregnancies with eDoC in August (6.6%) and lowest in pregnancies with eDoC in January (5.41%) |
| Moses, 2016 [45] | n = 7343, Wollongong, Australia | Cohort: pregnant women with OGTT medical record data during 2012–2014 from both public and private pathology labs in the Wollongong, Australia area. | Not provided | Seasons: Summer (Dec-Feb) Fall, Winter, Spring | Modified WHO (2006) criteria | Unadjusted | •Prevalence of GDM was 28% lower in winter and 29% higher in summer, compared to the overall prevalence (p = 0.002) |
| Janghorbani, 2006 [46] | n = 4852, Plymouth, United Kingdom | Cohort: study population based on pregnant women in Plymouth, UK screened for GDM between 1/1996–12/1997 using data from Plymouth Child Health Database and laboratory and midwifery notes. | GDM: 30.9 ± 5.5 years, Non-GDM: 28.1 ± 5.4 years | Month and season | Modified WHO (1999) criteria | Maternal age, random plasma glucose, infant sex | •The prevalence of GDM was highest in June (2.9%) and Spring (2.3%) and lowest in November (1.1%) and Winter(1.4%), but the differences were not statistically significant (p = 0.82, month; p = 0.41, season) |
| Moses, 1995 [26] | n = 2749, Wollongong, Australia | Cohort: study population based on women with available OGTT data collected from clinics and obstetric offices from 1/1993 to 6/1994. | 27 ± 5.1 years | Month & Season: Summer, Fall, Winter, Spring. Mean monthly ambient temperature (measured @ 9 am) *Note Australian Summer (Dec-Feb) Winter (June-Aug) | ADIPS (1991) criteria | Unadjusted | •Month/season and temperature were not associated GDM |
Abbreviations: GDM gestational diabetes mellitus, OGTT oral glucose tolerance test, NDDG National Diabetes Data Group, IADPSG International, FH family history, BMI body mass index, pp-BMI pre-pregnancy BMI, GWG gestational weight gain, Association of Diabetes and Pregnancy Study Group, WHO World Health Organization, LMP last menstrual period, ADIPS Australian Diabetes in Pregnancy Society