Rebecca A Schlaff1, Claudia Holzman2, Kimbery S Maier3, Karin A Pfeiffer4, James M Pivarnik5. 1. Saginaw Valley State University, 7400 Bay Road, H213 University Center, MI 48710, USA. Electronic address: raschlaf@svsu.edu. 2. Michigan State University, 909 Fee Rd., Room 646, East Lansing, MI 48824, USA. Electronic address: holzman@epi.msu.edu. 3. Michigan State University, 620 Farm Ln., Room 451, East Lansing, MI 48824, USA. Electronic address: kmaier@msu.edu. 4. Michigan State University, 308 W. Circle Dr., Room 27, East Lansing, MI 48824, USA. Electronic address: kap@msu.edu. 5. Michigan State University, 308 W. Circle Dr., Room 27, East Lansing, MI 48824, USA. Electronic address: jimpiv@msu.edu.
Abstract
OBJECTIVES: the purpose of this study was to examine associations among gestational weight gain (GWG) and pregnancy leisure-time physical activity (LTPA), within pre-pregnancy body mass index (BMI) categories, while utilising two different estimates of pre-pregnancy weight. DESIGN: a cohort study. Data were collected via questionnaire and abstraction from birth certificate as a part of a larger study. SETTING: three antenatal clinics in Lansing, Michigan, USA. PARTICIPANTS: a subset of women who participated in the Archive for Research on Child Health (ARCH) study and delivered a singleton, term infant (n=135). Participants were enroled prior to 14 weeks׳ gestation. MEASUREMENTS: pre-pregnancy BMI was categorised as normal, overweight and obese (excluded underweight). GWG was calculated by subtracting pre-pregnancy weight from weight at childbirth (obtained from birth certificate) and classified as 'excess' or 'not excess' using the upper limit of the 2009 IOM recommended range. These two variables were constructed twice, first by using pre-pregnancy weight self-reported at enrolment and second, by using pre-pregnancy weight recorded on birth certificates. LTPA, also self-reported at enrolment, was modelled using two thresholds, moderate LTPA, and vigorous LPTA. FINDINGS: overall, 56-60% of our sample experienced excess GWG, depending on the source used for pre-pregnancy weight. Overweight and obese women had significantly higher odds of excess GWG (compared to normal weight women; Odds Ratio (OR)=2.48-5.34). LTPA level did not differ among pre-pregnancy BMI categories and was not related to appropriateness of GWG. KEY CONCLUSIONS: regardless of the source of pre-pregnancy weight, overweight and obese women were more likely to experience excess GWG (compared to normal weight women) and LTPA was not significantly related to the appropriateness of GWG. IMPLICATIONS FOR PRACTICE: findings highlight the need for practitioners to effectively communicate GWG recommendations and counsel women about the importance of achieving appropriate GWG. Although GWG counselling has traditionally been focused on obese women, these results suggest overweight women are in need of GWG counselling as well.
OBJECTIVES: the purpose of this study was to examine associations among gestational weight gain (GWG) and pregnancy leisure-time physical activity (LTPA), within pre-pregnancy body mass index (BMI) categories, while utilising two different estimates of pre-pregnancy weight. DESIGN: a cohort study. Data were collected via questionnaire and abstraction from birth certificate as a part of a larger study. SETTING: three antenatal clinics in Lansing, Michigan, USA. PARTICIPANTS: a subset of women who participated in the Archive for Research on Child Health (ARCH) study and delivered a singleton, term infant (n=135). Participants were enroled prior to 14 weeks׳ gestation. MEASUREMENTS: pre-pregnancy BMI was categorised as normal, overweight and obese (excluded underweight). GWG was calculated by subtracting pre-pregnancy weight from weight at childbirth (obtained from birth certificate) and classified as 'excess' or 'not excess' using the upper limit of the 2009 IOM recommended range. These two variables were constructed twice, first by using pre-pregnancy weight self-reported at enrolment and second, by using pre-pregnancy weight recorded on birth certificates. LTPA, also self-reported at enrolment, was modelled using two thresholds, moderate LTPA, and vigorous LPTA. FINDINGS: overall, 56-60% of our sample experienced excess GWG, depending on the source used for pre-pregnancy weight. Overweight and obesewomen had significantly higher odds of excess GWG (compared to normal weight women; Odds Ratio (OR)=2.48-5.34). LTPA level did not differ among pre-pregnancy BMI categories and was not related to appropriateness of GWG. KEY CONCLUSIONS: regardless of the source of pre-pregnancy weight, overweight and obesewomen were more likely to experience excess GWG (compared to normal weight women) and LTPA was not significantly related to the appropriateness of GWG. IMPLICATIONS FOR PRACTICE: findings highlight the need for practitioners to effectively communicate GWG recommendations and counsel women about the importance of achieving appropriate GWG. Although GWG counselling has traditionally been focused on obesewomen, these results suggest overweight women are in need of GWG counselling as well.
Authors: Holly Ockenden; Katie Gunnell; Audrey Giles; Kara Nerenberg; Gary Goldfield; Taru Manyanga; Kristi Adamo Journal: Int J Environ Res Public Health Date: 2016-11-30 Impact factor: 3.390