The psychosocial experience of women with PCOS--a case control study.

Polycystic ovary syndrome (PCOS) is a common endocrine disorder affecting 5-10% of women. It is characterised by androgenisation and anovulation, with sufferers being at increased risk of metabolic problems such as noninsulin dependent diabetes mellitus and dyslipidaemia. An increased risk of cardiovascular disease is speculated. Clinically, sufferers may experience acne, obesity, hirsutism and/or male pattern baldness.

Iodine status in pregnant women and their newborns: are our babies at risk of iodine deficiency?

OBJECTIVES: To determine whether pregnant women and their newborns show evidence of iodine deficiency, and to examine the correlation between maternal urine iodine concentration (UIC) and newborn thyroid-stimulating hormone (TSH) level. DESIGN: A cross-sectional study. SETTING: Hospital antenatal care services (March-May 2004) and private obstetrician clinics (June 2004) in the Central Coast area of New South Wales. PARTICIPANTS: 815 pregnant women (> or = 28 weeks' gestation) and 824 newborns. MAIN OUTCOME MEASURES: World Health Organization/International Council for the Control of Iodine Deficiency Disorders criteria for assessing severity of iodine deficiency (recommended levels: < 20% of urine samples in a population with UIC < 50 microg/L; and < 3% of newborns with whole-blood TSH level > 5 mIU/L). RESULTS: The median UIC for pregnant women was 85 microg/L, indicating mild iodine deficiency. Almost 17% of pregnant women had a UIC < 50 microg/L, and 18 newborns (2.2%) had TSH values > 5 mIU/L. There was no statistically significant linear correlation between neonatal whole-blood TSH level and maternal UIC (r = - 0.03; P = 0.4). Mothers with a UIC < 50 microg/L were 2.6 times (relative risk = 2.65; 95% CI, 1.49-4.73; P = 0.01) more likely to have a baby with a TSH level > 5 mIU/L. CONCLUSION: The pregnant women surveyed were mildly iodine deficient. TSH values for their newborns were mostly within acceptable limits. Ongoing surveillance of the iodine status of NSW communities to establish trends over time is recommended.

Iodine deficiency in urban primary school children: a cross-sectional analysis.

OBJECTIVE: To determine the prevalence of iodine deficiency in primary school children in an Australian urban population. DESIGN AND SETTING: A cross-sectional survey of school children aged 5-13 years attending a public school on the Central Coast of New South Wales in November 2000. PARTICIPANTS: 324 (70%) of the 465 children enrolled in the school (180 boys; 144 girls). MAIN OUTCOME MEASURES: Thyroid volumes compared with World Health Organization/International Council for the Control of Iodine Deficiency Disorders (WHO/ICCIDD) thyroid volume reference values. Iodine status based on WHO/ICCIDD urinary iodine concentration (UIC) categories (normal, >/= 100 microg per litre of urine [microg/L]; mild iodine deficiency, 50-99 microg/L; moderate deficiency, 20-49 microg/L; severe deficiency, < 20 microg/L); not more than 20% of the population should have a UIC below 50 microg/L. RESULTS: Median UIC for school children was 82 microg/L, and 14% of children had UICs below 50 microg/L. Thyroid volume reference values indicated a prevalence of goitre of zero. In girls, only four (3%) and one (1%) had thyroid volumes above the WHO/ICCIDD medians by age and body surface area (BSA), respectively (P < 0.001). In boys, three (2%) and one (1%) had thyroid volumes above WHO/ICCIDD medians by age and BSA, respectively (P < 0.001). CONCLUSION: Despite the median UIC being less than ideal, most children were not goitrous. This underscores the importance of using physiological outcome measures in areas where iodine deficiency is marginal before concluding the need for iodine supplementation based purely on median UIC. We call for a systematic national survey to determine iodine status using a combination of iodine deficiency indicators.

Recurrent iodine deficiency in Tasmania, Australia: a salutary lesson in sustainable iodine prophylaxis and its monitoring.

Even mild iodine deficiency during early childhood and pregnancy has the potential to impair neurological development. Often considered a problem of developing nations, a number of industrialized countries are at risk of deficiency. Despite past success with intentional and unintentional iodine fortification, recurrence of deficiency is an ever-present risk. Tasmania, an island state of the Commonwealth of Australia, has a history of endemic iodine deficiency, which was successfully eliminated by iodine prophylaxis initiated in 1950. In this report we describe a formal assessment of iodine nutrition in the Tasmanian population, 50 yr after initiation of the prophylaxis program. The requirements and obstacles to achieving sustainable iodine prophylaxis in an otherwise affluent community are considered. A cross-sectional study was undertaken during the yr 2000. Urinary iodine excretion (UIE) and thyroid ultrasonography were assessed in a representative statewide sample of school-age children. Children (n = 225) aged 4 to 17 yr from throughout Tasmania were studied. The sample comprised 99 girls and 126 boys. The median UIE was 84 microg/liter (87 microg/liter for males and 81 microg/liter for females), with UIE 50 microg/liter or less in 20%. Based on age-specific World Health Organization/International Council for the Control of Iodine Deficiency Disorders normative data for thyroid volume, the prevalence of elevated thyroid volume was 5.3% for boys and 3.5% for girls. However, after correcting the World Health Organization/International Council for the Control of Iodine Deficiency Disorders reference data, the prevalence increased to 24.6% for boys and 20.7% for girls. No significant difference in the thyroid volumes was found between males and females in this study. These data confirm the recurrence of mild iodine deficiency in Tasmania. The failure of sustained iodine prophylaxis highlights the universal importance of persistent surveillance, use of sustainable measures, public awareness, and a specific legislative framework for managing ongoing iodine prophylaxis. Our findings also emphasize the importance of accurate reference data for assessment thyroid volume.