This site uses cookies, tags, and tracking settings to store information to help give you the very best browsing experience. Dismiss this warning

Comparison of Strategies for Assessing Nutritional Adequacy in Elite Female Athletes’ Dietary Intake

Click name to view affiliation

Susan Heaney
Search for other papers by Susan Heaney in
Current site
Google Scholar
PubMed Close
,
Helen O’Connor
Search for other papers by Helen O’Connor in
Current site
Google Scholar
PubMed Close
,
Janelle Gifford
Search for other papers by Janelle Gifford in
Current site
Google Scholar
PubMed Close
, and
Geraldine Naughton
Search for other papers by Geraldine Naughton in
Current site
Google Scholar
PubMed Close
DOI:
https://doi.org/10.1123/ijsnem.20.3.245
Keywords:
diet; FFQ; dietary methodology
In Print:
Volume 20: Issue 3
Page Range:
245–256
Restricted access

Purpose:

This study aimed to compare strategies for assessing nutritional adequacy in the dietary intake of elite female athletes.

Methods:

Dietary intake was assessed using an adapted food-frequency questionnaire in 72 elite female athletes from a variety of sports. Nutritional adequacy was evaluated and compared using mean intake; the proportion of participants with intakes below Australian nutrient reference values (NRV), U.S. military dietary reference intakes (MDRI), and current sports nutrition recommendations; and probability estimates of nutrient inadequacy.

Results:

Mean energy intake was 10,551 ± 3,836 kJ/day with macronutrient distribution 18% protein, 31% fat, and 46% carbohydrate, consistent with Australian acceptable macronutrient distribution ranges. Mean protein intake (1.6 g · kg−1 · d−1) was consistent with (>1.2 g · kg−1 · d−1), and carbohydrate intake (4.5 g · kg−1 · d−1), below, current sports nutrition recommendations (>5 g · kg−1 · d−1), with 30% and 65% of individuals not meeting these levels, respectively. Mean micronutrient intake met the relevant NRV and MDRI except for vitamin D and folate. A proportion of participants failed to meet the estimated average requirement for folate (48%), calcium (24%), magnesium (19%), and iron (4%). Probability estimates of inadequacy identified intake of folate (44%), calcium (22%), iron (19%), and magnesium (15%) as inadequate.

Conclusion:

Interpretation of dietary adequacy is complex and varies depending on whether the mean, proportion of participants below the relevant NRV, or statistical probability estimate of inadequacy is used. Further research on methods to determine dietary adequacy in athlete populations is required.

Heaney and O’Connor are with the Discipline of Exercise and Sport Science, and Gifford, the Discipline of Nutrition and Metabolism, University of Sydney, Sydney, Australia. Naughton is with the School of Exercise Science, Australian Catholic University, Melbourne, Australia.

  • Collapse
  • Expand
Cover International Journal of Sport Nutrition and Exercise Metabolism
Volume 20: Issue 3
Ahead of Print
Volume: 34 (2024)
Show Items
Volume: 33 (2023)
Show Items
Volume: 32 (2022)
Show Items
Volume: 31 (2021)
Show Items
Volume: 30 (2020)
Show Items
Volume: 29 (2019)
Show Items
Volume: 28 (2018)
Show Items
Volume: 27 (2017)
Show Items
Volume: 26 (2016)
Show Items
Volume: 25 (2015)
Show Items
Volume: 24 (2014)
Show Items
Volume: 23 (2013)
Show Items
Volume: 22 (2012)
Show Items
Volume: 21 (2011)
Show Items
Volume: 20 (2010)
Show Items
Volume: 19 (2009)
Show Items
Volume: 18 (2008)
Show Items
Volume: 17 (2007)
Show Items
Volume: 16 (2006)
Show Items
Volume: 15 (2005)
Show Items
Volume: 14 (2004)
Show Items
Volume: 13 (2003)
Show Items
Volume: 12 (2002)
Show Items
Volume: 11 (2001)
Show Items
Volume: 10 (2000)
Show Items
Volume: 9 (1999)
Show Items
Volume: 8 (1998)
Show Items
Volume: 7 (1997)
Show Items
Volume: 6 (1996)
Show Items
Volume: 5 (1995)
Show Items
Volume: 4 (1994)
Show Items
Volume: 3 (1993)
Show Items
Volume: 2 (1992)
Show Items
Volume: 1 (1991)
Show Items
All Time Past Year Past 30 Days
Abstract Views 7531 1306 66
Full Text Views 329 62 2
PDF Downloads 363 51 4