Are milk and alternatives and fruit and vegetable intakes during adolescence associated with cortical and trabecular bone structure, density, and strength in adulthood?
Summary We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively....
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| Published in: | Osteoporosis international Vol. 28; no. 2; pp. 609 - 619 |
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| Main Authors: | , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Springer London
01-02-2017
Springer Nature B.V |
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| Abstract | Summary
We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively. No association was observed in males.
Introduction
The purpose of this study was to investigate whether adolescents with high intake of milk and alternatives (M&A) or fruit and vegetables (F&V) had better adult bone structure and strength compared to those with low intake levels.
Methods
We analyzed data from 47 males and 69 females enrolled in the Pediatric Bone Mineral Accrual Study (PBMAS 1991–2011), who had one peripheral quantitative computed tomography scan at age 29 ± 2 years. We measured radius and tibia shaft total area (ToA), cortical area (CoA), cortical content (CoC), cortical density, bone strength (SSI
p
), and muscle area, as well as distal radius and tibia ToA, total density, trabecular area, trabecular content, trabecular density, and bone strength (BSI
c
). Sequential 24-h recalls were used to assess M&A and F&V intake; participants were grouped for their mean intake during adolescence (low = bottom quartile, moderate = middle quartiles, high = top quartile) and were compared using multivariate analysis of covariance while adjusting for adult height, muscle area, physical activity, energy and calcium intake and adolescent energy intake, and physical activity.
Results
Females with high M&A intake compared to low M&A intake group (mean 3.8 vs. 1.3 servings/day, respectively) had greater adult ToA (14 %,
p
< 0.05), CoA (15 %,
p
< 0.01), and CoC (16 %,
p
< 0.01) at radius shaft. Females with moderate F&V intake compared to low F&V intake group (mean 3.7 vs. 2.1 servings/day, respectively) had greater adult ToA (8.5 %,
p
< 0.05) at distal tibia.
Conclusion
Higher intake of M&A or F&V during adolescence had a long-term beneficial effect on bone structure in females, an association not observed in males. |
|---|---|
| AbstractList | Summary
We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively. No association was observed in males.
Introduction
The purpose of this study was to investigate whether adolescents with high intake of milk and alternatives (M&A) or fruit and vegetables (F&V) had better adult bone structure and strength compared to those with low intake levels.
Methods
We analyzed data from 47 males and 69 females enrolled in the Pediatric Bone Mineral Accrual Study (PBMAS 1991–2011), who had one peripheral quantitative computed tomography scan at age 29 ± 2 years. We measured radius and tibia shaft total area (ToA), cortical area (CoA), cortical content (CoC), cortical density, bone strength (SSI
p
), and muscle area, as well as distal radius and tibia ToA, total density, trabecular area, trabecular content, trabecular density, and bone strength (BSI
c
). Sequential 24-h recalls were used to assess M&A and F&V intake; participants were grouped for their mean intake during adolescence (low = bottom quartile, moderate = middle quartiles, high = top quartile) and were compared using multivariate analysis of covariance while adjusting for adult height, muscle area, physical activity, energy and calcium intake and adolescent energy intake, and physical activity.
Results
Females with high M&A intake compared to low M&A intake group (mean 3.8 vs. 1.3 servings/day, respectively) had greater adult ToA (14 %,
p
< 0.05), CoA (15 %,
p
< 0.01), and CoC (16 %,
p
< 0.01) at radius shaft. Females with moderate F&V intake compared to low F&V intake group (mean 3.7 vs. 2.1 servings/day, respectively) had greater adult ToA (8.5 %,
p
< 0.05) at distal tibia.
Conclusion
Higher intake of M&A or F&V during adolescence had a long-term beneficial effect on bone structure in females, an association not observed in males. We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively. No association was observed in males. The purpose of this study was to investigate whether adolescents with high intake of milk and alternatives (M&A) or fruit and vegetables (F&V) had better adult bone structure and strength compared to those with low intake levels. We analyzed data from 47 males and 69 females enrolled in the Pediatric Bone Mineral Accrual Study (PBMAS 1991-2011), who had one peripheral quantitative computed tomography scan at age 29 plus or minus 2 years. We measured radius and tibia shaft total area (ToA), cortical area (CoA), cortical content (CoC), cortical density, bone strength (SSI sub(p)), and muscle area, as well as distal radius and tibia ToA, total density, trabecular area, trabecular content, trabecular density, and bone strength (BSI sub(c)). Sequential 24-h recalls were used to assess M&A and F&V intake; participants were grouped for their mean intake during adolescence (low=bottom quartile, moderate=middle quartiles, high=top quartile) and were compared using multivariate analysis of covariance while adjusting for adult height, muscle area, physical activity, energy and calcium intake and adolescent energy intake, and physical activity. Females with high M&A intake compared to low M&A intake group (mean 3.8 vs. 1.3 servings/day, respectively) had greater adult ToA (14 %, p<0.05), CoA (15 %, p<0.01), and CoC (16 %, p<0.01) at radius shaft. Females with moderate F&V intake compared to low F&V intake group (mean 3.7 vs. 2.1 servings/day, respectively) had greater adult ToA (8.5 %, p<0.05) at distal tibia. Higher intake of M&A or F&V during adolescence had a long-term beneficial effect on bone structure in females, an association not observed in males. SummaryWe investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively. No association was observed in males.IntroductionThe purpose of this study was to investigate whether adolescents with high intake of milk and alternatives (M&A) or fruit and vegetables (F&V) had better adult bone structure and strength compared to those with low intake levels.MethodsWe analyzed data from 47 males and 69 females enrolled in the Pediatric Bone Mineral Accrual Study (PBMAS 1991–2011), who had one peripheral quantitative computed tomography scan at age 29 ± 2 years. We measured radius and tibia shaft total area (ToA), cortical area (CoA), cortical content (CoC), cortical density, bone strength (SSIp), and muscle area, as well as distal radius and tibia ToA, total density, trabecular area, trabecular content, trabecular density, and bone strength (BSIc). Sequential 24-h recalls were used to assess M&A and F&V intake; participants were grouped for their mean intake during adolescence (low = bottom quartile, moderate = middle quartiles, high = top quartile) and were compared using multivariate analysis of covariance while adjusting for adult height, muscle area, physical activity, energy and calcium intake and adolescent energy intake, and physical activity.ResultsFemales with high M&A intake compared to low M&A intake group (mean 3.8 vs. 1.3 servings/day, respectively) had greater adult ToA (14 %, p < 0.05), CoA (15 %, p < 0.01), and CoC (16 %, p < 0.01) at radius shaft. Females with moderate F&V intake compared to low F&V intake group (mean 3.7 vs. 2.1 servings/day, respectively) had greater adult ToA (8.5 %, p < 0.05) at distal tibia.ConclusionHigher intake of M&A or F&V during adolescence had a long-term beneficial effect on bone structure in females, an association not observed in males. We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively. No association was observed in males.INTRODUCTIONThe purpose of this study was to investigate whether adolescents with high intake of milk and alternatives (M&A) or fruit and vegetables (F&V) had better adult bone structure and strength compared to those with low intake levels.METHODSWe analyzed data from 47 males and 69 females enrolled in the Pediatric Bone Mineral Accrual Study (PBMAS 1991-2011), who had one peripheral quantitative computed tomography scan at age 29 ± 2 years. We measured radius and tibia shaft total area (ToA), cortical area (CoA), cortical content (CoC), cortical density, bone strength (SSIp), and muscle area, as well as distal radius and tibia ToA, total density, trabecular area, trabecular content, trabecular density, and bone strength (BSIc). Sequential 24-h recalls were used to assess M&A and F&V intake; participants were grouped for their mean intake during adolescence (low = bottom quartile, moderate = middle quartiles, high = top quartile) and were compared using multivariate analysis of covariance while adjusting for adult height, muscle area, physical activity, energy and calcium intake and adolescent energy intake, and physical activity.RESULTSFemales with high M&A intake compared to low M&A intake group (mean 3.8 vs. 1.3 servings/day, respectively) had greater adult ToA (14 %, p < 0.05), CoA (15 %, p < 0.01), and CoC (16 %, p < 0.01) at radius shaft. Females with moderate F&V intake compared to low F&V intake group (mean 3.7 vs. 2.1 servings/day, respectively) had greater adult ToA (8.5 %, p < 0.05) at distal tibia.CONCLUSIONHigher intake of M&A or F&V during adolescence had a long-term beneficial effect on bone structure in females, an association not observed in males. We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of adolescent milk and alternatives and fruit and vegetable intake on adult radius shaft and distal tibia bone structure, respectively. No association was observed in males. The purpose of this study was to investigate whether adolescents with high intake of milk and alternatives (M&A) or fruit and vegetables (F&V) had better adult bone structure and strength compared to those with low intake levels. We analyzed data from 47 males and 69 females enrolled in the Pediatric Bone Mineral Accrual Study (PBMAS 1991-2011), who had one peripheral quantitative computed tomography scan at age 29 ± 2 years. We measured radius and tibia shaft total area (ToA), cortical area (CoA), cortical content (CoC), cortical density, bone strength (SSI ), and muscle area, as well as distal radius and tibia ToA, total density, trabecular area, trabecular content, trabecular density, and bone strength (BSI ). Sequential 24-h recalls were used to assess M&A and F&V intake; participants were grouped for their mean intake during adolescence (low = bottom quartile, moderate = middle quartiles, high = top quartile) and were compared using multivariate analysis of covariance while adjusting for adult height, muscle area, physical activity, energy and calcium intake and adolescent energy intake, and physical activity. Females with high M&A intake compared to low M&A intake group (mean 3.8 vs. 1.3 servings/day, respectively) had greater adult ToA (14 %, p < 0.05), CoA (15 %, p < 0.01), and CoC (16 %, p < 0.01) at radius shaft. Females with moderate F&V intake compared to low F&V intake group (mean 3.7 vs. 2.1 servings/day, respectively) had greater adult ToA (8.5 %, p < 0.05) at distal tibia. Higher intake of M&A or F&V during adolescence had a long-term beneficial effect on bone structure in females, an association not observed in males. |
| Author | Baxter-Jones, A. D. G. Szafron, M. Z. Movassagh, E. Vatanparast, H. Whiting, S. Kontulainen, S. Papadimitropoulos, M. |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/27699440$$D View this record in MEDLINE/PubMed |
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| Copyright | International Osteoporosis Foundation and National Osteoporosis Foundation 2016 Osteoporosis International is a copyright of Springer, (2016). All Rights Reserved. |
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| Keywords | Fruit and vegetables Adolescence Trabecular bone Bone strength Milk and alternatives Cortical bone |
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| References | Aghajanian, Hall, Wongworawat, Mohan (CR29) 2015; 30 Vatanparast, Baxter-Jones, Faulkner, Bailey, Whiting (CR15) 2005; 82 Welch, Mulligan, Bingham, Khaw (CR28) 2008; 99 Petit, Beck, Kontulainen (CR19) 2005; 5 Weaver, Alekel, Ward, Ronis (CR32) 2012; 31 CR18 Weber (CR30) 2001; 17 Prynne, Mishra, O’Connell, Muniz, Laskey, Yan, Prentice, Ginty (CR14) 2006; 83 Liu, Leung, Wong, Wong, Chan, Woo (CR31) 2015; 16 Tylavsky, Holliday, Danish, Womack, Norwood, Carbone (CR17) 2004; 79 Kontulainen, Hughes, Macdonald, Johnson (CR7) 2007; 51 Duckham, Baxter-Jones, Johnston, Vatanparast, Cooper, Kontulainen (CR23) 2014; 29 Kontulainen, Macdonald, Khan, McKay (CR4) 2005; 20 Radavelli-Bagatini, Zhu, Lewis, Prince (CR26) 2014; 29 Rauch (CR5) 2005; 5 Baxter-Jones, Mirwald, McKay, Bailey (CR1) 2003; 30 Esterle, Sabatier, Guillon-Metz, Walrant-Debray, Guaydier-Souquières, Jehan, Garabédian (CR11) 2009; 20 Li, Huang, Wang, Ma, Zhang, Liu, Chen, Su (CR13) 2013; 16 Du, Greenfield, Fraser, Ge, Liu, He (CR12) 2002; 30 Baxter-Jones, Faulkner, Forwood, Mirwald, Bailey (CR3) 2011; 26 Mouratidou, Vicente-Rodriguez, Gracia-Marco, Huybrechts, Sioen, Widhalm, Valtuena, Gonzalez-Gross, Moreno (CR10) 2013; 16 Frank-Wilson, Johnston, Olszynski, Kontulainen (CR25) 2015; 75 McGartland, Robson, Murray, Cran, Savage, Watkins, Rooney, Boreham (CR16) 2004; 80 Bailey (CR21) 1997; 18 Kant (CR33) 2004; 104 Cheng, Lyytikäinen, Kröger, Lamberg-Allardt, Alen, Koistinen, Wang, Suurinieni, Suominen, Mahonen (CR20) 2005; 82 CR22 Bouxsein, Seeman (CR6) 2009; 23 Bergstrom, Bjornstig, Stenlund, Jonsson, Svensson (CR9) 2008; 19 New, Robins, Campbell, Martin, Garton, Bolton-Smith, Grubb, Lee, Reid (CR27) 2000; 71 Bala, Bui, Wang, Iuliano, Wang, Ghasem-Zadeh, Rozental, Bouxsein, Zebaze, Seeman (CR8) 2015; 30 Kontulainen, Johnston, Liu, Leung, Oxland, McKay (CR24) 2008; 8 Bailey, McKay, Mirwald, Crocker, Faulkner (CR2) 1999; 14 16155286 - Am J Clin Nutr. 2005 Sep;82(3):700-6 18214568 - Osteoporos Int. 2008 Sep;19(9):1267-73 19147978 - J Musculoskelet Neuronal Interact. 2008 Oct-Dec;8(4):401-9 16172512 - J Musculoskelet Neuronal Interact. 2005 Jul-Sep;5(3):213-24 21520276 - J Bone Miner Res. 2011 Aug;26(8):1729-39 16789345 - Am J Clin Nutr. 2006 Jun;83(6):1420-8 26358868 - J Bone Miner Res. 2015 Nov;30(11):1945-55 18042305 - Br J Nutr. 2008 Jun;99(6):1335-43 24443390 - J Bone Miner Res. 2014 Jul;29(7):1691-700 14749239 - Am J Clin Nutr. 2004 Feb;79(2):311-7 18556648 - Rheumatology (Oxford). 2008 Jul;47 Suppl 4:iv9-16 25523283 - J Am Med Dir Assoc. 2015 Apr;16(4):309-15 16280447 - Am J Clin Nutr. 2005 Nov;82(5):1115-26; quiz 1147-8 11684396 - Nutrition. 2001 Oct;17(10):880-7 10491214 - J Bone Miner Res. 1999 Oct;14(10):1672-9 18704544 - Osteoporos Int. 2009 Apr;20(4):567-75 19945686 - Best Pract Res Clin Rheumatol. 2009 Dec;23 (6):741-53 15447914 - Am J Clin Nutr. 2004 Oct;80(4):1019-23 25659205 - Bone. 2015 Jun;75:49-54 15940373 - J Bone Miner Res. 2005 Jul;20(7):1202-7 17505117 - Med Sport Sci. 2007;51:13-32 9272847 - Int J Sports Med. 1997 Jul;18 Suppl 3:S191-4 22901550 - J Clin Densitom. 2013 Jan-Mar;16(1):110-7 22717072 - Public Health Nutr. 2013 Jan;16(1):78-86 12637192 - Ann Hum Biol. 2003 Mar-Apr;30(2):160-75 11882468 - Bone. 2002 Mar;30(3):521-8 15054348 - J Am Diet Assoc. 2004 Apr;104(4):615-35 23907819 - J Bone Miner Res. 2014 Feb;29(2):479-86 25327362 - J Bone Miner Res. 2015 Apr;30(4):621-9 22888840 - J Nutr Gerontol Geriatr. 2012;31(3):239-53 16172510 - J Musculoskelet Neuronal Interact. 2005 Jul-Sep;5(3):194-201 10617959 - Am J Clin Nutr. 2000 Jan;71(1):142-51 S Cheng (3775_CR20) 2005; 82 SA Kontulainen (3775_CR24) 2008; 8 H Vatanparast (3775_CR15) 2005; 82 JJ Li (3775_CR13) 2013; 16 R Duckham (3775_CR23) 2014; 29 FA Tylavsky (3775_CR17) 2004; 79 DA Bailey (3775_CR2) 1999; 14 S Radavelli-Bagatini (3775_CR26) 2014; 29 3775_CR22 SA Kontulainen (3775_CR7) 2007; 51 CJ Prynne (3775_CR14) 2006; 83 F Rauch (3775_CR5) 2005; 5 MA Petit (3775_CR19) 2005; 5 XQ Du (3775_CR12) 2002; 30 AK Kant (3775_CR33) 2004; 104 U Bergstrom (3775_CR9) 2008; 19 DA Bailey (3775_CR21) 1997; 18 ML Bouxsein (3775_CR6) 2009; 23 AD Baxter-Jones (3775_CR3) 2011; 26 SA Kontulainen (3775_CR4) 2005; 20 AW Frank-Wilson (3775_CR25) 2015; 75 CP McGartland (3775_CR16) 2004; 80 AA Welch (3775_CR28) 2008; 99 P Weber (3775_CR30) 2001; 17 L Esterle (3775_CR11) 2009; 20 CM Weaver (3775_CR32) 2012; 31 ZM Liu (3775_CR31) 2015; 16 P Aghajanian (3775_CR29) 2015; 30 AD Baxter-Jones (3775_CR1) 2003; 30 SA New (3775_CR27) 2000; 71 3775_CR18 T Mouratidou (3775_CR10) 2013; 16 Y Bala (3775_CR8) 2015; 30 |
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We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial... We investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial effect of... SummaryWe investigated the impact of food group intake during adolescence on bone structure and strength during adulthood. In females, we found a beneficial... |
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| SubjectTerms | Adolescent Adolescent Nutritional Physiological Phenomena - physiology Adolescents Adults Animals Anthropometry - methods Body height Bone density Bone Density - physiology Bone strength Calcium Cancellous bone Child development Child, Preschool Computed tomography Cortical bone Data processing Diet Endocrinology Energy intake Exercise - physiology Feeding Behavior - physiology Female Females Food intake Fruit Fruits Humans Longitudinal Studies Male Males Medicine Medicine & Public Health Milk Multivariate analysis Original Article Orthopedics Physical activity Radius Radius - diagnostic imaging Radius - physiology Rheumatology Sex Characteristics Teenagers Tibia Tibia - diagnostic imaging Tibia - physiology Tomography, X-Ray Computed - methods Vegetables |
| Title | Are milk and alternatives and fruit and vegetable intakes during adolescence associated with cortical and trabecular bone structure, density, and strength in adulthood? |
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