Megumi Kojima scite author profile

OBJECTIVE: The age of adiposity rebound (AR) is defined as the time at which BMI starts to rise after infancy and is thought to be a marker of later obesity. To determine whether this age is related to future occurrence of metabolic syndrome, we investigated the relationship of the timing of AR with metabolic consequences at 12 years of age. METHODS: A total of 271 children (147 boys and 124 girls) born in 1995 and 1996 were enrolled in the study. Serial measurements of BMI were conducted at the ages of 4 and 8 months and 1, 1.5, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12 years, based on which age of AR was calculated. Plasma lipids and blood pressure were measured at 12 years of age. RESULTS: An earlier AR (<4 years of age) was associated with a higher BMI (≥20) and a lipoprotein phenotype representative of insulin resistance. This phenotype consists of elevated triglycerides, apolipoprotein B, and atherogenic index and decreased high-density lipoprotein cholesterol in boys and elevated apolipoprotein B in girls at 12 years of age. The earlier AR was also related to elevated blood pressure in boys. CONCLUSIONS: This longitudinal population-based study indicates that children who exhibit AR at a younger age are predisposed to future development of metabolic syndrome. Therefore, monitoring of AR may be an effective method for the early identification of children at risk for metabolic syndrome.

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Relationship between the Presence of Small, Dense Low-density Lipoprotein and Plasma Lipid Phenotypes in Japanese Children

Arisaka

Kojima

Yamazaki

et al. 2004

JAT

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To clarify the relationship between the expression of atherogenic small, dense lowdensity lipoprotein (SDLDL) and underlying lipid metabolic abnormalities, the prevalence of SDLDL in relation to the serum lipid phenotype was analyzed in 229 children. The LDL particle size was measured using gradient gel electrophoresis, and a particle size of less than 25.5 nm was considered to represent SDLDL. The overall prevalence of SDLDL in the sample population was 8.2% (19/229; 11/117 for boys and 8/112 for girls).Hyperlipidemia phenotype IIb (elevated concentrations of both triglyceride [ TG] and total cholesterol [ TC ]) was strongly associated with SDLDL in 83% (5/6) of the subjects. An elevated TG concentration (phenotype IV) was associated with SDLDL in 55% (10/18) of the subjects. The association between hyperlipidemia phenotype IIa (elevated TC but a normal TG concentration) and SDLDL was quite low (2%; 1/56), but SDLDL was detected in 5% (8/155) of the subjects who presented with normolipidemia. Therefore, these findings suggest that the expression of SDLDL is largely related to lipid abnormalities characterized by phenotype IIb or IV, the underlying metabolic abnormality of which is suspected to be insulin resistance; however, an additional mechanism for the formation of SDLDL that functions independently of plasma lipid abnormalities also seems to exist. J Atheroscler Thromb, 2004; 11: 220-223.

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Association of low-density lipoprotein particle size distribution and cardiovascular risk factors in children

Kojima

Kanno

Yamazaki

et al. 2005

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Post-lithium-ion batteries: characterization of phosphorous and tin for potassium-ion anodes

2021

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Issues in interpreting lipoprotein (a) value as a risk indicator for early cardiovascular disease Sir

2003

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Megumi Kojima

Adiposity Rebound and the Development of Metabolic Syndrome

Relationship between the Presence of Small, Dense Low-density Lipoprotein and Plasma Lipid Phenotypes in Japanese Children

Association of low-density lipoprotein particle size distribution and cardiovascular risk factors in children

Post-lithium-ion batteries: characterization of phosphorous and tin for potassium-ion anodes

Issues in interpreting lipoprotein (a) value as a risk indicator for early cardiovascular disease Sir

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