Araştırma Makalesi
Yıl 2018,
Cilt: 11 Sayı: 1, 265 - 272, 15.06.2018
Öz
Obezite'nin
başlangıcı ve gelişiminin temelinde ailesel kalıtım önemlidir. Çevresel
faktörler, hareketsizlik ve aşırı beslenme, fazla miktarda yağlı ve yüksek
kalorili yiyeceklerin tüketilmesi gibi sosyo-ekonomik durumla ilgili
multifaktöriyel bir hastalıktır. Obezite gelişmiş ülkelerde önemli bir sağlık
sorunu iken gelişmekte olan ülkelerde de hızla majör bir sağlık sorunu hale
gelmektedir. Bundan dolayı tanı konulması ve gerekli önlemlerin alınması önemlidir. Fakat tedavisi her zaman başarılı olmayabilir.
Sağlıklı obezite terimi, obezitenin sınıflandırılmasında bir alt kategori
olarak önerilmiştir. Sağlıklı obez
insanlar VKI (Vücut Kitle İndeksi) açısından iki gruba ayrılabilir: İnsülin
direnci olanlar veya insülin duyarlılığı yüksek olan bireyler. Henüz bu grupların ayırımı tam yapılamamıştır. VKI
arttıkça bazı metabolik hastalıklar ortaya çıkmaktadır. Sürekli artan VKİ, metabolik sendromun tüm bileşenlerinin
oluşumunu gittikçe artırmaktadır. Sağlıklı kişiler ve sağlıksız obezite,
arasındaki ayrım için özellikle
metabolik hastalıkların obezite ile ilişkili mekanizmaları incelenmelidir.
Obesite tanımında bu alt gruplar arasında önemli örtüşmelerin dikkate alınması
gereklidir.
Bu
sebeple yaşam tarzı alışkanlıklarının ve stresin oluşturduğu obesitenin
azaltılması, okul öncesi çocukların obeziteye yatkınlığının genetik olarak
taranmaları ile nesillerin daha sağlıklı
yetişmelerine katkı sağlanabilecektir.
Anahtar Kelimeler
Kaynakça
- Blüher, M. (2012). Are there still healthy obese patients? Current Opinion in Endocrinology, Diabetes and Obesity, 341-346. Bordoni, L., Marchegiani, F., & Piangerelli, M. (2017). Obesity-related genetic polymorphisms and adiposity indices in a young Italian population. IUBMB life, 98-105. Cha, S., Koo, I., & Park, B. (2011). Genetic effects of FTO of and MC4R Polymorphisms on Body Mass in Constitutional Types. Evid Based Complement Alternat Med, 106390. Cinti, S. (2005). The adipose organ. Prostaglandinsi Leukotrienes and Essential Fatty Acids, 9-15. Cristina, R., Marti, A., & Martinez, J. (2011). Evidences on three relevant obesogenes: MC4R, FTO and PPARγ. Approaches for personalized nutrition. Nutrition&Food Researc, 136-149. Faucher, P., & Poitou, C. (2016). Physiopathology, causes and complications of obesity. Soins; la revue de refence infirmiere, 20-25. Ford, E., Maynard, L., & Li, C. (2014). Trends in mean waist circumference and abdominal obesity among US adults, 1999-2012. Jama, 1151-1153. Harbron, J., van der Merwe, L., & Zaahl, M. (2014). Fatmass and obesityassociated (FTO) gene polymorphisms areas sociated with physical activity,foodintake, eating behaviors,psychological health, and modeled change in body massindex in overweight / obese Caucasian adults. Nurients, 3130-3152. Haydee, R., Ezquerro, J., & Bienvenu, T. (2011). Brain-derived neurotrophic factor, food intake regulation, and obesity. Archives of Medical Research, 482-494. Herring, M., Sailors, M., & Bray, M. (2014). Genetic factors in exercise adoption, adherence and obesity. Obesity Reviews, 29-39. Kogelman, LJA, Fu, J., & Franke, L. (2016). Inter-Tissue Gene Co-Expression Networks between Metabolically Healthy and Unhealthy Obese Individuals. Plosone, e0167519. Koster, A., Stenholm, & Alley, D. (2010). . Body fat distribution and inflammation among obese older adults with and without metabolic syndrome. Obesity, 2354-2361. Lazopoulou, N., Gkioka, E., & I, N. (2015). The combine deffect of MC4R and FTO risk alleles on childhood obesity in Greece. Hormones, 126-133. Leonska, D., Zarebska, A., & Jastrzebski, Z. (2016). variants influencing effectiveness of exercise training programmes in obesity–an overview of human studies. Biology of Sport , 207. Lora, K., Erin, E., & Gregory, M. (2006). Serotonin reciprocally regulates melanocortin neurons to modulate food intake. Neuron, 239-249. Myoungsook, L., Kim, M., & Known, D. (2016). Genome-wide association study for the interaction between BMR and BMI in obese Korean women including overweight. Nutrition Research and Practice, 115-124. Nookaew, I., Svensson, P., & Jacobson, P. (2013). Adipose tissue resting energy expenditure and expression of genesinvolved in mitochondrial functionare higher in women than in men. The Journal of Clinical Endocrinology&Metabolism, E370-E378. Novak, C., & Levine, J. (2007). Central neural and endocrine mechanisms of non‐exercise activity thermogenesis and their potential impact on obesity. Journal of Neuro Endocrinology, 923-940. Palmer, B., & Clegg, D. (2015). The sexualdimorphism of obesity. Molecular and Cellular Endocrinology, 113-119. Phillips, & Catherine, M. (2013). Metabolically healthy obesity: definitions, determinants and clinical implications. Reviews in Endocrine and Metabolic Disorders, 219-227. Pigeyre, M., Yazdi, F., & Kaur, Y. (2016). Recentprogress in genetics, epigenetics and metagenomic sunveils the pathophysiology of human obesity. Clinical Science, 943-986. Pulit, S., Karaderi, T., & Lindgren, C. (2017). Sexual Dimorphisms in Genetic Loci Linked to Body Fat Distribution. Bioscience Reports, BSR20160184. Quach, A., Levine, M., & Tanaka, T. (2017). Epigenetic clock analysis of diet, exercise, education, and lifestyle factors. Aging (Albany NY), 419. Sheikh, A., Nasrullah, A., & Haq, S. (2017). The interplay of genetics and environmental factors in the development of obesity. Cureus, 1435. Singh, Rajan Kumar, S., Kumar, P., & Kulandaivelu, M. (2017). Molecular genetics of human obesity: A comprehensive review. Comptesrendus Biologies, 87-108. Speakman, J. (2015). The fatmass and obesity related (FTO) gene: mechanisms of impact on obesity and energybalance. Current obesity reports, 73-91. Tchoukalova, Y., Votruba, S., & Tchkonia, T. (2010). Regional differences in cellular mechanisms of adipose tissue gain with overfeeding. Proceedings of the National Academy of Sciences, 18226-18231. White, U., & Tchoukalova, Y. (2014). Sexdimorphism and depot differences in adipose tissue function. Biochimica et Biophysica Acta (BBA)-Moleculer Basis of Disease, 377-392. Yeo, & Giles, S. (2014). The role of the FTO (Fat Mass and Obesity Related) locus in regulating body size and composition. Molecular and cellular endocrinology, 34-41. Zhu, Z., Liu, X., Kumar, S., & Zhang, J. (2013). Central expression and anorecticeffect of brain-derived neurotrophic factor are regulated by circulating estradiol levels. Hormones and Behavior, 533-542. Zlatohlavek, L., Vrablik, M., & Motykova, E. (2013). FTO and MC4R gene variants determine BMI changes in children after intensive lifestyle intervention. Clin Biochem, 313-316.
Yıl 2018,
Cilt: 11 Sayı: 1, 265 - 272, 15.06.2018
Öz
Kaynakça
- Blüher, M. (2012). Are there still healthy obese patients? Current Opinion in Endocrinology, Diabetes and Obesity, 341-346. Bordoni, L., Marchegiani, F., & Piangerelli, M. (2017). Obesity-related genetic polymorphisms and adiposity indices in a young Italian population. IUBMB life, 98-105. Cha, S., Koo, I., & Park, B. (2011). Genetic effects of FTO of and MC4R Polymorphisms on Body Mass in Constitutional Types. Evid Based Complement Alternat Med, 106390. Cinti, S. (2005). The adipose organ. Prostaglandinsi Leukotrienes and Essential Fatty Acids, 9-15. Cristina, R., Marti, A., & Martinez, J. (2011). Evidences on three relevant obesogenes: MC4R, FTO and PPARγ. Approaches for personalized nutrition. Nutrition&Food Researc, 136-149. Faucher, P., & Poitou, C. (2016). Physiopathology, causes and complications of obesity. Soins; la revue de refence infirmiere, 20-25. Ford, E., Maynard, L., & Li, C. (2014). Trends in mean waist circumference and abdominal obesity among US adults, 1999-2012. Jama, 1151-1153. Harbron, J., van der Merwe, L., & Zaahl, M. (2014). Fatmass and obesityassociated (FTO) gene polymorphisms areas sociated with physical activity,foodintake, eating behaviors,psychological health, and modeled change in body massindex in overweight / obese Caucasian adults. Nurients, 3130-3152. Haydee, R., Ezquerro, J., & Bienvenu, T. (2011). Brain-derived neurotrophic factor, food intake regulation, and obesity. Archives of Medical Research, 482-494. Herring, M., Sailors, M., & Bray, M. (2014). Genetic factors in exercise adoption, adherence and obesity. Obesity Reviews, 29-39. Kogelman, LJA, Fu, J., & Franke, L. (2016). Inter-Tissue Gene Co-Expression Networks between Metabolically Healthy and Unhealthy Obese Individuals. Plosone, e0167519. Koster, A., Stenholm, & Alley, D. (2010). . Body fat distribution and inflammation among obese older adults with and without metabolic syndrome. Obesity, 2354-2361. Lazopoulou, N., Gkioka, E., & I, N. (2015). The combine deffect of MC4R and FTO risk alleles on childhood obesity in Greece. Hormones, 126-133. Leonska, D., Zarebska, A., & Jastrzebski, Z. (2016). variants influencing effectiveness of exercise training programmes in obesity–an overview of human studies. Biology of Sport , 207. Lora, K., Erin, E., & Gregory, M. (2006). Serotonin reciprocally regulates melanocortin neurons to modulate food intake. Neuron, 239-249. Myoungsook, L., Kim, M., & Known, D. (2016). Genome-wide association study for the interaction between BMR and BMI in obese Korean women including overweight. Nutrition Research and Practice, 115-124. Nookaew, I., Svensson, P., & Jacobson, P. (2013). Adipose tissue resting energy expenditure and expression of genesinvolved in mitochondrial functionare higher in women than in men. The Journal of Clinical Endocrinology&Metabolism, E370-E378. Novak, C., & Levine, J. (2007). Central neural and endocrine mechanisms of non‐exercise activity thermogenesis and their potential impact on obesity. Journal of Neuro Endocrinology, 923-940. Palmer, B., & Clegg, D. (2015). The sexualdimorphism of obesity. Molecular and Cellular Endocrinology, 113-119. Phillips, & Catherine, M. (2013). Metabolically healthy obesity: definitions, determinants and clinical implications. Reviews in Endocrine and Metabolic Disorders, 219-227. Pigeyre, M., Yazdi, F., & Kaur, Y. (2016). Recentprogress in genetics, epigenetics and metagenomic sunveils the pathophysiology of human obesity. Clinical Science, 943-986. Pulit, S., Karaderi, T., & Lindgren, C. (2017). Sexual Dimorphisms in Genetic Loci Linked to Body Fat Distribution. Bioscience Reports, BSR20160184. Quach, A., Levine, M., & Tanaka, T. (2017). Epigenetic clock analysis of diet, exercise, education, and lifestyle factors. Aging (Albany NY), 419. Sheikh, A., Nasrullah, A., & Haq, S. (2017). The interplay of genetics and environmental factors in the development of obesity. Cureus, 1435. Singh, Rajan Kumar, S., Kumar, P., & Kulandaivelu, M. (2017). Molecular genetics of human obesity: A comprehensive review. Comptesrendus Biologies, 87-108. Speakman, J. (2015). The fatmass and obesity related (FTO) gene: mechanisms of impact on obesity and energybalance. Current obesity reports, 73-91. Tchoukalova, Y., Votruba, S., & Tchkonia, T. (2010). Regional differences in cellular mechanisms of adipose tissue gain with overfeeding. Proceedings of the National Academy of Sciences, 18226-18231. White, U., & Tchoukalova, Y. (2014). Sexdimorphism and depot differences in adipose tissue function. Biochimica et Biophysica Acta (BBA)-Moleculer Basis of Disease, 377-392. Yeo, & Giles, S. (2014). The role of the FTO (Fat Mass and Obesity Related) locus in regulating body size and composition. Molecular and cellular endocrinology, 34-41. Zhu, Z., Liu, X., Kumar, S., & Zhang, J. (2013). Central expression and anorecticeffect of brain-derived neurotrophic factor are regulated by circulating estradiol levels. Hormones and Behavior, 533-542. Zlatohlavek, L., Vrablik, M., & Motykova, E. (2013). FTO and MC4R gene variants determine BMI changes in children after intensive lifestyle intervention. Clin Biochem, 313-316.
Toplam 1 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | Türkçe |
|---|---|
| Bölüm | Makaleler |
| Yazarlar | |
| Yayımlanma Tarihi | 15 Haziran 2018 |
| Gönderilme Tarihi | 11 Şubat 2018 |
| Yayımlandığı Sayı | Yıl 2018 Cilt: 11 Sayı: 1 |
