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Manyetik Rezonans Görüntüleme Yöntemi ile Beyinde Yaşa Bağlı Hacim Değişikliklerinin İncelenmesi

Yıl 2018, Sayı: 5, 407 - 420, 31.08.2018

Öz

Amaç: Normal beyin yaşlanmasına
yaşa bağlı bilişsel kayıp eşlik eder. Beyinde yaşlanmaya bağlı değişimlerin
tespiti sağlıklı yaşlanma sürecini anlamakta yardımcı olacaktır.  Amacımız beyinde yaşa bağlı hacim
değişikliklerinin incelenmesiyle yaşlılıkta beyinde görülen patolojik
değişimleri tespit ederek bu hacim değişikliklerinin cinsiyet ile ilişkili
olarak farklılık gösterip göstermediğini tespit etmektir.



Yöntem: Çalışma, yaşları 20-80
arasında değişen, 13 erkek ve 16 kadın bireyden oluşan toplam 29 kişilik bir
grubun manyetik rezonans (MR) görüntüleri ile gerçekleştirilmiştir. MR
görüntülerinde sağ ve sol serebral yarıkürelerin, sağ ve sol frontal ve
temporal lobların hacimleri Cavlieri yöntemi ile ölçülmüştür.



Bulgular: Volümlerdeki bu azalma
oranının erkeklerde kadınlardan daha fazla olduğu saptandı. Erkeklerde sağ
serebral yarıkürelerin volümü, sağ ve sol frontal ve temporal lobların
hacimlerinde sol tarafta göre daha çok atrofi olduğu, kadınlarda ise sağ
frontal lob hacminin, sol frontal lob hacminden daha çok azaldığı görüldü.



Sonuç: Sonuç olarak yaşlanma ile
beyin volümünde her iki cinsde erkeklerde daha fazla olmak üzere azalma
saptandı. Erkeklerde volüm kaybının daha fazla olmasında gonodal hormonların
etkisi olabileceği düşünüldü.

Kaynakça

  • Strehler B. Genetic instability as the primary cause of human aging. Experimental Gerontology. 1986;21(4-5):283-319.
  • Yu BP, Yang R. Critical evaluation of free radical theory of aging: A proposal for the oxidative stress hypothesis. Annals of New York Academy of Selence. 1996; 786:1-11.
  • Arking R. Biology of Aging: Observations and Principles. Englewood Cliffs, NJ: Prentice Hail;1991.
  • Arbuckle TY, Gold DP, Andres D, Schwartzman A, Chaikelson J. The role of psychosocial context, age and intelligence in memory performance of older men. Psychology of Aging. 1992;7(1):25-36.
  • McMenemey W, The Dementias and Progressive Diseases of the Basal Ganglia. In: Blackwood W, Greenfield JG, eds. Greenfield's Neuropathology. 2nd ed. Baltimore, Maryland: Williams and Wilkins Co; 1963: 520-580.
  • Dekaban AS, Sadowsky BSD. Changes in brain weights during the life span of human life: relation of brain weights to body heights and body weights. Annals of Neurology. 1978;4(4):345-356.doi: 10.1002/ana.410040410.
  • Ho KC, Roessmann U, Straumfjord JV, Monroe G. Analysis of brain weight. I. Adult brain weight in relation to sex, race and age. Archives of Pathology and Laboratory Medicine. 1980;104(12):635-639.
  • Gomori JM, Steiner I, Melamed E, Cooper G. The assessment of changes in brain volume using combined linear measurements. A CT-scan study. Neuroradiology. 1984;26(1):21-24.
  • Double KL, Halliday GM, Kril JJ, et al. Topography of brain atrophy during normal aging and Alzheimer's disease. Neurobiology of Aging. 1996;17(4):513-521.
  • Hubbard BM, Anderson JM. A quantitative study of cerebral atrophy in old age and senile dementia. Journal of Neurological Sciences. 1981;50(1):135-145.
  • Creasey H, Rapoport SI. The aging human brain. Annals of Neurology. 1985;17(1):2-10.
  • Bird JM, Levy R, Jacoby RJ. Computed tomography in the elderly: changes over time in a normal population. British Journal of Psychiatry. 1986;148:80-85.
  • Murphy D, DeCarli C, Schapiro M, Rapoport S, Horwitz B. Age related differences in volumes of subcortical nuclei, brain matter and cerebrospinal fluid in healthy men as measured with magnetic resonance imaging. Archives of Neurology. 1992;49(8):839-845. doi:10.1001/archneur.1992.00530320063013.
  • Brody H. Organization of the cerebral cortex. III. A study of aging in the human cerebral cortex. Journal of Comparative Neurology. 1955;102:511-556. doi:10.1002/cne.901020206.
  • Brody H, Vijayashankar N. Anatomical changes in the nervous system. In: Finch G, Hayflick L, eds. The Handbook of the Biology of Aging. New York: Van Nostrand Reinhold; 1977.
  • Haug H, Barmwater U, Eggers R, Fischer D, Kuhl S, Sass N. Anatomical changes in the aging brain: Morphometric analysis of the human prosencephalon. In: Cervos-Navarro J, Sarkander H, eds. Neuropharmacology. New York: Raven Press; 1983.
  • Pakkenberg B, Gundersen HJ. Neocortical neuron number in humans: effect of sex and age. The Journal of Comparative Neurology. 1997;384(2):312-320.
  • Coffey CE, Wilkinson WE, Parashos IA, et al. Quantitative cerebral anatomy of the aging human brain: a cross-sectional study using magnetic resonance imaging. Neurology. 1992;42:527-536.
  • Schaie K, Labouvie G, Beuch B. Generational and cohort-specific differences in adult cognitive functioning: A fourteen year study of independent samples. Developmental Psychology. 1973;9(2):151-166. doi: 10.1037/h0035093.
  • Gur RC, Mozley PD, Resnick SM, et al. Gender differences in age effect on brain atrophy measured by magnetic resonance imaging. Proceedings of the National Academy of Selence USA. 1991;88(7):2845-2849.
  • Blatter DD, Bigler ED, Gale SD, et al. Quantitative volumetric analysis of brain MR: normative database spanning 5 decades of life. American Journal of Neuroradiography. 1995;16(2):241-251.
  • Raz N, Gunning FM, Head D, et al. Selective aging of the human cerebral cortex observed in vivo: differential vulnerability of the prefrontal gray matter. Cerebral Cortex. 1997;7(3):268-282.
  • Miller AK, Alston RL, Corsellis JA. Variation with age in the volumes of grey and vvhite matter in the cerebral hemispheres of man: measurements with an image analyser. Neuropathalogy and Applied Neurobiology. 1980;6(2):119-132.
  • Coffey CE, Lucke JF, Saxton JA, et al. Sex differences in brain aging: a guantitative magnetic resonance imaging study. Archives of Neurology. 1998;55(2):169-179.
  • Cowell PE, Turetsky BI, Gur RC, Grossman RI, Shtasel DL, Gur RE. Sex differences in aging of the human frontal and temporal lobes. The Journal of Neuroscience. 1994;14(8):4748-4755.
  • DeCarli C, Murphy DG, Gillette JA, et al. Lack of age related differences in temporal lobe volume of very healthy adults. American Journal of Neuroradiology. 1994;15(4):689-696.
  • Xu J, Kobayashl S, Yamaguchi S, Lijima K, Okada K, Yamashita K. Gender effect on age-related changes in brain structure. American Journal of Neuroradiology. 2000;21(1):112-118.
  • Bhatia S, Bookheimer SY, Galllard WD, Theodore WH. Measurement of whole temporal lobe and hippocampus for MR volumetry: Normative data. Neurology. 1993;43(10):2006-2010.
  • Pfefferbaum A, Mathalon DH, Sulllvan EV, Rawles JM, Zipursky RB, Lim KO. A quantltatlve magnetic resonance imaging study of changes in brain morphology from Infancy to late adulthood. Archives of Neurology. 1994;51(9):874-887.
  • Bartzokis G, Mintz J, Marx P, et al. Reliabillty of in vivo volume measures of hippocampus and other brain structures using MRI. Magnetic Resonance Imaging. 1993;11(7):993-1006.

Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method

Yıl 2018, Sayı: 5, 407 - 420, 31.08.2018

Öz

Aim: Normal brain aging is
accompanied by cognitive decline. Determination of age-related changes in the
brain helps in understanding the healthy aging process. Our aim was to examine
the volume changes occurring due to advanced age by investigating the age-related
changes in brain during normal aging process.



Method: This study was carried out on
the magnetic resonance (MR) images of 29 healthy subjects consisting of 13
males and 16 females between the ages of 20 to 80. Volumes of right and left
cerebral hemispheres, right and left frontal lobes, and right and left temporal
lobes were measured by Cavalieri sections method on MR images.



Findings: A significant age-related
decline in the volumes of all investigated regions (p<0.05) was observed.
The decline in volume is higher in males in comparison to females.
Additionally, it has been observed that in male subjects, the volume of right
hemisphere, right frontal lobe and right temporal lobe showed more signs of
atrophy than left side; whereas in females, the volume of right frontal lobe
showed a more prominent decline than its left frontal lobe.



Conclusion: An age-related decline in
brain volume has been detected for both sexes; however male subjects suffered a
more prominent decline than females. We believe that the reason behind this
more significant decline might be the effect of gonodal hormones.

Kaynakça

  • Strehler B. Genetic instability as the primary cause of human aging. Experimental Gerontology. 1986;21(4-5):283-319.
  • Yu BP, Yang R. Critical evaluation of free radical theory of aging: A proposal for the oxidative stress hypothesis. Annals of New York Academy of Selence. 1996; 786:1-11.
  • Arking R. Biology of Aging: Observations and Principles. Englewood Cliffs, NJ: Prentice Hail;1991.
  • Arbuckle TY, Gold DP, Andres D, Schwartzman A, Chaikelson J. The role of psychosocial context, age and intelligence in memory performance of older men. Psychology of Aging. 1992;7(1):25-36.
  • McMenemey W, The Dementias and Progressive Diseases of the Basal Ganglia. In: Blackwood W, Greenfield JG, eds. Greenfield's Neuropathology. 2nd ed. Baltimore, Maryland: Williams and Wilkins Co; 1963: 520-580.
  • Dekaban AS, Sadowsky BSD. Changes in brain weights during the life span of human life: relation of brain weights to body heights and body weights. Annals of Neurology. 1978;4(4):345-356.doi: 10.1002/ana.410040410.
  • Ho KC, Roessmann U, Straumfjord JV, Monroe G. Analysis of brain weight. I. Adult brain weight in relation to sex, race and age. Archives of Pathology and Laboratory Medicine. 1980;104(12):635-639.
  • Gomori JM, Steiner I, Melamed E, Cooper G. The assessment of changes in brain volume using combined linear measurements. A CT-scan study. Neuroradiology. 1984;26(1):21-24.
  • Double KL, Halliday GM, Kril JJ, et al. Topography of brain atrophy during normal aging and Alzheimer's disease. Neurobiology of Aging. 1996;17(4):513-521.
  • Hubbard BM, Anderson JM. A quantitative study of cerebral atrophy in old age and senile dementia. Journal of Neurological Sciences. 1981;50(1):135-145.
  • Creasey H, Rapoport SI. The aging human brain. Annals of Neurology. 1985;17(1):2-10.
  • Bird JM, Levy R, Jacoby RJ. Computed tomography in the elderly: changes over time in a normal population. British Journal of Psychiatry. 1986;148:80-85.
  • Murphy D, DeCarli C, Schapiro M, Rapoport S, Horwitz B. Age related differences in volumes of subcortical nuclei, brain matter and cerebrospinal fluid in healthy men as measured with magnetic resonance imaging. Archives of Neurology. 1992;49(8):839-845. doi:10.1001/archneur.1992.00530320063013.
  • Brody H. Organization of the cerebral cortex. III. A study of aging in the human cerebral cortex. Journal of Comparative Neurology. 1955;102:511-556. doi:10.1002/cne.901020206.
  • Brody H, Vijayashankar N. Anatomical changes in the nervous system. In: Finch G, Hayflick L, eds. The Handbook of the Biology of Aging. New York: Van Nostrand Reinhold; 1977.
  • Haug H, Barmwater U, Eggers R, Fischer D, Kuhl S, Sass N. Anatomical changes in the aging brain: Morphometric analysis of the human prosencephalon. In: Cervos-Navarro J, Sarkander H, eds. Neuropharmacology. New York: Raven Press; 1983.
  • Pakkenberg B, Gundersen HJ. Neocortical neuron number in humans: effect of sex and age. The Journal of Comparative Neurology. 1997;384(2):312-320.
  • Coffey CE, Wilkinson WE, Parashos IA, et al. Quantitative cerebral anatomy of the aging human brain: a cross-sectional study using magnetic resonance imaging. Neurology. 1992;42:527-536.
  • Schaie K, Labouvie G, Beuch B. Generational and cohort-specific differences in adult cognitive functioning: A fourteen year study of independent samples. Developmental Psychology. 1973;9(2):151-166. doi: 10.1037/h0035093.
  • Gur RC, Mozley PD, Resnick SM, et al. Gender differences in age effect on brain atrophy measured by magnetic resonance imaging. Proceedings of the National Academy of Selence USA. 1991;88(7):2845-2849.
  • Blatter DD, Bigler ED, Gale SD, et al. Quantitative volumetric analysis of brain MR: normative database spanning 5 decades of life. American Journal of Neuroradiography. 1995;16(2):241-251.
  • Raz N, Gunning FM, Head D, et al. Selective aging of the human cerebral cortex observed in vivo: differential vulnerability of the prefrontal gray matter. Cerebral Cortex. 1997;7(3):268-282.
  • Miller AK, Alston RL, Corsellis JA. Variation with age in the volumes of grey and vvhite matter in the cerebral hemispheres of man: measurements with an image analyser. Neuropathalogy and Applied Neurobiology. 1980;6(2):119-132.
  • Coffey CE, Lucke JF, Saxton JA, et al. Sex differences in brain aging: a guantitative magnetic resonance imaging study. Archives of Neurology. 1998;55(2):169-179.
  • Cowell PE, Turetsky BI, Gur RC, Grossman RI, Shtasel DL, Gur RE. Sex differences in aging of the human frontal and temporal lobes. The Journal of Neuroscience. 1994;14(8):4748-4755.
  • DeCarli C, Murphy DG, Gillette JA, et al. Lack of age related differences in temporal lobe volume of very healthy adults. American Journal of Neuroradiology. 1994;15(4):689-696.
  • Xu J, Kobayashl S, Yamaguchi S, Lijima K, Okada K, Yamashita K. Gender effect on age-related changes in brain structure. American Journal of Neuroradiology. 2000;21(1):112-118.
  • Bhatia S, Bookheimer SY, Galllard WD, Theodore WH. Measurement of whole temporal lobe and hippocampus for MR volumetry: Normative data. Neurology. 1993;43(10):2006-2010.
  • Pfefferbaum A, Mathalon DH, Sulllvan EV, Rawles JM, Zipursky RB, Lim KO. A quantltatlve magnetic resonance imaging study of changes in brain morphology from Infancy to late adulthood. Archives of Neurology. 1994;51(9):874-887.
  • Bartzokis G, Mintz J, Marx P, et al. Reliabillty of in vivo volume measures of hippocampus and other brain structures using MRI. Magnetic Resonance Imaging. 1993;11(7):993-1006.
Toplam 30 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Klinik Tıp Bilimleri
Bölüm Makaleler
Yazarlar

Ceyda Hayretdağ Örs 0000-0002-9857-8841

Necip Ozan Tiryakioğlu 0000-0002-3122-3050

Tuncay Varol 0000-0002-9857-8841

Yayımlanma Tarihi 31 Ağustos 2018
Kabul Tarihi 8 Nisan 2018
Yayımlandığı Sayı Yıl 2018 Sayı: 5

Kaynak Göster

APA Hayretdağ Örs, C., Tiryakioğlu, N. O., & Varol, T. (2018). Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method. İstanbul Gelişim Üniversitesi Sağlık Bilimleri Dergisi(5), 407-420.
AMA Hayretdağ Örs C, Tiryakioğlu NO, Varol T. Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method. IGUSABDER. Ağustos 2018;(5):407-420.
Chicago Hayretdağ Örs, Ceyda, Necip Ozan Tiryakioğlu, ve Tuncay Varol. “Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method”. İstanbul Gelişim Üniversitesi Sağlık Bilimleri Dergisi, sy. 5 (Ağustos 2018): 407-20.
EndNote Hayretdağ Örs C, Tiryakioğlu NO, Varol T (01 Ağustos 2018) Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method. İstanbul Gelişim Üniversitesi Sağlık Bilimleri Dergisi 5 407–420.
IEEE C. Hayretdağ Örs, N. O. Tiryakioğlu, ve T. Varol, “Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method”, IGUSABDER, sy. 5, ss. 407–420, Ağustos 2018.
ISNAD Hayretdağ Örs, Ceyda vd. “Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method”. İstanbul Gelişim Üniversitesi Sağlık Bilimleri Dergisi 5 (Ağustos 2018), 407-420.
JAMA Hayretdağ Örs C, Tiryakioğlu NO, Varol T. Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method. IGUSABDER. 2018;:407–420.
MLA Hayretdağ Örs, Ceyda vd. “Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method”. İstanbul Gelişim Üniversitesi Sağlık Bilimleri Dergisi, sy. 5, 2018, ss. 407-20.
Vancouver Hayretdağ Örs C, Tiryakioğlu NO, Varol T. Examination of Age Related Volume Changes in Brain by Magnetic Resonance Imaging Method. IGUSABDER. 2018(5):407-20.

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