Altered human brain anatomy in chronic smokers: a review of magnetic resonance imaging studies
详细信息 查看全文
- 作者:Chao Wang (1)
Xiaojun Xu (1)
Wei Qian (1)
Zhujing Shen (1)
Minming Zhang (1)
1. Department of Radiology ; The Second Affiliated Hospital ; Zhejiang University School of Medicine ; No. 88 Jiefang Road ; Hangzhou ; 310009 ; China - 关键词:Cigarette smoking ; Gray matter ; White matter ; Magnetic resonance imaging ; Diffusion ; Tensor imaging ; Cognitive decline
- 刊名:Neurological Sciences
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:36
- 期:4
- 页码:497-504
- 全文大小:194 KB
- 参考文献:1. Ezzati, M, Lopez, AD (2003) Estimates of global mortality attributable to smoking in 2000. Lancet 362: pp. 847-852 40-6736(03)14338-3" target="_blank" title="It opens in new window">CrossRef
2. Thiel, CM, Zilles, K, Fink, GR (2005) Nicotine modulates reorienting of visuospatial attention and neural activity in human parietal cortex. Neuropsychopharmacology 30: pp. 810-820
3. Kumari, V, Soni, W, Sharma, T (2001) Influence of cigarette smoking on prepulse inhibition of the acoustic startle response in schizophrenia. Hum Psychopharmacol 16: pp. 321-326 CrossRef
4. Stewart, MC, Deary, IJ, Fowkes, FG, Price, JF (2006) Relationship between lifetime smoking, smoking status at older age and human cognitive function. Neuroepidemiology 26: pp. 83-92 CrossRef
5. Sutherland, MT, Ross, TJ, Shakleya, DM, Huestis, MA, Stein, EA (2011) Chronic smoking, but not acute nicotine administration, modulates neural correlates of working memory. Psychopharmacology 213: pp. 29-42 CrossRef
6. Addicott, MA, Baranger, DA, Kozink, RV, Smoski, MJ, Dichter, GS, McClernon, FJ (2012) Smoking withdrawal is associated with increases in brain activation during decision making and reward anticipation: a preliminary study. Psychopharmacology 219: pp. 563-573 404-3" target="_blank" title="It opens in new window">CrossRef
7. Zhang, XY, Chen, C, Xiu, MH, Haile, CN, Sun, H, Lu, L, Kosten, TA, Kosten, TR (2012) Cigarette smoking and cognitive function in Chinese male schizophrenia: a case-control study. PLoS One 7: pp. 3
8. Okusaga, O, Stewart, MC, Butcher, I, Deary, I, Fowkes, FG, Price, JF (2013) Smoking, hypercholesterolaemia and hypertension as risk factors for cognitive impairment in older adults. Age Ageing 9: pp. 9
9. Trauth, JA, McCook, EC, Seidler, FJ, Slotkin, TA (2000) Modeling adolescent nicotine exposure: effects on cholinergic systems in rat brain regions. Brain Res 873: pp. 18-25 465-3" target="_blank" title="It opens in new window">CrossRef
10. Xu, Z, Seidler, FJ, Ali, SF, Slikker, W, Slotkin, TA (2001) Fetal and adolescent nicotine administration: effects on CNS serotonergic systems. Brain Res 914: pp. 166-178 4" target="_blank" title="It opens in new window">CrossRef
11. Chen, WJ, Edwards, RB, Romero, RD, Parnell, SE, Monk, RJ (2003) Long-term nicotine exposure reduces Purkinje cell number in the adult rat cerebellar vermis. Neurotoxicol Teratol 25: pp. 329-334 CrossRef
12. Longstreth, WT, Arnold, AM, Manolio, TA (2000) Clinical correlates of ventricular and sulcal size on cranial magnetic resonance imaging of 3,301 elderly people. The Cardiovascular Health Study. Collaborative Research Group. Neuroepidemiology 19: pp. 30-42 CrossRef
Cluster analysis and patterns of findings on cranial magnetic resonance imaging of the elderly: the Cardiovascular Health Study. Arch Neurol 58: pp. 635-640 4.635" target="_blank" title="It opens in new window">CrossRef
13. Brody, AL, Mandelkern, MA, Jarvik, ME (2004) Differences between smokers and nonsmokers in regional gray matter volumes and densities. Biol Psychiatry 55: pp. 77-84 CrossRef
14. Gallinat, J, Meisenzahl, E, Jacobsen, LK (2006) Smoking and structural brain deficits: a volumetric MR investigation. Eur J Neurosci 24: pp. 1744-1750 460-9568.2006.05050.x" target="_blank" title="It opens in new window">CrossRef
15. Durazzo, TC, Cardenas, VA, Studholme, C, Weiner, MW, Meyerhoff, DJ (2007) Non-treatment-seeking heavy drinkers: effects of chronic cigarette smoking on brain structure. Drug Alcohol Depend 87: pp. 76-82 CrossRef
16. Almeida, OP, Garrido, GJ, Lautenschlager, NT, Hulse, GK, Jamrozik, K, Flicker, L (2008) Smoking is associated with reduced cortical regional gray matter density in brain regions associated with incipient Alzheimer disease. Am J Geriatr Psychiatry 16: pp. 92-98 CrossRef
17. Zhang, X, Salmeron, BJ, Ross, TJ, Gu, H, Geng, X, Yang, Y, Stein, EA (2011) Anatomical differences and network characteristics underlying smoking cue reactivity. NeuroImage 54: pp. 131-141 CrossRef
18. Kuhn, S, Romanowski, A, Schilling, C, Mobascher, A, Warbrick, T, Winterer, G, Gallinat, J (2012) Brain gray matter deficits in smokers: focus on the cerebellum. Brain Struct Funct 217: pp. 517-522 429-011-0346-5" target="_blank" title="It opens in new window">CrossRef
19. Kuhn, S, Schubert, F, Gallinat, J (2010) Reduced thickness of medial orbitofrontal cortex in smokers. Biol Psychiatry 68: pp. 1061-1065 4" target="_blank" title="It opens in new window">CrossRef
20. Franklin, TR, Wetherill, RR, Jagannathan, K, Johnson, B, Mumma, J, Hager, N, Rao, H, Childress, AR (2014) The effects of chronic cigarette smoking on gray matter volume: influence of sex. PLoS One 9: pp. e104102 4102" target="_blank" title="It opens in new window">CrossRef
21. Das, D, Cherbuin, N, Anstey, KJ, Sachdev, PS, Easteal, S (2012) Lifetime cigarette smoking is associated with striatal volume measures. Addict Biol 17: pp. 817-825 CrossRef
22. Picciotto, MR, Zoli, M (2008) Neuroprotection via nAChRs: the role of nAChRs in neurodegenerative disorders such as Alzheimer鈥檚 and Parkinson鈥檚 disease. Front Biosci 13: pp. 492-504 41/2695" target="_blank" title="It opens in new window">CrossRef
23. Tregellas, JR, Shatti, S, Tanabe, JL, Martin, LF, Gibson, L, Wylie, K, Rojas, DC (2007) Gray matter volume differences and the effects of smoking on gray matter in schizophrenia. Schizophr Res 97: pp. 242-249 CrossRef
24. Liao, Y, Tang, J, Liu, T, Chen, X, Hao, W (2012) Differences between smokers and non-smokers in regional gray matter volumes: a voxel-based morphometry study. Addict Biol 17: pp. 977-980 CrossRef
25. Fukuda, H, Kitani, M (1996) Cigarette smoking is correlated with the periventricular hyperintensity grade of brain magnetic resonance imaging. Stroke J Cereb Circ 27: pp. 645-649 4.645" target="_blank" title="It opens in new window">CrossRef
26. Liao, D, Cooper, L, Cai, J (1997) The prevalence and severity of white matter lesions, their relationship with age, ethnicity, gender, and cardiovascular disease risk factors: the ARIC Study. Neuroepidemiology 16: pp. 149-162 4" target="_blank" title="It opens in new window">CrossRef
27. Tsushima, Y, Tanizaki, Y, Aoki, J, Endo, K (2002) MR detection of microhemorrhages in neurologically healthy adults. Neuroradiology 44: pp. 31-36 40100649" target="_blank" title="It opens in new window">CrossRef
28. Yetkin, FZ, Fischer, ME, Papke, RA, Haughton, VM (1993) Focal hyperintensities in cerebral white matter on MR images of asymptomatic volunteers: correlation with social and medical histories. AJR Am J Roentgenol 161: pp. 855-858 4/ajr.161.4.7980728" target="_blank" title="It opens in new window">CrossRef
29. Yamashita, K, Kobayashi, S, Yamaguchi, S, Koide, H (1996) Cigarette smoking and silent brain infarction in normal adults. Intern Med (Tokyo, Japan) 35: pp. 704-706 4" target="_blank" title="It opens in new window">CrossRef
30. Ylikoski, R, Ylikoski, A, Erkinjuntti, T, Sulkava, R, Raininko, R, Tilvis, R (1993) White matter changes in healthy elderly persons correlate with attention and speed of mental processing. Arch Neurol 50: pp. 818-824 40080029009" target="_blank" title="It opens in new window">CrossRef
31. Verdelho, A, Madureira, S, Ferro, JM (2007) Differential impact of cerebral white matter changes, diabetes, hypertension and stroke on cognitive performance among non-disabled elderly. The LADIS study. J Neurol Neurosurg Psychiatry 78: pp. 1325-1330 CrossRef
32. Longstreth, WT, Arnold, AM, Beauchamp, NJ (2005) Incidence, manifestations, and predictors of worsening white matter on serial cranial magnetic resonance imaging in the elderly: the Cardiovascular Health Study. Stroke 36: pp. 56-61 49625.99732.69" target="_blank" title="It opens in new window">CrossRef
33. Benowitz, NL (2003) Cigarette smoking and cardiovascular disease: pathophysiology and implications for treatment. Prog Cardiovasc Dis 46: pp. 91-111 CrossRef
34. Gazdzinski, S, Durazzo, TC, Studholme, C, Song, E, Banys, P, Meyerhoff, DJ (2005) Quantitative brain MRI in alcohol dependence: preliminary evidence for effects of concurrent chronic cigarette smoking on regional brain volumes. Alcohol Clin Exp Res 29: pp. 1484-1495 488.61" target="_blank" title="It opens in new window">CrossRef
35. Yu, R, Zhao, L, Lu, L (2011) Regional gray and white matter changes in heavy male smokers. PLoS One 6: pp. 4
36. Durazzo, TC, Gazdzinski, S, Banys, P, Meyerhoff, DJ (2004) Cigarette smoking exacerbates chronic alcohol-induced brain damage: a preliminary metabolite imaging study. Alcohol Clin Exp Res 28: pp. 1849-1860 48112.92525.AC" target="_blank" title="It opens in new window">CrossRef
37. Hawkins, BT, Brown, RC, Davis, TP (2002) Smoking and ischemic stroke: a role for nicotine?. Trends Pharmacol Sci 23: pp. 78-82 47(02)01893-X" target="_blank" title="It opens in new window">CrossRef
38. Deveci, SE, Deveci, F, Acik, Y, Ozan, AT (2004) The measurement of exhaled carbon monoxide in healthy smokers and non-smokers. Respir Med 98: pp. 551-556 CrossRef
39. Yamamoto, Y, Nishiyama, Y, Monden, T, Satoh, K, Ohkawa, M (2003) A study of the acute effect of smoking on cerebral blood flow using 99mTc-ECD SPET. Eur J Nucl Med Mol Imaging 30: pp. 612-614 CrossRef
40. Alexander, AL, Lee, JE, Lazar, M, Field, AS (2007) Diffusion tensor imaging of the brain. Neurother J Am Soc Exp Neurother 4: pp. 316-329 CrossRef
41. Beaulieu, C (2002) The basis of anisotropic water diffusion in the nervous system鈥攁 technical review. NMR Biomed 15: pp. 435-455 CrossRef
42. Paul, R, Grieve, S, Niaura, R (2008) Chronic cigarette smoking and the microstructural integrity of white matter in healthy adults: A diffusion tensor imaging study. Nicotine Tob Res 10: pp. 137-147 4622200701767829" target="_blank" title="It opens in new window">CrossRef
43. Jacobsen, LK, Picciotto, MR, Heath, CJ (2007) Prenatal and adolescent exposure to tobacco smoke modulates the development of white matter microstructure. J Neurosci 27: pp. 13491-13498 402-07.2007" target="_blank" title="It opens in new window">CrossRef
44. Liao, Y, Tang, J, Deng, Q (2011) Bilateral fronto-parietal integrity in young chronic cigarette smokers: a diffusion tensor imaging study. PLoS ONE 6: pp. 1
45. Hudkins, M, O鈥橬eill, J, Tobias, MC, Bartzokis, G, London, ED (2012) Cigarette smoking and white matter microstructure. Psychopharmacology 221: pp. 285-295 CrossRef
46. Zubieta, JK, Heitzeg, MM, Xu, Y, Koeppe, RA, Ni, L, Guthrie, S, Domino, EF (2005) Regional cerebral blood flow responses to smoking in tobacco smokers after overnight abstinence. Am J Psychiatry 162: pp. 567-577 CrossRef
47. Sibon, I, Menegon, P, Rouanet, F, Dousset, V, Orgogozo, JM (2004) MRI of acute brainstem ischaemia: cytotoxic versus vasogenic oedema?. Eur J Neurol 11: pp. 497-498 468-1331.2004.00847.x" target="_blank" title="It opens in new window">CrossRef
48. Ding, YS, Fowler, JS, Logan, J (2004) 6-[18F]Fluoro-A-85380, a new PET tracer for the nicotinic acetylcholine receptor: studies in the human brain and in vivo demonstration of specific binding in white matter. Synapse 53: pp. 184-189 CrossRef
49. Opanashuk, LA, Pauly, JR, Hauser, KF (2001) Effect of nicotine on cerebellar granule neuron development. Eur J Neurosci 13: pp. 48-56 46/j.1460-9568.2001.01359.x" target="_blank" title="It opens in new window">CrossRef
50. Garrido, R, King-Pospisil, K, Son, KW, Hennig, B, Toborek, M (2003) Nicotine upregulates nerve growth factor expression and prevents apoptosis of cultured spinal cord neurons. Neurosci Res 47: pp. 349-355 CrossRef
51. Liu, JJ, Mohila, CA, Gong, Y, Govindarajan, N, Onn, SP (2005) Chronic nicotine exposure during adolescence differentially influences calcium-binding proteins in rat anterior cingulate cortex. Eur J Neurosci 22: pp. 2462-2474 460-9568.2005.04423.x" target="_blank" title="It opens in new window">CrossRef
52. Zhang, X, Stein, EA, Hong, LE (2010) Smoking and schizophrenia independently and additively reduce white matter integrity between striatum and frontal cortex. Biol Psychiatry 68: pp. 674-677 CrossRef
53. Gons, RA, Norden, AG, Laat, KF, Oudheusden, LJ, Uden, IW, Zwiers, MP, Norris, DG, Leeuw, FE (2011) Cigarette smoking is associated with reduced microstructural integrity of cerebral white matter. Brain 134: pp. 2116-2124 45" target="_blank" title="It opens in new window">CrossRef
54. Cullen, KR, Wallace, S, Magnotta, VA (2012) Cigarette smoking and white matter microstructure in schizophrenia. Psychiatry Res 201: pp. 152-158 CrossRef
55. Benes, FM (1989) Myelination of cortical-hippocampal relays during late adolescence. Schizophr Bull 15: pp. 585-593 4.585" target="_blank" title="It opens in new window">CrossRef
56. Bartzokis, G, Lu, PH, Stewart, SB (2009) In vivo evidence of differential impact of typical and atypical antipsychotics on intracortical myelin in adults with schizophrenia. Schizophr Res 113: pp. 322-331 4" target="_blank" title="It opens in new window">CrossRef
57. Heishman, SJ (1999) Behavioral and cognitive effects of smoking: relationship to nicotine addiction. Nicotine Tob Res 1: pp. S165-S166 4622299050011971" target="_blank" title="It opens in new window">CrossRef
58. Deary, IJ, Bastin, ME, Pattie, A, Clayden, JD, Whalley, LJ, Starr, JM, Wardlaw, JM (2006) White matter integrity and cognition in childhood and old age. Neurology 66: pp. 505-512 4.81900.e2" target="_blank" title="It opens in new window">CrossRef
59. Vernooij, MW, Ikram, MA, Vrooman, HA (2009) White matter microstructural integrity and cognitive function in a general elderly population. Arch Gen Psychiatry 66: pp. 545-553 CrossRef
60. Hogan, AM, Vargha-Khadem, F, Saunders, DE, Kirkham, FJ, Baldeweg, T (2006) Impact of frontal white matter lesions on performance monitoring: ERP evidence for cortical disconnection. Brain 129: pp. 2177-2188 CrossRef
61. Frisoni, GB, Galluzzi, S, Pantoni, L, Filippi, M (2007) The effect of white matter lesions on cognition in the elderly鈥攕mall but detectable. Nat Clin Pract Neurol 3: pp. 620-627 CrossRef
62. Gotti, C, Clementi, F, Fornari, A (2009) Structural and functional diversity of native brain neuronal nicotinic receptors. Biochem Pharmacol 78: pp. 703-711 4" target="_blank" title="It opens in new window">CrossRef
63. Mansvelder, HD, Aerde, KI, Couey, JJ, Brussaard, AB (2006) Nicotinic modulation of neuronal networks: from receptors to cognition. Psychopharmacology 184: pp. 292-305 CrossRef
64. Ernst, M, Heishman, SJ, Spurgeon, L, London, ED (2001) Smoking history and nicotine effects on cognitive performance. Neuropsychopharmacology 25: pp. 313-319 CrossRef
65. Jacobsen, LK, Krystal, JH, Mencl, WE, Westerveld, M, Frost, SJ, Pugh, KR (2005) Effects of smoking and smoking abstinence on cognition in adolescent tobacco smokers. Biol Psychiatry 57: pp. 56-66 4.10.022" target="_blank" title="It opens in new window">CrossRef
66. Schmahmann, JD (1991) An emerging concept. The cerebellar contribution to higher function. Arch Neurol 48: pp. 1178-1187 CrossRef
67. Schmahmann, JD (1996) From movement to thought: anatomic substrates of the cerebellar contribution to cognitive processing. Hum Brain Mapp 4: pp. 174-198 4:3<174::AID-HBM3>3.0.CO;2-0" target="_blank" title="It opens in new window">CrossRef
68. Breiter, HC, Aharon, I, Kahneman, D, Dale, A, Shizgal, P (2001) Functional imaging of neural responses to expectancy and experience of monetary gains and losses. Neuron 30: pp. 619-639 CrossRef
69. Lim, KO, Ardekani, BA, Nierenberg, J, Butler, PD, Javitt, DC, Hoptman, MJ (2006) Voxelwise correlational analyses of white matter integrity in multiple cognitive domains in schizophrenia. Am J Psychiatry 163: pp. 2008-2010 CrossRef
70. Medina, D, DeToledo-Morrell, L, Urresta, F (2006) White matter changes in mild cognitive impairment and AD: a diffusion tensor imaging study. Neurobiol Aging 27: pp. 663-672 CrossRef
71. Grieve, SM, Williams, LM, Paul, RH, Clark, CR, Gordon, E (2007) Cognitive aging, executive function, and fractional anisotropy: a diffusion tensor MR imaging study. AJNR Am J Neuroradiol 28: pp. 226-235
72. Hoeft, F, Barnea-Goraly, N, Haas, BW (2007) More is not always better: increased fractional anisotropy of superior longitudinal fasciculus associated with poor visuospatial abilities in Williams syndrome. J Neurosci 27: pp. 11960-11965 CrossRef
73. Silk, TJ, Vance, A, Rinehart, N, Bradshaw, JL, Cunnington, R (2009) White-matter abnormalities in attention deficit hyperactivity disorder: a diffusion tensor imaging study. Hum Brain Mapp 30: pp. 2757-2765 CrossRef
74. Wessa, M, Houenou, J, Leboyer, M, Chanraud, S, Poupon, C, Martinot, JL, Paill猫re-Martinot, ML (2009) Microstructural white matter changes in euthymic bipolar patients: a whole-brain diffusion tensor imaging study. Bipolar Disord 11: pp. 504-514 CrossRef - 刊物类别:Medicine
- 刊物主题:Medicine & Public Health
Neurology
Neuroradiology
Neurosurgery
Psychiatry - 出版者:Springer Milan
- ISSN:1590-3478
文摘
Cigarette smoking is becoming more prevalent in developing countries, such as China, and is the largest single cause of preventable death worldwide. New emerging reports are highlighting how chronic cigarette smoking plays a role in neural dysfunctions, such as cognitive decline. Basic animal experimental studies have shown that rats undergo persistent pathological brain changes after being given chronic levels of nicotine. What is perhaps less appreciated is the fact that chronic cigarette smoking induces subtle anatomical changes in the human brain. Consequently, this chapter aims to summarize and integrate the existing magnetic resonance imaging studies on both gray- and white-matter marcostructural and microstructural changes. The reviewed studies demonstrate that chronic cigarette smoking results in discrete and localized alterations in brain region tissue (both the gray and white matter of different brain regions), which may, in part, be responsible for different neural dysfunctions. In addition, we further discuss the possible pathological and neurobiological mechanisms of these nicotinic effects on the brain tissue. We will also address the limitations of the current studies on this issue and identify opportunities for future research.