心理科学进展 ›› 2022, Vol. 30 ›› Issue (11): 2448-2460.doi: 10.3724/SP.J.1042.2022.02448
收稿日期:
2021-10-24
出版日期:
2022-11-15
发布日期:
2022-11-09
通讯作者:
梁丹丹
E-mail:ldd233@sina.com
YU Jiayu1, JIN Yuxi2, LIANG Dandan2,3()
Received:
2021-10-24
Online:
2022-11-15
Published:
2022-11-09
Contact:
LIANG Dandan
E-mail:ldd233@sina.com
摘要:
本研究筛选了11项采用功能性磁共振成像技术探究言语自闭症人群词义加工的研究, 探讨了该人群与典型人群脑激活模式的差异是否具有跨研究的稳定性。结果表明, 差异的脑激活模式稳定存在, 且表现为主要涉及左额上回的典型脑区激活不足。该结果为言语ASD人群语言加工的神经机制提供了来自词义加工的跨研究激活证据, 在明确“减弱的额叶激活”这一稳定差异表现的基础上, 强调了针对不同语言加工任务开展元分析研究的必要性。
中图分类号:
俞稼钰, 靳羽西, 梁丹丹. (2022). 自闭症谱系障碍人群词义加工的脑激活模式:基于fMRI研究的元分析. 心理科学进展 , 30(11), 2448-2460.
YU Jiayu, JIN Yuxi, LIANG Dandan. (2022). Brain activation differences in lexical-semantics processing in autistic population: A meta-analysis of fMRI studies. Advances in Psychological Science, 30(11), 2448-2460.
研究 | 被试数量 | 平均年龄(岁) (年龄范围) | ASD诊断 | 语言 | ||
---|---|---|---|---|---|---|
ASD组 | TD组 | ASD组 | TD组 | |||
1 Bednarz et al. ( | 18 | 13 | 10.7 (8.1~13.8) | 10.5 (8.1~14.1) | ADOS, ADI-R及专家临床观点 | 英语 |
2 Knaus et al. ( | 15 | 19 | 13.57 | 12.64 | DSM-4, ADOS-2 ADI-R或SCQ | 英语 |
3 Shen et al. ( | 14 | 14 | 24.1 (15~44) | 24.2 (14~42) | DSM-4, ADI-R, ADOS | 英语 |
54 Harris et al. ( | 14 | 22 | 36 (18~52) | 31 (19~50) | DSM-4, ADI-R, ADOS | 英语 |
5 Kana et al. ( | 15 | 15 | 21.63 (15~36) | 27.25 (16~34) | ADI-R, ADOS, SRS | 英语 |
6 Knaus et al. ( | 12 | 12 | 15.46 (11.4~19.8) | 14.94 (11.5~19.8) | DSM-4, ADI-R, ADOS; 临床 专家确认ASD诊断 | 英语 |
7 Gaffrey et al. ( | 10 | 10 | 26.1 | 25.3 | DSM-4, ADI-R, ADOS | 英语 |
8 Kleinhans et al. ( | 14 | 14 | 23.79 (14~44) | 22.41 (14~43) | DSM-4, ADI-R, ADOS-G | 英语 |
9 Wong et al. ( | 31 | 38 | 12.1 | 11.9 | DSM-4, ICD-10, ADI-R汉语版; 采用DSM-5再确认 | 汉语 |
10 Chen et al. ( | 37 | 35 | 13.3 (8~18) | 13.3 (8~18) | DSM-4, ICD-10, ADI-R汉语版 | 汉语 |
11 Fan et al. ( | 61 | 67 | 12.66 (8~18) | 12.79 (8~18) | DSM-5, ADI-R汉语版 | 汉语 |
表1 纳入分析被试的基本信息
研究 | 被试数量 | 平均年龄(岁) (年龄范围) | ASD诊断 | 语言 | ||
---|---|---|---|---|---|---|
ASD组 | TD组 | ASD组 | TD组 | |||
1 Bednarz et al. ( | 18 | 13 | 10.7 (8.1~13.8) | 10.5 (8.1~14.1) | ADOS, ADI-R及专家临床观点 | 英语 |
2 Knaus et al. ( | 15 | 19 | 13.57 | 12.64 | DSM-4, ADOS-2 ADI-R或SCQ | 英语 |
3 Shen et al. ( | 14 | 14 | 24.1 (15~44) | 24.2 (14~42) | DSM-4, ADI-R, ADOS | 英语 |
54 Harris et al. ( | 14 | 22 | 36 (18~52) | 31 (19~50) | DSM-4, ADI-R, ADOS | 英语 |
5 Kana et al. ( | 15 | 15 | 21.63 (15~36) | 27.25 (16~34) | ADI-R, ADOS, SRS | 英语 |
6 Knaus et al. ( | 12 | 12 | 15.46 (11.4~19.8) | 14.94 (11.5~19.8) | DSM-4, ADI-R, ADOS; 临床 专家确认ASD诊断 | 英语 |
7 Gaffrey et al. ( | 10 | 10 | 26.1 | 25.3 | DSM-4, ADI-R, ADOS | 英语 |
8 Kleinhans et al. ( | 14 | 14 | 23.79 (14~44) | 22.41 (14~43) | DSM-4, ADI-R, ADOS-G | 英语 |
9 Wong et al. ( | 31 | 38 | 12.1 | 11.9 | DSM-4, ICD-10, ADI-R汉语版; 采用DSM-5再确认 | 汉语 |
10 Chen et al. ( | 37 | 35 | 13.3 (8~18) | 13.3 (8~18) | DSM-4, ICD-10, ADI-R汉语版 | 汉语 |
11 Fan et al. ( | 61 | 67 | 12.66 (8~18) | 12.79 (8~18) | DSM-5, ADI-R汉语版 | 汉语 |
研究 | 任务类型 | 行为结果 | 对比条件 | 坐标数量 | |
---|---|---|---|---|---|
ASD组 | TD组 | ||||
1 Bednarz et al. ( | 判断第四个呈现的词是否与前三个词属于同一类别。 | 在整体正确率和反应时方面未发现组间差异。 | 词 > 注视点 | 5 | 6 |
2 Knaus et al. ( | 3个动词呈三角形排列, 目标词位于顶部。指出底部两个词中哪一个在意义上与目标词最相似。 | 在整体正确率和反应时方面未发现组间差异。 | 词 > 图形 | 2 | 4 |
3 Shen et al. ( | 判断词是否属于先前呈现类别。 | ASD组的正确率显著低于TD组, 但反应时类似。 | 词 > 字母 | 3 | 6 |
4 Harris et al. ( | 判断词义为积极还是消极。 | 在整体正确率和反应时方面未发现组间差异。 | 词义 > 词的位置 | 3 | 7 |
5 Kana et al. ( | 判断一个形容词是用于形容自己还是他们最喜欢的老师。 | 未报告行为结果。 | 词 > 字母 | 4 | 12 |
6 Knaus et al. ( | 思考某三词短语描述了一个怎样的词。随后呈现两个词, 判断哪一个与ta想的跟接近。 | 两组被试的准确率均达到“天花板”。 | 词 > 字母 | 8 | 7 |
7 Gaffrey et al. ( | 判断词是否属于先前呈现类别。 | ASD组的正确率显著低于TD组, 但反应时类似。 | 词 > 字母 | 13 | 14 |
8 Kleinhans et al. ( | 尽可能多地说出属于某一类别的词。 | ASD组产出的正确词显著少于TD组。 | 同一类别 > 自定速度重复“nothing” | 3 | 3 |
9 Wong et al. ( | 判断先后呈现的两个词在意义上是否有联系。 | 在整体正确率和反应时方面未发现组间差异。 | 真词 > 假词 | 9 | 18 |
10 Chen et al. ( | 判断先后呈现的两个词在意义上是否有联系。 | ASD组在准确率和反应时指标上都显著差于TD组。 | 真词 > 假词 | 6 | 5 |
11 Fan et al. ( | 判断先后呈现的两个词在意义上是否有联系。 | ASD青少年的准确率显著低于TD青少年。在反应时上无组间差异。 | 真词 > 假词 | 5 | 4 |
表2 纳入元分析研究的简要总结
研究 | 任务类型 | 行为结果 | 对比条件 | 坐标数量 | |
---|---|---|---|---|---|
ASD组 | TD组 | ||||
1 Bednarz et al. ( | 判断第四个呈现的词是否与前三个词属于同一类别。 | 在整体正确率和反应时方面未发现组间差异。 | 词 > 注视点 | 5 | 6 |
2 Knaus et al. ( | 3个动词呈三角形排列, 目标词位于顶部。指出底部两个词中哪一个在意义上与目标词最相似。 | 在整体正确率和反应时方面未发现组间差异。 | 词 > 图形 | 2 | 4 |
3 Shen et al. ( | 判断词是否属于先前呈现类别。 | ASD组的正确率显著低于TD组, 但反应时类似。 | 词 > 字母 | 3 | 6 |
4 Harris et al. ( | 判断词义为积极还是消极。 | 在整体正确率和反应时方面未发现组间差异。 | 词义 > 词的位置 | 3 | 7 |
5 Kana et al. ( | 判断一个形容词是用于形容自己还是他们最喜欢的老师。 | 未报告行为结果。 | 词 > 字母 | 4 | 12 |
6 Knaus et al. ( | 思考某三词短语描述了一个怎样的词。随后呈现两个词, 判断哪一个与ta想的跟接近。 | 两组被试的准确率均达到“天花板”。 | 词 > 字母 | 8 | 7 |
7 Gaffrey et al. ( | 判断词是否属于先前呈现类别。 | ASD组的正确率显著低于TD组, 但反应时类似。 | 词 > 字母 | 13 | 14 |
8 Kleinhans et al. ( | 尽可能多地说出属于某一类别的词。 | ASD组产出的正确词显著少于TD组。 | 同一类别 > 自定速度重复“nothing” | 3 | 3 |
9 Wong et al. ( | 判断先后呈现的两个词在意义上是否有联系。 | 在整体正确率和反应时方面未发现组间差异。 | 真词 > 假词 | 9 | 18 |
10 Chen et al. ( | 判断先后呈现的两个词在意义上是否有联系。 | ASD组在准确率和反应时指标上都显著差于TD组。 | 真词 > 假词 | 6 | 5 |
11 Fan et al. ( | 判断先后呈现的两个词在意义上是否有联系。 | ASD青少年的准确率显著低于TD青少年。在反应时上无组间差异。 | 真词 > 假词 | 5 | 4 |
脑区 | 坐标(x, y, z) | 体积(mm3) | ALE | 来源研究 | |
---|---|---|---|---|---|
TD组 | 左额下回Left Inferior Frontal Gyrus | (-49.3, 25.7 3.7) | 2624 | 0.02 | 4, 5, 6, 7, 10, 11 |
左额上回Left Superior Frontal Gyrus | (-3.3, 17.2, 53.2) | 2504 | 0.0219 | 2, 3, 4, 5, 6, 7, 9 | |
左颞中回Left Middle Temporal Gyrus | (-53.4, -46.4, -3.1) | 1408 | 0.0167 | 5, 9, 10, 11 | |
左额中回Left Middle Frontal Gyrus | (-47.6, 18.2, 26.2) | 688 | 0.0164 | 3, 8, 10 | |
ASD组 | 左额下回Left Inferior Frontal Gyrus | (-47, 29.5, -2) | 2904 | 0.0191 | 2, 3, 4, 6, 7, 10, 11 |
左颞中回Left Middle Temporal Gyrus | (-56, -40.8, 0) | 928 | 0.0183 | 4, 10, 11 | |
左额内回Left Medial Frontal Gyrus | (-4.6, 6.5, 60.2) | 832 | 0.013 | 6, 7, 8, 11 | |
TD组 & ASD组 | 左额下回Left Inferior Frontal Gyrus | (-47, 27.8, -4.9) | 872 | 0.0154 | 4, 10, 11/ 4, 6, 7, 10 |
左颞中回Left Middle Temporal Gyrus | (-53.2, -42.1, -2) | 264 | 0.0138 | 4, 10 | |
左额内回Left Medial Frontal Gyrus | (-4.8, 4, 56.4) | 80 | 0.0104 | 3 | |
左额下回Left Inferior Frontal Gyrus | (-48, 30, 10) | 8 | 0.084 | - | |
TD组-ASD组 | 左额上回Left Superior Frontal Gyrus | (-3.3, 15.9, 51.6) | 1128 | 0.018 | 2, 4, 7, 9 |
表3 所有纳入研究的ALE分析结果
脑区 | 坐标(x, y, z) | 体积(mm3) | ALE | 来源研究 | |
---|---|---|---|---|---|
TD组 | 左额下回Left Inferior Frontal Gyrus | (-49.3, 25.7 3.7) | 2624 | 0.02 | 4, 5, 6, 7, 10, 11 |
左额上回Left Superior Frontal Gyrus | (-3.3, 17.2, 53.2) | 2504 | 0.0219 | 2, 3, 4, 5, 6, 7, 9 | |
左颞中回Left Middle Temporal Gyrus | (-53.4, -46.4, -3.1) | 1408 | 0.0167 | 5, 9, 10, 11 | |
左额中回Left Middle Frontal Gyrus | (-47.6, 18.2, 26.2) | 688 | 0.0164 | 3, 8, 10 | |
ASD组 | 左额下回Left Inferior Frontal Gyrus | (-47, 29.5, -2) | 2904 | 0.0191 | 2, 3, 4, 6, 7, 10, 11 |
左颞中回Left Middle Temporal Gyrus | (-56, -40.8, 0) | 928 | 0.0183 | 4, 10, 11 | |
左额内回Left Medial Frontal Gyrus | (-4.6, 6.5, 60.2) | 832 | 0.013 | 6, 7, 8, 11 | |
TD组 & ASD组 | 左额下回Left Inferior Frontal Gyrus | (-47, 27.8, -4.9) | 872 | 0.0154 | 4, 10, 11/ 4, 6, 7, 10 |
左颞中回Left Middle Temporal Gyrus | (-53.2, -42.1, -2) | 264 | 0.0138 | 4, 10 | |
左额内回Left Medial Frontal Gyrus | (-4.8, 4, 56.4) | 80 | 0.0104 | 3 | |
左额下回Left Inferior Frontal Gyrus | (-48, 30, 10) | 8 | 0.084 | - | |
TD组-ASD组 | 左额上回Left Superior Frontal Gyrus | (-3.3, 15.9, 51.6) | 1128 | 0.018 | 2, 4, 7, 9 |
被试组别 | 关键词 | 相关性 |
---|---|---|
TD组 | 语义 semantic | 0.433 |
语言 language | 0.416 | |
额下 inferior frontal | 0.396 | |
额叶 frontal | 0.392 | |
词 word | 0.390 | |
ASD组 | 词 word | 0.349 |
额下 inferior frontal | 0.343 | |
语义 semantic | 0.337 | |
语言 language | 0.333 | |
额回 frontal gyrus | 0.328 |
表4 Neurosynth分析结果
被试组别 | 关键词 | 相关性 |
---|---|---|
TD组 | 语义 semantic | 0.433 |
语言 language | 0.416 | |
额下 inferior frontal | 0.396 | |
额叶 frontal | 0.392 | |
词 word | 0.390 | |
ASD组 | 词 word | 0.349 |
额下 inferior frontal | 0.343 | |
语义 semantic | 0.337 | |
语言 language | 0.333 | |
额回 frontal gyrus | 0.328 |
*标识进入元分析的文献 | |
[1] | 曹漱芹, 方俊明. (2008). 自闭症谱系障碍语义加工特点与认知神经机制的研究综述. 中国特殊教育, (9), 27-34. |
[2] | 胡传鹏, 邸新, 李佳蔚, 隋洁, 彭凯平. (2015). 神经成像数据的元分析. 心理科学进展, 23(7), 1118-1129. |
[3] | 黄静, 梁丹丹. (2013). 自闭症个体语义加工障碍综述. 当代语言学, 15(3), 349-358+378. |
[4] | 宋宜琪, 靳羽西. (2018). 具身理论:自闭症个体词汇语义加工研究的新视角. 南京师范大学文学院学报, (3), 26-32. |
[5] |
Barch, D. M., Braver, T. S., Sabb, F. W., & Noll, D. C. (2000). Anterior cingulate and the monitoring of response conflict: Evidence from an fMRI study of overt verb generation. Journal of Cognitive Neuroscience, 12(2), 298-309.
pmid: 10771413 |
[6] |
* Bednarz, H. M., Maximo, J. O., Murdaugh, D. L., O'Kelley, S., & Kana, R. K. (2017). "Decoding versus comprehension": Brain responses underlying reading comprehension in children with autism. Brain and Language, 169, 39-47.
doi: S0093-934X(16)30140-7 pmid: 28242518 |
[7] |
Bookheimer, S. (2002). Functional MRI of language: New approaches to understanding the cortical organization of semantic processing. Annual Review of Neuroscience, 25, 151-188. https://doi.org/10.1146/annurev.neuro.25.112701.142946
URL pmid: 12052907 |
[8] |
Bowler, D. M., Gardiner, J. M., Grice, S., & Saavalainen, P. (2000). Memory illusions: False recall and recognition in adults with Asperger's syndrome. Journal of Abnormal Psychology, 109(4), 663-672.
pmid: 11195990 |
[9] |
Buckner, R. L., Raichle, M. E., & Petersen, S. E. (1995). Dissociation of human prefrontal cortical areas across different speech production tasks and gender groups. Journal of Neurophysiology, 74(5), 2163-2173.
pmid: 8592204 |
[10] |
* Chen, P.-J., Gau, S. S., Lee, S.-H., & Chou, T.-L.(2016). Differences in age-dependent neural correlates of semantic processing between youths with autism spectrum disorder and typically developing youths. Autism Research, 9(12), 1263-1273.
doi: 10.1002/aur.1616 URL |
[11] |
Cheung, M.-c., Chan, A. S., Sze, S. L., Leung, W. W., & To, C. y. (2010). Verbal memory deficits in relation to organization strategy in high-and low-functioning autistic children. Research in Autism Spectrum Disorders, 4(4), 764-771.
doi: 10.1016/j.rasd.2010.02.004 URL |
[12] |
Cutting, L. E., Clements, A. M., Courtney, S., Rimrodt, S. L., Schafer, J. G., Bisesi, J., Pekar, J. J., & Pugh, K. R. (2006). Differential components of sentence comprehension: Beyond single word reading and memory. Neuroimage, 29(2), 429-438.
pmid: 16253527 |
[13] | Diagnostic and statistical manual of mental disorders: DSM- 5. (2013). American Psychiatric Association. |
[14] |
Dunn, M., Gomes, H., & Sebastian, M. J. (1996). Prototypicality of responses of autistic, language disordered, and normal children in a word fluency task. Child Neuropsychology, 2(2), 99-108.
doi: 10.1080/09297049608401355 URL |
[15] |
Eigsti, I.-M., de Marchena, A. B., Schuh, J. M., & Kelley, E. (2011). Language acquisition in autism spectrum disorders: A developmental review. Research in Autism Spectrum Disorders, 5(2), 681-691.
doi: 10.1016/j.rasd.2010.09.001 URL |
[16] |
Eskes, G. A., Bryson, S. E., & McCormick, T. A. (1990). Comprehension of concrete and abstract words in autistic children. Journal of Autism and Developmental Disorders, 20(1), 61-73.
pmid: 2324056 |
[17] |
* Fan, L.-Y., Booth, J. R., Liu, M., Chou, T.-L., & Gau, S. S. (2021). Developmental differences in neural connectivity for semantic processing in youths with autism. Journal of Child Psychology and Psychiatry, 62(9), 1090-1099.
doi: 10.1111/jcpp.13373 URL |
[18] |
* Gaffrey, M. S., Kleinhans, N. M., Haist, F., Akshoomoff, N., Campbell, A., Courchesne, E., & Muller, R.-A. (2007). A typical participation of visual cortex during word processing in autism: An fMRI study of semantic decision. Neuropsychologia, 45(8), 1672-1684.
doi: 10.1016/j.neuropsychologia.2007.01.008 URL |
[19] |
Gaigg, S. B., Gardiner, J. M., & Bowler, D. M. (2008). Free recall in autism spectrum disorder: The role of relational and item-specific encoding. Neuropsychologia, 46(4), 983-992.
doi: 10.1016/j.neuropsychologia.2007.11.011 pmid: 18164320 |
[20] |
* Harris, G. J., Chabris, C. F., Clark, J., Urban, T., Aharon, I., Steele, S., McGrath, L., Condouris, K., & Tager-Flusberg, H. (2006). Brain activation during semantic processing in autism spectrum disorders via functional magnetic resonance imaging. Brain and Cognition, 61(1), 54-68.
pmid: 16473449 |
[21] |
Herringshaw, A. J., Ammons, C. J., DeRamus, T. P., & Kana, R. K. (2016). Hemispheric differences in language processing in autism spectrum disorders: A meta-analysis of neuroimaging studies. Autism Research, 9(10), 1046-1057.
doi: 10.1002/aur.1599 pmid: 26751141 |
[22] |
Just, M. A., Cherkassky, V. L., Keller, T. A., & Minshew, N. J. (2004). Cortical activation and synchronization during sentence comprehension in high-functioning autism: Evidence of underconnectivity. Brain, 127(Pt 8), 1811-1821.
pmid: 15215213 |
[23] |
Kana, R. K., Keller, T. A., Cherkassky, V. L., Minshew, N. J., & Just, M. A. (2006). Sentence comprehension in autism: Thinking in pictures with decreased functional connectivity. Brain, 129(Pt 9), 2484-2493.
pmid: 16835247 |
[24] |
* Kana, R. K., Sartin, E. B., Jr Stevens, C., Deshpande, H. D., Klein, C., Klinger, M. R., & Klinger, L. G. (2017). Neural networks underlying language and social cognition during self-other processing in autism spectrum disorders. Neuropsychologia, 102, 116-123.
doi: S0028-3932(17)30221-X pmid: 28619530 |
[25] | Kanner, L. (1943). Autistic disturbances of affective contact. Nervous Child, 2(3), 217-250. |
[26] |
* Kleinhans, N. M., Muller, R.-A., Cohen, D. N., & Courchesne, E. (2008). Atypical functional lateralization of language in autism spectrum disorders. Brain Research, 1221, 115-125.
doi: 10.1016/j.brainres.2008.04.080 pmid: 18555209 |
[27] |
* Knaus, T. A., Burns, C., Kamps, J., & Foundas, A. L.(2017). Atypical activation of action-semantic network in adolescents with autism spectrum disorder. Brain and Cognition, 117, 57-64.
doi: S0278-2626(16)30126-9 pmid: 28629645 |
[28] |
* Knaus, T. A., Silver, A. M., Lindgren, K. A., Hadjikhani, N., & Tager-Flusberg, H.(2008). fMRI activation during a language task in adolescents with ASD. Journal of International Neuropsychological Society, 14(6), 967-979.
doi: 10.1017/S1355617708081216 URL |
[29] |
Leung, H.-C., Gore, J. C., & Goldman-Rakic, P. S. (2002). Sustained mnemonic response in the human middle frontal gyrus during on-line storage of spatial memoranda. Journal of Cognitive Neuroscience, 14(4), 659-671.
pmid: 12126506 |
[30] |
López, B., & Leekam, S. R. (2003). Do children with autism fail to process information in context? Journal of Child Psychology Psychiatry, 44(2), 285-300.
doi: 10.1111/1469-7610.00121 URL |
[31] |
Minshew, N. J., Meyer, J., & Goldstein, G. (2002). Abstract reasoning in autism: A dissociation between concept formation and concept identification. Neuropsychology, 16(3), 327-334.
pmid: 12146680 |
[32] | Nachev, P., Wydell, H., O'Neill, K., Husain, M., & Kennard, C. (2007). The role of the pre-supplementary motor area in the control of action. Neuroimage, 3-3), T155-163. |
[33] | Naigles, L. R., & Tek, S. (2017). 'Form is easy, meaning is hard' revisited: (re) characterizing the strengths and weaknesses of language in children with autism spectrum disorder. Wiley Interdisciplinary Reviews: Cognitive Science, 8(4), e1438. |
[34] |
Paul, R., & Cohen, D. J. (1985). Comprehension of indirect requests in adults with autistic disorders and mental retardation. Journal of Speech, Language, and Hearing Research, 28(4), 475-479.
doi: 10.1044/jshr.2804.475 URL |
[35] |
Petrides, M. (2005). Lateral prefrontal cortex: Architectonic and functional organization. Philosophical Transactions of the Royal Society B: Biological Sciences, 360(1456), 781-795.
doi: 10.1098/rstb.2005.1631 URL |
[36] |
Phan, L., Tariq, A., Lam, G., Pang, E. W., & Alain, C. (2021). The neurobiology of semantic processing in autism spectrum disorder: An activation likelihood estimation analysis. Journal of Autism Developmental Disorders, 51(9), 3266-3279.
doi: 10.1007/s10803-020-04794-9 URL |
[37] |
Poldrack R. A., Wagner A. D., Prull M. W., Desmond J. E., Glover G. H., & Gabrieli J. D. (1999). Functional specialization for semantic and phonological processing in the left inferior prefrontal cortex. Neuroimage, 10(1), 15-35.
pmid: 10385578 |
[38] | Price, C. J. (2010). The anatomy of language:A review of 100 fMRI studies published in 2009. Annals of the New York Academy of Sciences, 1191(1), 62-88. https://doi.org/10.1111/j.1749-6632.2010.05444.x |
[39] |
Price, C. J. (2012). A review and synthesis of the first 20 years of PET and fMRI studies of heard speech, spoken language and reading. Neuroimage, 62(2), 816-847.
doi: 10.1016/j.neuroimage.2012.04.062 pmid: 22584224 |
[40] |
Scheller, E., Abdulkadir, A., Peter, J., Tabrizi, S. J., Frackowiak, R. S., & Klöppel, S. (2013). Interregional compensatory mechanisms of motor functioning in progressing preclinical neurodegeneration. Neuroimage, 75, 146-154.
doi: S1053-8119(13)00204-8 pmid: 23501047 |
[41] |
* Shen, M. D., Shih, P., Ottl, B., Keehn, B., Leyden, K. M., Gaffrey, M. S., & Muller, R.-A.(2012). Atypical lexicosemantic function of extrastriate cortex in autism spectrum disorder: Evidence from functional and effective connectivity. Neuroimage, 62(3), 1780-1791.
doi: 10.1016/j.neuroimage.2012.06.008 pmid: 22699044 |
[42] |
Smith, B. J., Gardiner, J. M., & Bowler, D. M. (2007). Deficits in free recall persist in Asperger’s syndrome despite training in the use of list-appropriate learning strategies. Journal of Autism and Developmental Disorders, 37(3), 445-454.
doi: 10.1007/s10803-006-0180-4 URL |
[43] |
Tager-Flusberg, H. (1985). The conceptual basis for referential word meaning in children with autism. Child Development, 56(5), 1167-1178.
pmid: 4053737 |
[44] |
Tager‐Flusberg, H. (1991). Semantic processing in the free recall of autistic children: Further evidence for a cognitive deficit. British Journal of Developmental Psychology, 9(3), 417-430.
doi: 10.1111/j.2044-835X.1991.tb00886.x URL |
[45] | Tager-Flusberg, H., & Lord, C. (Paul, R., 2005). |
[46] |
Tesink, C., Buitelaar, J. K., Petersson, K. M., van der Gaag, R. J., Teunisse, J.-P., & Hagoort, P. (2011). Neural correlates of language comprehension in autism spectrum disorders: When language conflicts with world knowledge. Neuropsychologia, 49(5), 1095-1104.
doi: S0028-3932(11)00023-6 pmid: 21241718 |
[47] |
Toichi, M., & Kamio, Y. (2001). Verbal association for simple common words in high-functioning autism. Journal of Autism and Developmental Disorders, 31(5), 483-490.
pmid: 11794413 |
[48] |
* Wong, C.-H., Gau, S. S., & Chou, T.-L.(2019). Neural correlates of association strength and categorical relatedness in youths with autism spectrum disorder. Autism Research, 12(10), 1484-1494.
doi: 10.1002/aur.2184 URL |
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