| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Ursula T E Byrne, Jacqueline M Ross, Richard L M Faull, Michael Draguno. High-throughput quantification of Alzheimer's disease pathological markers in the post-mortem human brain. Journal of neuroscience methods. vol 176. issue 2. 2009-04-09. PMID:18835409. |
two-dimensional estimates of plaque and tangle densities were obtained from the superior temporal gyrus and middle temporal gyrus of alzheimer's disease and normal human brains. |
2009-04-09 |
2023-08-12 |
human |
| Quentin Pankhurst, Dimitri Hautot, Nadeem Khan, Jon Dobso. Increased levels of magnetic iron compounds in Alzheimer's disease. Journal of Alzheimer's disease : JAD. vol 13. issue 1. 2008-06-10. PMID:18334756. |
a study of the magnetic properties of superior temporal gyrus brain tissue from 11 alzheimer's disease (ad) and 11 age-matched control subjects demonstrates an exponential correlation between the concentrations of the fe;{2+}-ion-containing iron oxide, magnetite (fe{3}o{4}), and the fraction of those particles that are smaller than 20 nm in diameter. |
2008-06-10 |
2023-08-12 |
human |
| Claudie Hooper, Eirini Meimaridou, Mahvash Tavassoli, Gerry Melino, Simon Lovestone, Richard Killic. p53 is upregulated in Alzheimer's disease and induces tau phosphorylation in HEK293a cells. Neuroscience letters. vol 418. issue 1. 2007-07-12. PMID:17399897. |
here, we show by western blotting that p53 is upregulated approximately 2-fold in the superior temporal gyrus of alzheimer's patients compared to healthy elderly control subjects. |
2007-07-12 |
2023-08-12 |
human |
| Robert A Sweet, Karl-Anton Dorph-Petersen, David A Lewi. Mapping auditory core, lateral belt, and parabelt cortices in the human superior temporal gyrus. The Journal of comparative neurology. vol 491. issue 3. 2006-01-18. PMID:16134138. |
current evidence indicates that auditory cortex in humans, as in monkeys, is located on the superior temporal gyrus (stg), and is functionally and structurally altered in illnesses such as schizophrenia and alzheimer's disease. |
2006-01-18 |
2023-08-12 |
human |
| Christopher Q Mountjoy, Jonathan H Dowson, Charles Harrington, Mary R Cairns, Helen Wilton-Co. Characteristics of neuronal lipofuscin in the superior temporal gyrus in Alzheimer's disease do not differ from non-diseased controls: a comparison with disease-related changes in the superior frontal gyrus. Acta neuropathologica. vol 109. issue 5. 2005-09-23. PMID:15759127. |
characteristics of neuronal lipofuscin in the superior temporal gyrus in alzheimer's disease do not differ from non-diseased controls: a comparison with disease-related changes in the superior frontal gyrus. |
2005-09-23 |
2023-08-12 |
human |
| Christopher Q Mountjoy, Jonathan H Dowson, Charles Harrington, Mary R Cairns, Helen Wilton-Co. Characteristics of neuronal lipofuscin in the superior temporal gyrus in Alzheimer's disease do not differ from non-diseased controls: a comparison with disease-related changes in the superior frontal gyrus. Acta neuropathologica. vol 109. issue 5. 2005-09-23. PMID:15759127. |
neuronal lipofuscin characteristics in the superior temporal gyrus from 21 patients with alzheimer's disease (ad) and from 18 age-matched non-diseased subjects were compared with previously reported findings from the superior frontal gyrus. |
2005-09-23 |
2023-08-12 |
human |
| Marc Dhenain, Nicolas Privat, Charles Duyckaerts, Russell E Jacob. Senile plaques do not induce susceptibility effects in T2*-weighted MR microscopic images. NMR in biomedicine. vol 15. issue 3. 2002-12-27. PMID:11968135. |
to evaluate this hypothesis, formalin-fixed superior temporal gyrus samples obtained from two alzheimer's disease and two control subjects were imaged using magnetic resonance microscopy at 11.7 t. three dimensional t2*-weighted gradient echo images were recorded with an isotropic resolution of 23.4 microm. |
2002-12-27 |
2023-08-12 |
human |
| Janusz Moryś, Barbara Bobek-Billewicz, Jerzy Dziewiatkowski, Leszek Bidzan, Dorota Ussorowska, Olgierd Narklewic. Changes in the volume of temporal lobe structures related to Alzheimer's type dementia. Folia neuropathologica. vol 40. issue 2. 2002-10-22. PMID:12230256. |
we compared the volumes of the superior temporal gyrus, basolateral temporal area, parahippocampal gyrus, hippocampal head, amygdaloid body and the inferior horn of the lateral ventricle in 29 patients with dementia of alzheimer's type (dat) and in 14 cognitively normal controls. |
2002-10-22 |
2023-08-12 |
Not clear |
| N Ghoshal, F García-Sierra, Y Fu, L A Beckett, E J Mufson, J Kuret, R W Berry, L I Binde. Tau-66: evidence for a novel tau conformation in Alzheimer's disease. Journal of neurochemistry. vol 77. issue 5. 2001-07-12. PMID:11389188. |
immunohistochemistry using tau-66 reveals a somatic-neuronal stain in the superior temporal gyrus (stg) that is more intense in alzheimer's disease (ad) brain than in normal brain. |
2001-07-12 |
2023-08-12 |
human |
| X Li, A F Greenwood, R Powers, R S Jop. Effects of postmortem interval, age, and Alzheimer's disease on G-proteins in human brain. Neurobiology of aging. vol 17. issue 1. 1996-09-20. PMID:8786793. |
in alzheimer's disease prefrontal cortex, superior temporal gyrus, and occipital cortex, all g-protein subunit levels were equivalent to those in matched controls except for a slight deficit in g alpha i1. |
1996-09-20 |
2023-08-12 |
human |
| K A Maguire-Zeiss, Z W Li, L M Shimoda, R W Hamil. Calbindin D28k mRNA in hippocampus, superior temporal gyrus and cerebellum: comparison between control and Alzheimer disease subjects. Brain research. Molecular brain research. vol 30. issue 2. 1995-09-13. PMID:7637586. |
to further investigate the role of calbindin d28k in alzheimer's disease (ad); hippocampus, superior temporal gyrus and cerebellum from control and ad cases were examined by quantitative in situ hybridization. |
1995-09-13 |
2023-08-12 |
human |
| K A Maguire-Zeiss, Z W Li, L M Shimoda, R W Hamil. Calbindin D28k mRNA in hippocampus, superior temporal gyrus and cerebellum: comparison between control and Alzheimer disease subjects. Brain research. Molecular brain research. vol 30. issue 2. 1995-09-13. PMID:7637586. |
calbindin d28k mrna in hippocampus, superior temporal gyrus and cerebellum: comparison between control and alzheimer disease subjects. |
1995-09-13 |
2023-08-12 |
human |
| J R Connor, P Tucker, M Johnson, B Snyde. Ceruloplasmin levels in the human superior temporal gyrus in aging and Alzheimer's disease. Neuroscience letters. vol 159. issue 1-2. 1994-01-25. PMID:8264985. |
ceruloplasmin levels in the human superior temporal gyrus in aging and alzheimer's disease. |
1994-01-25 |
2023-08-12 |
human |
| J R Connor, P Tucker, M Johnson, B Snyde. Ceruloplasmin levels in the human superior temporal gyrus in aging and Alzheimer's disease. Neuroscience letters. vol 159. issue 1-2. 1994-01-25. PMID:8264985. |
in the present study we observed a loss in excess of 1/3 of the copper transport and anti-oxidant protein ceruloplasmin in both the gray and white matter from superior temporal gyrus in alzheimer's diseased brains compared to age-matched controls. |
1994-01-25 |
2023-08-12 |
human |
| M R Martzen, A Nagy, P D Coleman, H Zwier. Altered phosphorylation of growth-associated protein B50/GAP-43 in Alzheimer disease with high neurofibrillary tangle density. Proceedings of the National Academy of Sciences of the United States of America. vol 90. issue 23. 1994-01-04. PMID:8248225. |
the growth-associated phosphoprotein b50/gap-43, associated with axonal proliferation and regeneration, was isolated from superior temporal gyrus (area 22) of seven control and eight alzheimer disease (ad) postmortem human brains. |
1994-01-04 |
2023-08-12 |
human |
| B T Hyman, J E Flory, S E Arnold, G W Van Hoesen, R L Schelper, H Ghanbari, H Haigle. Quantitative assessment of ALZ-50 immunoreactivity in Alzheimer's disease. Journal of geriatric psychiatry and neurology. vol 4. issue 4. 1992-03-27. PMID:1789912. |
a quantitative assay for alz-50 immunoreactivity was evaluated in samples of superior temporal gyrus taken at autopsy from 13 alzheimer patients and 11 controls. |
1992-03-27 |
2023-08-11 |
Not clear |
| D R McLachlan, W J Lukiw, T P Kruc. New evidence for an active role of aluminum in Alzheimer's disease. The Canadian journal of neurological sciences. Le journal canadien des sciences neurologiques. vol 16. issue 4 Suppl. 1989-12-20. PMID:2680008. |
in the superior temporal gyrus in alzheimer's disease, down regulation of this gene occurs in approximately 86% of surviving neurons and, therefore, aluminum must be considered as having an active role in the pathogenesis. |
1989-12-20 |
2023-08-11 |
Not clear |
| M M Esiri, R C Pearson, T P Powel. The cortex of the primary auditory area in Alzheimer's disease. Brain research. vol 366. issue 1-2. 1986-05-30. PMID:3697692. |
the cortex of the superior temporal gyrus has been examined in two brains with alzheimer's disease. |
1986-05-30 |
2023-08-11 |
Not clear |
| R D Terry, A Peck, R DeTeresa, R Schechter, D S Horoupia. Some morphometric aspects of the brain in senile dementia of the Alzheimer type. Annals of neurology. vol 10. issue 2. 1981-11-22. PMID:7283403. |
image analysis apparatus was used to count and measure glial and neuronal perikarya in ten size classes in the midfrontal region and superior temporal gyrus of 18 patients with senile dementia of the alzheimer type for comparison with 12 age-matched normal specimens. |
1981-11-22 |
2023-08-12 |
Not clear |