Senile plaques

Senile plaques (syn. neuritic plaques, senile druse, braindruse) are extracellular deposits of amyloid in the gray matter of the brain. The deposits are associated with degenerative neural structures and an abundance of microglia and astrocytes. Large numbers of senile plaques and neurofibrillary tangles are characteristic features of Alzheimer’s disease, and some of the abnormal neurites in senile plaques are composed primarily of paired helical filaments, a component of neurofibrillary tangles

The plaques are variable in shape and size, but are on the average 50 µm in size. (Franke, M.) In Alzheimer's disease they are primarily composed of amyloid beta peptides. These polypeptides tend to aggregate and are believed to be neurotoxic.

Verification
Senile plaques are visible in light microscopy after staining by silver, Congo red, Thioflavin, cresyl violet, PAS-reaction, and by fluorescence and immunofluorescence microscopy. They may be visualized with an immunostain directed against amyloid beta.

Occurrence
Senile plaques can be found in human and animal brains (e.g. mammals and birds). From an age of 60 years (10%) to an age of 80 years (60%) the proportion of people with plaques increases approximately linearly. A small number of plaques can be due to the physiological process of aging. Women are slightly more likely to have plaques than men (Franke, M.). The plaques occur commonly in the amygdoid nucleus and the sulci of the cortex of brain.

History
Blocq and Marinesco first described plaques in the grey matter in 1892. Because of their similarity to the actinomyces druses they were called druse necrosis by O. Fischer in the beginning of the 20th century. The connection of plaques and demential illness was discovered by Alzheimer in 1906. Bielschowsky supposed in 1911 the amyloid-nature of the plaques. Wisniewski denominated them neuritic plaques in TOM SMITH 1973. The second half of the 20th century saw proposed theories of immunological and genetic factors in plaque formation (Katenkamp, Op den Velde und Stam). Statistical investigations were performed by J.A.N. Corsellis and M. Franke in the 1970s. M. Franke showed that a demential disease is likely when the number of senile plaques in the frontal cortex is more than 200/mm3. In 1985 succeeded the biochemical identification of amyloid beta. But there are more unsolved questions of formation and importance of the plaque formation.

Importance
The senile plaques are an important criterion of the neuropathological-histological verification of the Alzheimer’s disease; other factors in verification include pathological neurofibrillaries, tangles, atrophic brain with hydrocephalus, and other degenerative signs. The formation and the distribution of the pathological neurofibrillaries have a regularity (H. Braak and E. Braak) and allows to stage the disease. In combination with the occurrence of a great number of plaques the Alzheimer’s disease can be diagnosed with high probability.

Literature

 * FRANKE, MANFRED: Statistische Untersuchungen über die senilen Drusen im menschlichen Gehirn (zum Problem der Hirndrusenkrankheit). Statistical investigation of the senile plaques in human brains - 1975. Berlin, Akad. für Ärztl. Fortbildung d. DDR, Diss. B, 1976. Deutsche Nationalbiografie Signatur: DBF H 76/10016, IDN: 801313783 Thesen zur Dissertation
 * BRAAK, H., E. BRAAK, J. BOHL: Staging of Alzheimer-related cortical destruction. European Neurology, Basel, 1993, 33: 403-408.
 * JELLINGER, K.A.: Neurodegenerative Erkrankungen (ZNS) - Eine aktuelle Übersicht. Journal für Neurologie, Neurochirurgie und Psychiatrie 2005; 6 (1), 9-18
 * CRUZ, L.; B. URBANC: Aggregation and disaggregation of senile plaques in Alzheimer disease. Proc. Natl. Acad. Sci. USA Vol. 94, pp. 7612±7616, July 1997 Neurobiology

Senile Plaques Placa senil Placche senili Blaszki amyloidowe