Contribution of blood platelets to vascular pathology in Alzheimer&amp;#39;s disease

Zhang, Wei; Huang, Wei; Jing, Fang

doi:10.2147/jbm.s45071

Cited by 38 publications

(30 citation statements)

References 72 publications

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“…The activation of platelets leads to a chronic inflammatory reaction through the secretion of chemokines such as RANTES, which may contribute to cerebral vascular derangement and blood flow perturbations (Zhang et al, 2013). Our observations of the association between RANTES levels and rCBF seem to suggest the same relationship.…”

Section: Discussionsupporting

confidence: 60%

Changes in Regional Cerebral Blood Flow Are Associated With Endothelial Dysfunction Markers in Cocaine-Dependent Patients Under Recent Abstinence

Massardo

Quintana

Jaimovich

et al. 2015

Journal of Addiction Medicine

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Section: Discussionsupporting

confidence: 60%

Changes in Regional Cerebral Blood Flow Are Associated With Endothelial Dysfunction Markers in Cocaine-Dependent Patients Under Recent Abstinence

Massardo

Quintana

Jaimovich

et al. 2015

Journal of Addiction Medicine

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“…Platelet granule secretion has an important role in the pathogenesis of ischemic cardio- and cerebrovascular diseases [40,41]. Additionally, the release of prostaglandin (PTGDS catalyses the conversion of PGH2 to PGD2) mediators of the inflammation process can contribute to its resolution and promote wound healing (ANXA1, and ANXA2).…”

Section: Discussionmentioning

confidence: 99%

Integrative Systems Biology Investigation of Fabry Disease

Fernandes

Husi

2016

Diseases

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Fabry disease (FD) is a rare X-linked recessive genetic disorder caused by a deficient activity of the lysosomal enzyme alpha-galactosidase A (GLA) and is characterised by intra-lysosomal accumulation of globotriaosylceramide (Gb3). We performed a meta-analysis of peer-reviewed publications including high-throughput omics technologies including naïve patients and those undergoing enzyme replacement therapy (ERT). This study describes FD on a systems level using a systems biology approach, in which molecular data sourced from multi-omics studies is extracted from the literature and integrated as a whole in order to reveal the biochemical processes and molecular pathways potentially affected by the dysregulation of differentially expressed molecules. In this way new insights are provided that describe the pathophysiology of this rare disease. Using gene ontology and pathway term clustering, FD displays the involvement of major biological processes such as the acute inflammatory response, regulation of wound healing, extracellular matrix (ECM) remodelling, regulation of peptidase activity, and cellular response to reactive oxygen species (ROS). Differential expression of acute-phase response proteins in the groups of naïve (up-regulation of ORM1, ORM2, ITIH4, SERPINA3 and FGA) and ERT (down-regulation of FGA, ORM1 and ORM2) patients could be potential hallmarks for distinction of these two patient groups.

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“…A large variety of factors is released from PLTs [49,50] and is found present in PLT concentrates [25,33,[51][52][53][54]. Because of the potentially harmful effects [35, [55][56][57][58] of PLT derived factors, it is of major importance that a PI technology does not exacerbate such negative events. The data presented in this study demonstrate accumulation of sCD40L in all PLT units during storage.…”

Section: Discussionmentioning

confidence: 99%

Pathogen inactivation of double‐dose buffy‐coat platelet concentrates photochemically treated with amotosalen and UVA light: preservation of in vitro function

Sandgren

Diedrich

2014

Vox Sanguinis

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Background The INTERCEPT Blood System for Platelets (PLT) utilizes amotosalen (S-59) in combination with ultraviolet A (UVA) light to inactivate viruses, bacteria, protozoa and leucocytes that may contaminate PLT concentrates. However, limited data are available on the quality of INTERCEPT-treated double-dose (DD) buffy-coat (BC) PLT units allowing a single treatment procedure to produce two pathogen-inactivated PLT units for transfusion. Study Design and MethodsThe objective of this study was to evaluate potential in vitro effects of the INTERCEPT treatment on pools of 7 BCs as compared to untreated units. Functional, phenotypic and mitochondrial properties of DD BC PLTs during storage over 7 days were studied.Results For some parameters measured, small yet significant differences were observed including PLT count (P < 0Á05), pH, pCO 2 and glucose concentration. Throughout storage, no significant differences were observed in ATP levels, ESC, HSR reactivity and CD62P expression. Similarly, no differences were observed in the expression of PAC-1, CD42b and PECAM-1 at any time-points. The mitochondrial membrane potential (MMP) determined by JC-1-labelling was well maintained until day 7 in all treated and untreated units (>90%). The release of sCD40L increased over time (P < 0Á01) in all units but without any significant differences between treated and untreated PLTs.Conclusion Our data demonstrate that photochemical pathogen inactivation of DD-BC PLT concentrates with the INTERCEPT Blood System had no influence on the PLT in vitro quality over the 7 day of storage. However, whether in vivo efficacy of INTERCEPT-treated PLTs is affected may require clinical evaluation.

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Contribution of blood platelets to vascular pathology in Alzheimer's disease

Cited by 38 publications

References 72 publications

Changes in Regional Cerebral Blood Flow Are Associated With Endothelial Dysfunction Markers in Cocaine-Dependent Patients Under Recent Abstinence

Changes in Regional Cerebral Blood Flow Are Associated With Endothelial Dysfunction Markers in Cocaine-Dependent Patients Under Recent Abstinence

Integrative Systems Biology Investigation of Fabry Disease

Pathogen inactivation of double‐dose buffy‐coat platelet concentrates photochemically treated with amotosalen and UVA light: preservation of in vitro function

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