Targeted complement inhibition as a promising strategy for preventing inflammatory complications in hemodialysis. DeAngelis, A, R., Reis, S, E., Ricklin, D., Lambris, & D, J. Immunobiology, 217(11):1097--105, November, 2012.
Targeted complement inhibition as a promising strategy for preventing inflammatory complications in hemodialysis. [link]Paper  doi  abstract   bibtex   
Hemodialysis is the most common method used to remove waste and hazardous products of metabolism in patients suffering from renal failure. Hundreds of thousands of people with end-stage renal disease undergo hemodialysis treatment in the United States each year. Strikingly, the 5-year survival rate for all dialysis patients is only 35%. Most of the patients succumb to cardiovascular disease that is exacerbated by the chronic induction of inflammation caused by contact of the blood with the dialysis membrane. The complement system, a strong mediator of pro-inflammatory networks, is a key contributor to such biomaterial-induced inflammation. Though only evaluated in experimental ex vivo settings, specific targeting of complement activation during hemodialysis has uncovered valuable information that points toward the therapeutic use of complement inhibitors as a means to control the unwelcomed inflammatory responses and consequent pathologies in hemodialysis patients.
@article{ DeAngelis2012,
  abstract = {Hemodialysis is the most common method used to remove waste and hazardous products of metabolism in patients suffering from renal failure. Hundreds of thousands of people with end-stage renal disease undergo hemodialysis treatment in the United States each year. Strikingly, the 5-year survival rate for all dialysis patients is only 35%. Most of the patients succumb to cardiovascular disease that is exacerbated by the chronic induction of inflammation caused by contact of the blood with the dialysis membrane. The complement system, a strong mediator of pro-inflammatory networks, is a key contributor to such biomaterial-induced inflammation. Though only evaluated in experimental ex vivo settings, specific targeting of complement activation during hemodialysis has uncovered valuable information that points toward the therapeutic use of complement inhibitors as a means to control the unwelcomed inflammatory responses and consequent pathologies in hemodialysis patients.},
  author = {DeAngelis, Robert A and Reis, Edimara S and Ricklin, Daniel and Lambris, John D},
  doi = {10.1016/j.imbio.2012.07.012},
  issn = {1878-3279},
  journal = {Immunobiology},
  keywords = {Biocompatible Materials,Cardiovascular Diseases,Cardiovascular Diseases: etiology,Cardiovascular Diseases: immunology,Complement Activation,Complement Inactivator Proteins,Complement System Proteins,Complement System Proteins: immunology,Complement System Proteins: metabolism,Humans,Inflammation,Inflammation: etiology,Inflammation: immunology,Inflammation: pathology,Inflammation: prevention \& control,Kidney Failure, Chronic,Kidney Failure, Chronic: blood,Kidney Failure, Chronic: therapy,Molecular Targeted Therapy,Renal Dialysis,Renal Dialysis: adverse effects},
  month = {November},
  number = {11},
  pages = {1097--105},
  pmid = {22964235},
  title = {{Targeted complement inhibition as a promising strategy for preventing inflammatory complications in hemodialysis.}},
  url = {http://www.ncbi.nlm.nih.gov/pubmed/22964235},
  volume = {217},
  year = {2012}
}
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