Variability in blood-based amyloid-beta assays: the need for consensus on pre-analytical processing.

Effective therapeutic interventions for Alzheimer's disease (AD) will require treatment regimes to move toward the earliest stages of the disease. For this to occur the field has to identify biomarkers that are able to accurately identify individuals at risk for progression toward AD in the presymptomatic stage. One very significant implication is that some form of population-based screening will need to be undertaken in order to identify those at risk. To date, efforts in neuroimaging brain amyloid-β (Aβ) and changes in cerebrospinal fluid Aβ and tau levels shows promise, however, it is questionable as to whether these methods are applicable for screening the general population. The Aβ peptide is also found in blood which is the most economical and efficient biological fluid to analyze. Unfortunately, investigations into blood-based diagnostic markers have produced mixed results. This variability is likely to be the result of differences in the preanalytical processing of samples and as such is delaying progress in the field. Reported preanalytical processing techniques from 87 recent articles focusing on the measurement of Aβ in blood were compared, to investigate whether basic sample-handling techniques were comparable between studies. This comparison revealed that not only is it likely that some of the variability in blood-based results is attributable to discrepancies in preanalytical methodologies but also that the field is failing to adequately report sample processing techniques. This review highlights the current shortcomings in methodological reporting and recommends a standardized blood collection methodology based on the limited consensus of the reviewed articles.

[1]  Clifford R Jack,et al.  Testing the Right Target and Right Drug at the Right Stage , 2011, Science Translational Medicine.

[2]  D. Selkoe,et al.  Resolving controversies on the path to Alzheimer's therapeutics , 2011, Nature Medicine.

[3]  C. Jack,et al.  Factors affecting Aβ plasma levels and their utility as biomarkers in ADNI , 2011, Acta Neuropathologica.

[4]  R. Mayeux,et al.  Plasma Aβ and PET PIB binding are inversely related in mild cognitive impairment , 2011, Alzheimer's & Dementia.

[5]  Ma Fei,et al.  The relationship of plasma Aβ levels to dementia in aging individuals with mild cognitive impairment , 2011, Journal of the Neurological Sciences.

[6]  Denise C. Park,et al.  Toward defining the preclinical stages of Alzheimer’s disease: Recommendations from the National Institute on Aging-Alzheimer's Association workgroups on diagnostic guidelines for Alzheimer's disease , 2011, Alzheimer's & Dementia.

[7]  S. Nakai,et al.  Reduction of Alzheimer’s Disease Amyloid-β in Plasma by Hemodialysis and Its Relation to Cognitive Functions , 2011, Blood Purification.

[8]  Tamara B Harris,et al.  Association of plasma beta-amyloid level and cognitive reserve with subsequent cognitive decline. , 2011, JAMA.

[9]  Christian Humpel,et al.  Identifying and validating biomarkers for Alzheimer's disease , 2011, Trends in biotechnology.

[10]  M. Irizarry Biomarkers of Alzheimer disease in plasma , 2004, NeuroRX.

[11]  F. Schmitt,et al.  Plasma amyloid-β as a function of age, level of intellectual disability, and presence of dementia in Down syndrome. , 2011, Journal of Alzheimer's disease : JAD.

[12]  C. Rowe,et al.  Increasing the predictive accuracy of amyloid-β blood-borne biomarkers in Alzheimer's disease. , 2011, Journal of Alzheimer's disease : JAD.

[13]  R. Mayeux,et al.  Plasma ß-amyloid and cognitive decline. , 2010, Archives of neurology.

[14]  K. Blennow,et al.  Confounding Factors Influencing Amyloid Beta Concentration in Cerebrospinal Fluid , 2010, International journal of Alzheimer's disease.

[15]  F. Jessen,et al.  Amyloid β peptides in plasma in early diagnosis of Alzheimer's disease: A multicenter study with multiplexing , 2010, Experimental Neurology.

[16]  H. Soininen,et al.  Plasma Aβ42 and Aβ40 as markers of cognitive change in follow-up: a prospective, longitudinal, population-based cohort study , 2010, Journal of Neurology, Neurosurgery & Psychiatry.

[17]  C. Rowe,et al.  Blood-Borne Amyloid-β Dimer Correlates with Clinical Markers of Alzheimer's Disease , 2010, The Journal of Neuroscience.

[18]  A. Hofman,et al.  Matrix metalloproteinase 3 haplotypes and plasma amyloid beta levels: The Rotterdam Study , 2010, Neurobiology of Aging.

[19]  K. Blennow,et al.  Pittsburgh Compound-B and Alzheimer’s Disease Biomarkers in CSF, Plasma and Urine: An Exploratory Study , 2010, Dementia and Geriatric Cognitive Disorders.

[20]  E. Siemers,et al.  Safety and Changes in Plasma and Cerebrospinal Fluid Amyloid &bgr; After a Single Administration of an Amyloid &bgr; Monoclonal Antibody in Subjects With Alzheimer Disease , 2010, Clinical neuropharmacology.

[21]  Anders Wallin,et al.  Evaluation of plasma Aβ40 and Aβ42 as predictors of conversion to Alzheimer's disease in patients with mild cognitive impairment , 2010, Neurobiology of Aging.

[22]  M. Weiner,et al.  Cerebrospinal fluid and plasma biomarkers in Alzheimer disease , 2010, Nature Reviews Neurology.

[23]  N. Schupf,et al.  Plasma β‐amyloid and duration of Alzheimer's disease in adults with Down syndrome , 2010, International journal of geriatric psychiatry.

[24]  C. Ferrarese,et al.  Increased Soluble APPα, Abeta 1-42, and Anti-Abeta 1-42 Antibodies in Plasma From Down Syndrome Patients , 2010, Alzheimer disease and associated disorders.

[25]  M. Murphy,et al.  Alzheimer's disease and the amyloid-beta peptide. , 2010, Journal of Alzheimer's disease : JAD.

[26]  C. Rowe,et al.  Plasma amyloid-beta as a biomarker in Alzheimer's disease: the AIBL study of aging. , 2010, Journal of Alzheimer's disease : JAD.

[27]  C. Laske,et al.  Amyloid-β peptides in plasma and cognitive decline after 1 year follow-up in Alzheimer's disease patients. , 2010, Journal of Alzheimer's disease : JAD.

[28]  J. Fleming,et al.  A consensus protocol for the standardization of cerebrospinal fluid collection and biobanking , 2009, Neurology.

[29]  P. Deyn,et al.  No correlation between time-linked plasma and CSF Aβ levels , 2009, Neurochemistry International.

[30]  C. Masters,et al.  Plasma amyloid beta42 and amyloid beta40 levels are associated with early cognitive dysfunction after cardiac surgery. , 2009, The Annals of thoracic surgery.

[31]  F. Grodstein,et al.  Ten-year change in plasma amyloid beta levels and late-life cognitive decline. , 2009, Archives of neurology.

[32]  M. Sano,et al.  The Relationship of Plasma Aβ Levels to Dementia in Aging Individuals With Down Syndrome , 2009, Alzheimer disease and associated disorders.

[33]  T. Sobrino,et al.  Plasma &bgr;-Amyloid 1-40 Is Associated With the Diffuse Small Vessel Disease Subtype , 2009, Stroke.

[34]  L. Buée,et al.  Association of plasma amyloid β with risk of dementia , 2009, Neurology.

[35]  Noah T. Ditto,et al.  Enrichment and analysis of Alzheimer's Aβ1-42 peptide in human plasma and whole blood , 2009, Journal of Neuroscience Methods.

[36]  R. Pratley,et al.  Plasma Amyloid-β Peptide Levels Correlate with Adipocyte Amyloid Precursor Protein Gene Expression in Obese Individuals , 2009, Neuroendocrinology.

[37]  M. Folstein,et al.  Depression and Plasma Amyloid β Peptides in the Elderly With and Without the Apolipoprotein E4 Allele , 2009, Alzheimer disease and associated disorders.

[38]  H. Möller,et al.  Lithium trial in Alzheimer's disease: a randomized, single-blind, placebo-controlled, multicenter 10-week study. , 2009, The Journal of clinical psychiatry.

[39]  W. F. Abdo,et al.  Increased plasma amyloid-β42 protein in sporadic inclusion body myositis , 2009, Acta Neuropathologica.

[40]  E. Siemers,et al.  The influence of matrix type, diurnal rhythm and sample collection and processing on the measurement of plasma β-amyloid isoforms using the INNO-BIA plasma Aβ forms multiplex assay , 2009, The journal of nutrition, health & aging.

[41]  Weiming Xia,et al.  A specific enzyme-linked immunosorbent assay for measuring beta-amyloid protein oligomers in human plasma and brain tissue of patients with Alzheimer disease. , 2009, Archives of neurology.

[42]  B. Hyman,et al.  Plasma A&bgr;, homocysteine, and cognition: The Vitamin Intervention for Stroke Prevention (VISP) trial , 2009, Neurology.

[43]  C. Adler,et al.  Amyloid beta peptides in human plasma and tissues and their significance for Alzheimer's disease , 2009, Alzheimer's & Dementia.

[44]  Stavros J. Baloyannis,et al.  Plasma levels of amyloid beta1-42 are independent of neuronal function in Alzheimer's disease. , 2009, Journal of Alzheimer's disease : JAD.

[45]  C. Caltagirone,et al.  Amyloid-beta42 plasma levels are elevated in amnestic mild cognitive impairment. , 2009, Journal of Alzheimer's disease : JAD.

[46]  William E Grizzle,et al.  Standard operating procedures for serum and plasma collection: early detection research network consensus statement standard operating procedure integration working group. , 2009, Journal of proteome research.

[47]  Daniel Paris,et al.  Diagnostic utility of APOE, soluble CD40, CD40L, and Abeta1-40 levels in plasma in Alzheimer's disease. , 2008, Cytokine.

[48]  K. Blennow,et al.  Safety, efficacy, and biomarker findings of PBT2 in targeting Aβ as a modifying therapy for Alzheimer's disease: a phase IIa, double-blind, randomised, placebo-controlled trial , 2008, The Lancet Neurology.

[49]  A. Fleisher,et al.  Phase 2 safety trial targeting amyloid beta production with a gamma-secretase inhibitor in Alzheimer disease. , 2008, Archives of neurology.

[50]  E. Matsubara,et al.  Plasma antibodies to Aβ40 and Aβ42 in patients with Alzheimer's disease and normal controls , 2008, Brain Research.

[51]  J. Wiltfang,et al.  Plasma lipoprotein β-amyloid in subjects with Alzheimer's disease or mild cognitive impairment , 2008, Annals of clinical biochemistry.

[52]  J. Growdon,et al.  Plasma amyloid beta-protein and C-reactive protein in relation to the rate of progression of Alzheimer disease. , 2008, Archives of neurology.

[53]  I. Monleón,et al.  The Clinical Significance of Plasmatic Amyloid Aβ-40 Peptide Levels in Alzheimer's Disease Patients Treated With Galantamine , 2008, American journal of Alzheimer's disease and other dementias.

[54]  H. Zetterberg Is plasma amyloid-beta a reliable biomarker for Alzheimer's disease? , 2008, Recent patents on CNS drug discovery.

[55]  J. Becker,et al.  Plasma amyloid levels and the risk of AD in normal subjects in the Cardiovascular Health Study , 2008, Neurology.

[56]  S. Younkin,et al.  Plasma amyloid β protein is elevated in late-onset Alzheimer disease families , 2008, Neurology.

[57]  B. Hyman,et al.  Plasma Amyloid and the Risk of Alzheimer Disease and Dementia in Elderly Men , 2008 .

[58]  R. Martins,et al.  B-vitamins reduce plasma levels of beta amyloid , 2008, Neurobiology of Aging.

[59]  Georg Kemmler,et al.  Conversion from cognitive health to mild cognitive impairment and Alzheimer's disease: Prediction by plasma amyloid beta 42, medial temporal lobe atrophy and homocysteine , 2008, Neurobiology of Aging.

[60]  V. Holthoff,et al.  A method for the detection of amyloid-beta1-40, amyloid-beta1-42 and amyloid-beta oligomers in blood using magnetic beads in combination with Flow cytometry and its application in the diagnostics of Alzheimer's disease. , 2008, Journal of Alzheimer's disease : JAD.

[61]  V. Mathura,et al.  The influence of diagnosis, intra- and inter-person variability on serum and plasma Aβ levels , 2007, Neuroscience Letters.

[62]  B. Hyman,et al.  The normal equilibrium between CSF and plasma amyloid beta levels is disrupted in Alzheimer's disease , 2007, Neuroscience Letters.

[63]  Johannes Kornhuber,et al.  Blood‐based neurochemical diagnosis of vascular dementia: a pilot study , 2007, Journal of neurochemistry.

[64]  P. Lewczuk,et al.  Urea‐based two‐dimensional electrophoresis of beta‐amyloid peptides in human plasma: Evidence for novel Aβ species , 2007, Proteomics.

[65]  O. Kvalheim,et al.  Pre‐analytical influence on the low molecular weight cerebrospinal fluid proteome , 2007, Proteomics. Clinical applications.

[66]  H. Hinterhuber,et al.  Cerebrospinal fluid biomarkers for diagnosis of Alzheimer's disease: beta-amyloid(1-42), tau, phospho-tau-181 and total protein. , 2007, Drugs of today.

[67]  M. Folstein,et al.  Depression is associated with low plasma Aβ42 independently of cardiovascular disease in the homebound elderly , 2007, International journal of geriatric psychiatry.

[68]  Matthew P. Frosch,et al.  Plasma A&bgr; Levels Do Not Reflect Brain A&bgr; Levels , 2007 .

[69]  R. Petersen,et al.  Association of Low Plasma Aβ42/Aβ40 Ratios With Increased Imminent Risk for Mild Cognitive Impairment and Alzheimer Disease , 2007 .

[70]  R. Motter,et al.  Distribution of Aβ peptide in whole blood , 2007 .

[71]  I. Kloszewska,et al.  Plasma Abeta levels as predictors of response to rivastigmine treatment in Alzheimer's disease. , 2007, Acta neurobiologiae experimentalis.

[72]  R. Petersen,et al.  Association of low plasma Abeta42/Abeta40 ratios with increased imminent risk for mild cognitive impairment and Alzheimer disease. , 2007, Archives of neurology.

[73]  R. Mayeux,et al.  Relation of Plasma Homocysteine to Plasma Amyloid Beta Levels , 2007, Neurochemical Research.

[74]  A. Hofman,et al.  Plasma Aβ1–40 and Aβ1–42 and the risk of dementia: a prospective case-cohort study , 2006, The Lancet Neurology.

[75]  C. Mariani,et al.  Plasma levels of beta-amyloid (1–42) in Alzheimer's disease and mild cognitive impairment , 2006, Neurobiology of Aging.

[76]  Colin L Masters,et al.  Molecular mechanisms for Alzheimer's disease: implications for neuroimaging and therapeutics , 2006, Journal of neurochemistry.

[77]  M. Plebani Errors in clinical laboratories or errors in laboratory medicine? , 2006, Clinical chemistry and laboratory medicine.

[78]  Juan Manuel Maler,et al.  Effect of sample collection tubes on cerebrospinal fluid concentrations of tau proteins and amyloid beta peptides. , 2006, Clinical chemistry.

[79]  Eric E. Smith,et al.  Plasma β-amyloid and white matter lesions in AD, MCI, and cerebral amyloid angiopathy , 2006, Neurology.

[80]  A. Hofman,et al.  Plasma Abeta(1-40) and Abeta(1-42) and the risk of dementia: a prospective case-cohort study. , 2006, The Lancet. Neurology.

[81]  B. Pollock,et al.  Elevation in Plasma Abeta42 in Geriatric Depression: A Pilot Study , 2006, Neurochemical Research.

[82]  J. Growdon,et al.  Association of homocysteine with plasma amyloid β protein in aging and neurodegenerative disease , 2005, Neurology.

[83]  J. Kaye,et al.  Safety and Acceptability of the Research Lumbar Puncture , 2005, Alzheimer disease and associated disorders.

[84]  E. Marchiori,et al.  Sample handling for mass spectrometric proteomic investigations of human sera. , 2005, Analytical chemistry.

[85]  Jean-Charles Sanchez,et al.  Truncated cystatin C in cerebrospiral fluid: Technical artefact or biological process? , 2005 .

[86]  H. Tammen,et al.  Peptidomic analysis of human blood specimens: Comparison between plasma specimens and serum by differential peptide display , 2005, Proteomics.

[87]  H. Arai,et al.  Cerebrospinal fluid neprilysin is reduced in prodromal Alzheimer's disease , 2005, Annals of neurology.

[88]  R. Tanzi,et al.  Twenty Years of the Alzheimer’s Disease Amyloid Hypothesis: A Genetic Perspective , 2005, Cell.

[89]  P. Scheltens,et al.  Effects of processing and storage conditions on amyloid beta (1-42) and tau concentrations in cerebrospinal fluid: implications for use in clinical practice. , 2005, Clinical chemistry.

[90]  Mu Wang,et al.  The impact of blood contamination on the proteome of cerebrospinal fluid , 2005, Proteomics.

[91]  R. Newton,et al.  Plasma Aβ42 correlates positively with increased body fat in healthy individuals , 2005 .

[92]  M. Inglese,et al.  Plasma levels of amyloid β-protein 42 are increased in women with mild cognitive impairment , 2004, Neurology.

[93]  P. Lewczuk,et al.  Cerebrospinal fluid amyloid β peptide patterns in Alzheimer's disease patients and nondemented controls depend on sample pretreatment: Indication of carrier‐mediated epitope masking of amyloid β peptides , 2004, Electrophoresis.

[94]  D. Betteridge,et al.  Plasma β-amyloid (Aβ) 40 concentration, lipid status and age in humans , 2004, Neuroscience Letters.

[95]  A. Hofman,et al.  Plasma amyloid β, apolipoprotein E, lacunar infarcts, and white matter lesions , 2004, Annals of neurology.

[96]  K. Blennow,et al.  Plasma Levels of β-Amyloid(1-40), β-Amyloid(1-42), and Total β-Amyloid Remain Unaffected in Adult Patients With Hypercholesterolemia After Treatment With Statins , 2004 .

[97]  D. Betteridge,et al.  Plasma beta-amyloid (A beta) 40 concentration, lipid status and age in humans. , 2004, Neuroscience letters.

[98]  K. Blennow,et al.  Plasma levels of beta-amyloid(1-40), beta-amyloid(1-42), and total beta-amyloid remain unaffected in adult patients with hypercholesterolemia after treatment with statins. , 2004, Archives of neurology.

[99]  C. Broeckhoven,et al.  Hereditary cerebral hemorrhage with amyloidosis dutch type (AβPP 693): decreased plasma amyloid-β 42 concentration , 2003, Neurobiology of Disease.

[100]  A. Mackinnon,et al.  Metal-protein attenuation with iodochlorhydroxyquin (clioquinol) targeting Abeta amyloid deposition and toxicity in Alzheimer disease: a pilot phase 2 clinical trial. , 2003, Archives of neurology.

[101]  R. Mayeux,et al.  Plasma A&bgr;40 and A&bgr;42 and Alzheimer’s disease: Relation to age, mortality, and risk , 2003 .

[102]  Y. Fujiwara,et al.  Relationships between Plasma β-Amyloid Peptide 1–42 and Atherosclerotic Risk Factors in Community-Based Older Populations , 2003, Gerontology.

[103]  T. Tokuda,et al.  Pravastatin at 10 mg/day does not decrease plasma levels of either amyloid-β (Aβ) 40 or Aβ 42 in humans , 2003, Neuroscience Letters.

[104]  J. Growdon,et al.  Age but Not Diagnosis Is the Main Predictor of Plasma Amyloid β-Protein Levels , 2003 .

[105]  K. Blennow,et al.  Unaltered Plasma Levels of β-Amyloid(1–40) and β-Amyloid(1–42) upon Stimulation of Human Platelets , 2003, Dementia and Geriatric Cognitive Disorders.

[106]  K. Blennow,et al.  Unaltered plasma levels of beta-amyloid(1-40) and beta-amyloid(1-42) upon stimulation of human platelets. , 2003, Dementia and geriatric cognitive disorders.

[107]  J. Growdon,et al.  Age but not diagnosis is the main predictor of plasma amyloid beta-protein levels. , 2003, Archives of neurology.

[108]  S. Younkin,et al.  Plasma Levels of Aβ42 and Aβ40 in Alzheimer Patients during Treatment with the Acetylcholinesterase Inhibitor Tacrine , 2002, Dementia and Geriatric Cognitive Disorders.

[109]  Michael G Yost,et al.  Relationship Between Amyloid &bgr; Protein and Melatonin Metabolite in a Study of Electric Utility Workers , 2002, Journal of occupational and environmental medicine.

[110]  S. Younkin,et al.  Serum creatinine levels correlate with plasma amyloid β protein , 2002 .

[111]  S. Younkin,et al.  Plasma levels of Abeta42 and Abeta40 in Alzheimer patients during treatment with the acetylcholinesterase inhibitor tacrine. , 2002, Dementia and geriatric cognitive disorders.

[112]  H. Morita,et al.  Plasma levels of amyloid β proteins did not differ between subjects taking statins and those not taking statins , 2001, Annals of neurology.

[113]  M. Tabaton,et al.  Plasma levels of amyloid beta 40 and 42 are independent from ApoE genotype and mental retardation in Down syndrome. , 2000, American journal of medical genetics.

[114]  D. Galasko,et al.  Amyloid-beta peptides interact with plasma proteins and erythrocytes: implications for their quantitation in plasma. , 2000, Biochemical and biophysical research communications.

[115]  K. Blennow,et al.  Standardization of measurement of β-amyloid(1-42) in cerebrospinal fluid and plasma , 2000, Amyloid : the international journal of experimental and clinical investigation : the official journal of the International Society of Amyloidosis.

[116]  H. Wiśniewski,et al.  Plasma and cerebrospinal fluid Levels of amyloid β proteins 1-40 and 1-42 in Alzheimer disease , 2000 .

[117]  K. Blennow,et al.  Cerebrospinal fluid beta-amyloid(1-42) in Alzheimer disease: differences between early- and late-onset Alzheimer disease and stability during the course of disease. , 1999, Archives of neurology.

[118]  R. Roth,et al.  Purification and Characterization of Insulin-Degrading Enzyme From Human Erythrocytes , 1986, Diabetes.