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. 2013 Nov;9(4):340–352. doi: 10.2174/1573403X10666140214122633

Table 5.

General pro’s and con’s of studies conducted aiming to find ischemic stroke etiology biomarkers.

Strenghts Shortcommings
  • Some published studies include large cohorts (n>200 patients).

  • The great majority of studied biomarkers for stroke etiology can be easily determined in blood samples.

  • The most promising biomarkers are related to specific chronic condition prior to brain artery occlusion (i.e. cardiac dysfunctions or insufficiency).

  • Some biomarkers, especially when combined, have showed high sensitivity and specificity for cardioembolic stroke i.e D-dimer & BNP combination [24], NT-proBNP [27], etc

  • Some biomarkers have been proven to clear up undetermined strokes, i.e D-dimer & BNP combination [24] or a panel including 40 genes expression profile [77].

  • Most of those studies show optimal cutoff points for the studied biomarkers and perform logistic regression models to find out if a biomarker might independently predict cardioembolic stroke.

  • Some of the markers may be determined some days after the acute event and still have an acceptable predictive value.

  • Relevant clinical decisions may be done using these markers (i.e. to shift antiplatelet to anticoagulant regime).

 
  • There is currently no “gold-standard” to define the exact etiology/mechanism of stroke.

  • Some underlying conditions i.e. inflammation, endothelial damage are common among different stroke etiologies, making some of the biomarkers unspecific.

  • The clot formation usually occurs hours before sample collection. Therefore, a biomarker specifically related to this event might be partly cleared from circulation at that time.

  • Most of times samples are taken after 4.5 hours, thus currently the great majority of the studied biomarkers might not be useful during acute phases.

  • Most published studies do not report temporal profiles of the biomarker after stroke onset and among etiologies, therefore the ideal time point of the biomarker to be used remains elusive.

  • Biomarker studies, especially those with small sample size, do not show a biomarker cutoff point and a logistic regression analysis nor other statistical metrics (i.e. IDI).

  • Cardioembolic related biomarkers might be also associated with the cardiovascular disorders originating the index stroke.

  • Ongoing therapies prior to stroke onset are not always taken into account in patient’s selection criteria. Previous anticoagulation or antiplatelet therapies might influence biomarker levels.

  • Clinical models are not always adjusted by NIHSS and infarct size. As CE stroke is more pronounced than other etiologies it might be a confounder to be taken into account.