PT  - JOURNAL ARTICLE
AU  - W.A. Copen
AU  - A.R. Deipolyi
AU  - P.W. Schaefer
AU  - L.H. Schwamm
AU  - R.G. González
AU  - O. Wu
TI  - Exposing Hidden Truncation-Related Errors in Acute Stroke Perfusion Imaging
AID  - 10.3174/ajnr.A4186
DP  - 2014 Dec 11
TA  - American Journal of Neuroradiology
4099  - http://www.ajnr.org/content/early/2014/12/11/ajnr.A4186.short
4100  - http://www.ajnr.org/content/early/2014/12/11/ajnr.A4186.full
AB  - BACKGROUND AND PURPOSE: The durations of acute ischemic stroke patients&#039; CT or MR perfusion scans may be too short to fully sample the passage of the injected contrast agent through the brain. We tested the potential magnitude of hidden errors related to the truncation of data by short perfusion scans. MATERIALS AND METHODS: Fifty-seven patients with acute ischemic stroke underwent perfusion MR imaging within 12 hours of symptom onset, using a relatively long scan duration (110 seconds). Shorter scan durations (39.5–108.5 seconds) were simulated by progressively deleting the last-acquired images. CBV, CBF, MTT, and time to response function maximum (Tmax) were measured within DWI-identified acute infarcts, with commonly used postprocessing algorithms. All measurements except Tmax were normalized by dividing by the contralateral hemisphere values. The effects of the scan duration on these hemodynamic measurements and on the volumes of lesions with Tmax of &amp;gt;6 seconds were tested using regression. RESULTS: Decreasing scan duration from 110 seconds to 40 seconds falsely reduced perfusion estimates by 47.6%–64.2% of normal for CBV, 1.96%–4.10% for CBF, 133%–205% for MTT, and 6.2–8.0 seconds for Tmax, depending on the postprocessing method. This truncation falsely reduced estimated Tmax lesion volume by 71.5 or 93.8 mL, depending on the deconvolution method. “Lesion reversal” (ie, change from above-normal to apparently normal, or from &amp;gt;6 seconds to ≤6 seconds for the time to response function maximum) with increasing truncation occurred in 37%–46% of lesions for CBV, 2%–4% for CBF, 28%–54% for MTT, and 42%–44% for Tmax, depending on the postprocessing method. CONCLUSIONS: Hidden truncation-related errors in perfusion images may be large enough to alter patient management or affect outcomes of clinical trials. Abbreviations MRPMR perfusion imagingSVDsingular value decompositionTmaxtime-to-maximum of the deconvolved tissue response function