BACKGROUND: The National Institutes of Health Stroke Scale (NIHSS) was created to detect treatment-related differences in clinical trials and was designed to measure right- and left-sided cerebral hemispheric function. OBJECTIVE: To validate the original design in patients with very large strokes. DESIGN: A previously published factor structure was fit to the data. Then, a new analysis was conducted to explore the underlying structure of the scale in this population. Finally, NIHSS scores and infarction volumes were compared. SETTING: The Clomethiazole for Acute Stroke Study-Ischemic, conducted in academic and community hospitals. PATIENTS: Individuals with acute stroke seen within 12 hours of onset. Of 1191 records available, 98% had complete NIHSS scores. MAIN OUTCOME MEASURE: Goodness-of-fit statistic (Bentler) for each factor solution. RESULTS: Two factors were found underlying the NIHSS, corresponding to the left and right hemispheres (goodness of fit = 0.97), using the previously published factor analysis. The new exploratory analysis also suggested 2 factors representing left and right brain function. The median (range) NIHSS scores were 15 (5-25) for right brain strokes and 19 (6-32) for left brain strokes (P<.001). The median (range) infarction volumes were 56.2 mL (0.1-381.5 mL) for right brain strokes and 37.8 mL (0.2-255.1 mL) for left brain strokes (P<.001). The correlation coefficient between NIHSS score and lesion volume was 0.37 (P<.001). CONCLUSIONS: The underlying structure of the NIHSS conforms to cerebral hemispheric lateralization, confirming previous findings in a new population of large hemispheric strokes. Left- brain strokes score 4 points higher on the NIHSS than right brain strokes of larger volume.
BACKGROUND: The National Institutes of Health Stroke Scale (NIHSS) was created to detect treatment-related differences in clinical trials and was designed to measure right- and left-sided cerebral hemispheric function. OBJECTIVE: To validate the original design in patients with very large strokes. DESIGN: A previously published factor structure was fit to the data. Then, a new analysis was conducted to explore the underlying structure of the scale in this population. Finally, NIHSS scores and infarction volumes were compared. SETTING: The Clomethiazole for Acute Stroke Study-Ischemic, conducted in academic and community hospitals. PATIENTS: Individuals with acute stroke seen within 12 hours of onset. Of 1191 records available, 98% had complete NIHSS scores. MAIN OUTCOME MEASURE: Goodness-of-fit statistic (Bentler) for each factor solution. RESULTS: Two factors were found underlying the NIHSS, corresponding to the left and right hemispheres (goodness of fit = 0.97), using the previously published factor analysis. The new exploratory analysis also suggested 2 factors representing left and right brain function. The median (range) NIHSS scores were 15 (5-25) for right brain strokes and 19 (6-32) for left brain strokes (P<.001). The median (range) infarction volumes were 56.2 mL (0.1-381.5 mL) for right brain strokes and 37.8 mL (0.2-255.1 mL) for left brain strokes (P<.001). The correlation coefficient between NIHSS score and lesion volume was 0.37 (P<.001). CONCLUSIONS: The underlying structure of the NIHSS conforms to cerebral hemispheric lateralization, confirming previous findings in a new population of large hemispheric strokes. Left- brain strokes score 4 points higher on the NIHSS than right brain strokes of larger volume.
Authors: Maurizio Corbetta; Lenny Ramsey; Alicia Callejas; Antonello Baldassarre; Carl D Hacker; Joshua S Siegel; Serguei V Astafiev; Jennifer Rengachary; Kristina Zinn; Catherine E Lang; Lisa Tabor Connor; Robert Fucetola; Michael Strube; Alex R Carter; Gordon L Shulman Journal: Neuron Date: 2015-03-04 Impact factor: 17.173
Authors: Elisabeth A Wilde; Stephen R McCauley; Tara M Kelly; Annie M Weyand; Claudia Pedroza; Harvey S Levin; Guy L Clifton; Kathleen P Schnelle; Monika V Shah; Paolo Moretti Journal: J Neurotrauma Date: 2010-06 Impact factor: 5.269
Authors: H J Audebert; O C Singer; B Gotzler; B Vatankhah; S Boy; J Fiehler; M G Lansberg; G W Albers; A Kastrup; A Rovira; A Gass; C Rosso; L Derex; J S Kim; P Heuschmann Journal: Neurology Date: 2011-01-19 Impact factor: 9.910
Authors: Albert J Yoo; Javier Romero; Reza Hakimelahi; Raul G Nogueira; James D Rabinov; Johnny C Pryor; R Gilberto González; Joshua A Hirsch; Pamela W Schaefer Journal: BMC Neurol Date: 2010-04-23 Impact factor: 2.474
Authors: Jennifer Wu; Ramesh Srinivasan; Erin Burke Quinlan; Ana Solodkin; Steven L Small; Steven C Cramer Journal: J Neurophysiol Date: 2016-03-02 Impact factor: 2.714