OBJECTIVE: Preresection electrical stimulation mapping is frequently used to identify cortical sites critical for visual object naming. These sites are typically spared from surgical resection with the goal of preserving postoperative language. Recent studies, however, suggest a potential role of the hippocampus in naming, although this is inconsistent with neurocognitive models of language and memory. We sought to determine whether preservation of visual naming sites identified via cortical stimulation mapping protects against naming decline when resection includes the hippocampal region. METHODS: We assessed postoperative changes in visual naming in 33 patients, 14 who underwent left temporal resection including hippocampal removal and 19 who had left temporal resection without hippocampal removal. All patients had preresection cortical language mapping. Visual object naming sites identified via electrical stimulation were always preserved. RESULTS: Patients without hippocampal resection showed no significant naming decline, suggesting a clinical benefit from cortical mapping. In contrast, patients who had hippocampal resection exhibited significant postoperative naming decline, despite preresection mapping and preservation of all visual naming sites (p < or = 0.02). These group effects were also evident in individual patients (p = 0.02). More detailed, post hoc examination of patients who had hippocampal resection revealed that overall, patients who declined were those with a preoperative, structurally intact hippocampus, whereas patients with preoperative hippocampal sclerosis did not exhibit significant decline. INTERPRETATION: Despite cortical language mapping with preservation of visual naming sites from resection, removal of an intact dominant hippocampus will likely result in visual naming decline postoperatively.
OBJECTIVE: Preresection electrical stimulation mapping is frequently used to identify cortical sites critical for visual object naming. These sites are typically spared from surgical resection with the goal of preserving postoperative language. Recent studies, however, suggest a potential role of the hippocampus in naming, although this is inconsistent with neurocognitive models of language and memory. We sought to determine whether preservation of visual naming sites identified via cortical stimulation mapping protects against naming decline when resection includes the hippocampal region. METHODS: We assessed postoperative changes in visual naming in 33 patients, 14 who underwent left temporal resection including hippocampal removal and 19 who had left temporal resection without hippocampal removal. All patients had preresection cortical language mapping. Visual object naming sites identified via electrical stimulation were always preserved. RESULTS:Patients without hippocampal resection showed no significant naming decline, suggesting a clinical benefit from cortical mapping. In contrast, patients who had hippocampal resection exhibited significant postoperative naming decline, despite preresection mapping and preservation of all visual naming sites (p < or = 0.02). These group effects were also evident in individual patients (p = 0.02). More detailed, post hoc examination of patients who had hippocampal resection revealed that overall, patients who declined were those with a preoperative, structurally intact hippocampus, whereas patients with preoperative hippocampal sclerosis did not exhibit significant decline. INTERPRETATION: Despite cortical language mapping with preservation of visual naming sites from resection, removal of an intact dominant hippocampus will likely result in visual naming decline postoperatively.
Authors: Morris Moscovitch; R Shayna Rosenbaum; Asaf Gilboa; Donna Rose Addis; Robyn Westmacott; Cheryl Grady; Mary Pat McAndrews; Brian Levine; Sandra Black; Gordon Winocur; Lynn Nadel Journal: J Anat Date: 2005-07 Impact factor: 2.610
Authors: B P Hermann; K Perrine; G J Chelune; W Barr; D W Loring; E Strauss; M R Trenerry; M Westerveld Journal: Neuropsychology Date: 1999-01 Impact factor: 3.295
Authors: Nicholas M Barbaro; Mark Quigg; Donna K Broshek; Mariann M Ward; Kathleen R Lamborn; Kenneth D Laxer; David A Larson; William Dillon; Lynn Verhey; Paul Garcia; Ladislau Steiner; Christine Heck; Douglas Kondziolka; Robert Beach; William Olivero; Thomas C Witt; Vicenta Salanova; Robert Goodman Journal: Ann Neurol Date: 2009-02 Impact factor: 10.422
Authors: Xiaozhen You; Ashley N Zachery; Eleanor J Fanto; Gina Norato; Sierra C Germeyan; Eric J Emery; Leigh N Sepeta; Madison M Berl; Chelsea L Black; Edythe Wiggs; Kareem Zaghloul; Sara K Inati; William D Gaillard; William H Theodore Journal: Epilepsia Date: 2019-02-11 Impact factor: 5.864
Authors: Mackenzie C Cervenka; Dana F Boatman-Reich; Julianna Ward; Piotr J Franaszczuk; Nathan E Crone Journal: Front Hum Neurosci Date: 2011-02-22 Impact factor: 3.169