Long-term Neurocognitive Function and Quality of Life After Multimodal Therapy in Adult Glioma Patients: a Prospective Long-term Follow-up

Overview

Journal J Neurooncol

Publisher Springer

Date 2023 Aug 30

PMID 37648934

Authors

Milena Pertz

Sabine Schlomer

Clemens Seidel

Bettina Hentschel

Markus Loffler

Gabriele Schackert

Dietmar Krex

Tareq Juratli

Joerg Christian Tonn

Oliver Schnell

Hartmut Vatter

Matthias Simon

Manfred Westphal

Tobias Martens

Michael Sabel

Martin Bendszus

Nils Dorner

Antje Wick

Klaus Fliessbach

Christian Hoppe

Marcel Klingner

Jorg Felsberg

Guido Reifenberger

Dorothee Gramatzki

Michael Weller

Uwe Schlegel

Affiliations

Soon will be listed here.

Abstract

Purpose: Multimodal therapies have significantly improved prognosis in glioma. However, in particular radiotherapy may induce long-term neurotoxicity compromising patients' neurocognition and quality of life. The present prospective multicenter study aimed to evaluate associations of multimodal treatment with neurocognition with a particular focus on hippocampal irradiation.

Methods: Seventy-one glioma patients (WHO grade 1-4) were serially evaluated with neurocognitive testing and quality of life questionnaires. Prior to (baseline) and following further treatment (median 7.1 years [range 4.6-11.0] after baseline) a standardized computerized neurocognitive test battery (NeuroCog FX) was applied to gauge psychomotor speed and inhibition, verbal short-term memory, working memory, verbal and non-verbal memory as well as verbal fluency. Mean ipsilateral hippocampal radiation dose was determined in a subgroup of 27 patients who received radiotherapy according to radiotherapy plans to evaluate its association with neurocognition.

Results: Between baseline and follow-up mean performance in none of the cognitive domains significantly declined in any treatment modality (radiotherapy, chemotherapy, combined radio-chemotherapy, watchful-waiting), except for selective attention in patients receiving chemotherapy alone. Apart from one subtest (inhibition), mean ipsilateral hippocampal radiation dose > 50 Gy (Dmean) as compared to < 10 Gy showed no associations with long-term cognitive functioning. However, patients with Dmean < 10 Gy showed stable or improved performance in all cognitive domains, while patients with > 50 Gy numerically deteriorated in 4/8 domains.

Conclusions: Multimodal glioma therapy seems to affect neurocognition less than generally assumed. Even patients with unilateral hippocampal irradiation with > 50 Gy showed no profound cognitive decline in this series.

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