Emotion Recognition in Patients with Low-Grade Glioma before and after Surgery
Abstract
:1. Introduction
2. Materials and Methods
2.1. Participants and Procedure
2.2. Measures
2.2.1. Social Cognition
2.2.2. General Cognition
2.3. Statistical Analysis
3. Results
3.1. Pre- and Postoperative Emotion Recognition
3.2. Relation between Emotion Recognition and General Cognition
3.3. Relation between Emotion Recognition and Tumor Location
4. Discussion
5. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Conflicts of Interest
References
- Louis, D.N.; Perry, A.; Wesseling, P.; Brat, D.J.; Cree, I.A.; Figarella-Branger, D.; Hawkins, C.; Ng, H.K.; Pfister, S.M.; Reifenberger, G.; et al. The 2021 WHO Classification of Tumors of the Central Nervous System: A Summary. Neuro. Oncol. 2021, 23, 1231–1251. [Google Scholar] [CrossRef]
- Ostrom, Q.T.; Bauchet, L.; Davis, F.G.; Deltour, I.; Fisher, J.L.; Langer, C.E.; Pekmezci, M.; Schwartzbaum, J.A.; Turner, M.C.; Walsh, K.M.; et al. The Epidemiology of Glioma in Adults: A “State of the Science” Review. Neuro. Oncol. 2014, 16, 896–913. [Google Scholar] [CrossRef]
- Roelz, R.; Strohmaier, D.; Jabbarli, R.; Kraeutle, R.; Egger, K.; Coenen, V.A.; Weyerbrock, A.; Reinacher, P.C. Residual Tumor Volume as Best Outcome Predictor in Low Grade Glioma—A Nine-Years Near-Randomized Survey of Surgery vs. Biopsy. Sci. Rep. 2016, 6, 32286. [Google Scholar] [CrossRef]
- Capelle, L.; Fontaine, D.; Mandonnet, E.; Taillandier, L.; Golmard, J.L.; Bauchet, L.; Pallud, J.; Peruzzi, P.; Baron, M.H.; Kujas, M.; et al. Spontaneous and Therapeutic Prognostic Factors in Adult Hemispheric World Health Organization Grade II Gliomas: A Series of 1097 Cases: Clinical Article. J. Neurosurg. 2013, 118, 1157–1168. [Google Scholar] [CrossRef]
- Van Kessel, E.; Emons, M.A.C.; Wajer, I.H.; van Baarsen, K.M.; Broekman, M.L.; Robe, P.A.; Snijders, T.J.; Van Zandvoort, M.J.E. Tumor-related neurocognitive dysfunction in patients with diffuse glioma: A retrospective cohort study prior to antitumor treatment. Neurooncol. Pract. 2019, 6, 463–472. [Google Scholar] [CrossRef]
- Van Loon, E.M.P.; Heijenbrok-Kal, M.H.; van Loon, W.S.; van den Bent, M.J.; Vincent, A.J.P.E.; de Koning, I.; Ribbers, G.M. Assessment Methods and Prevalence of Cognitive Dysfunction in Patients with Low-Grade Glioma: A Systematic Review. J. Rehabil. Med. 2015, 47, 481–488. [Google Scholar] [CrossRef]
- Henry, J.D.; von Hippel, W.; Molenberghs, P.; Lee, T.; Sachdev, P.S. Clinical Assessment of Social Cognitive Function in Neurological Disorders. Nat. Rev. 2016, 12, 28–39. [Google Scholar] [CrossRef]
- Adolphs, R. The Social Brain: Neural Basis of Social Knowledge. Annu. Rev. Psychol. 2009, 60, 693–716. [Google Scholar] [CrossRef]
- Amodio, D.M.; Frith, C.D. Meeting of Minds: The Medial Frontal Cortex and Social Cognition. Nat. Rev. 2006, 7, 268–277. [Google Scholar] [CrossRef]
- Campanella, F.; Shallice, T.; Ius, T.; Fabbro, F.; Skrap, M. Impact of Brain Tumour Location on Emotion and Personality: A Voxel-Based Lesion-Symptom Mapping Study on Mentalization Processes. Brain 2014, 137, 2532–2545. [Google Scholar] [CrossRef] [Green Version]
- Chen, P.; Wang, G.; Ma, R.; Jing, F.; Zhang, Y.; Wang, Y.; Zhang, P.; Niu, C.; Zhang, X. Multidimensional Assessment of Empathic Abilities in Patients with Insular Glioma. Cogn. Affect. Behav. Neurosci. 2016, 16, 962–975. [Google Scholar] [CrossRef]
- Goebel, S.; Mehdorn, H.M.; Wiesner, C.D. Social Cognition in Patients with Intracranial Tumors: Do We Forget Something in the Routine Neuropsychological Examination? J. Neurooncol. 2018, 140, 687–696. [Google Scholar] [CrossRef]
- Campanella, F.; Fabbro, F.; Ius, T.; Shallice, T.; Skrap, M. Acute Effects of Surgery on Emotion and Personality of Brain Tumor Patients: Surgery Impact, Histological Aspects, and Recovery. Neuro. Oncol. 2015, 17, 1121–1131. [Google Scholar] [CrossRef]
- Mattavelli, G.; Pisoni, A.; Casarotti, A.; Comi, A.; Sera, G.; Riva, M.; Bizzi, A.; Rossi, M.; Bello, L.; Papagno, C. Consequences of Brain Tumour Resection on Emotion Recognition. J. Neuropsychol. 2019, 13, 1–21. [Google Scholar] [CrossRef]
- Adolphs, R. The Neurobiology of Social Cognition. Curr. Opin. Neurobiol. 2001, 11, 231–239. [Google Scholar] [CrossRef]
- Heberlein, A.S.; Padon, A.A.; Gillihan, S.J.; Farah, M.J.; Fellows, L.K. Ventromedial Frontal Lobe Plays a Critical Role in Facial Emotion Recognition. J. Cogn. Neurosci. 2008, 20, 721–733. [Google Scholar] [CrossRef]
- Shamay-Tsoory, S.G. The Neural Bases for Empathy. Neuroscientist 2011, 17, 18–24. [Google Scholar] [CrossRef]
- Pertz, M.; Okoniewski, A.; Schlegel, U.; Thoma, P. Impairment of Sociocognitive Functions in Patients with Brain Tumours. Neurosci. Biobehav. Rev. 2020, 108, 370–392. [Google Scholar] [CrossRef]
- Luherne-du Boullay, V.; Plaza, M.; Perrault, A.; Capelle, L.; Chaby, L. Atypical Crossmodal Emotional Integration in Patients with Gliomas. Brain Cogn. 2014, 92C, 92–100. [Google Scholar] [CrossRef]
- Louis, D.N.; Perry, A.; Reifenberger, G.; von Deimling, A.; Figarella-Branger, D.; Cavenee, W.K.; Ohgaki, H.; Wiestler, O.D.; Kleihues, P.; Ellison, D.W. The 2016 World Health Organization Classification of Tumors of the Central Nervous System: A Summary. Acta Neuropathol. 2016, 131, 803–820. [Google Scholar] [CrossRef] [Green Version]
- Young, A.; Perrett, D.; Calder, A.; Sprengelmeyer, R.; Ekman, P. Facial Expressions of Emotion—Stimuli and Tests (FEEST); Thames Valley Test Company: Bury St Edmunds, UK, 2002. [Google Scholar]
- Deelman, B.G.; Brouwer, W.H.; van Zomeren, A.H.; Saan, R.J. Functiestoornissen Na Trauma Capitis. In Neuropsychologie in Nederland; Jennekens-Schinkel, A., Diamant, J.J., Diesfeldt, H.F.A., Haaxma, R., Eds.; Van Loghum Slaterus: Deventer, The Netherlands, 1980. [Google Scholar]
- Reitan, R.M. Validity of the Trail Making Test as an Indicator of Organic Brain Damage. Percept. Mot. Ski. 1958, 8, 271–276. [Google Scholar] [CrossRef]
- Luteijn, F.; Barelds, D.P.F. GIT-2 Groninger Intelligentietest; Pearson: Amsterdam, The Netherlands, 2004. [Google Scholar]
- Verhage, F. Intelligentie En Leeftijd: Onderzoek Bij Nederlanders van Twaalf Tot Zevenenzeventig Jaar [Intelligence and Age: Study on Dutch People from Age 12 to 77]; Van Gorcum: Assen, The Netherlands, 1964. [Google Scholar]
- Lezak, M.D.; Howieson, D.B.; Loring, D.W.; Hannay, H.J.; Fischer, J.S. Neuropsychological Assessment, 4th ed.; Oxford University Press: New York, NY, USA, 2004. [Google Scholar]
- Nijsse, B.; Spikman, J.M.; Visser-Meily, J.M.A.; de Kort, P.L.M.; van Heugten, C.M. Social Cognition Impairments Are Associated with Behavioural Changes in the Long Term after Stroke. PLoS ONE 2019, 14, e0213725. [Google Scholar] [CrossRef]
- Voncken, L.; Timmerman, M.E.; Spikman, J.M.; Huitema, R.B. Beschrijving van de Nieuwe, Nederlandse Normering van de Ekman 60 Faces Test (EFT), Onderdeel van de FEEST [Description of the New, Dutch Norms of the Ekman 60 Faces Test (EFT), Part of the FEEST]. Tijdschr. Voor Neuropsychol. 2018, 13, 143–151. [Google Scholar]
- Spikman, J.M.; Timmerman, M.E.; Milders, M.V.; Veenstra, W.S.; van der Naalt, J. Social Cognition Impairments in Relation to General Cognitive Deficits, Injury Severity, and Prefrontal Lesions in Traumatic Brain Injury Patients. J. Neurotrauma 2012, 29, 101–111. [Google Scholar] [CrossRef]
- Aben, H.P.; Visser-Meily, J.M.; Biessels, G.J.; de Kort, P.L.; Spikman, J.M. High Occurrence of Impaired Emotion Recognition after Ischemic Stroke. Eur. Stroke J. 2020, 5, 262–270. [Google Scholar] [CrossRef]
- Buunk, A.M.; Spikman, J.M.; Veenstra, W.S.; van Laar, P.J.; Metzemaekers, J.D.M.; van Dijk, J.M.C.; Meiners, L.C.; Groen, R.J.M. Social Cognition Impairments after Aneurysmal Subarachnoid Haemorrhage: Associations with Deficits in Interpersonal Behaviour, Apathy, and Impaired Self-Awareness. Neuropsychologia 2017, 103, 131–139. [Google Scholar] [CrossRef]
- Visser-Keizer, A.C.; Westerhof-Evers, H.J.; Gerritsen, M.J.J.; Der Van Naalt, J.; Spikman, J.M. To Fear Is to Gain? The Role of Fear Recognition in Risky Decision Making in TBI Patients and Healthy Controls. PLoS ONE 2016, 11, e0166995. [Google Scholar] [CrossRef]
- Spikman, J.M.; Milders, M.V.; Visser-Keizer, A.C.; Westerhof-Evers, H.J.; Herben-Dekker, M.; van der Naalt, J. Deficits in Facial Emotion Recognition Indicate Behavioral Changes and Impaired Self-Awareness after Moderate to Severe Traumatic Brain Injury. PLoS ONE 2013, 8, e65581. [Google Scholar] [CrossRef]
- Neumann, D.; Malec, J.F.; Hammond, F.M. The Association of Negative Attributions with Irritation and Anger after Brain Injury. Rehabil. Psychol. 2015, 60, 155–161. [Google Scholar] [CrossRef]
- Klein, M.; Heimans, J.J.; Aaronson, N.K.; van der Ploeg, H.M.; Grit, J.; Muller, M.; Postma, T.J.; Mooij, J.J.; Boerman, R.H.; Beute, G.N.; et al. Effect of Radiotherapy and Other Treatment-Related Factors on Mid-Term to Long-Term Cognitive Sequelae in Low-Grade Gliomas: A Comparative Study. Lancet 2002, 360, 1361–1368. [Google Scholar] [CrossRef]
- Taphoorn, M.J.; Schiphorst, A.K.; Snoek, F.J.; Lindeboom, J.; Wolbers, J.G.; Karim, A.B.; Huijgens, P.C.; Heimans, J.J. Cognitive Functions and Quality of Life in Patients with Low-Grade Gliomas: The Impact of Radiotherapy. Ann. Neurol. 1994, 36, 48–54. [Google Scholar] [CrossRef]
- Douw, L.; Klein, M.; Fagel, S.S.; van den Heuvel, J.; Taphoorn, M.J.; Aaronson, N.K.; Postma, T.J.; Vandertop, W.P.; Mooij, J.J.; Boerman, R.H.; et al. Cognitive and Radiological Effects of Radiotherapy in Patients with Low-Grade Glioma: Long-Term Follow-Up. Lancet. Neurol. 2009, 8, 810–818. [Google Scholar] [CrossRef]
- Lawrie, T.A.; Gillespie, D.; Dowswell, T.; Evans, J.; Erridge, S.; Vale, L.; Kernohan, A.; Grant, R. Long-Term Neurocognitive and Other Side Effects of Radiotherapy, with or without Chemotherapy, for Glioma. Cochrane Database Syst. Rev. 2019, 8, CD013047. [Google Scholar] [CrossRef]
- Mandonnet, E.; Herbet, G.; Duffau, H. Letter: Introducing New Tasks for Intraoperative Mapping in Awake Glioma Surgery: Clearing the Line Between Patient Care and Scientific Research. Neurosurgery 2020, 86, E256–E257. [Google Scholar] [CrossRef]
- Prat-Acín, R.; Galeano-Senabre, I.; López-Ruiz, P.; Ayuso-Sacido, A.; Espert-Tortajada, R. Intraoperative Brain Mapping of Language, Cognitive Functions, and Social Cognition in Awake Surgery of Low-Grade Gliomas Located in the Right Non-Dominant Hemisphere. Clin. Neurol. Neurosurg. 2021, 200, 106363. [Google Scholar] [CrossRef]
- Duffau, H. The “Frontal Syndrome” Revisited: Lessons from Electrostimulation Mapping Studies. Cortex 2012, 48, 120–131. [Google Scholar] [CrossRef]
- Yuvaraj, R.; Murugappan, M.; Norlinah, M.I.; Sundaraj, K.; Khairiyah, M. Review of Emotion Recognition in Stroke Patients. Dement. Geriatr. Cogn. Disord. 2013, 36, 179–196. [Google Scholar] [CrossRef]
- Louis, D.N.; Ohgaki, H.; Wiestler, O.D.; Cavenee, W.K.; Burger, P.C.; Jouvet, A.; Scheithauer, B.W.; Kleihues, P. The 2007 WHO Classification of Tumours of the Central Nervous System. Acta Neuropathol. 2007, 114, 97–109. [Google Scholar] [CrossRef]
- Wefel, J.S.; Noll, K.R.; Rao, G.; Cahill, D.P. Neurocognitive Function Varies by IDH1 Genetic Mutation Status in Patients with Malignant Glioma Prior to Surgical Resection. Neuro. Oncol. 2016, 18, 1656–1663. [Google Scholar] [CrossRef]
- Klein, M.; Engelberts, N.H.J.; van der Ploeg, H.M.; Kasteleijn-Nolst Trenité, D.G.A.; Aaronson, N.K.; Taphoorn, M.J.B.; Baaijen, H.; Vandertop, W.P.; Muller, M.; Postma, T.J.; et al. Epilepsy in Low-Grade Gliomas: The Impact on Cognitive Function and Quality of Life. Ann. Neurol. 2003, 54, 514–520. [Google Scholar] [CrossRef]
- Van Coevorden-van Loon, E.M.P.; Coomans, M.B.; Heijenbrok-Kal, M.H.; Ribbers, G.M.; van den Bent, M.J. Fatigue in Patients with Low Grade Glioma: Systematic Evaluation of Assessment and Prevalence. J. Neurooncol. 2017, 133, 237–246. [Google Scholar] [CrossRef] [PubMed] [Green Version]
Patients N = 30 | Healthy Controls N = 63 | |
---|---|---|
Demographic characteristics | ||
Sex, number of women (%) | 17 (56.7%) | 32 (50.8%) |
Age on T1 (M ± SD) | 41 ± 11 | 40.6 ± 13.9 |
Educational level (M ± SD) | 5 ± 1 | 5 ± 1 |
Treatment characteristics | ||
Type of craniotomy, awake | 16 (53.3%) | |
Postoperative course | ||
Hemorrhage a | 0 (0%) | |
Increase in neurological deficits b | 10 (33.3%) | |
Wound infection | 0 (0%) | |
Epilepsy c | 5 (5.2%) | |
Disease characteristics | ||
Histopathology | ||
Astrocytoma | 16 (53.3%) | |
Oligodendrocytoma | 6 (20%) | |
Oligoastrocytoma | 8 (26.7%) | |
Location of LGG | ||
Frontal | 17 (56.7%) | |
Temporal | 10 (33.3%) | |
Parietal | 2 (6.7%) | |
Subcortical | 1 (3.3%) | |
Lateralization | ||
Left | 21 (70%) | |
Right | 9 (30%) |
HCs | LGG | ||||
---|---|---|---|---|---|
N = 63 | N = 30 | T/Z | p | Cohen’s d | |
Emotion recognition | |||||
FEEST total | 49.5 (4.9) | 46.9 (5.4) | 2.36 | 0.02 a | 0.52 |
Anger | 8.3 (1.5) | 7.6 (1.9) | −2.06 | 0.04 a | 0.43 |
Disgust | 7.8 (1.9) | 7.3 (1.9) | −1.20 | 0.23 | 0.27 |
Fear | 6.7 (2.2) | 6.0 (2.2) | −1.60 | 0.11 | 0.32 |
Happiness | 10.0 (0.2) | 9.9 (0.3) | −0.96 | 0.33 | 0.43 |
Sadness | 7.8 (1.8) | 7.2 (2.2) | −0.91 | 0.37 | 0.31 |
Surprise | 8.9 (1.3) | 8.9 (1.4) | −0.73 | 0.47 | 0 |
T1 | T2 | Z/t | p | |
---|---|---|---|---|
M (SD) N = 26 | M (SD) N = 26 | |||
FEEST total | 47.4 (4.4) | 47.4 (5.6) | 0.00 | 1.00 |
Anger | 7.6 (1.9) | 8.2 (1.5) | −1.59 | 0.11 |
Disgust | 7.3 (1.9) | 7.3 (2.0) | −0.10 | 0.92 |
Fear | 6.1 (2.2) | 5.6 (2.5) | 0.64 | 0.52 |
Happiness | 9.9 (0.3) | 10.0 (0.2) | −1.00 | 0.32 |
Sadness | 7.6 (1.5) | 7.5 (2.1) | −0.25 | 0.81 |
Surprise | 8.9 (1.2) | 8.8 (1.0) | −0.40 | 0.69 |
Raw Score M (SD) | Standardized Score M (SD) | Mean Difference with Normative Group | T | p | |
---|---|---|---|---|---|
Memory | |||||
15WT | 46.4 (9.2) | 44.9 (10.1) | −5.13 | −2.79 | 0.009 a |
Attention and executive functions | |||||
TMT-A | 31.8 (9.7) | 47.3 (8.9) | −2.67 | −1.64 | 0.11 |
TMT-B | 69.2 (30.4) | 49.2 (9.7) | −0.77 | −0.43 | 0.67 |
Language | |||||
Fluency | 23.1 (4.7) | 47.8 (8.3) | −2.20 | −1.46 | 0.16 |
Left M (SD) (N = 21) | Right M (SD) (N = 9) | Z | Cohen’s d | Frontal M (SD) (N = 13) | Non-Frontal M (SD) (N = 17) | Z | Cohen’s d | |
---|---|---|---|---|---|---|---|---|
FEEST | 46.1 (5.3) | 48.7 (5.3) | −1.23 | 0.51 | 47.4 (5.6) | 46.1 (5.1) | −1.07 | 0.25 |
Anger | 7.7 (1.6) | 7.3 (2.4) | −0.09 | 0.22 | 7.8 (1.6) | 7.2 (2.2) | −0.54 | 0.32 |
Disgust | 7.1 (1.8) | 7.9 (2.1) | −1.15 | 0.44 | 7.4 (2.0) | 7.2 (1.9) | −0.19 | 0.11 |
Fear | 5.5 (2.3) | 7.0 (1.7) | −1.69 | 0.72 | 5.9 (2.4) | 6.0 (2.0) | −0.11 | 0.05 |
Happiness | 9.9 (0.3) | 9.9 (0.3) | −0.31 | 0.00 | 9.9 (0.3) | 9.9 (0.3) | −0.36 | 0.00 |
Sadness | 6.9 (2.5) | 8.0 (1.0) | −1.05 | 0.52 | 7.4 (2.0) | 7.1 (2.6) | −0.26 | 0.13 |
Surprise | 9.0 (0.9) | 8.6 (1.6) | −0.40 | 0.26 | 9.0 (1.1) | 8.7 (1.2) | −0.90 | 0.27 |
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Buunk, A.M.; Gerritsen, M.J.J.; Jeltema, H.-R.; Wagemakers, M.; Metzemaekers, J.D.M.; Groen, R.J.M.; Spikman, J.M. Emotion Recognition in Patients with Low-Grade Glioma before and after Surgery. Brain Sci. 2022, 12, 1259. https://doi.org/10.3390/brainsci12091259
Buunk AM, Gerritsen MJJ, Jeltema H-R, Wagemakers M, Metzemaekers JDM, Groen RJM, Spikman JM. Emotion Recognition in Patients with Low-Grade Glioma before and after Surgery. Brain Sciences. 2022; 12(9):1259. https://doi.org/10.3390/brainsci12091259
Chicago/Turabian StyleBuunk, Anne M., Marleen J. J. Gerritsen, Hanne-Rinck Jeltema, Michiel Wagemakers, Jan D. M. Metzemaekers, Rob J. M. Groen, and Jacoba M. Spikman. 2022. "Emotion Recognition in Patients with Low-Grade Glioma before and after Surgery" Brain Sciences 12, no. 9: 1259. https://doi.org/10.3390/brainsci12091259
APA StyleBuunk, A. M., Gerritsen, M. J. J., Jeltema, H. -R., Wagemakers, M., Metzemaekers, J. D. M., Groen, R. J. M., & Spikman, J. M. (2022). Emotion Recognition in Patients with Low-Grade Glioma before and after Surgery. Brain Sciences, 12(9), 1259. https://doi.org/10.3390/brainsci12091259