Familial Patterns and the Origins of Individual Differences in Synaesthesia

Overview

Journal Cognition

Publisher Elsevier

Specialty Psychology

Date 2007 Jun 26

PMID 17586484

Citations 42

Authors

Kylie J Barnett

Ciara Finucane

Julian E Asher

Gary Bargary

Aiden P Corvin

Fiona N Newell

Kevin J Mitchell

Affiliations

Soon will be listed here.

Abstract

The term synaesthesia has been applied to a range of different sensory-perceptual and cognitive experiences, yet how these experiences are related to each other is not well understood. Not only are there disparate types of synaesthesia, but even within types there are vast individual differences in the way that stimuli induce synaesthesia and in the subjective synaesthetic experience. An investigation of the inheritance patterns of different types of synaesthesia is likely to elucidate whether a single underlying mechanism can explain all types. This study is the first to systematically survey all types of synaesthesia within a familial framework. We recruited 53 synaesthetes and 42% of these probands reported a first-degree relative with synaesthesia. We then directly contacted as many first-degree relatives as possible and collected complete data on synaesthetic status for all family members for 17 families. We found that different types of synaesthesia can occur within the same family and that the qualitative nature of the experience can differ between family members. Our findings strongly indicate that various types of synaesthesia are fundamentally related at the genetic level, but that the explicit associations and the individual differences between synaesthetes are influenced by other factors. Synaesthesia thus provides a good model to explore the interplay of all these factors in the development of cognitive traits in general.

Citing Articles

Synesthesia is linked to large and extensive differences in brain structure and function as determined by whole-brain biomarkers derived from the HCP (Human Connectome Project) cortical parcellation approach.

Ward J, Simner J, Simpson I, Rae C, Del Rio M, Eccles J Cereb Cortex. 2024; 34(11).

PMID: 39548352 PMC: 11567774. DOI: 10.1093/cercor/bhae446.

Investigation of the relationship between neuroplasticity and grapheme-color synesthesia.

Eckardt N, Sinke C, Bleich S, Lichtinghagen R, Zedler M Front Neurosci. 2024; 18:1434309.

PMID: 39224579 PMC: 11366591. DOI: 10.3389/fnins.2024.1434309.

Genetic and environmental architecture of synaesthesia and its association with the autism spectrum-a twin study.

Taylor M, van Leeuwen T, Kuja-Halkola R, Lundstrom S, Larsson H, Lichtenstein P Proc Biol Sci. 2023; 290(2009):20231888.

PMID: 37876199 PMC: 10598415. DOI: 10.1098/rspb.2023.1888.

Poerio G, Ueda M, Kondo H Front Psychol. 2022; 13:990565.

PMID: 36248469 PMC: 9558233. DOI: 10.3389/fpsyg.2022.990565.

Sharing the load: How a personally coloured calculator for grapheme-colour synaesthetes can reduce processing costs.

Berger J, Harris I, Whittingham K, Terpening Z, Watson J PLoS One. 2021; 16(9):e0257713.

PMID: 34551015 PMC: 8457480. DOI: 10.1371/journal.pone.0257713.