Thalamocortical dysrhythmia (TCD) is a theoretical framework in which neuroscientists try to explain the positive and negative symptoms induced by neuropsychiatric disorders like Parkinson's Disease, neurogenic pain, tinnitus, visual snow syndrome, schizophrenia, obsessive–compulsive disorder, depressive disorder and epilepsy.
In TCD, normal thalamocortical resonance is disrupted by changes in the behaviour of neurons in the thalamus.
TCD can be treated with neurosurgical methods like the central lateral thalamotomy, which due to its invasiveness is only used on patients that have proven resistant to conventional therapies.
Background
editAt the base of the theory lies diminished excitatory or increased inhibitory input at the thalamic level. This leads to a switch of the thalamocortical neurons from tonic to burst firing and subsequently entrains thalamic and cortical areas with pathological oscillations at around 5 Hz.[1]
Evidence
editEvidence for TCD comes from magnetoencephalography (MEG), and electroencephalography (EEG) recordings on the scalp as well as local field potential (LFP) recordings in the patients' thalamus during surgery. Analysing the power spectra reveals increased coherence as well as increased bicoherence in the power spectra in the theta band compared to healthy controls. This indicates a close coupling of cortex and thalamus in the generation of the pathological theta rhythmicity.[citation needed]
The thalamic loss of input or gated activity allows the frequency of the thalamo-cortical column to slow into the theta or delta band, and this defeats the lateral inhibition, so faster Gamma band activity appears surrounding the area of slower alpha seen in the theta band, with the theta associated with negative symptoms and the Gamma for positive symptoms. This is documented in Tinnitus (phantom sound) and phantom pain, as well as Parkinsonism and recently even in depression (see current work by Dirk DeRidder, MD, PhD). The thalamocoherence was identified by machine learning, with significant differentiation of each of these clinical entities from normal by the presence of the dysrhythmia, and with the specific disorder differentiated by the spatial/topographic networks involved.[2] It was also proposed that psychotic disorders present in Parkinson disease‐dementia with Lewy bodies depend on thalamic abnormal rhythms.[3]
Therapy
editWhile it is not clear how this happens in detail, surgical intervention by means of lesioning small parts of the central lateral thalamic areas has proven successful as a therapy for Parkinson's Disease as well as neurogenic pain.[citation needed]
Neurofeedback, where the brain is trained to emphasise and de-emphasise brain wave frequencies, amplitudes and coherence can be an effective noninvasive therapy.[citation needed]
References
edit- ^ Llinás, R.; Ribary, U.; Jeanmonod, D.; Cancro, R.; Kronberg, E.; Schulman, J.; Zonenshayn, M.; Magnin, M.; Morel, A.; Siegmund, M. (November 2001). "Thalamocortical dysrhythmia I. Functional and imaging aspects". Thalamus and Related Systems. 1 (3): 237. doi:10.1017/S1472928801000231.
- ^ Vanneste S, Song JJ, De Ridder D (March 2018). "Thalamocortical dysrhythmia detected by machine learning". Nature Communications. 9 (1): 1103. Bibcode:2018NatCo...9.1103V. doi:10.1038/s41467-018-02820-0. PMC 5856824. PMID 29549239.
- ^ Onofrj M, Espay AJ, Bonanni L, Delli Pizzi S, Sensi SL (August 2019). "Hallucinations, somatic-functional disorders of PD-DLB as expressions of thalamic dysfunction". Movement Disorders. 34 (8): 1100–1111. doi:10.1002/mds.27781. PMC 6707070. PMID 31307115.
Further reading
edit- Llinás RR, Ribary U, Jeanmonod D, Kronberg E, Mitra PP (December 1999). "Thalamocortical dysrhythmia: A neurological and neuropsychiatric syndrome characterized by magnetoencephalography". Proceedings of the National Academy of Sciences of the United States of America. 96 (26): 15222–7. Bibcode:1999PNAS...9615222L. doi:10.1073/pnas.96.26.15222. PMC 24801. PMID 10611366.