The role of antipsychotic medication in neurological soft signs

Chiliza and colleaguesReference Chiliza, Asmal, Kilian, Phahladira and Emsley ²⁷ conducted a 12-month longitudinal study with a sample of 84 patients with first-episode schizophrenia to assess predictors of non-response to first-line antipsychotic treatment. Non-responders comprised the 12% of the sample who at baseline had more prominent disorganized symptoms, poorer social and occupational functioning, and more prominent NSS. At the endpoint, non-responders had elevated symptomatology, poorer quality of life, and greater cognitive impairments compared to the rest of the study population. The strongest predictors of non-response were prominent NSS at baseline. On the other hand, the potential role of antipsychotic therapy in NSS prevalence in schizophrenia is not fully clear. Antipsychotic treatment often causes the esmergence of extrapyramidal symptoms and/or tardive dyskinesia that appear to be more prominent with first-generation neuroleptic medication.Reference Peluso, Lewis, Barnes and Jones ^{28 ,} Reference Rummel-Kluge, Komossa and Schwarz ²⁹ These motor symptoms may be either erroneously rated as neurological signs or influence the motor characteristics of NSS. Compton et al.Reference Compton, Fantes, Wan, Johnson and Walker ³⁰ aimed to explore the relationship between tardive dyskinesia and catatonic symptomatology with NSS and symptomatology in 47 patients with the first episode of schizophrenia. Results showed that abnormal movements were associated with age and positive symptoms but there was no relationship with NSS, negative symptom severity, or neurocognition. On the other hand, Peralta and colleaguesReference Peralta, Moreno-Izco, Sanchez-Torres, García de Jalón, Campos and Cuesta ³¹ found that motor coordination was significantly correlated to parkinsonism, dyskinesia, and catatonia but not akathisia. Motor sequencing was associated with parkinsonism and dyskinesia and release signs were related to parkinsonism only. Sensory integration did not correlate to any spontaneous movement disorder. Deficit disorder was independently related to motor sequencing, release signs, and parkinsonism. Emsley and colleaguesReference Emsley, Turner, Oosthuizen and Carr ³² found that motor sequencing was a strong predictor of persistent dyskinesia at 24 months. Methodological differences in examining NSS may account for any inconsistency in research findings. Whether NSS, extrapyramidal symptoms, and tardive dyskinesia are distinct dimensions of schizophrenia or related ones, may depend on several factors, such as the role of striatal dopamine D2 receptorReference Corripio, Ferreira and Portella ³³or shared underlying neurobiological mechanisms. According to the evidence so far, NSS are independent of antipsychotic treatment and therefore constitute a trait symptom, independent of the illness stage and medication.Reference Bachmann and Schroder ^{9 ,} Reference Fountoulakis, Panagiotidis, Kimiskidis and Nimatoudis ^{34 -}Reference Chen, Hui and Chan ³⁷ Finally, better-designed studies that include test–retest measures conducted with antipsychotic-naive patients or patients treated with second-generation neuroleptics, are needed.

Imaging studies

Early back in 1998, Andreasen and colleagues,Reference Andreasen, Paradiso and O’Leary ³⁸ proposed that a scattered disturbance in the cortico-cerebellar-thalamic-cortical circuit, seen in patients with schizophrenia, could explain the diversity of schizophrenic symptoms and the existence of NSS. Neurological signs have long been considered soft because of the absence of specific localized brain regions. Zhao and colleagues,Reference Zhao, Li, Huang and Yan ¹⁵ conducted a meta-analysis of 53 brain imaging studies to examine that hypothesis. Data revealed that NSS were associated with atrophy of the precentral gyrus, the cerebellum, the inferior frontal gyrus, and the thalamus. The findings provided further support for the “cerebello-thalamo-prefrontal” brain network model of schizophrenia and related psychotic disorders. However, to date, is not yet fully understood how NSS, map exactly on the cerebral motor circuit and how they might relate to other movement disorders seen in schizophrenia, since only a limited set of neuroimaging results exists.Reference Walther ³⁹ The neuronal correlates of movement sequencing were investigated in 24 healthy controls and 24 schizophrenia patients using psychophysiological interaction (PPI) and the Granger causality modeling (GCM).Reference Zemankova, Lungu and Huttlova ⁴⁰ Results showed that movement sequencing in schizophrenia is related to aberrant frontoparietal network connectivity with cortical inhibition deficit and abnormal reliance on previous network activity. NSS were examined using the Heidelberg Scale during a whole brain high-resolution magnetic resonance imaging at 3 Tesla in 28 patients with recent-onset schizophrenia. Data showed that cortical thickness changes were associated with higher scores in NSS. Hirjak and colleaguesReference Chan, Geng and Lui ⁴¹ investigated the cerebellar correlates of NSS using the Spatially Unbiased Infratentorial (SUIT) toolbox and found that schizophrenia patients when compared to healthy controls differed in cerebellar volumes. Participants with schizophrenia exhibited significantly smaller cerebellar volumes in both hemispheres than controls, and NSS were associated with white matter but not with grey matter. Another study,Reference Viher, Stegmayer and Bracht ⁶ showed a statistically significant association of NSS with changes in the white matter of important motor pathways. According to a new systematic reviewReference Samson, Lahti and Kraguljac ⁷ somatomotor and somatosensory regions, spatial orientation, and visual processing areas, cerebellum, and basal ganglia are implicated as possible structural substrates of NSS.

Neurological soft signs and symptomatology

Several studies have examined the relationship between NSS and schizophrenia positive, negative symptoms, and deficit syndrome; however, results have been so far ambiguous. Chan and colleaguesReference Hembram, Simlai, Chaudhury and Biswas ⁴² recruited 145 first-episode schizophrenia patients of whom 29 were diagnosed with prominent negative symptoms and followed the course of NSS over a period of 1 year. Results showed that patients with prominent negative symptoms exhibited significantly more NSS than patients without negative symptoms. However, the authors pointed out that the number of patients with persistent negative symptoms was so small that it was not feasible to make any meaningful statistical comparisons and interpretations. Hembram et al.Reference Albayrak, Akyol, Beyazyüz, Baykal and Kuloglu ⁴³ compared the NSS in 60 schizophrenia patients with and without first-rank symptoms (ie voices commenting and/or arguing, delusional perception, thought withdrawal, and made volition), 30 first-degree relatives, and 30 normal controls, matched for age, education, and handedness. Data analysis showed that first-degree relatives had significantly lower scores of NSS than schizophrenia patients, and NSS were highly correlated with negative but not with positive symptoms. The authors claimed their results provide further support for the theory that NSS as a trait marker of schizophrenia particularly in those without prominent positive symptoms. Albayrak and colleaguesReference Pieters, Nadesalingam, Walther and van Harten ⁴⁴ recruited 24 patients with deficit disorder (ie primary and enduring negative symptoms), 42 individuals without deficit syndrome, and 30 healthy controls to examine the prevalence of NSS. The authors found that NSS were more prominent in the deficit group suggesting that they may represent a candidate as an endophenotype for schizophrenia. Similarly, Peralta and colleaguesReference Peralta, Moreno-Izco, Sanchez-Torres, García de Jalón, Campos and Cuesta ³¹ examined the relationship between NSS, spontaneous movement disorders, and symptoms in 20 drug-naïve patients with deficit disorder who were compared to 82 schizophrenia patients without deficit symptoms. Results showed that patients with deficit syndrome revealed higher scores of neurological soft symptoms relative to the non-deficit group. A recent systematic reviewReference Chan, Wang and Wang ⁴⁵ revealed that patients with a higher burden of NSS, dyskinesias, or parkinsonism experienced poorer long-term functional outcomes.

Neurocognition and neurological soft signs

Neurocognitive symptoms (ie attention and information processing, processing speed, reasoning and problem-solving, social cognition, working memory, verbal and visual learning, and memory) have been moderately related to NSS suggesting that neurocognitive deficits may contribute to the construct of NSSReference Solanki, Swami and Singh ⁴⁶ Indeed, Solanki et al.Reference Chan, Dai and Lui ⁴⁷ found that the motor domain of NSS had a negative influence on working memory. Later studies have found stronger associations between neurocognition and NSS. Chan and colleaguesReference Feng, Wang, Lin and Qian ⁴⁸ examined different domains of neurological signs in 157 patients with first-episode schizophrenia and their relationships with neurocognitive functions at baseline and at 6 months. Data showed a stable relationship between neurological signs and neurocognitive deficits over time pointing at potential causal dependencies as the measurement and structure of these relationships appeared to be stable over time. Some years later Feng and colleaguesReference Neelam, Garg and Marshall ⁴⁹ correlated neurocognitive deficits in attention, speed of information processing, and social cognition with sensory integration in patients with schizophrenia and unaffected first-degree relatives, suggesting them as possible endophenotypes.

Neurological soft signs in schizophrenia: a possible endophenotype?

NSS have been proposed as an endophenotype candidate for schizophrenia. The criteria established for candidate endophenotypes are: association with illness in the population (higher prevalence rates of NSS in people with schizophrenia compared to the general population); heritability (how much can be attributed to the genetic variation), state independence (stability across the different stages of the illness), familial association (found in unaffected relatives at a higher rate than in the general population), co-segregation within families (occurs more frequently among the ill relatives of schizophrenia patients compared to healthy relatives).Reference Xu, Wang and Li ⁵⁰

Xu and colleaguesReference Chen, Tsai and Lin ⁵¹ investigated the heritability and familiality of NSS in 267 pairs of monozygotic twins, 124 pairs of dizygotic twins, and 75 pairs of patients with schizophrenia and their non-psychotic first-degree relatives. Data showed significant heritability and familiarity of NSS. In another studyReference Tripathi, Soni, Tyagi, Mehta and Gupta ⁵² which included 262 patients with schizophrenia, 243 healthy controls and 177 healthy first-degree relatives, NSS were more prominent in first-degree relatives than controls and also in patients with early onset schizophrenia than in those with age of onset after 20 years. Chan and colleaguesReference Hembram, Simlai, Chaudhury and Biswas ⁴² investigated the effect size of NSS in 738 schizophrenia patients,155 unaffected first-degree relatives of schizophrenia patients, 256 individuals with schizotypal personality disorder (n = 256), 379 patients with other psychiatric disorders, and 1577 healthy individuals. Individuals along the schizophrenia continuum showed higher scores of NSS, compared to other psychiatric patients who had minimal NSS, as well as matched healthy controls. Tripathi et al.Reference Ojagbemi, Esan, Emsley and Gureje ⁵³ compared the prevalence of NSS in 45 patients with schizophrenia, 45 patients with obsessive-compulsive disorder, and 45 matched healthy controls. Data showed that NSS, both as a total score and with individual domains, were significantly higher in the schizophrenia group compared to the other two. Ojagbemi and colleaguesReference Chan, Xu, Heinrichs, Yu and Gong ⁵⁴ conducted a longitudinal study to observe the prevalence of NSS in 84 first-episode patients at baseline, 3 months, and 12 months. Findings showed first that NSS were present in 96.4% of the sample and that from all NSS domains only motor sequencing was found stable across the course of the disease. The authors suggested that motor sequencing appeared to be a trait marker for schizophrenia. In their data, other NSS domains seemed to be associated with the symptomatic stages of schizophrenia. Neelam et al.Reference Xu, Wang and Li ⁵⁰ found a familial association in relation to the presence of NSS between schizophrenia patients and their first-degree relatives than controls; however, the prevalence of NSS was higher in the schizophrenia patients. Chan and colleaguesReference Chan, Wang and Zhao ⁵⁵ conducted a meta-analysis to determine the magnitude of difference in prevalence rates of NSS between two groups: first-degree non-psychotic relatives of schizophrenia patients and healthy controls and schizophrenia patients and their non-psychotic relatives. Findings showed that NSS was more prominent in individuals with schizophrenia and their relatives than controls. In another study, Chan et al.Reference Mechri, Gassab, Slama, Gaha, Saoud and Krebs ⁵⁶ examined the prevalence of NSS in 64 individuals with schizotypal traits and compared them to 51 controls. The authors found that individuals with schizotypal proneness personality demonstrated a significantly higher prevalence of soft signs than those without. Mechri and colleaguesReference Mechri, Gassab, Slama, Gaha, Saoud and Krebs ⁵⁷ examined the prevalence of NSS of 31 unaffected siblings of individuals with schizophrenia and 60 healthy controls matched according to age, gender, and school level. NSS were more prevalent in unaffected siblings than in controls, and motor coordination and integration abnormalities were found more prevalent in siblings with schizotypal dimensions. These results imply that NSS may be a trait characteristic, in line with the neurodevelopmental hypothesis.Reference Bachmann and Schroder ^{9 ,Reference Tripathi, Soni, Tyagi, Mehta and Gupta52}