Cervical dystonia: about familial and sporadic cases in 88
          patients

Camargo, Carlos Henrique F.; Camargos, Sarah Teixeira; Becker, Nilson; Munhoz, Renato Puppi; Raskin, Salmo; Cardoso, Francisco Eduardo C.; Teive, Hélio Afonso G.

doi:10.1590/0004-282X20130225

Abstracts

Cervical dystonia (CD) affects the musculature of the neck in a focal way or associated to other parts of the body. The aim of this study was to identify clinical differences between patients with dystonia patients without family history and with family history (sporadic). Eighty-eight patients with CD were recruited in a Movement Disorders Clinic between June of 2008 and June of 2009. Only patients with no etiological diagnosis were accepted for analysis. The age of onset of symptoms was later in patients with focal and segmental dystonia than in patients with generalized dystonia (p<0.001). The severity of symptoms was higher in patients with sporadic dystonia than in familial patients (p<0.01). Generalized cases were more severe in patients with a family history (p<0.01). Sporadic patients had higher levels of pain than familial cases (p<0.05). We expect soon to present the results of genetic analyzes of these patients.

dystonia; cervical dystonia; DYT1; DYT6; genetic

A distonia cervical (CD) afeta a musculatura do pescoço de modo focal ou em combinação com outras partes do corpo. O objetivo deste estudo foi identificar diferenças clínicas entre pacientes com distonia com história familiar e pacientes sem história familiar (esporádicos). Foram selecionados 88 pacientes com DC no Setor de Distúrbios do Movimento entre julho de 2008 e junho de 2009. Somente os pacientes sem diagnóstico etiológico foram admitidos para análise. A idade de início dos sintomas foi mais tardia em pacientes com distonia focal e segmentar do que em pacientes com distonia generalizada (p<0,001). A gravidade dos sintomas foi maior em pacientes com distonia focal esporádicos do que naqueles com história familiar (p<0,01). Os casos generalizados foram mais graves nos pacientes com história familiar (p<0,01). Pacientes esporádicos tiveram níveis maiores de dor em relação aos casos familiares (p<0,05). Esperamos apresentar em breve resultados de análises genéticas desses pacientes.

distonia; distonia cervical; DYT1; DYT6; genética

The definition of dystonia was recently revisited. Currently, dystonia is a movement disorder characterized by sustained or intermittent muscle contractions causing abnormal, often repetitive, movements, postures, or both. Dystonic movements are typically patterned, twisting, and may be tremulous. Dystonia is often initiated or worsened by voluntary action and associated with overflow muscle activation ¹1 . Albanese A, Bhatia K, Bressman SB, et al, Phenomenology and classification of dystonia: a consensus update. Mov Disord 2013;28:863-873. . Most voluntary muscles can be affected and, in the case of the neck muscles, the condition is referred to as cervical dystonia (CD), the most common form of dystonia. The term spasmodic torticollis was previously used for this movement, but it does not stress the dystonic nature of the disease. CD can affect the musculature of the neck in a focal way or associated to other parts of the body ²2 . Tsui JK. Cervical dystonia. In: Tsui JK, Calne D (Eds). Handbook of distonia. New York: Marcel Dekker, Inc 1995:115-127. .

Over the past 20 years, several loci ( DYT1 to DYT25 ) have been mapped in families with pure forms of dystonia, families with dystonia plus other movement disorders, or in sporadic cases of dystonia. The most different kinds of inheritance can be observed (autosomal dominant, autosomal recessive, and X-linked). However, only some genes for isolated (primary or pure) forms of dystonia were descripted until today ³3 . Lohmann K, Klein C. Genetics of dystonia: what’s known? What’s new? What’s next? Mov Disord 2013;28:899-905. . Recently, CIZ1 ( DYT23 ), ANO-3 ( DYT24 ) and GNAL ( DYT25 ) genes were associated to families with CD ⁴4 . Xiao J, Uitti RJ, Zhao Y, et al. Mutations in CIZ1 cause adult onset primary cervical dystonia. Ann Neurol 2012;71:458-469. ^, ⁵5 . Charlesworth G, Plagnol V, Holmström KM, et al. Mutations in ANO3 cause dominant craniocervical dystonia: ion channel implicated in pathogenesis. Am J Hum Genet 2012;91:1041-1050. ^, ⁶6 . Fuchs T, Saunders-Pullman R, Masuho I, et al. Mutations in GNAL cause primary torsion dystonia. Nat Genet 2013;45:88-92. . Before that, only TOR1-A ( DYT1 ) and THAP1 ( DYT6 ) genes were linked to isolated dystonia. Both are inherited as autosomal dominant traits, with reduced penetrance, and onset of clinical features commonly occurs during childhood or adolescence ⁷7 . Ozelius LJ, Hewett JW, Page CE, et al. The early-onset torsion dystonia gene (DYT1) encodes an ATP-binding protein. Nat Genet 1997;17:40-48.

8 . Saunders-Pullman R, Raymond D, Senthil G, et al. Narrowing the DYT6 dystonia region and evidence for locus heterogeneity in the Amish-Mennonites. Am J Med Genet A 2007;143:2098-2105. ^- ⁹9 . Fuchs T, Gavarini S, Saunders-Pullman R, et al. Mutations in the THAP1 gene are responsible for DYT6 primary torsion dystonia. Nat Genet 2009;41:286-288. .

Although these several loci and some genes were descripted in the last years, the presence of mutations in these genes in cohorts of patients with dystonia is low. For example, the presence of THAP1 mutations in families with earlier “primary” dystonia is about 25% ¹⁰10 . Bressman SB, Raymond D, Fuchs T, Heiman GA, Ozelius LJ, Saunders-Pullman R. Mutations in THAP1 (DYT6) in early-onset dystonia: a genetic screening study. Lancet Neurol 2009;8:441-446. . Regardless the monogenic inheritance, familial cases have lower mean age at disease onset than sporadic patients. Spread of dystonia to at least a second body site occurs more frequently in familial cases than in sporadic. The spread of symptoms is directly related to the duration of illness either in sporadic or in familial cases, however, in sporadic cases the most relevant spread occurs during the first 10 years; in familial patients, instead, progressive spread of dystonia occurs throughout the disease course ¹¹11 . Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088. .

To identify clinical differences among familial and sporadic cases of CD, we submitted patients at an evaluation in a Brazilian center for movement disorders.

METHOD

Standard protocol approvals, registrations, and patient consents.

All patients gave informed consent, and ethics approval was obtained from the medical joint and ethics committee at Federal University of Parana (UFPR) to perform this clinical and genetic study (CEP-UFPR ethical approval 1676.093/2008-06).

Subjects selection and clinical assessment

Subjects with CD who attended the Botulinum Toxin and Movement Disorders Outpatient Unit in the Neurology Service, Clínicas Hospital , UFPR, from June 2008 to June 2009, were selected for the study. Clinical diagnoses were made by means of history and examination by two neurologists. The patients were then assessed to identify clinical characteristics, an association with other movement disorders and neurological diseases, epidemiological data, the time during which the disease had evolved, a history of trauma, the use of medicines, signs and symptoms that might indicate a secondary cause and a family history of dystonia or other movement disorders. All the patients were submitted to brain computed tomography and cervical-spine radiography. Additional tests included complete blood count (CBC), TSH, VDRL, blood glucose test, ESR, electrolyte levels and liver and kidney function in all the patients. Computed tomography and magnetic resonance imaging of the cervical spine, magnetic resonance imaging of the brain and other laboratory tests were requested according to the clinical assessment of each patient. The inclusion criterion was: (1) the presence of CD without an established cause (a “primary” or a idiopathic dystonia). The exclusion criteria were: (1) presence of a cause for the CD (2) refusal to submit to diagnostic investigation; (3) inability to attend reassessment; and (4) failure to sign the informed consent form. CD was classified in accordance with established schemes ¹1 . Albanese A, Bhatia K, Bressman SB, et al, Phenomenology and classification of dystonia: a consensus update. Mov Disord 2013;28:863-873. ^, ¹²12 . Fahn S, Bressman SB, Marsden CD. Classification of dystonia. Adv Neurol 1998;78:1-10. . The patients were assessed on admission to compare severity, disability and pain using the Toronto Western Spasmodic Torticollis Rating Scale (TWSTRS) and visual analog pain scale (0=absence of pain, 1-3=mild pain, 4-6=moderate pain, 7-9=strong pain, 10=disabling pain).

Statistics

The distribution pattern for all the data was tested (normal or non-normal). The statistical differences between the means of the groups were measured using the one-tailed Student t-test for normal distributions and the Mann-Whitney test for non-normal distributions. For the differences between the expected values and the values actually found, the Fisher exact test was used. The results are given as mean ± SD (standard deviation). The differences were considered significant if p<0.05.

RESULTS

A total of 88 patients with CD were included, 56 were women and 32 men, a 1.75:1 ratio. Patients with familial history were called familial cases and those without familial history, sporadic cases. There were 16 families with 23 (26.74%) patients ( Table 1 ).

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Table 1
. Families with cervical dystonia.

Among the patients, 36 (40.91%) had focal CD. Other 22 (25%) patients had segmental dystonia, 6 (28.57%) with cranial-cervical dystonia, 13 (59.1%) with arms-cervical dystonia, 3 (13.67%) with arm-cranial-cervical dystonia, and one with laryngeal-cranial-cervical dystonia. Two (2.28%) patients with multifocal dystonia had abnormal movement in their left leg. A generalized dystonia was observed in 28 (31.81%) patients.

The mean age at onset of the group was 30.47±21.16 years old (range, 5 months to 72 years old). The mean age at onset of focal dystonia (41.05±16.87), and segmental dystonia patients (35.55±24.13), was higher than the generalized dystonia group, 12.36±9.10 (p<0.001). The incidence of generalized dystonia decreases, progressively, from the first decade to the fifth of life. In the seventh and eighth decades of life, there was only the onset of focal and segmental dystonia ( Figure 1 ). The gender did not affect the onset of symptoms. The mean of onset in men was 28.01±21.66 years old, and in women was 32.28±20.42 years old (p=0.175).

Figure 1
. Incidence of cervical dystonia.

The main differences between sporadic and familial cases are in Table 2 . The mean age at onset of dystonia in sporadic cases was 32.37±21.09 years old, and 24.78±20.48 years old in familial cases. Although there has not been any statistic difference, cases of generalized dystonia seen in the familial group were higher than in the sporadic group.

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Table 2
. Differences between sporadic cases and familial cases of cervical dystonia

There was no difference, between familial and sporadic cases, related to the localization and the spreading of the dystonia. There was also no difference about the site of onset of symptoms among the patients with generalized dystonia (caudal or rostral, limbs or cranial-cervical) even in familial or sporadic cases (p=0.643 to p=1) ( Table 3 ).

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Table 4
. Patients with cervical dystonia divided by clinical presentation.

Regarding clinical presentations of CD (torticollis, laterocollis, retrocollis and anterocollis), one form was presented in 46 (52.27%) patients, two forms in 36 (40.9%) patients and three in 4 (4.54%). Among patients with generalized dystonia, 19 (67.86%) presented more than one form of dystonia. The most of patients with one form was found in a group with focal dystonia, 25 (65.8%) patients. The torticollis was the most common CD presentation, in 64 (72.73%) patients. The laterocollis was observed in 42 (47.73%) patients. The 17 (19.32%) patients with retrocollis, and the 11 (12.5%) patients with anterocollis were found mixed with other forms, no isolated cases were observed. The most common one presented was torticollis plus laterocollis ( Table 4 ).

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Table 3
. Site of onset of generalized dystonia (sporadic cases X familial cases).

The severity caused by motor neck features, measured for TWSTRS scale, was higher in sporadic cases with focal dystonia (16.06±4.21) than in familial cases with focal dystonia (11.66±7.56) (p=0.03, Figure 2 ). There was no difference in severity between CD focal and CD segmental (p=0.13), and between CD segmental and CD generalized (p=0.19). When the same tool was used, patients with three or two forms of CD presented more severity than patients with one form of dystonia (p<0.001). The generalized cases had more severity than focal cases (p<0.05), mainly in familial patients (p<0.01).

Figure 2
. Differences of severity (TWSTRS) in cervical dystonia among patients with several clinical presentations.

Pain in neck area was related by 53 (60.23%) patients. 26 (49.06%) related a strong or a disability pain. The jerks and spasms, in 13 (14.77%) patients, were an aggravating factor to pain (p<0.001). The sporadic patients had higher pain levels than familial patients (p<0.05). There was more complaint of pain among patients with focal CD than patients with generalized CD (p<0.05). The familial patients with focal CD related less pain than the sporadic patients with focal CD ( Figure 3 ). There was more intensity of the pain in patients with two and three cervical movements than patients with one movement (p<0.05).

Figure 3
. Differences of pain level (VAS) in cervical dystonia among patients with several clinical presentations.

Tremor (head tremor and arms postural tremor) was observed in 32 (36.37%) patients. Three patients, one with generalized and two with segmental dystonia presented parkinsonism. The patients with segmental dystonia were familial cases and started the features at 64 and 70 years old. The sporadic case started the symptoms at 17 years old by neck area with generalization in two years. No levodopa response was observed in these patients. Other four patients, two with segmental and two with generalized dystonia, had myoclonus. The mean age of onset was 15.5±5.07 (range, 12 to 23 years), without familial history or other movement disorders. A partial response with alcohol was achieved in two patients. A familial history of movement disorder (tremor, dystonia or parkinsonism) was related to 26 (29.55%) patients.

DISCUSSION

The total number of patients with familial history of movement disorders (29.55%, 26.14% with familial history of dystonia) was below the 44% found by Jankovic et al. ¹³13 . Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091. , probably due to the difficulty of the majority of patients to access their relatives, due to social and economic level conditions, and the presence of unusual ethnic-related genetic transmission of dystonia in our region.

The relationship of some ethnic groups with specific types of dystonia is known. The DYT 3 dystonia is a movement disorder of adult men from the Philippines. Dystonia DYT 3 has only been diagnosed in the Philippines ¹⁴14 . Lee LV, Munoz EL, Tan KT, Reyes MT. Sex linked recessive dystonia parkinsonism of Panay, Philippines (XDP). Mol Pathol 2001;54:362-368. . The frequency of dystonia is estimated at 1/9000 in the Ashkenazi Jewish population ¹⁵15 . Risch N, de Leon D, Ozelius L, et al. Genetic analysis of idiopathic torsion dystonia in Ashkenazi Jews and their recent descent from a small founder population. Nat Genet 1995;9:152-159. . Among other ethnic groups the prevalence is likely to be below, about 1/10000 to 1/30000, but has not been defined yet ¹⁶16 . Frédéric M, Lucarz E, Monino C, et al. First determination of the incidence of the unique TOR1A gene mutation, c.907delGAG, in a Mediterranean population. Mov Disord 2007;22:884-888. . The DYT6 gene was described in a study of three Amish-Mennonite families. The DYT 6 dystonia was initially associated with individuals of this ethnic group ⁹9 . Fuchs T, Gavarini S, Saunders-Pullman R, et al. Mutations in the THAP1 gene are responsible for DYT6 primary torsion dystonia. Nat Genet 2009;41:286-288. . In 1880, the first Ashkenazi Jewish immigrants arrived in our region, mostly originating from Austrian Galicia. With the First and Second World War, new waves of Jewish immigrants arrived in Paraná ¹⁷17 . Gouvêia RR. Comunidade judaica de Curitiba, 1889-1970. Dissertação de Mestrado. Curitiba: PPGH/CNPq/Departamento de História da UFPR, 1980. . The Mennonites formed an important wave of migration from Europe to the South of Brazil in XX century. Despite this fact, we cannot, by clinical history, establish a relationship of ancestry from any of the 88 patients evaluated with these ethnic groups.

In agreement with previous studies, we found a predominance of CD in whites and females (1:1.75) ¹³13 . Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091. ^, ¹⁸18 . Soland VL, Bhatia KP, Marsden CD. Sex prevalence of focal dystonias. J Neurol Neurosurg Psychiatry 1996;60:204-205.

19 . Almasy L, Bressman SB, Raymond D, et al. Idiopathic torsion dystonia linked to chromosome 8 in two Mennonite families. Ann Neurol 1997;42:670-673.

20 . Camargo CH, Teive HA, Becker N, Baran MH, Scola RH, Werneck LC. Cervical dystonia: clinical and therapeutic features in 85 patients. Arq Neuropsiquiatr 2008;66:15-21. ^- ²¹21 . Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126. . There was an earlier onset of symptoms in men than in women at a mean of 5.18 years. Although statistical significance was not observed, these values were representative and higher than the difference of 2.2 years observed by Soland et al ¹⁸18 . Soland VL, Bhatia KP, Marsden CD. Sex prevalence of focal dystonias. J Neurol Neurosurg Psychiatry 1996;60:204-205. .

The onset of symptoms occurred mainly between the fourth and the sixth decades of life (61.2 %) as demonstrated previously ¹³13 . Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091. ^, ²¹21 . Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126. . There was a tendency of earlier onset when there was a family history, particularly in focal dystonias, however, this finding was not confirmed statistically significant. Previous studies also pointed to an earlier onset of familial cases than sporadic cases ¹¹11 . Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088. . Regardless family history, the generalized form started earlier, and focal and segmental forms later. In our study, patients started generalized dystonia mainly in childhood and adolescence, according previous studies ¹¹11 . Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088. ^, ¹³13 . Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091. ^, ²¹21 . Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126. .

There is a rule in the study of dystonias. The ones which begin in early childhood tend to start in lower limbs and spread to the rest of the body, while the dystonia starting in adults usually begins in the upper half of the body and tend to remain focal ²²22 . Weiss EM, Hershey T, Karimi M, et al. Relative risk of spread of symptoms among the focal onset primary dystonias. Mov Disord 2006;21:1175-1181. . With increasing age, there is a caudal-rostral pattern of the site of onset in the following order: lower limb dystonia, writer’s cramp, CD, spasmodic dysphonia, and blepharospasm/oromandibular dystonia ²³23 . O’Riordan S, Raymond D, Lynch T, et al. Age at onset as a factor in determining the phenotype of primary torsion dystonia. Neurology 2004;63:1423-1426. . A study comparing the natural history of dystonia between sporadic and familial cases showed that the spread of symptoms to other sites could occur in both groups over time. However, a progression after five, 10, 15, 20 or 25 years were more pronounced in cases with familial history of dystonia ¹¹11 . Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088. . We observed a higher number of patients with generalized dystonia in familial patients and a significant number of patients with higher focal dystonia in sporadic group. These data confirm a higher tendency of earlier onset with faster spreading of dystonia in familial patients than sporadic patients ¹¹11 . Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088. ^, ²³23 . O’Riordan S, Raymond D, Lynch T, et al. Age at onset as a factor in determining the phenotype of primary torsion dystonia. Neurology 2004;63:1423-1426. .

The patients in our study who developed generalized dystonia began the symptoms in similar proportion by the limbs or the cranial-cervical region. There was not, unlike the previously published studies, a tendency of the familial generalized cases of starting their symptoms by legs ¹¹11 . Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088. ^, ²³23 . O’Riordan S, Raymond D, Lynch T, et al. Age at onset as a factor in determining the phenotype of primary torsion dystonia. Neurology 2004;63:1423-1426. . According to previous studies, DYT 1 dystonia has focal onset in the limbs, predominantly in the lower limbs, with subsequent generalization in childhood ⁷7 . Ozelius LJ, Hewett JW, Page CE, et al. The early-onset torsion dystonia gene (DYT1) encodes an ATP-binding protein. Nat Genet 1997;17:40-48. ^, ²³23 . O’Riordan S, Raymond D, Lynch T, et al. Age at onset as a factor in determining the phenotype of primary torsion dystonia. Neurology 2004;63:1423-1426. . DYT 3 dystonia has focal onset with secondary generalization in 2-5 years ¹⁴14 . Lee LV, Munoz EL, Tan KT, Reyes MT. Sex linked recessive dystonia parkinsonism of Panay, Philippines (XDP). Mol Pathol 2001;54:362-368. . DYT 5 dystonia, or dopa-responsive dystonia, is a generalized dystonia, with onset in the lower limbs, typically in childhood. In DYT 7 and DYT 13 dystonia, the onset is later, and dystonia remains a focal form. When DYT 13 dystonia occurs in childhood, there is a greater tendency to generalize ²⁴24 . Bentivoglio AR, Del Grosso N, Albanese A, Cassetta E, Tonali P, Frontali M. Non-DYT1 dystonia in a large Italian family. J Neurol Neurosurg Psychiatry 1997;62:357-360. ^, ²⁵25 . Bentivoglio AR, Ialongo T, Contarino MF, Valente EM, Albanese A. Phenotypic characterization of DYT13 primary torsion dystonia. Mov Disord 2004;19:200-206. . Although the main presentation of DYT 6 dystonia is the onset in upper limbs in childhood spraying toward generalization, it may occur in the focal or segmental forms, having its onset in cranial-cervical region, and even occurring without a familial history ¹⁰10 . Bressman SB, Raymond D, Fuchs T, Heiman GA, Ozelius LJ, Saunders-Pullman R. Mutations in THAP1 (DYT6) in early-onset dystonia: a genetic screening study. Lancet Neurol 2009;8:441-446. .

The most common presentation of CD was torticollis, followed by laterocollis, as demonstrated in previous studies ¹³13 . Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091. ^, ²⁰20 . Camargo CH, Teive HA, Becker N, Baran MH, Scola RH, Werneck LC. Cervical dystonia: clinical and therapeutic features in 85 patients. Arq Neuropsiquiatr 2008;66:15-21. ^, ²¹21 . Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126. . The presence of retrocollis was less common than the one reported in other series. In our study, patients with tardive dystonia were excluded. The retrocollis and involvement of other regions of the body in CD patients are more prevalent in patients with tardive dystonia. Torticollis and laterocollis, head tremor, geste antagoniste , and familial history are more common in dystonia “primary” ²⁶26 . Molho ES, Feustel PJ, Factor SA. Clinical comparison of tardive and idiopathic cervical dystonia. Mov Disord 1998;13:486-489. . In previous study presented by our group, including patients with multiple etiologies (8.25% of cases secondary to the use of neuroleptics), the presence of retrocollis was higher (37.6%) ²⁰20 . Camargo CH, Teive HA, Becker N, Baran MH, Scola RH, Werneck LC. Cervical dystonia: clinical and therapeutic features in 85 patients. Arq Neuropsiquiatr 2008;66:15-21. .

Patients with two or three types of dystonic movements had severity and pain scores higher than those shown by patients with a single presentation. Generalized dystonia, with the majority of patients with more than one presentation, showed higher degrees of severity. Therefore, we reaffirm that a higher number of dystonic movements and extra-cervical sites of dystonia are factors of worsening to CD ²⁰20 . Camargo CH, Teive HA, Becker N, Baran MH, Scola RH, Werneck LC. Cervical dystonia: clinical and therapeutic features in 85 patients. Arq Neuropsiquiatr 2008;66:15-21. . Another important observed datum is when familial patients remain with CD in focal form, tending to have milder features than sporadic patients.

This tendency was repeated when the neck pain was evaluated. The familial patients with focal CD had lower pain scores, which was statistically significant for patients with the sporadic form and focal CD. The high incidence of pain contributes significantly to the disability of the patients in CD, and distinguishes it from other focal dystonias ²¹21 . Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126. . Different degrees of pain in the neck region were reported by 60.23% of patients, similar to 63% and 75% previously described ²⁷27 . Lowenstein DH, Aminoff MJ. The clinical course of spasmodic torticollis. Neurology 1988;38:530-532. ^, ²⁸28 . Kutvonen O, Dastidar P, Nurmikko T. Pain in spasmodic torticollis. Pain 1997;69:279-286. .

CD can be diagnosed among the dystonia with gene loci known or not. Among the known loci with dystonia, CD can have early and familial onset with autosomal dominant inheritance ( DYT 1, DYT 6 and DYT 13), or early onset with autosomal recessive inheritance ( DYT 2 and DYT 17), or late onset with autosomal dominant inheritance ( DYT 7, DYT 21, DYT 23, DYT 24 and DYT 25). Currently, despite of the identification of several loci related with dystonia, the TOR1A ( DYT 1), THAP-1 ( DYT 6), CIZ1 ( DYT 23), ANO-3 ( DYT 24) and GNAL ( DYT 25) genes are the only ones linked to isolated (“primary”) dystonias. The relationship of CIZ1 ( DYT 23), ANO-3 ( DYT 24) and GNAL ( DYT 25) genes with dystonia was descripted recently ³3 . Lohmann K, Klein C. Genetics of dystonia: what’s known? What’s new? What’s next? Mov Disord 2013;28:899-905.

4 . Xiao J, Uitti RJ, Zhao Y, et al. Mutations in CIZ1 cause adult onset primary cervical dystonia. Ann Neurol 2012;71:458-469.

5 . Charlesworth G, Plagnol V, Holmström KM, et al. Mutations in ANO3 cause dominant craniocervical dystonia: ion channel implicated in pathogenesis. Am J Hum Genet 2012;91:1041-1050.

6 . Fuchs T, Saunders-Pullman R, Masuho I, et al. Mutations in GNAL cause primary torsion dystonia. Nat Genet 2013;45:88-92. ^- ⁷7 . Ozelius LJ, Hewett JW, Page CE, et al. The early-onset torsion dystonia gene (DYT1) encodes an ATP-binding protein. Nat Genet 1997;17:40-48. ^, ⁹9 . Fuchs T, Gavarini S, Saunders-Pullman R, et al. Mutations in the THAP1 gene are responsible for DYT6 primary torsion dystonia. Nat Genet 2009;41:286-288. , In each monogenetic inheritance dystonia, CD may be more or less common, and the onset can be part of the spreading even of the generalization ³3 . Lohmann K, Klein C. Genetics of dystonia: what’s known? What’s new? What’s next? Mov Disord 2013;28:899-905. . The DYT 23 dystonia, for example, has a pure latest onset CD ⁴4 . Xiao J, Uitti RJ, Zhao Y, et al. Mutations in CIZ1 cause adult onset primary cervical dystonia. Ann Neurol 2012;71:458-469. . Meanwhile, patients with DYT 6 dystonia have a huge range of phenotypes, and wide range of age of onset ⁸8 . Saunders-Pullman R, Raymond D, Senthil G, et al. Narrowing the DYT6 dystonia region and evidence for locus heterogeneity in the Amish-Mennonites. Am J Med Genet A 2007;143:2098-2105.

9 . Fuchs T, Gavarini S, Saunders-Pullman R, et al. Mutations in the THAP1 gene are responsible for DYT6 primary torsion dystonia. Nat Genet 2009;41:286-288. ^- ¹⁰10 . Bressman SB, Raymond D, Fuchs T, Heiman GA, Ozelius LJ, Saunders-Pullman R. Mutations in THAP1 (DYT6) in early-onset dystonia: a genetic screening study. Lancet Neurol 2009;8:441-446. . Therefore, it is expected that CD may have several levels of pain and severity within the same etiology, but especially among the different etiologies.

Currently, these clinical analyses among different etiologies are not possible due to poor clinical details of the presentations of CD reported in studies aimed genetic analysis. Most likely, with the evolution of genetic studies of dystonia, it will be meaningless to compare clinical symptoms and pain of a familial group versus a sporadic group. In the future, the comparison of these parameters will be among groups with genetically defined etiology.

In conclusion, we descripted different clinical features, severity of symptoms and pain, between familial and sporadic patients with CD. This study was part of a continuous project. We expect to publish soon the first data about genetic evaluation of these patients to DYT1 and DYT6 genes.

References

¹
Albanese A, Bhatia K, Bressman SB, et al, Phenomenology and classification of dystonia: a consensus update. Mov Disord 2013;28:863-873.
²
Tsui JK. Cervical dystonia. In: Tsui JK, Calne D (Eds). Handbook of distonia. New York: Marcel Dekker, Inc 1995:115-127.
³
Lohmann K, Klein C. Genetics of dystonia: what’s known? What’s new? What’s next? Mov Disord 2013;28:899-905.
⁴
Xiao J, Uitti RJ, Zhao Y, et al. Mutations in CIZ1 cause adult onset primary cervical dystonia. Ann Neurol 2012;71:458-469.
⁵
Charlesworth G, Plagnol V, Holmström KM, et al. Mutations in ANO3 cause dominant craniocervical dystonia: ion channel implicated in pathogenesis. Am J Hum Genet 2012;91:1041-1050.
⁶
Fuchs T, Saunders-Pullman R, Masuho I, et al. Mutations in GNAL cause primary torsion dystonia. Nat Genet 2013;45:88-92.
⁷
Ozelius LJ, Hewett JW, Page CE, et al. The early-onset torsion dystonia gene (DYT1) encodes an ATP-binding protein. Nat Genet 1997;17:40-48.
⁸
Saunders-Pullman R, Raymond D, Senthil G, et al. Narrowing the DYT6 dystonia region and evidence for locus heterogeneity in the Amish-Mennonites. Am J Med Genet A 2007;143:2098-2105.
⁹
Fuchs T, Gavarini S, Saunders-Pullman R, et al. Mutations in the THAP1 gene are responsible for DYT6 primary torsion dystonia. Nat Genet 2009;41:286-288.
¹⁰
Bressman SB, Raymond D, Fuchs T, Heiman GA, Ozelius LJ, Saunders-Pullman R. Mutations in THAP1 (DYT6) in early-onset dystonia: a genetic screening study. Lancet Neurol 2009;8:441-446.
¹¹
Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088.
¹²
Fahn S, Bressman SB, Marsden CD. Classification of dystonia. Adv Neurol 1998;78:1-10.
¹³
Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091.
¹⁴
Lee LV, Munoz EL, Tan KT, Reyes MT. Sex linked recessive dystonia parkinsonism of Panay, Philippines (XDP). Mol Pathol 2001;54:362-368.
¹⁵
Risch N, de Leon D, Ozelius L, et al. Genetic analysis of idiopathic torsion dystonia in Ashkenazi Jews and their recent descent from a small founder population. Nat Genet 1995;9:152-159.
¹⁶
Frédéric M, Lucarz E, Monino C, et al. First determination of the incidence of the unique TOR1A gene mutation, c.907delGAG, in a Mediterranean population. Mov Disord 2007;22:884-888.
¹⁷
Gouvêia RR. Comunidade judaica de Curitiba, 1889-1970. Dissertação de Mestrado. Curitiba: PPGH/CNPq/Departamento de História da UFPR, 1980.
¹⁸
Soland VL, Bhatia KP, Marsden CD. Sex prevalence of focal dystonias. J Neurol Neurosurg Psychiatry 1996;60:204-205.
¹⁹
Almasy L, Bressman SB, Raymond D, et al. Idiopathic torsion dystonia linked to chromosome 8 in two Mennonite families. Ann Neurol 1997;42:670-673.
²⁰
Camargo CH, Teive HA, Becker N, Baran MH, Scola RH, Werneck LC. Cervical dystonia: clinical and therapeutic features in 85 patients. Arq Neuropsiquiatr 2008;66:15-21.
²¹
Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126.
²²
Weiss EM, Hershey T, Karimi M, et al. Relative risk of spread of symptoms among the focal onset primary dystonias. Mov Disord 2006;21:1175-1181.
²³
O’Riordan S, Raymond D, Lynch T, et al. Age at onset as a factor in determining the phenotype of primary torsion dystonia. Neurology 2004;63:1423-1426.
²⁴
Bentivoglio AR, Del Grosso N, Albanese A, Cassetta E, Tonali P, Frontali M. Non-DYT1 dystonia in a large Italian family. J Neurol Neurosurg Psychiatry 1997;62:357-360.
²⁵
Bentivoglio AR, Ialongo T, Contarino MF, Valente EM, Albanese A. Phenotypic characterization of DYT13 primary torsion dystonia. Mov Disord 2004;19:200-206.
²⁶
Molho ES, Feustel PJ, Factor SA. Clinical comparison of tardive and idiopathic cervical dystonia. Mov Disord 1998;13:486-489.
²⁷
Lowenstein DH, Aminoff MJ. The clinical course of spasmodic torticollis. Neurology 1988;38:530-532.
²⁸
Kutvonen O, Dastidar P, Nurmikko T. Pain in spasmodic torticollis. Pain 1997;69:279-286.

Publication Dates

Publication in this collection
Feb 2014

History

Received
02 Oct 2013
Accepted
09 Oct 2013

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Albanese A, Bhatia K, Bressman SB, et al, Phenomenology and classification of dystonia: a consensus update. Mov Disord 2013;28:863-873.

[2] ²
Tsui JK. Cervical dystonia. In: Tsui JK, Calne D (Eds). Handbook of distonia. New York: Marcel Dekker, Inc 1995:115-127.

[3] ³
Lohmann K, Klein C. Genetics of dystonia: what’s known? What’s new? What’s next? Mov Disord 2013;28:899-905.

[4] ⁴
Xiao J, Uitti RJ, Zhao Y, et al. Mutations in CIZ1 cause adult onset primary cervical dystonia. Ann Neurol 2012;71:458-469.

[5] ⁵
Charlesworth G, Plagnol V, Holmström KM, et al. Mutations in ANO3 cause dominant craniocervical dystonia: ion channel implicated in pathogenesis. Am J Hum Genet 2012;91:1041-1050.

[6] ⁶
Fuchs T, Saunders-Pullman R, Masuho I, et al. Mutations in GNAL cause primary torsion dystonia. Nat Genet 2013;45:88-92.

[7] ⁷
Ozelius LJ, Hewett JW, Page CE, et al. The early-onset torsion dystonia gene (DYT1) encodes an ATP-binding protein. Nat Genet 1997;17:40-48.

[8] ⁸
Saunders-Pullman R, Raymond D, Senthil G, et al. Narrowing the DYT6 dystonia region and evidence for locus heterogeneity in the Amish-Mennonites. Am J Med Genet A 2007;143:2098-2105.

[9] ⁹
Fuchs T, Gavarini S, Saunders-Pullman R, et al. Mutations in the THAP1 gene are responsible for DYT6 primary torsion dystonia. Nat Genet 2009;41:286-288.

[10] ¹⁰
Bressman SB, Raymond D, Fuchs T, Heiman GA, Ozelius LJ, Saunders-Pullman R. Mutations in THAP1 (DYT6) in early-onset dystonia: a genetic screening study. Lancet Neurol 2009;8:441-446.

[11] ¹¹
Elia AE, Filippini G, Bentivoglio AR, Fasano A, Ialongo T, Albanese A. Onset and progression of primary torsion dystonia in sporadic and familial cases. Eur J Neurol 2006;13:1083-1088.

[12] ¹²
Fahn S, Bressman SB, Marsden CD. Classification of dystonia. Adv Neurol 1998;78:1-10.

[13] ¹³
Jankovic J, Leder S, Warner D, Schwartz K. Cervical dystonia: clinical findings and associated movement disorders. Neurology 1991;41:1088-1091.

[14] ¹⁴
Lee LV, Munoz EL, Tan KT, Reyes MT. Sex linked recessive dystonia parkinsonism of Panay, Philippines (XDP). Mol Pathol 2001;54:362-368.

[15] ¹⁵
Risch N, de Leon D, Ozelius L, et al. Genetic analysis of idiopathic torsion dystonia in Ashkenazi Jews and their recent descent from a small founder population. Nat Genet 1995;9:152-159.

[16] ¹⁶
Frédéric M, Lucarz E, Monino C, et al. First determination of the incidence of the unique TOR1A gene mutation, c.907delGAG, in a Mediterranean population. Mov Disord 2007;22:884-888.

[17] ¹⁷
Gouvêia RR. Comunidade judaica de Curitiba, 1889-1970. Dissertação de Mestrado. Curitiba: PPGH/CNPq/Departamento de História da UFPR, 1980.

[18] ¹⁸
Soland VL, Bhatia KP, Marsden CD. Sex prevalence of focal dystonias. J Neurol Neurosurg Psychiatry 1996;60:204-205.

[19] ¹⁹
Almasy L, Bressman SB, Raymond D, et al. Idiopathic torsion dystonia linked to chromosome 8 in two Mennonite families. Ann Neurol 1997;42:670-673.

[20] ²⁰
Camargo CH, Teive HA, Becker N, Baran MH, Scola RH, Werneck LC. Cervical dystonia: clinical and therapeutic features in 85 patients. Arq Neuropsiquiatr 2008;66:15-21.

[21] ²¹
Chan J, Brin MF, Fahn S. Idiopathic cervical dystonia: clinical characteristics. Mov Disord 1991;6:119-126.

[22] ²²
Weiss EM, Hershey T, Karimi M, et al. Relative risk of spread of symptoms among the focal onset primary dystonias. Mov Disord 2006;21:1175-1181.

[23] ²³
O’Riordan S, Raymond D, Lynch T, et al. Age at onset as a factor in determining the phenotype of primary torsion dystonia. Neurology 2004;63:1423-1426.

[24] ²⁴
Bentivoglio AR, Del Grosso N, Albanese A, Cassetta E, Tonali P, Frontali M. Non-DYT1 dystonia in a large Italian family. J Neurol Neurosurg Psychiatry 1997;62:357-360.

[25] ²⁵
Bentivoglio AR, Ialongo T, Contarino MF, Valente EM, Albanese A. Phenotypic characterization of DYT13 primary torsion dystonia. Mov Disord 2004;19:200-206.

[26] ²⁶
Molho ES, Feustel PJ, Factor SA. Clinical comparison of tardive and idiopathic cervical dystonia. Mov Disord 1998;13:486-489.

[27] ²⁷
Lowenstein DH, Aminoff MJ. The clinical course of spasmodic torticollis. Neurology 1988;38:530-532.

[28] ²⁸
Kutvonen O, Dastidar P, Nurmikko T. Pain in spasmodic torticollis. Pain 1997;69:279-286.

Site of onset	Sporadic cases	Familial cases	Total	p
Patients	65	23	88	–
Male:female ratio	1:1.95	1:1.3	1:1.75	–
Age of onset*	32.37±21.09	24.78±20.48	30.47±21.16	p=0.07
Age of onset Focal dystonia	42.45±16.89 (23)	32.2±13.49 (5)	41.05±16.87 (28)	p=0.10
Age of onset: segmental dystonia	34±23.58 (15)	42±22.62 (7)	35.55±24.13 (22)	p=0.24
Age of onset: multifocal dystonia	42 (1)	5 (1)	24.5±24.75(2)	–
Age of onset: generalized dystonia	13.12±9.93 (18)	11±7.16 (10)	12.36±9.10 (28)	p=0.28
Focal dystonia: generalized dystonia ratio	1.83:1	1:2.2	1:1	p=0.227

Presentation	Sporadic cases (n=65)	Familial cases (n=23)	Total (n=88)	p
1 Type	34	12	46	1
Torticollis	23	9	32
Laterocollis	11	3	14
Retrocollis	0	0	0
Anterocollis	0	0	0
2 Types	27	10	37	1
Torticollis + Laterocollis	10	5	15
Torticollis + Retrocollis	6	2	8
Torticollis + Anterocollis	3	2	5
Laterocollis + Retrocollis	6	0	6
Laterocollis + Anterocollis	2	1	3
3 Types	4	1	5	1
Torticollis + Laterocollis + Retrocollis	2	1	3
Torticollis + Laterocollis + Anterocollis	2	0	2

Site of onset	Sporadic cases	Familial cases	Total
Cranial-cervical	5	4	9
Cranial-facial	1	1	2
Cervical	4	3	7
Limbs	12	7	19
Arms	5	4	9
Legs	7	3	10

Brasil

Brasil

Cervical dystonia: about familial and sporadic cases in 88 patients

Distonia cervical: considerações sobre casos esporádicos e familiares em 88 pacientes

Abstracts

METHOD

Standard protocol approvals, registrations, and patient consents.

Subjects selection and clinical assessment

Statistics

RESULTS

DISCUSSION

References

Publication Dates

History

Family	Patient	Sex	Age (years)	Age of onset (years)	Clinical features and familial history
1	1	M	24	20	GD (CD, Meige syndrome, trunk, left leg).
1	2	M	18	12	GD (CD, limbs, trunk and cranial dystonia). Several familial members with different forms of dystonia.
2	3	F	13	7	GD (CD, trunk and limbs). Father, a cousin, and an uncle with dystonia.
3	4	M	35	11	GD (CD, limbs and trunk).
3	5	M	30	10	SD (right arm, left arm and neck). The parents had consanguinity. Two cousins had dystonia.
4	6	M	92	70	SD (Cervical and right arm dystonia). He presented Parkinsonism.
4	7	M	68	56	FD (CD). No Parkinsonism No other familial members affected.
5	8	M	10	4	GD (CD, trunk and limbs). Two twins brothers with dystonia.
6	9	F	47	30	SD (CD, Meige syndrome and head tremor). Father with dystonia.
7	10	F	40	5	MD (left right and CD). She has a sister with dystonia in legs (most in right leg).
8	11	M	60	57	SD (CD, larynx, right arm and Meige syndrome). Sister and nice with oromandibular dystonia and CD.
9	12	F	47	39	SD (CD and oromandibular). Several familial members with CD (focal form).
10	13	F	31	9	GD (CD, arms and trunk). A cousin had dystonia.
11	14	F	33	12	GD (CD, limbs and trunk). Her father had CD.
12	15	F	17	2	GD (CD, limbs, cranial region and trunk). She had mental retardation. Her brother had CD without cognition features. The parents had consanguinity.
13	16	M	49	27	GD (CD, larynx, left arm and trunk).
14	17	F	25	18	SD (right arm, cervical and oromandibular dystonia).
14	18	F	16	6	GD (CD, oromandibular, larynx, limbs and trunk) The grandmother had mild face abnormal movements and speech disorder.
15	19	F	49	37	FD (CD and head tremor).
	20	F	27	25	FD (CD and head tremor).
	21	F	25	24	FD (CD).
	22	M	18	17	FD (CD). Grandmother with CD and head tremor.
16	23	F	67	64	SD (blepharospasm and CD). She had Parkinsonism. Her nice had blepharospasm.