The classical description of dopa-responsive dystonia (DRD) was first given by Segawa et al in 1972.Reference Segawa, Ohmi, Itoh, Aoyama and Hayakawa¹ They described two important features of this disorder, namely marked diurnal fluctuations and remarkable response to levodopa. Since then, several disorders have been grouped under this broad term of “DRD” with phenotypic and genotypic heterogeneity but with -the unifying feature of levodopa responsivity.Reference Lee, Jeon and Kim² We hereby highlight two cases whose phenotypic presentations raised the possibility of a dopa-responsive condition.

A 57-year-old female presented with asymmetrical tremor in both upper limbs for 30 years. The tremor was predominantly on action initially, which later progressed to rest tremor. There was a diurnal variation in the tremor severity. She also gave a history of progressive difficulty in walking with abnormal posturing of her feet for the past 5 years. Her feet would progressively turn inwards and stiffen forcing her to rest even after ambulating short distances. When probed further, she revealed that she had a “reducible foot deformity” noticed since her early 20s and it was only in the past 5 years that she had a worsening of her gait. She has been on propranolol for her limb tremor for nearly 30 years without much efficacy. Family history was notable for her son presenting with writing tremor since his teenage years.

On examination, she had hypomimia and a mild voice tremor. There was asymmetrical rigidity in all four limbs and brisk deep tendon reflexes. She had a prominent asymmetrical kinetic tremor in her upper limbs which was more pronounced than postural and rest components. Dystonic posturing of upper limbs was noted when held outstretched in addition to tremor. There was marked bradykinesia on rapid alternating movements in all four limbs. Feet examination revealed dystonic posturing with clawing of toes, inversion and plantar flexion of her feet which progressively worsened as she walked. On the basis of clinical presentation, she was started on levodopa/carbidopa 100/25 mg 1 tablet once a day and gradually increased to 1 tablet three times a day. Following the first dose of levodopa, she had a remarkable and sustained improvement in her tremor as well as her gait. We did not subject the patient to molecular diagnostic testing.

The second case was a 79-year-old male who presented with asymmetrical onset of upper limb action tremor for 5 years. He also complained of gradual worsening of his gait for the past 1.5 years. Patient described his gait as being clumsy and his toes “would get caught on the rug present on his living room floor”. He, however, denied any history of weakness in his feet. On further questioning, he mentioned that he has had “curled up toes” since his childhood which his mother would describe as “hammer toes”. Patient’s maternal grandfather had history of “action tremor”.

On examination, he had mild hypomimia. There was activated rigidity in right upper and lower limb. Bilateral deep tendon reflexes were brisk except bilateral ankle jerks, which were barely elicitable. There was no tremor at rest, but a prominent asymmetrical action tremor was observed in both upper limbs. Rapid alternating movements revealed mild bradykinesia. At rest, he had dystonic posturing of the toes with flexion of the toes which worsened during walking. He was started on levodopa/carbidopa 100/25 mg three times a day and reported that there was remarkable improvement in his tremor and gait. He also did not undergo any genetic testing or dopamine transporter scan and his treatment was solely based on clinical phenotype.

Dopa-responsive dystonia is characterized by selective nigrostriatal dopaminergic deficiency that classically presents in childhood with lower limb dystonia and diurnal fluctuations and responds exquisitely to dopamine replacement therapy.Reference Segawa, Ohmi, Itoh, Aoyama and Hayakawa^1, Reference Lee, Jeon and Kim² To add to this repertoire, several phenotypes have been described in the literature as being “dopa-responsive” which may or may not be associated with selective nigrostriatal dopamine deficiency but respond remarkably well to dopaminergic drugs.Reference Lee, Jeon and Kim² In a recent review, Lee et al have tried to segregate these disorders into DRD, DRD-plus and a third group called DRD-look-alike.Reference Lee, Jeon and Kim² The DRD and DRD-plus group involve nigrostriatal dopaminergic pathways with the difference being in their clinical presentation.Reference Lee, Jeon and Kim² The “DRD-look-alike” group encompasses disorders with involvement of non-nigrostriatal dopaminergic system and disorders with nigrostriatal dopaminergic cell loss.Reference Lee, Jeon and Kim² The common denominator amongst these “dopa-responsive” conditions is the exceptional response to levodopa irrespective of the genotype or clinical phenotype.

Dopa-responsive dystonias have varied genetic aetiologies involving both nigrostriatal dopaminergic and non-dopaminergic pathways.Reference Wijemanne and Jankovic³ The most common genetic mutation affecting the nigrostriatal dopaminergic pathway is GCH1 (GTP cyclohydrolase 1) gene, but testing for mutations in this gene to supplement the clinical diagnosis is not easily available. The difficulty in demonstrating pathogenic mutations in GCH1 gene in typical cases has been reported by several authors.Reference Suzuki, Ohye, Inagaki, Nagatsu and Ichinose^4–Reference Clot, Grabli and Cazeneuve⁸ On the other hand, presence of a GCH1 mutation does not necessarily support a diagnosis of DRD as the penetrance of the mutation is only 30%.Reference Nygaard, Trugman, de Yebenes and Fahn⁷ Mutations in PARK2 can also have a similar presentation as DRD, further emphasizing that a clinical phenotype of “DRD” may have a varied genetic background (Table 1).Reference Potulska-Chromik, Hoffman-Zacharska, Łukawska and Kostera-Pruszczyk⁹ As already noted, gene mutations in non-dopaminergic pathways can also potentially present with dopa-responsive symptoms. These cases have been summarized in Table 1.Reference Charlesworth, Mohire, Schneider, Stamelou, Wood and Bhatia^10–Reference Wilder-Smith, Tan, Law, Zhao, Ng and Wong¹²

Table 1 Levodopa responsiveness in cases with varied phenotypic and genotypic presentations

To further add to this complexity, GCH1-deficient DRD can have varied phenotypic presentations which may or may not be responsive to levodopa treatment. Unusual phenotypes described with GCH1 gene mutations are frequent falls and asymmetrical leg atrophy.Reference Tsao^13, Reference Mulroy, McCarthy, Lynch, Costello and Ross¹⁴ Also, presence of GCH1 mutations increases the risk for not only DRD but also Parkinson’s disease (PD).Reference Yoshino, Nishioka and Li¹⁵ To differentiate between individuals presenting with a phenotype of PD or DRD in the presence of GCH1 mutations, dopamine transporter (DAT) imaging becomes indispensable. Subjects with DRD-Parkinsonism presentation have an abnormal DAT imaging but those with classic DRD presentation have a normal scan.Reference Yoshino, Nishioka and Li^15–Reference Lin, Lu and Tsai¹⁷ Thus, functional brain imaging can help differentiate DRD from early-onset PD.

Under the broad rubric of “dopa-responsive symptoms” are also included those conditions without identifiable gene mutations in the dopaminergic system but clinical phenotype is such that they respond to levodopa. Such clinical presentations include progressive camptocormia and cervical dystonia (Table 1).Reference Oravivattanakul, Abboud, Fernandez and Itin^18–Reference Schneider, Mohire and Trender-Gerhard²⁰ Also, several cases of “overlooked and subtle gait abnormality since childhood” presenting in adulthood with a different symptom complex responding very well to levodopa have also been described in the literatureReference Harper, Bayliss, Saha, Scitt and Nisbet^21, Reference Harwood, Hierons, Fletcher and Marsden²² (Table 1). The unifying feature of these cases is the good response of the symptoms to levodopa. Therefore, it has been recommended that the first step in diagnosing these conditions is to give a trial of levodopa.Reference Wijemanne and Jankovic³ Thus, to recognize a “dopa-responsive” phenotype, one needs to be vigilant and look for “subtle clinical clues” as these conditions are remarkably responsive to levodopa.

Therefore, DRD can have a wide array of clinical presentations as well as have wide-ranging genetic mutations. The fact that both our patients had onset of dystonic posturing of feet during childhood which remained stationary and asymptomatic until much later in life when they presented with rapid worsening of gait in conjunction with other symptoms and responded excellently to levodopa are important points. Our cases were initially diagnosed as essential tremor and PD, respectively, and the diagnosis was questioned only because of the long-standing foot dystonia, which was also dopa-responsive. The genetic heterogeneity of a DRD-like presentation makes molecular testing expensive and impractical in the presence of an excellent levodopa response. Dopamine transporter imaging was unavailable at our centre. These cases highlight the fact that levodopa trial should be given in patients with prominent postural limb tremor in the presence of a background of subtle limb dystonia (“reducible foot deformity”) even in the absence of a molecular diagnosis.