Beneficial effects of the phytocannabinoid Δ9-THCV in L-DOPA-induced dyskinesia in Parkinson's disease.

The antioxidant and CB2 receptor agonist properties of Δ9-tetrahydrocannabivarin (Δ9-THCV) afforded neuroprotection in experimental Parkinson's disease (PD), whereas its CB1 receptor antagonist profile at doses lower than 5 mg/kg caused anti-hypokinetic effects. In the present study, we investigated the anti-dyskinetic potential of Δ9-THCV (administered i.p. at 2 mg/kg for two weeks), which had not been investigated before. This objective was investigated after inducing dyskinesia by repeated administration of L-DOPA (i.p. at 10 mg/kg) in a genetic model of dopaminergic deficiency, Pitx3ak mutant mice, which serves as a useful model for testing anti-dyskinetic agents. The daily treatment of these mice with L-DOPA for two weeks progressively increased the time spent in abnormal involuntary movements (AIMs) and elevated their horizontal and vertical activities (as measured in a computer-aided actimeter), signs that reflected the dyskinetic state of these mice. Interestingly, when combined with L-DOPA from the first injection, Δ9-THCV delayed the appearance of all these signs and decreased their intensity, with a reduction in the levels of FosB protein and the histone pAcH3 (measured by immunohistochemistry), which had previously been found to be elevated in the basal ganglia in L-DOPA-induced dyskinesia. In addition to the anti-dyskinetic effects of Δ9-THCV when administered at the onset of L-DOPA treatment, Δ9-THCV was also effective in attenuating the intensity of dyskinesia when administered for three consecutive days once these signs were already present (two weeks after the onset of L-DOPA treatment). In summary, our data support the anti-dyskinetic potential of Δ9-THCV, both to delay the occurrence and to attenuate the magnitude of dyskinetic signs. Although further studies are clearly required to determine the clinical significance of these data in humans, the results nevertheless situate Δ9-THCV in a promising position for developing a cannabinoid-based therapy for patients with PD.

Chorea.

PURPOSE OF REVIEW: This article provides an overview of the approach to chorea in clinical practice, beginning with a discussion of the phenomenologic features of chorea and how to differentiate it from other movement disorders. The diagnostic approach, clinical features of important acquired and genetic choreas, and therapeutic principles are also discussed. Practical clinical points and caveats are included. RECENT FINDINGS: C9orf72 disease is the most common Huntington disease phenocopy, according to studies in the European population. Anti-IgLON5 disease can present with chorea. The role of immunotherapies in Sydenham chorea has increased, and further clinical studies may be useful. Benign hereditary chorea is a syndrome or phenotype due to mutations in several genes, including NKX2-1, ADCY5, GNAO1, and PDE10A. New-generation presynaptic dopamine-depleting agents provide more options for symptomatic treatment of chorea with fewer adverse effects. Deep brain stimulation has been performed in several choreic disorders, but features other than chorea and the neurodegenerative nature should be taken into consideration. Studies on genetic interventions for Huntington disease are ongoing. SUMMARY: Clinical features remain crucial in guiding the differential diagnosis and appropriate investigations in chorea. Given the complexity of most choreic disorders, treating only the chorea is not sufficient. A comprehensive and multidisciplinary approach is required.

Beyond speed: Gait changes after botulinum toxin injections in chronic stroke survivors (a systematic review).

BACKGROUND: The mechanisms by which spasticity reductions after botulinum toxin A (BoNT) affect gait in stroke are not well understood. We systematically reviewed the effects of BoNT on spatiotemporal, kinematic, kinetic and electromyographic (EMG) measures during gait. QUESTION: What are the effects of botulinum toxin on gait mechanics in stroke patients? METHODS: Systematic search using PubMed and Web of Science. We considered all studies that reported laboratory-based and instrumented gait measures as primary or secondary outcomes to determine the effects of BoNT on walking performance in stroke populations only. Selected studies were classified and analysed based on the injection sites. RESULTS: A total of 240 articles were identified of which 22 were selected for analysis. Overall, 91% of the studies reported spatiotemporal, 64% kinematics, 23% kinetics, 32% EMG and 23% other gait measures. All but one study found significant effects of BoNT on gait measures using instrumented assessments even when clinical measures (i.e. speed) did not significantly improve. However, the majority of the studies had a high risk of bias. Overall, BoNT improved: a) dorsiflexion during stance, propulsive forces and timing and activity of more proximal musculature with injections in the plantarflexors; b) hip, knee and ankle angles and velocities, coordination and energetic cost with injections in the rectus femoris; c) segmental coordination and energetic cost when several lower limb muscles were injected; and, d) elbow and trunk angles when upper limb muscles were injected. CONCLUSION: Instrumented and laboratory measures of gait improve after BoNT injections in different muscle groups even in the absence of clinical changes.

Botulinum toxin-B injection into the lacrimal gland and posterior cricoarytenoid muscle for the treatment of epiphora and abductor spasmodic dysphonia secondary to Parkinson's disease.

In ophthalmology, there have been few reports of botulinum toxin type-A (BTX-A) injection into the lacrimal gland to treat epiphora. In ENT, adductor and abductor (ABSD) spasmodic dysphonia are often treated with BTX-A injections into the respective overacting vocal cord muscles. We describe a 53-year old male with Parkinson's disease who did not respond to BTX-A injections to either the lacrimal gland, for epiphora secondary to Parkinsonian-related blink lagophthalmos, or posterior cricoarytenoid (PCA) muscles for ABSD. Subsequent BTX type-B (BTX-B) injections into the lacrimal gland remarkably improved his epiphora. BTX-B injections into the PCA muscle also greatly improved his dysphonia. We describe the first reported case of (1) BTX-B injection into the lacrimal gland for epiphora, (2) use of Botox in treating epiphora due to blink lagophthalmos/reduced blink frequency secondary to Parkinson's disease, (3) BTX-B use in treating ABSD, and (4) association between ABSD and Parkinson's disease.

Effect of Risperidone on the Motor and Functional Disability in Children With Choreoathetoid Cerebral Palsy.

BACKGROUND: Therapeutic options for management of choreoathetoid cerebral palsy, which is a permanent disorder, are limited. Available medications either have significant side effects or are unsuitable for long-term use. Risperidone has shown promise in the management of chorea and has been found to be safe in children less than five years. METHODS: Children with choreoathetoid cerebral palsy were enrolled after parental consent and given risperidone for six-month period along with standard care. The choreoathetoid movements were assessed using Abnormal Involuntary Movement Scale, the upper-limb functions were assessed using Quality of upper extremity skill tests, and the quality of life using Cerebral palsy-Quality of life. Side effects were monitored clinically, by biochemical tests and electrocardiogram. RESULTS: Of 42 children with choreoathetoid cerebral palsy who were screened over a period of one year, 35 subjects meeting the study criteria were enrolled. Thirty children completed six months of risperidone therapy, the remaining five subjects were excluded because of time missed due to intercurrent unrelated illnesses. Data of these 30 children were analyzed as per per-protocol analysis. Their mean age was 6.35 ± 3.17 years. Abnormal movements showed statistically significant decline after risperidone (19.7 vs 14.7, P < 0.0001). Functional ability of upper limbs and quality of life also showed improvement (37.0 vs 43.8, P < 0.0001 and 64.3 vs 70.0, P < 0.0001, respectively) after six months of risperidone therapy. Positive change in the behavior was also noted. It was well tolerated without significant side effects. CONCLUSION: Risperidone is a promising drug to manage children with choreoathetoid cerebral palsy and is well tolerated in children.

Chronic Administration of Pimozide Fails to Attenuate Motor and Pathological Deficits in Two Mouse Models of Amyotrophic Lateral Sclerosis.

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease which presently does not have any efficient therapeutic approach. Pimozide, a Food and Drug Administration (FDA)-approved neuroepileptic drug, has been recently proposed as a promising treatment for ALS patients based on apparent stabilization of right hand muscles after a short-time administration. A new clinical trial started at the end of 2017 to recruit patients with a prolonged drug delivery schedule. Here, our aim was to investigate the effects of chronic administration of pimozide on disease progression and pathological events in two mouse models of ALS. Pimozide was administered every 2 days to transgenic mice bearing the ALS-linked A315T mutation on the human TAR DNA-binding protein 43 (TDP-43) gene and to mice carrying the human superoxide dismutase 1 (SOD1) gene with the ALS-linked G93A mutation. Chronic administration of pimozide exacerbated motor performances in both animal models and reduced survival in SOD1G93A mice. In TDP-43A315T, it decreased the percentage of innervated neuromuscular junctions (NMJs) and increased the accumulation of insoluble TDP-43. In SOD1G93A mice, pimozide had no effects on NMJ innervation or motoneuron loss, but it increased the levels of misfolded SOD1. We conclude that a chronic administration of pimozide did not confer beneficial effects on disease progression in two mouse models of ALS. In light of a new clinical trial on ALS patients with a chronic regime of pimozide, these results with mouse models suggest prudence and careful monitoring of ALS patients subjected to pimozide treatment.

Multimodal Drug Therapy and Physical Rehabilitation in the Successful Treatment of Capture Myopathy in a Lesser Flamingo (Phoeniconaias minor).

A wild-caught lesser flamingo (Phoeniconaias minor) from the Fort Worth Zoo (Fort Worth, TX, USA) presented with moderate lameness that progressed to the inability to stand 2 days after restraint and handling. Results of blood tests showed severely elevated creatine phosphokinase (CPK) and aspartate aminotransferase (AST) activities, confirming suspected capture myopathy. Intensive supportive therapy, consisting of intravenous fluids and muscle relaxants, along with physical rehabilitation therapy, nutritional support, and anxiolytics, were instituted to aid in relaxation and muscle regeneration. After 2 weeks of intensive therapy, the bird showed substantial improvement and could remain standing throughout the day after being assisted to a standing position. By day 23, the bird was able to stand independently and walk completely unassisted, with no discernible lameness. The bird has subsequently remained healthy since it was returned to the flock approximately 27 days after it was first presented for treatment. Although anecdotal communications of successful treatment of this condition in flamingos exist, this is the first report, to our knowledge, that describes in detail the successful treatment of capture myopathy in any flamingo species. Success in this case is attributed to the combination of early fluid and drug therapy, intensive physical rehabilitation therapy, and anxiolytics to counteract the hyperexcitable nature of this wild-caught bird.

Alterations of M1 and M4 acetylcholine receptors in the genetically dystonic (dtsz) hamster and moderate antidystonic efficacy of M1 and M4 anticholinergics.

Striatal cholinergic dysfunction has been suggested to play a critical role in the pathophysiology of dystonia. In the dtsz hamster, a phenotypic model of paroxysmal dystonia, M1 antagonists exerted moderate antidystonic efficacy after acute systemic administration. In the present study, we examined the effects of the M4 preferring antagonist tropicamid and whether long-term systemic or acute intrastriatal injections of the M1 preferring antagonist trihexyphenidyl are more effective in mutant hamsters. Furthermore, M1 and M4 receptors were analyzed by autoradiography and immunohistochemistry. Tropicamide retarded the onset of dystonic attacks, as previously observed after acute systemic administration of trihexyphenidyl. Combined systemic administration of trihexyphenidyl (30mg/kg) and tropicamide (15mg/kg) reduced the severity in acute trials and delayed the onset of dystonia during long-term treatment. In contrast, acute striatal microinjections of trihexyphenidyl, tropicamid or the positive allosteric M4 receptor modulator VU0152100 did not exert significant effects. Receptor analyses revealed changes of M1 receptors in the dorsomedial striatum, suggesting that the cholinergic system is involved in abnormal striatal plasticity in dtsz hamsters, but the pharmacological data argue against a crucial role on the phenotype in this animal model. However, antidystonic effects of tropicamide after systemic administration point to a novel therapeutic potential of M4 preferring anticholinergics for the treatment of dystonia.

Pyloroplasty Offers Relief of Postfundoplication Gastroparesis in Patients Who Improved After Botulinum Toxin Injection.

BACKGROUND: Endoscopic intrapyloric Botox (onabotulinumtoxin A; Allergan Pharmaceuticals) injections can improve postfundoplication gastroparesis, but responses are not durable. Surgical pyloroplasty may relieve gastroparetic symptoms, but patient selection criteria are poorly defined. We hypothesize that pyloroplasty provides durable improvement in patients whose symptoms improved after Botox injection. STUDY DESIGN: A retrospective chart review was performed of patients with postfundoplication gastroparesis who improved after Botox injection and then underwent pyloroplasty. Gastric emptying studies (GES), Gastroparesis Cardinal Symptom Index (GCSI) score, symptoms, and outcomes were reviewed. RESULTS: Ten patients received Heineke-Mikulicz pyloroplasty after reporting improvement with Botox injection. The mean operative time was 114 minutes (range 55-234 minutes). Three of 10 patients required conversion to open surgery, and the median length of stay was 3 days. Gastroparesis symptom improvement occurred in 9 of 10 patients. Postoperative GES normalized in 5/5 patients (median 205 decreased to 70 min, P < .05). Median preoperative GCSI was 3.67, improved to 2.22 at 1 month postsurgery (P = .010) and to 2.11 on most recent follow-up (P = .015). Median duration of follow-up was 34 months (range 1-101 months). CONCLUSION: Heineke-Mikulicz pyloroplasty can improve symptoms and gastric emptying times in patients with postfundoplication gastroparesis. Improvement with intrapyloric Botox injection may select candidates for pyloroplasty.

l-Dopa in dystonia: A modern perspective.

"Every child exhibiting dystonia merits an l-dopa trial, lest the potentially treatable condition of dopa-responsive dystonia (DRD) is missed" has been a commonly cited and highly conserved adage in movement disorders literature stemming from the 1980s. We here provide a historical perspective on this statement, discuss the current diagnostic and therapeutic applications of l-dopa in everyday neurologic practice, contrast these with its approved indications, and finish with our view on both a diagnostic and therapeutic trial in children and adults with dystonia. In light of the relatively low prevalence of DRDs, the large interindividual variation in the required l-dopa dose, the uncertainty about an adequate trial duration, the substantial advances in knowledge on etiology and pathophysiology of these disorders, and the availability of various state-of-the-art diagnostic tests, we think that a diagnostic l-dopa trial as a first step in the approach of early-onset dystonia (≤25 years) is outdated. Rather, in high-resource countries, we suggest to use l-dopa after biochemical corroboration of a defect in dopamine biosynthesis, in genetically confirmed DRD, or if nigrostriatal degeneration has been demonstrated by nuclear imaging in adult patients presenting with lower limb dystonia. Furthermore, our literature study on the effect of a therapeutic trial to gain symptomatic relief revealed that l-dopa has occasionally proven beneficial in several established "non-DRDs" and may therefore be considered in selected cases of dystonia due to other causes. In summary, we argue against the application of l-dopa in every patient with early-onset dystonia and support a more rational therapeutic use.

Ultrasound-guided botulinum toxin A injection in the treatment of belly dancer's dyskinesia.

BACKGROUND: Belly dancer's dyskinesia is an extremely rare condition. It manifests as semicontinuous, slow, writhing, sinuous abdominal wall movements that are bothersome to the patient. Management of this condition is extremely difficult and challenging. METHODS: We describe four patients with belly dancer's dyskinesia who were treated with Botulinum Toxin A (BTX) injections under ultrasound guidance. RESULTS: All patients underwent the same BTX injection procedure using an aseptic technique under ultrasound guidance. The patients responded well to the BTX injections after an unsatisfactory course of medical treatment. The patients reported complete abolishment of abnormal abdominal movements with no side effects. CONCLUSIONS: We report a cohort of patients with belly dancer dyskinesia treated successfully with BTX injections. Ultrasound guidance for injections increases the accuracy and reduces the risk of the complications. BTX injection under ultrasound guidance is a safe and effective treatment modality that should be employed as a first-line in the management of patients with belly dancer's dyskinesia.

Drug-Induced Dyskinesia, Part 1: Treatment of Levodopa-Induced Dyskinesia.

Dyskinesias encompass a variety of different hyperkinetic phenomenologies, particularly chorea, dystonia, stereotypies, and akathisia. Levodopa-induced dyskinesia (LID) is one of the main types of drug-induced dyskinesia, occurring in patients with Parkinson's disease (PD) who have been treated with levodopa for long time, but this side effect may be encountered even within a few weeks or months after initiation of levodopa therapy. Based on the temporal pattern in relationship to levodopa dosing, LIDs are divided into "peak-dose dyskinesia," "diphasic dyskinesia," and "wearing off" or "off-period" dyskinesia, of which peak-dose dyskinesia is the most common, followed by off-period, and then diphasic dyskinesia. Treatment strategy includes identifying the kind of dyskinesia and tailoring treatment accordingly. Peak-dose dyskinesia is treated mainly by reducing individual doses of levodopa and adding amantadine and dopamine agonists, whereas off-period dystonia often responds to baclofen and botulinum toxin injections. Diphasic dyskinesias, occurring particularly in patients with young-onset PD, are the most difficult to treat. While fractionation of levodopa dosage is the most frequently utilized strategy, many patients require deep brain stimulation to control their troublesome motor fluctuations and LIDs. A variety of emerging (experimental) drugs currently in development promise to provide better control of LIDs and other levodopa-related complications in the near future.

Pramipexole at a Low Dose Induces Beneficial Effect in the Harmaline-induced Model of Essential Tremor in Rats.

AIMS: The aim of the study was to examine the effects of preferential agonists of dopamine D3 receptors: pramipexole and 7-OH-DPAT on the harmaline-induced tremor in rats (a model of essential tremor, ET). To study receptor mechanisms of these drugs, rats were pretreated with dopamine D3 receptor antagonists--SB-277011-A and SR-21502, an antagonist of presynaptic D2/D3 receptors--amisulpride, or a nonselective antagonist of D2-like receptors, haloperidol, at a postsynaptic dose. METHODS: For tremor measurement, fully automated force plate actimeters were used and data were analyzed using fast Fourier transform. RESULTS: Harmaline (15 mg/kg ip)-triggered tremor was manifested by an increase in the power within 9-15 Hz band (AP2). Pramipexole administered at a low (0.1 mg/kg sc), but not higher doses (0.3 and 1 mg/kg sc), and 7-OH-DPAT (0.1, 0.3, and 1 mg/kg sc) reversed the harmaline-increased AP2. None of the examined dopamine antagonists: SB-277011-A (10 mg/kg ip), SR-21502 (15 mg/kg ip), haloperidol (0.5 mg/kg ip), or amisulpride (1 mg/kg ip) influenced the above effect of dopamine agonists. CONCLUSION: The present study indicates that pramipexole reduces the harmaline-induced tremor, which may suggest its beneficial effects in ET patients. However, mechanisms underlying its action are still unclear and need further examination.

Identification and management of tardive dyskinesia: A case series and literature review.

Tardive dyskinesia (TD) is a serious, disabling and potentially permanent, neurological hyperkinetic movement disorder that occurs after months or years of taking dopamine receptor-blocking agents. The pathophysiology of TD is complex, multifactorial and still not fully understood. Although there is no identified effective and standard treatment for TD, several agents have been tried for the management of this motor disturbance. The aim of this case series is to review the literature in regard to the identification, diagnosis and the treatment of TD with anticholinergics, anticholinergic medication withdrawal, cholinergic agents, botulinum toxin intramuscular injections, tetrabenazine, levetiracetam, propranolol and zolpidem, and to describe one case of TD that responded favorably to clonazepam and two cases of TD that responded favorably to Ginkgo biloba.

Botulinum toxin injections for the treatment of hemifacial spasm over 16 years.

The aim of this study was to investigate the efficacy and side effects of botulinum toxin (BTX) in the treatment of hemifacial spasm (HFS). We also focused on the divergence between different injection techniques and commercial forms. We retrospectively evaluated 470 sessions of BTX injections administered to 68 patients with HFS. The initial time of improvement, duration and degree of improvement, and frequency and duration of adverse effects were analysed. Pretarsal and preseptal injections and Botox (Allergan, Irvine, CA, USA) and Dysport (Ipsen Biopharmaceuticals, Paris, France) brands were compared in terms of efficacy and side effects, accompanied by a review of papers which reported BTX treatment of HFS. An average of 34.5 units was used per patient. The first improvement was felt after 8 days and lasted for 14.8 weeks. Patients experienced a 73.7% improvement. In 79.7% of injections, no adverse effect was reported, in 4.9% erythema, ecchymosis, and swelling in the injection area, in 3.6% facial asymmetry, in 3.4% ptosis, in 3.2% diplopia, and in 2.3% difficulty of eye closure was detected. Patients reported 75% improvement on average after 314 sessions of pretarsal injections and 72.7% improvement after 156 sessions of preseptal injections (p=0.001). The efficacy and side effects of Botox and Dysport were similar. BTX is an effective and safe treatment option for HFS. No difference was determined between Botox and Dysport, and pretarsal injection is better than preseptal injection regarding the reported degree of improvement.

Valbenazine granted breakthrough drug status for treating tardive dyskinesia.

The chronic use and high dosing of typical neuroleptics or centrally acting dopamine receptor blocking antiemetics predispose patients to the onset of tardive syndromes. One particular subtype, tardive dyskinesia, is characterized by rapid, repetitive, stereotypic, involuntary movements of the face, limbs or trunk. The inhibition of the vesicular monoamine transporter system, using tetrabenazine therapy, improves the severity of tardive dyskinesia. But there are also drawbacks to tetrabenazine treatment, such as a fluctuating response and the need for frequent intake due to its rapid metabolism. Clinical research on the potentially more efficacious and easier to use tetrabenazine analogs is already under way. One of them is valbenazine, the purified parent drug of the (+)-α-isomer of tetrabenazine. The FDA lowered approval hurdles for valbenazine due to a successful Phase II trial, which showed a distinctive improvement in tardive dyskinesia symptoms during valbenazine administration. This resurgence in the clinical research of tardive syndrome therapy is most welcome. This author notes that the putative long-term side effects of valbenazine should carefully be investigated in the future via naturalistic observational trials. Furthermore, valbenazine may also support the onset of symptoms, such as Parkinsonism and depression, with chronic administration, as it, to a certain extent, shares the mode of action of tetrabenazine.

An update on pharmacological, pharmacokinetic properties and drug-drug interactions of rotigotine transdermal system in Parkinson's disease and restless legs syndrome.

This narrative review reports on the pharmacological and pharmacokinetic properties of rotigotine, a non-ergolinic D3/D2/D1 dopamine receptor agonist approved for the treatment of early- and advanced-stage Parkinson's disease (PD) and moderate to severe restless legs syndrome (RLS). Rotigotine is formulated as a transdermal patch providing continuous drug delivery over 24 h, with a plasma concentration profile similar to that of administration via continuous intravenous infusion. Absolute bioavailability after 24 h transdermal delivery is 37 % of the applied rotigotine dose. Following a single administration of rotigotine transdermal system (24-h patch-on period), most of the absorbed drug is eliminated in urine and feces as sulphated and glucuronidated conjugates within 24 h of patch removal. The drug shows a high apparent volume of distribution (>2500 L) and a total body clearance of 300-600 L/h. Rotigotine transdermal system provides dose-proportional pharmacokinetics up to supratherapeutic dose rates of 24 mg/24 h, with steady-state plasma drug concentrations attained within 1-2 days of daily dosing. The pharmacokinetics of rotigotine transdermal patch are similar in healthy subjects, patients with early- or advanced-stage PD, and patients with RLS when comparing dose-normalized area under the plasma concentration-time curve (AUC) and maximum plasma drug concentration (Cmax), as well as half-life and other pharmacokinetic parameters. Also, it is not influenced in a relevant manner by age, sex, ethnicity, advanced renal insufficiency, or moderate hepatic impairment. No clinically relevant drug-drug interactions were observed following co-administration of rotigotine with levodopa/carbidopa, domperidone, or the CYP450 inhibitors cimetidine or omeprazole. Also, pharmacodynamics and pharmacokinetics of an oral hormonal contraceptive were not influenced by rotigotine co-administration. Rotigotine was generally well tolerated, with an adverse event profile consistent with dopaminergic stimulation and use of a transdermal patch. These observations, combined with the long-term efficacy demonstrated in clinical studies, support the use of rotigotine as a continuous non-ergot D3/D2/D1 dopamine receptor agonist in the treatment of PD and RLS.

Combination therapy for segmental craniocervical dystonia (Meige syndrome) with aripiprazole, trihexyphenidyl, and botulinum toxin: three cases reports.

Segmental craniocervical dystonia is characterized by blephalospasm and oromandibular dystonia and is also called Meige syndrome. The current treatment strategy including botulinum toxin (BTX) injections has not yet attained an acceptable level. We describe a long-term favorable response of a novel combination therapy with aripiprazole (ARP), trihexyphenidyl (THP), and BTX in three patients with segmental craniocervical dystonia. The symptoms of three patients responded promptly to the combination therapy with ARP 3-6 mg daily, THP 2-8 mg daily, and BTX. Although the patients were required to receive a BTX 50-100 IU injection every 3-6 months, their symptoms were kept in a satisfactory condition for up to 2 years without any adverse effects. ARP possesses the potential for dramatically improving dystonia. THP has the possibility to enhance the efficacy of ARP and prolong the effective period of BTX. It may be an important requisite to give all three agents together for a successful treatment. The combination therapy with ARP, THP, and BTX was well-tolerated and useful in controlling the symptoms of segmental craniocervical dystonia, however, the reason why this combination therapy succeeded is unknown. A further long-term follow-up is required to monitor the delayed neurological adverse effects.

Botulinum toxin type B in the spastic arm: a randomized, double-blind, placebo-controlled, preliminary study.

OBJECTIVE: To determine the efficacy and safety of 2 doses of botulinum toxin type B (rimabotulinumtoxinB, BoNT/B) in spastic upper limb muscles. DESIGN: Randomized, double-blind, placebo-controlled trial with a 3-month follow-up. SETTING: Tertiary care center. PARTICIPANTS: Referred sample of adult hemiparetic patients (N=24) with disabling elbow flexor overactivity after stroke or traumatic brain injury. INTERVENTIONS: Injection of 10,000U of rimabotulinumtoxinB (fixed 2500U dose into elbow flexors; n=8), 15,000U (5000U into elbow flexors; n=8), or placebo (n=8) into overactive upper limb muscles selected as per investigator's discretion. MAIN OUTCOME MEASURES: At 1 month postinjection, active range of elbow extension (goniometry; primary outcome); active upper limb function (Modified Frenchay Scale [MFS]); subjective global self-assessment (GSA) of arm pain, stiffness, and function; rapid alternating elbow flexion-extension movement frequency over the maximal range; elbow flexor spasticity grade and angle (Tardieu), and tone (Ashworth). RESULTS: No adverse effects were associated with either BoNT/B dose. Both doses improved active elbow extension versus placebo (+8.3°; 95% confidence interval, 1.1°-15.5°; analysis of covariance, P=.028). The high dose of BoNT/B also improved subject-perceived stiffness (P=.005) and the composite pain, stiffness, and function GSA (P=.017), effects that persisted 3 months from injection. No MFS change was demonstrated, although subjects with a baseline MFS <70/100 seemed more likely to benefit from BoNT/B. CONCLUSIONS: In this short-term study, BoNT/B up to 15,000U into spastic upper limb muscles, including the elbow flexors, was well tolerated and improved active elbow extension and subject-perceived stiffness.