Unified Huntington's Disease Rating Scale Motor Score Research Articles

Atypical Presentations of Huntington Disease-like 2 in South African Individuals.

Huntington disease-like 2 (HDL2) is a neurodegenerative disorder, affecting only individuals of African ancestry. Full penetrance occurs in individuals with 40 repeats or more. To describe the phenotypic variability of HDL2 in a group of mixed ancestry individuals from South Africa. Eight patients were assessed with analysis of repeat size and magnetic resonance brain imaging. We applied the Unified Huntington's Disease Rating Scale (UHDRS), but in deceased patients (4), this was estimated from video material. Cognitive domains were more severely affected than motor; UHDRS motor scores were notable for bradykinesia, and to a slightly lesser extent, for rigidity and dystonia; a single patient had marked chorea. Repeat lengths ranged from 45 to 63 (median, 52). This South African group of mixed ancestry HDL2 individuals presented with severe cognitive and behavioral impairments, with lesser degrees or absence of chorea. This presentation is possibly related to large repeat sizes.

Staged pallidothalamic tractotomy and pallidotomy for chorea‐acanthocytosis

AbstractChorea‐acanthocytosis (ChAc) is a progressive degenerative disease, which manifests movement disorders including chorea and dystonia. Deep brain stimulation has been reported to successfully improve chorea and dystonia in ChAc. However, there are no reports of lesioning surgery for ChAc. The patient was a 47‐year‐old female with a mutation in VPS13A, which led to the diagnosis of ChAc, presenting with chorea in bilateral hands. The Unified Huntington's Disease Rating Scale‐Motor Score (UHDRS‐MS) was 51. The patient underwent staged bilateral pallidothalamic tractotomy and pallidotomy, which resulted in 60.8% improvement of UHDRS‐MS (20 at 3‐month postoperative evaluation). There was no perioperative complication. No chorea recurrence was observed during the 2‐year postoperative follow‐up period.

Predictors of Caregiver Burden in Huntington's Disease.

Huntington's disease (HD) is a genetic neurodegenerative condition that is characterized by cognitive, motor, and psychiatric dysfunction. The purpose of this study was to explore which disease characteristics influence caregiver burden in HD. Fifty participants with HD and 50 of their caregivers participated in the study at the University of South Florida. Participants were administered a neuropsychological battery, the Unified Huntington's Disease Rating Scale (UHDRS) motor exam, and the Frontal Systems Behavior Scale (FrSBe) self-report. Caregivers completed the Caregiving Appraisal Scale and the FrSBe family-report. There were significant correlations between caregiver burden and caregiver age and sex, UHDRS motor scores, cognitive functioning, and self and caregiver-reported FrSBe scores. The significant variables were entered into a regression model and explained 63.1% of the variance in caregiver burden scores. Caregiver age, cognitive functioning, and caregiver-reported FrSBe scores continued to be significant predictors of caregiver burden, whereas the other variables were no longer significant. There were significant relationships between caregiver burden, cognitive functioning, and frontally mediated behaviors, but not motor scores. The results suggest that possible interventions for caregivers may include education to caregivers on how to cope with apathy/executive dysfunction and cognitive decline. Caregiver age was associated with burden, with younger age being associated with increased burden when controlling for symptom severity. This has implications for this population in that HD typically has a younger age of onset than other neurodegenerative diseases and therefore, these caregivers may be particularly at risk for caregiver burden.

Retinal and choroidal morphological changes in Huntington's disease

Purpose: to investigate the choroidal and retinal morphology in Huntington's disease (HD) using optical coherence tomography (OCT) and to analyze how the parameters studied correlate with the clinical data. Material and methods. The study included two groups of subjects, (1) 44 HD patients, averagely aged 37.6 ± 10.2 yrs, and (2) 31 healthy volunteers, averagely aged 37.3 ± 10.8 yrs. The groups had matching age, sex distribution, intraocular pressure and mean refractive error. In the study group, 21 patients had pre-manifest and 23, manifest HD stage. All patients underwent a thorough neurological and ophthalmic examination which included retinal OCT. The foveal choroidal thickness, retinal thickness in 9 areas of the macular zone, retinal ganglion cells complex (GCC) and peripapillary retinal nerve fiber layer thickness (RNFL) were evaluated in 4 quadrants. CAG repeat expansion size (cytosine-adenine-guanine) in the huntingtin gene, the disease duration and Unified HD Rating Scale motor scores (UHDRS) were evaluated for HD patients. Results. The range of the CAG repeat expansion size in the study group was 37–56 repeats (44.3 ± 3.8), the UHDRS motor score was 36.3 ± 29.7, disease duration was 13.7 ± 7.2 years. OCT revealed a significant decrease in the foveal choroidal thickness, GCC complex thickness, average, temporal, inferior and nasal RNFL thickness and total retinal thickness in the external temporal area in HD patients as compared to the controls. In addition, an inverse correlation between the disease duration, UHDRS Motor Score and a number of OCT parameters was found. Conclusion. The results confirm the promising potential of retinal tomographic parameters as a biomarker for early diagnosis and monitoring of the neurodegenerative process progression. The topography of retinal thickness reduction indicates a specific pattern of retinal neurodegeneration in HD.

Pallidal Deep Brain Stimulation in Patients With Chorea-Acanthocytosis

Chorea-acanthocytosis (ChAc) is an autosomal recessive hereditary disorder caused by the mutation of gene VPS13A. Deep brain stimulation of ChAc has made substantial progress in the recent decades. However, the reports were scattered across centers and performed by different neurosurgeons. Here, we report a case series consisting of six patients diagnosed with ChAc, receiving bilateral high-frequency stimulation of globus pallidus internus (GPi) in a single center. We report six consecutive patients diagnosed with ChAc and present a review of the literature. All patients received neurological evaluations using the Unified Huntington's Disease Rating Scale (UHDRS) motor score before surgery and during clinical follow-ups. One patient was observed over six months, while five patients were seen over 12 months. All patients underwent high-frequency stimulation ranging from 130 Hz to 175 Hz. In the follow-up period, a general trend was found toward higher amplitude and broader pulse widths, with a mean current range of 2.08 mA to 3.06 mA and a mean pulse width range of 75 μsec to 98 μsec. On preoperative evaluation, the mean UHDRS motor score was 35.7 ± 16.3 and the chorea subscore was 11.3 ± 4.7. At the three-month postoperative follow-up, both UHDRS motor score (13.5 ± 5.8) and chorea subscore (3.0 ± 1.2) reached valley values. Thereafter, the UHDRS motor score and chorea subscore showed a gradual rise, reaching 19.2 ± 5.9 and 4.8 ± 1.7, respectively, at the 12-month follow-up. In addition, adverse events were also seen. Patient 1 developed dysarthria six months after surgery, whereas Patient 6 had a generalized tonic-clonic seizure attack one day after surgery CONCLUSION: High frequency stimulation of the GPi is an effective and safe modality for the treatment of ChAc, with both rapid symptomatic improvements and steady chronic outcomes.

Assessment Scales for Patients with Advanced Huntington's Disease: Comparison of the UHDRS and UHDRS-FAP.

The standard clinical assessment tool in Huntington's disease is the Unified Huntington's Disease Rating Scale (UHDRS). In patients with advanced Huntington's disease ceiling and floor effects of the UHDRS hamper the detection of changes. Therefore, the UHDRS-For Advanced Patients (UHDRS-FAP) has been designed for patients with late-stage Huntington's disease. This cross-sectional study aims to examine if the UHDRS-FAP can differentiate better between patients with advanced Huntington's disease than the UHDRS. Forty patients, who were institutionalized or received day-care, were assessed with the UHDRS, UHDRS-FAP, and Care Dependency Scale (CDS). The severity of Huntington's disease was defined by the Total Functional Capacity (TFC). Comparisons between consecutive TFC stages were performed for all domains of the UHDRS, UHDRS-FAP, and CDS using Mann-Whitney U tests. The motor scores of the UHDRS-FAP and UHDRS were the only subscales with significantly worse scores in TFC stage 5 compared to stage 4. In TFC stages 4-5, the range of the UHDRS-FAP motor score was broader, the standard error of measurement was lower, and the effect size r was higher than for the UHDRS motor score. The CDS declined significantly across all TFC stages. Our results suggest that the UHDRS-FAP motor score might differentiate better between patients with severe Huntington's disease than the UHDRS motor score. Therefore, the UHDRS-FAP motor score is potentially a better instrument than the UHDRS motor score to improve disease monitoring and, subsequently, care in patients with advanced Huntington's disease in long-term care facilities.

Cannabinoids for Treatment of Dystonia in Huntington's Disease.

Motor symptoms in Huntington's disease (HD) are heterogeneous with dystonia being described as a symptom with a very high prevalence not only in juvenile cases. Treatment options for dystonia are limited. Cannabinoids have been described as a potential treatment for patients with dystonia of a different origin. Here, we present early onset HD patients with a marked improvement of motor symptoms mainly due to alleviation of dystonia due to treatment with cannabinoids. In addition we review the current literature concerning the use of cannabinoids in HD. The Unified Huntington's Disease Rating Scale (UHDRS) motor score, including a chorea and dystonia subscore, was conducted before and after the start of cannabinoids in seven patients without any other changes in medication. The UHDRS motor score and the dystonia subscore (±SD) improved from 70.9 (25.5) to 60.6 (26.9) with a mean change of 10.3 [95% CI 6.0-14.6] and from 12.3 (4.0) to 8.0 (3.6) with a mean change of 4.3 [95% CI 2.3-6.3], respectively (both p = 0.018). Improvement of motor symptoms, mainly dystonia, led to several relevant improvements from a global clinical perspective such as improvement of care, gait and fine motor skills and weight gain. Moreover, we observed changes in behavior with less irritability and apathy, as well as less hypersalivation in some cases.

Cognitive and autonomic dysfunction in presymptomatic and early Huntington’s disease

Huntington's disease is characterized by disorders of movement, cognition and behavior. Individuals with Huntington's disease display aberrant changes in the autonomic nervous system that are detected even before the onset of other symptoms. Subtle cognitive dysfunction may start before other clinical manifestations. The aim of the present study was to investigate the autonomic nervous system response to mental arithmetic and the relationship between the autonomic and cognitive/motor function in presymptomatic and early Huntington's disease. We examined 15 presymptomatic Huntington's disease gene carriers (PHD), 15 early Huntington's disease patients (EHD) and 30 healthy controls. PHD and EHD groups were determined according to Unified Huntington's Disease Rating Scale (UHDRS) motor score. ECG, heart rate, systolic and diastolic blood pressure, and cutaneous laser Doppler flux were measured during rest and during a simple mental arithmetic test. UHDRS cognitive test battery was applied to determine cognitive dysfunction. During mental arithmetic, the heart rate of PHD/EHD increased significantly less than that of controls. Decreased microvascular response to mental arithmetic was found in EHD. Significant correlations for the PHD/EHD group were found between laser Doppler flux response and Symbol Digit Modalities Test score, and between laser Doppler flux response and UHDRS motor score. It seems that central autonomic dysregulation of cardiovascular system in Huntington's disease goes along with the degeneration of other central neuronal systems. This finding is relevant as it could enable simple and noninvasive testing of disease progression.

Relationship of Mediterranean Diet and Caloric Intake to Phenoconversion in Huntington Disease

Adherence to Mediterranean-type diet (MeDi) may delay onset of Alzheimer and Parkinson diseases. Whether adherence to MeDi affects time to phenoconversion in Huntington disease (HD), a highly penetrant, single-gene disorder, is unknown. To determine if MeDi modifies the time to clinical onset of HD (phenoconversion) in premanifest carriers participating in Prospective Huntington at Risk Observational Study (PHAROS), and to examine the effects of body mass index and caloric intake on time to phenoconversion. A prospective cohort study of 41 Huntington study group sites in the United States and Canada involving 1001 participants enrolled in PHAROS between July 1999 and January 2004 who were followed up every 9 months until 2010. A total of 211 participants aged 26 to 57 years had an expanded CAG repeat length (≥ 37). A semiquantitative food frequency questionnaire was administered 33 months after baseline. We calculated daily gram intake for dairy, meat, fruit, vegetables, legumes, cereals, fish, monounsaturated and saturated fatty acids, and alcohol and constructed MeDi scores (0-9); higher scores indicate higher adherence. Demographics, medical history, body mass index, and Unified Huntington's Disease Rating Scale (UHDRS) score were collected. Cox proportional hazards regression models to determine the association of MeDi and phenoconversion. RESULTS Age, sex, caloric intake, education status, and UHDRS motor scores did not differ among MeDi tertiles (0-3, 4-5, and 6-9). The highest body mass index was associated with the lowest adherence to MeDi. Thirty-one participants phenoconverted. In a model adjusted for age, CAG repeat length, and caloric intake, MeDi was not associated with phenoconversion (P for trend = 0.14 for tertile of MeDi, and P = .22 for continuous MeDi). When individual components of MeDi were analyzed, higher dairy consumption (hazard ratio, 2.36; 95% CI, 1.0-5.57; P = .05) and higher caloric intake (P = .04) were associated with risk of phenoconversion. MeDi was not associated with phenoconversion; however, higher consumption of dairy products had a 2-fold increased risk and may be a surrogate for lower urate levels (associated with faster progression in manifest HD). Studies of diet and energy expenditure in premanifest HD may provide data for interventions to modify specific components of diet that may delay the onset of HD.

Impact of cognitive and behavioural changes on quality of life in Huntington's disease

Huntington's disease (HD) is associated with both cognitive and behavioural changes in addition to movement disorder. We aimed to investigate relationships between self-reported Quality of Life (QoL), motor symptoms, cognitive deficits and behavioural problems in HD. Twenty outpatients with HD (mean age 53.85 years, SD=7.05; mean education 13.30 years, SD=2.49; mean years since motor onset 6.87 years, SD=4.93) were recruited from the Queen Elizabeth Psychiatric Hospital, Birmingham, UK. QoL was assessed using the SF-36 questionnaire. Executive measures were used to assess attention, verbal fluency, working memory and inhibition. Behavioural measures included the Problem Behaviours Assessment-Short Form (PBA-S) to assess depressive symptoms, and the frontal systems behaviour scale (FrsBe) to assess apathy, disinhibition and executive dysfunction. Unified Huntington's Disease Rating Scale motor scores (UHDRS-MS) were also recorded. QoL scores were not related to UHDRS-MS, PBA-S depression scores, or performance on specific executive tasks. However, QoL was lower for patients who exhibited greater apathy and showed more evidence of executive dysfunction in their everyday behaviour as assessed by the FrsBe. Our findings imply that behavioural evidence of apathy and executive problems are closely related to self-reported QoL in HD, and that these factors can impact patients’ wellbeing more than movement disorder.

Reflexive and volitional saccades: Biomarkers of Huntington disease severity and progression

Background Huntington disease (HD) is a genetic, neurodegenerative disorder characterized by chorea, behavioral co-morbidities, cognitive deficits, and eye movement abnormalities. We sought to evaluate whether reflexive and voluntary orienting prove useful as biomarkers of disease severity in HD. Methods Eleven HD subjects were evaluated with the motor subscale of the Unified Huntington Disease Rating Scale (UHDRS) and the Montreal Cognitive Assessment. Using an infrared eye tracker, we also measured latency and error rates of horizontal and vertical saccades using prosaccade and antisaccade eye movement tasks. We calculated simple and age-controlled correlations between eye movement and clinical parameters. Results Prosaccade latency correlated with total chorea score. HD patients with greater clinical severity were significantly slower in the prosaccade task. Antisaccade error rate also correlated with UHDRS motor score and total chorea score. HD patients with greater clinical severity as measured by either measure made significantly more errors in the antisaccade task. All these correlations remained significant even when age was taken into account. Conclusions The results of the present age-controlled study show for the first time that both reflexive and voluntary eye motor control in HD patients decrease with increase in disease severity suggesting declines in both motor and cognitive function. Thus, relatively simple eye movement parameters (latency and error rate) obtained from simple tasks (prosaccade and antisaccade) may serve as quantitative biomarkers of sub-cortical and cortical disease severity in HD and could aid in predicting onset, distinguishing subtypes, or evaluating disease progression and novel therapies.

Huntington's Disease: Effect of Memantine on FDG-PET Brain Metabolism?

In this open-label pilot study, the authors evaluated the effect of memantine on the distribution of brain glucose metabolism in four Huntington's disease (HD) patients as determined by serial 18-fluoro-deoxyglucose [F(18)]FDG-PET scans over a period of 3-4 months (90-129 days, with one patient choosing to continue treatment over the 18-month follow-up period). The treatment regimen was well tolerated. No significant differences on neuropsychological parameters before and after treatment were detected; but the patient who continued treatment did not deteriorate at 18 months' reevaluation, whereas the three patients who had stopped treatment after 3 to 4 months had minor progression in all cognitive domains on re-evaluation 12 months after the end of treatment.

Magnetic resonance spectroscopy biomarkers in premanifest and early Huntington disease

To evaluate in vivo brain metabolite differences in control subjects, individuals with premanifest Huntington disease (pre-HD), and individuals with early HD using ¹H magnetic resonance spectroscopy (MRS) and to assess their relationship with motor performance. Eighty-five participants (30 controls, 25 pre-HD, and 30 early HD) were recruited as part of the TRACK-HD study. Eighty-four were scanned at 3 T with single-voxel spectroscopy in the left putamen. Disease burden score was >220 among pre-HD individuals. Subjects underwent TRACK-HD motor assessment including Unified Huntington's Disease Rating Scale (UHDRS) motor scoring and a novel quantitative motor battery. Statistical analyses included linear regression and one-way analysis of variance. Total N-acetylaspartate (tNAA), a neuronal integrity marker, was lower in early HD (∼15%) vs controls (p < 0.001). N-acetylaspartate (NAA), a constituent of tNAA, was lower in pre-HD (∼8%) and early HD (∼17%) vs controls (p < 0.05). The glial cell marker, myo-inositol (mI), was 50% higher in early HD vs pre-HD (p < 0.01). In early HD, mI correlated with UHDRS motor score (R² = 0.23, p < 0.05). Across pre-HD and early HD, tNAA correlated with performance on a tongue pressure task (R² = 0.30, p < 0.0001) and with disease burden score (R² = 0.17, p < 0.005). We demonstrate lower putaminal tNAA in early HD compared to controls in a cross-section of subjects. A novel biomarker role for mI in early HD was also identified. These findings resolve disagreement in the literature about the role of MRS as an HD biomarker. We conclude that putaminal MRS measurements of NAA and mI are promising potential biomarkers of HD onset and progression.

Fall risk assessment using the Tinetti mobility test in individuals with Huntington's disease

The Tinetti Mobility Test (TMT) is a clinical balance and gait test that predicts fall risk in the elderly. This study examined the concurrent validity, usefulness of the TMT as a fall risk screening tool, and the potential ability of the TMT to predict falls in individuals with Huntington's disease (HD). Data from a retrospective review of 94 patient records were used. TMT scores were correlated with Unified Huntington Disease Rating Scale (UHDRS) motor scores. The ability of the TMT to accurately assess fall risk was determined using validity index measures. Logistic regression was used to assess the ability of the TMT to predict falls. TMT scores correlated with UHDRS motor scores (r(s) = -0.751, P < 0.0001). Using a cutoff value of 21, the TMT had a sensitivity of 74% and a specificity of 60% to identify fallers. Lower TMT scores and younger age were significant predictors of falls. The TMT is a valid tool for assessing balance and gait status and fall risk of individuals with HD.

F09 Progression of motor symptoms prior to diagnosis in HD-gene carriers

BackgroundIdentifying sensitive, specific, and reliable indicators of disease progression in Huntington's disease (HD) is key to selecting the appropriate population for clinical trials that assess novel treatments that may slow...

Poster 19: Validation of the Modified Motor Score (mMS): A Subscale of the Unified Huntington's Disease Rating Scale (UHDRS) Motor Score

Background The UHDRS assesses various aspects of clinical function and capacity in Huntington's disease (HD). Items in the UHDRS motor section are heterogeneous, relate to various aspects of HD motor symptoms, and can be categorized as eye, involuntary, or voluntary movements. Items relating to voluntary movements appear to correlate strongly with the extent of disability, whereas the correlation between chorea and disability is less pronounced. These findings are supported by a preliminary analysis of baseline data from a phase 2 study of pridopidine (ACR16) in patients with HD (ACR16C007). Methods Motor scales from the UHDRS motor section were analyzed according to their metric properties and correlation with measures of functional disability, assessed by total functional capacity (TFC) and functional assessment (FA) scales. The following motor scales were analyzed, using data from the CARE-HD study dataset: UHDRS motor section items (TMS); TMS excluding eye movements; modified motor scale (mMS: TMS excluding eye movements, chorea, and dystonia), which assessed voluntary movements; chorea; and eye movements. Results The mMS subscale correlated strongly with TMS (ρ = 0.89; p Conclusions The mMS subscale appears to be a valid modification of the UHDRS motor score and has functional relevance, as demonstrated by strong correlations with functional assessments. This subscale of the UHDRS motor sections may offer a simple method of assessing response to treatment in patients with HD.

Mobility and falls in people with Huntington's disease

Objective:The aim of this study was to estimate the frequency of falls in people with Huntington's disease (HD) and make a preliminary assessment of tools appropriate for assessing the risk...

Electrophysiological deterioration over time in patients with Huntington's disease

In recent studies aimed at assessing the effects of original therapeutic strategies applied to patients with Huntington's disease (HD), we observed informative changes in electrophysiological results that recovered normal values in coherence with clinical improvement. However, longitudinal studies were lacking for determining whether electrophysiological test results evolve in parallel with clinical markers of the natural course of the disease and could consequently provide objective quantifiable markers of disease progression. For this purpose, electrophysiological testing was performed annually in a cohort of 20 patients with HD over a 2-year period (three examinations). The study included the recording of sympathetic skin responses and blink reflexes (BRs) to supraorbital nerve stimulation, long latency reflexes (LLRs) and somatosensory evoked potentials (SEPs) to median nerve stimulation, and cortical silent periods (CSPs) to transcranial magnetic stimulation. Clinical evaluation was based on the Total Functional Capacity scale (TFC) and the Motor part of the Unified Huntington's Disease Rating Scale (UHDRS). A significant deterioration with time was found for BR latency, LLR presence, various SEP parameters (parietal N20 peak amplitude and frontal N30 presence) and CSP duration. Attenuation of the N20 peak and CSP shortening correlated with functional decline, as assessed by the TFC score, whereas delayed BR and LLR abolition correlated with UHDRS Motor score deterioration. This study shows that several electrophysiological parameters are closely associated with dysfunction of various neural circuits in HD and could be useful markers of disease progression.

Progressive striatal and cortical dopamine receptor dysfunction in Huntington's disease: a PET study.

We have studied the progression of striatal and extrastriatal post-synaptic dopaminergic changes in a group of 12 patients with Huntington's disease using serial (11)C-raclopride PET, a specific marker of D2 dopamine receptor binding. All patients had two (11)C-raclopride PET scans 29.2 +/- 12.8 months apart, and six of them had a third scan 13.2 +/- 3.9 months later. We found a mean annual 4.8% loss of striatal (11)C-raclopride binding potential (BP) between the first and second scans, and a 5.2% loss between the second and third scans. Statistical Parametric Mapping (SPM) localized significant baseline reductions in (11)C-raclopride BP in both striatal and extrastriatal areas, including amygdala, temporal and frontal cortex in Huntington's disease compared with normal subjects matched for age and sex. When the (11)C-raclopride scans performed 29 months after the baseline scans were considered, SPM revealed further significant striatal, frontal and temporal reductions in (11)C-raclopride BP in Huntington's disease. Cross-sectional Unified Huntington's Disease Rating Scale (UHDRS) scores correlated with (11)C-raclopride binding, but there was no correlation between individual changes in UHDRS motor scores and changes in striatal binding. Performance on all neuropsychological measures deteriorated with time but only the accuracy score of the one-touch Tower of London test correlated significantly with striatal and putamen D2 binding. In summary, serial (11)C-raclopride PET demonstrates a linear progression of striatal loss of D2 receptors in early clinically affected Huntington's disease patients over 3 years. SPM also revealed a progressive loss of temporal and frontal D2 binding. Changes over time in clinical scores and in neuropsychological assessments, except for measures of planning, did not correlate with striatal D2 binding. This probably reflects both contributions from other affected brain structures and high variance in these measures.