Overnight unilateral withdrawal of thalamic deep brain stimulation to identify reversibility of gait disturbances.

BACKGROUND: Gait disturbances are frequent side effects related to chronic thalamic deep brain stimulation (DBS) that may persist beyond cessation of stimulation. OBJECTIVE: We investigate the temporal dynamics and clinical effects of an overnight unilateral withdrawal of DBS on gait disturbances. METHODS: 10 essential tremor (ET) patients with gait disturbances following thalamic DBS underwent clinical and kinematic gait assessment ON DBS, after instant and after an overnight unilateral withdrawal of DBS of the hemisphere corresponding to the non-dominant hand. The effect of stimulation withdrawal on gait performance was quantitatively assessed using clinical rating and inertial sensors and compared to gait kinematics from 10 additional patients with ET but without subjective gait impairment. DBS leads were reconstructed and active contacts were visualized in relation to surrounding axonal pathways and nuclei. RESULTS: Patients with gait deterioration following DBS exhibited greater excursion of sagittal trunk movements and greater variability of stride length and shank range of motion compared to ET patients without DBS and without subjective gait impairment. Overnight but not instant unilateral withdrawal of DBS resulted in significant reduction of SARA axial subscore and stride length variability, while tremor control of the dominant hand was preserved. Cerebellothalamic, striatopallidofugal and corticospinal fibers were in direct vicinity of transiently deactivated contacts. CONCLUSION: Non-dominant unilateral cessation of VIM DBS may serve as a therapeutic option as well as a diagnostic intervention to identify stimulation-induced gait disturbances that is applicable in ambulatory settings due to preserved functionality of the dominant hand.

Improvement of freezing of gait in patients with Parkinson's disease by music exercise therapy: a study protocol for a randomized controlled trial.

BACKGROUND: Progression of freezing of gait, a common pathological gait in Parkinson's disease, is an important risk factor for diagnosing the disease and has been shown to predispose patients to easy falls, loss of independent living ability, and reduced quality of life. Treating Parkinson's disease with freezing of gait is very difficult, while the use of medicine and operation has been ineffective. Music exercise therapy, which entails listening to music as you exercise, has been proposed as a treatment technology that can change patients' behavior, emotions, and physiological activity. In recent years, music exercise therapy has been widely used in treatment of motor disorders and neurological diseases and achieved remarkable results. Results from our earlier pilot study revealed that music exercise therapy can improve the freezing of gait of Parkinson's patients and improve their quality of life. Therefore, we aim to validate clinical efficacy of this therapy on freezing of gait of Parkinson's patients using a larger sample size. METHODS/DESIGN: This three-arm randomized controlled trial will evaluate clinical efficacy of music exercise therapy in improving the freezing of gait in Parkinson's patients. We will recruit a total of 81 inpatients with Parkinson's disease, who meet the trial criteria. The patients will randomly receive music exercise with and without music as well as routine rehabilitation therapies, followed by analysis of changes in their gait and limb motor function after 4 weeks of intervention. We will first use a three-dimensional gait analysis system to evaluate changes in patients' gait, followed by assessment of their limb function, activity of daily living and fall risk. DISCUSSION: The findings of this trial are expected to affirm the clinical application of this therapy for future management of the disease. TRIAL REGISTRATION: Chinese Clinical Trial Registry ChiCTR1900026063 . Registered on September 20, 2019.

Visual cues added to a virtual environment paradigm do not improve motor arrests in Parkinson's disease.

Objective. Elucidating how cueing alleviates freezing of gait (FOG) in Parkinson's disease (PD) would enable the development of more effective, personalized cueing strategies. Here, we aimed to validate a visual cueing virtual environment (VE) paradigm for future use in e.g. neuroimaging studies and behavioral studies on motor timing and scaling in PD patients with FOG.Approach. We included 20 PD patients with FOG and 16 age-matched healthy control subjects. Supine participants were confronted with a VE displaying either no cues, bars or staircases. They navigated forward using alternate suppression of foot pedals. Motor arrests (as proxy for FOG), and measures of motor timing and scaling were compared across the three VE conditions for both groups.Main results. VE cues (bars and staircases) did not reduce motor arrests in PD patients and healthy control subjects. The VE cues did reduce pedal amplitude in healthy control subjects, without effects on other motor parameters.Conclusion. We could not validate a visual cueing VE paradigm to study FOG. The VE cues possibly failed to convey the necessary spatial and temporal information to support motor timing and scaling. We discuss avenues for future research.

Inertial measurement unit compared to an optical motion capturing system in post-stroke individuals with foot-drop syndrome.

BACKGROUND: Functional electrical stimulation (FES) can be used for compensation of foot-drop for post-stroke individuals by pre-programmed fixed stimulation; however, this stimulation seems no more effective than mechanical ankle foot orthoses. OBJECTIVE: We evaluated the metrological quality of inertial sensors for movement reconstruction as compared with the gold-standard motion capturing system, to couple FES with inertial sensors to improve dorsiflexion on the paretic side, by using an adaptive stimulation taking into account individuals' performance post-stroke. METHODS: Adults with ischemic or hemorrhagic stroke presenting foot-drop and able to walk 10m, were included from May 2016 to June 2017. Those with passive ankle dorsiflexion<0° with the knee stretched were excluded. Synchronous gait was analyzed with the VICON© system as the gold standard and inertial measurement units (IMUs) worn by participants. The main outcome was the dorsiflexion angle at the heel strike and mid-swing phase obtained from IMUs and the VICON system. Secondary outcomes were: stride length, walking speed, maximal ankle dorsiflexion velocity and fatigue detection. RESULTS: We included 26 participants [18 males; mean age 58 (range 45-84) years]. During heel strike, the dorsiflexion angle measurements demonstrated a root mean square error (RMSE) of 5.5°; a mean average error (MAE) of 3.9°; Bland-Altman bias of -0.1° with limits of agreement -10.9° to+10.7° and good intra-class correlation coefficient (ICC) at 0.87 between the 2 techniques. During the mid-swing phase, the RMSE was 5.6; MAE 3.7°; Bland-Altman bias -0.9° with limits of agreement -11.7° to+9.8° and ICC 0.88. Good agreement was demonstrated for secondary outcomes and fatigue detection. CONCLUSIONS: IMU-based reconstruction algorithms were effective in measuring ankle dorsiflexion with small biases and good ICCs in adults with ischemic or hemorrhagic stroke presenting foot-drop. The precision obtained is sufficient to observe the fatigue influence on the dorsiflexion and therefore to use IMUs to adapt FES.

Multiple intracranial lesions as the unusual imaging features of Hashimoto's encephalopathy: A case report.

RATIONALE: Hashimoto's encephalopathy (HE) is associated with autoimmune thyroid disease and is complex, diverse, and easily misdiagnosed. However, if HE is diagnosed and treated in a timely manner, an optimal prognosis may be achieved. PATIENT CONCERNS: We presented a case of a 63-year-old female patient with paroxysmal dizziness, unsteady gait, emotion apathy, progressive cognitive impairment, and unusual magnetic resonance imaging (MRI) findings. DIAGNOSES: After suffering for almost 8 years, the patient was diagnosed with HE based on clinical manifestation, abnormal electroencephalogram, unusual MRI findings, sensitivity to cortisol treatment, and characteristic high antithyroid peroxidase antibody (TpoAb) titer. INTERVENTIONS: The patient continued regular glucocorticoids therapy after intravenous methylprednisolone pulse therapy, neurotrophic drugs, traditional Chinese medicine and rehabilitation to relieve hypermyotonia and cognitive impairment. OUTCOMES: After combined treatment, the patient's symptoms, electroencephalogram (EEG), MRI, and the TpoAb titer gradually improved. However, the patient had to stop glucocorticoids treatment because of severe osteoporosis, fractures and other adverse reactions. Her symptoms fluctuated, and her TpoAb titer increased again. LESSONS: HE may cause highly heterogeneous clinical features, particularly MRI findings. Withdrawal of the systematic glucocorticoids treatment can lead to varied outcomes in these patients.

Clinical-oriented Three-dimensional Gait Analysis Method for Evaluating Gait Disorder.

Three-dimensional gait analysis (3DGA) is shown to be a useful clinical tool for the evaluation of gait abnormality due to movement disorders. However, the use of 3DGA in actual clinics remains uncommon. Possible reasons could include the time-consuming measurement process and difficulties in understanding measurement results, which are often presented using a large number of graphs. Here we present a clinician-friendly 3DGA method developed to facilitate the clinical use of 3DGA. This method consists of simplified preparation and measurement processes that can be performed in a short time period in clinical settings and intuitive results presentation to facilitate clinicians' understanding of results. The quick, simplified measurement procedure is achieved by the use of minimum markers and measurement of patients on a treadmill. To facilitate clinician understanding, results are presented in figures based on the clinicians' perspective. A Lissajous overview picture (LOP), which shows the trajectories of all markers from a holistic viewpoint, is used to facilitate intuitive understanding of gait patterns. Abnormal gait pattern indices, which are based on clinicians' perspectives in gait evaluation and standardized using the data of healthy subjects, are used to evaluate the extent of typical abnormal gait patterns in stroke patients. A graph depicting the analysis of the toe clearance strategy, which depicts how patients rely on normal and compensatory strategies to achieve toe clearance, is also presented. These methods could facilitate implementation of 3DGA in clinical settings and further encourage development of measurement strategies from the clinician's point of view.

Electrophysiological Investigations in Orthostatic Myoclonus: Preliminary Findings.

We report the clinical and electrophysiological findings in seven patients with orthostatic myoclonus (OM) associated with gait initiation failure and falls. OM is one of the causes of unsteadiness of stance and gait, and it may develop as a symptom of neurodegenerative disorders. Both positive myoclonic bursts and negative myoclonus may be seen in electrophysiological recordings, and electrophysiological analysis suggests a subcortical origin for OM.

A combined cognitive and gait quantification to identify normal pressure hydrocephalus from its mimics: The Geneva's protocol.

OBJECTIVES: Idiopathic normal pressure hydrocephalus (iNPH) is very prevalent in aging, underdiagnosed, and represents a rare cause of reversible neurological condition. The clinical triad of iNPH - gait, cognitive and urinary symptoms - and its neuroradiological features (i.e. ventriculomegaly) are not specific and found a various neurodegenerative and/or vascular conditions. We present our iNPH standardized protocol at the Geneva University Hospitals involving a multispecialty team of behavioral neurologists, neurosurgeons, neuropsychologists, engineers, and physical therapists. Based on a pragmatic approach, the goal of this protocol is to improve the identification of older patients with iNPH from its mimics (i.e. vascular dementia or other parkinsonian syndromes). PATIENTS AND METHODS: We used a novel standardized paradigm with a simultaneous quantification of cognition and gait (dual task gait assessment and mental imagery of locomotion) before and 24h after CSF tapping. RESULTS: We assessed 125 patients with suspicion of iNPH (age: 75.9±7.4years; 34.4% female) in 5 years: 54.4% of probable/possible iNPH and 45.6% of mimics. Among the mimics, vascular dementia (24.6%) and patients with multifactorial conditions (19.9%) were the two most common diagnoses. A total of 27 patients with iNPH (39.7%) accepted the neurosurgical shunt procedure. CONCLUSION: This report shows that a quantified gait and cognitive assessment - using dual-task paradigms - before and after CSF tapping is feasible among older adults with suspicion of iNPH and that this multidisciplinary approach contributes to the identification of patients with iNPH from its mimics.

[Foot drop treatment by implantation of a neuroprosthesis (ActiGait®)]. / Behandlung des Fallfußes durch Implantation einer Neuroprothese (ActiGait®).

OBJECTIVE: Gait improvement by restoring dorsiflexion using a neuroprosthesis implant. INDICATIONS: Foot drop with damage to the 1st motor neuron; passive mobility in ankle is possible; adult patients. CONTRAINDICATIONS: Foot drop with peripheral damage and injury to the peroneal nerve; already implanted stimulators (e.g., defibrillator, pacemaker, or pain stimulator); severe anesthesia risks in multimorbid patients. SURGICAL TECHNIQUE: Surgery in lateral position. Searching for the peroneal nerve after dorsal incision in the popliteal fossa, using the medial edge of the biceps femoris as anatomic landmark. After identification of the motor branch of the peroneal nerve by positive dorsiflexion after using electrostimulation apply the electrode cuff on the nerve. Epifascial implantation of stimulation body lateral at the middle third of the thigh over the tractus iliotibialis. POSTOPERATIVE MANAGEMENT: Pain-adapted full weight bearing, no knee flexion more than 90° for 4-6 weeks, activation of neuroprosthesis 3 weeks after surgery, physiotherapy with gait training is required. RESULTS: Between 2013 and 2015, implantation of the neuroprosthesis was performed in 21 patients (13 men/8 women) with chronic foot drop due to a central lesion. Significant improvement in walking speed measured with the 10 meter walk test (11.8 ± 5.4 s to 7.9 s ± 3.4; p = 0.007), in gait endurance with 6 min walk test (212.2 ± 75.5 m to 306.4 ± 96.4 m; p ≤ 0.001), and in gait performance using the Emory Functional Ambulation Profile (105.9 ± 49.7 s to 63.2 ± 31. 3 s; p ≤ 0.001). No patient required surgical revision. Postoperative bleeding was recorded in one case (4%). Patient satisfaction and improvement in mobility and quality of life could be achieved (95% and 90%, respectively).

Delaying Ambulation Mode Transition Decisions Improves Accuracy of a Flexible Control System for Powered Knee-Ankle Prosthesis.

Powered lower limb prostheses can assist users in a variety of ambulation modes by providing knee and/or ankle joint power. This study's goal was to develop a flexible control system to allow users to perform a variety of tasks in a natural, accurate, and reliable way. Six transfemoral amputees used a powered knee-ankle prosthesis to ascend/descend a ramp, climb a 3- and 4-step staircase, perform walking and standing transitions to and from the staircase, and ambulate at various speeds. A mode-specific classification architecture was developed to allow seamless transitions at four discrete gait events. Prosthesis mode transitions (i.e., the prosthesis' mechanical response) were delayed by 90 ms. Overall, users were not affected by this small delay. Offline classification results demonstrate significantly reduced error rates with the delayed system compared to the non-delayed system (p < 0.001). The average error rate for all heel contact decisions was 1.65% [0.99%] for the non-delayed system and 0.43% [0.23%] for the delayed system. The average error rate for all toe off decisions was 0.47% [0.16%] for the non-delayed system and 0.13% [0.05%] for the delayed system. The results are encouraging and provide another step towards a clinically viable intent recognition system for a powered knee-ankle prosthesis.

[Functional electrostimulation for drop foot treatment : Clinical outcome]. / Funktionelle Elektrostimulation zur Therapie des neurogenen Fallfußes : Klinisches Outcome.

INTRODUCTION: Neurologic paralysis of the foot due to damage to the central nervous system is primarily caused by a cerebral insult. The ankle-foot orthosis (AFO), which is the classical conservative treatment option, is associated with drawbacks, e.g., increased contractures, limited mobilization from the sitting position, and cosmetic aspects. METHODS: Functional external electrostimulation (FES) is an suitable treatment method for patients with a central lesion and intact peroneal nerve. Based on this method, the neuroprosthesis is a dynamic therapy option in the form of an implantable nerve stimulator (ActiGait® system, Otto Bock, Duderstadt, Germany) which is placed directly on the motor branch of the peroneus nerve and results in active foot lifting. The aim of the present study is to evaluate the clinical effect of the ActiGait® system with regard to its suitability for everyday use by means of gait tests with an emphasis on time-distance parameters and to compare it with the current literature. RESULTS AND CONCLUSION: In this retrospective study, the clinical results after implantation of the ActiGait® system are presented and evaluated. In summary, the implantation of a neuroprosthesis in patients with stroke-related drop foot represents a sensible and promising therapy option.

Attention modulation during motor preparation in Parkinsonian freezers: A time-frequency EEG study.

OBJECTIVE: To investigate the cortical integration of attentional stimuli during motor preparation in parkinsonian patients with freezing of gait (FoG, n=12) or without freezing of gait (n=13), and in aged-matched healthy controls (n=13). We hypothesized that interference between attention and action in freezers would be revealed by differences in cortical modulation during this dual task. METHODS: Attention during step preparation was modulated by means of an auditory oddball discrimination task. EEG oscillations in different frequency bands were measured for the attentional stimulus and the motor stimulus. RESULTS: Over the 500ms following the sound, low-frequency power increased in all three groups. This was followed by a power decrease in mid-range frequencies after both target and standard sounds in the healthy controls and in the non-FoG group. In contrast, EEG oscillations in the beta band were impaired in the FoG group, who notably failed to display event-related desynchronization after perceiving the sound. CONCLUSIONS: An attentional stimulus was able to trigger event-related desynchronization before motor preparation in the non-FoG group but not in the FoG group. SIGNIFICANCE: In the FoG group, stimulus discrimination was maintained but the coupling between attention and motor preparation was impaired.

[Functional Electrical Stimulation in a Case of Drop Foot and Atactic Gait: Expert Assessment of Contested Medical Aids]. / Funktionelle Elektrostimulation bei Fußheberschwäche und ataktischem Gangbild: Gutachterliches Vorgehen bei streitiger Hilfsmittelversorgung.

Expert medical opinions are necessary in pretrial cases and other legal matters. They act as means of evidence for administrative bodies and courts. It may be necessary to adapt the method of evaluation depending upon the issue or subject matter to be evaluated. We report on a social court case, which needed to answer the question of the medical necessity of a functional electrical stimulation orthosis prescribed to improve the function of a drop foot accompanied by an atactic gait disorder. The claimant suffered from a stroke, which had occurred several years before. Her aids were an ankle-foot-orthosis for foot lift and a wheeled walker. The current treatment was to be augmented by the disputed device. The statutory health insurance declined to meet the costs. They failed to find relevant benefits after analysis of video tapes of the patient's gait while using an electrical stimulation orthosis. The social court requested an expert opinion to answer the question as to whether or not there was a relevant functional benefit to using functional electrical stimulation over the existing orthosis or to an alternative treatment. Video documentation was desired by the court. We used the clinic's gait analysis laboratory, which is equipped with a gait course and the claimed video documentation. Standardised video documentation offers substantial advantages for answering forensic questions such as these. It assures reproducibility and comparability of all tested scenarios, with objectification of the individual advantages or limitations. This gain in both validity and reliability fulfills the scientific requirements placed upon an expert assessment.

Closed-loop auditory feedback for the improvement of gait in patients with Parkinson's disease.

OBJECTIVE: To study the effects of closed-loop auditory feedback cues, corresponding to patient self-motion, on the walking abilities of patients with Parkinson's disease, in comparison to the effects of open-loop (metronome-like) auditory cues. METHODS: Sixteen patients on their regular medication schedule participated. A device which translates patient steps into a clicking cue sounded by earphones provides auditory feedback for gait pattern correction. Walking speed and stride length are measured. Device-on performance is compared to device-off performance and to baseline performance, and short-term residual performance following 15 min rest is compared to baseline performance. RESULTS: Device-on performance was found to represent, on average, 10.72%±19.53% improvement in walking speed and 6.77%±6.57% improvement in stride length with respect to device-off performance, and an average improvement of 12.37%±18.37% in walking speed and 4.30%±3.64% in stride length with respect to baseline performance, with 87.5% and 81.25% of the patients improving their walking speed and stride length, respectively. Average short-term residual performance showed 9.09%±6.34% improvement in walking speed and 6.52%±4.36% improvement in stride length, compared to baseline performance, with 85.71% of the patients improving in both walking speed and stride length. CONCLUSIONS: Closed-loop auditory feedback improves walking speed and stride length in patients with Parkinson's disease. Improvement in walking speed is more pronounced than improvement in stride length. Yet, in contrast to previously studied open-loop auditory cues, training with closed-loop auditory feedback results in non-negligible on-line improvement in stride length. Moreover, in contrast to previously reported results of open-loop auditory cuing, training with closed-loop auditory feedback has residual effects, which suggest the examination of this approach in a comprehensive therapy program.

Effect of health Baduanjin Qigong for mild to moderate Parkinson's disease.

AIM: The present study investigated the effectiveness of Baduanjin Qigong on symptoms related to gait, functional mobility and sleep in Parkinson disease (PD) patients. METHODS: A total of 100 patients (age 67.53 ± 8.56 years, range 55-80 years) with mild to moderate PD were randomly assigned to two groups. Participants in the Baduanjin Qigong group (BQG) received a Baduanjin Qigong program, consisting of four 45-min sessions each week and daily walking 30 min for 6 months. Participants in the control group were carried out daily walking for 30 min. Pre- and post-intervention testing was carried out to assess sleep quality, fatigue, functional mobility and gait performance in these participants. RESULTS: After the 6-month Baduanjin Qigong intervention, the BQG showed sleep quality improvements in the Unified Parkinson's Disease Rating Scale score (P = 0.049), Parkinson's Disease Sleep Scale-2 (PDSS-2) total score (P = 0.039), Motor Symptoms at Night (PDSS-2) score (P = 0.039), PD Symptoms at Night (PDSS-2) score (P = 0.029), Disturbed Sleep (PDSS-2) score (P = 0.037). The BQG showing functional mobility capacity greater improvements in the Berg Balance Scale (P = 0.041) and 6-minute walk test (P = 0.042), and greater decrease in the Timed Up & Go (s; P = 0.046). The BQG showing gait function increased in the gait speed (m/s; P = 0.011). However, this was not the case for the control group, which remained at the same level as pretest performance. CONCLUSIONS: BQG improved the gait performance, functional mobility and sleep quality in older adults with PD at the 6-month follow up. It is as an alternative home exercise program for older adults in rehabilitation for PD. Geriatr Gerontol Int 2016; 16: 911-919.

Sensory gating deficits in the attenuated psychosis syndrome.

BACKGROUND: Individuals with an "Attenuated Psychosis Syndrome" (APS) have a 20-40% chance of developing a psychotic disorder within two years; however it is difficult to predict which of them will become ill on the basis of their clinical symptoms alone. We examined whether P50 gating deficits could help to discriminate individuals with APS and also those who are particularly likely to make a transition to psychosis. METHOD: 36 cases meeting PACE (Personal Assessment and Crisis Evaluation) criteria for the APS, all free of antipsychotics, and 60 controls performed an auditory conditioning-testing experiment while their electroencephalogram was recorded. The P50 ratio and its C-T difference were compared between groups. Subjects received follow-up for up to 2 years to determine their clinical outcome. RESULTS: The P50 ratio was significantly higher and C-T difference lower in the APS group compared to controls. Of the individuals with APS who completed the follow-up (n=36), nine (25%) developed psychosis. P50 ratio and the C-T difference did not significantly differ between those individuals who developed psychosis and those who did not within the APS group. CONCLUSION: P50 deficits appear to be associated with the pre-clinical phase of psychosis. However, due to the limitations of the study and its sample size, replication in an independent cohort is necessary, to clarify the role of P50 deficits in illness progression and whether this inexpensive and non-invasive EEG marker could be of clinical value in the prediction of psychosis outcomes amongst populations at risk.

A randomized trial of functional electrical stimulation for walking in incomplete spinal cord injury: Effects on walking competency.

BACKGROUND: Multi-channel surface functional electrical stimulation (FES) for walking has been used to improve voluntary walking and balance in individuals with spinal cord injury (SCI). OBJECTIVE: To investigate short- and long-term benefits of 16 weeks of thrice-weekly FES-assisted walking program, while ambulating on a body weight support treadmill and harness system, versus a non-FES exercise program, on improvements in gait and balance in individuals with chronic incomplete traumatic SCI, in a randomized controlled trial design. METHODS: Individuals with traumatic and chronic (≥18 months) motor incomplete SCI (level C2 to T12, American Spinal Cord Injury Association Impairment Scale C or D) were recruited from an outpatient SCI rehabilitation hospital, and randomized to FES-assisted walking therapy (intervention group) or aerobic and resistance training program (control group). Outcomes were assessed at baseline, and after 4, 6, and 12 months. Gait, balance, spasticity, and functional measures were collected. RESULTS: Spinal cord independence measure (SCIM) mobility sub-score improved over time in the intervention group compared with the control group (baseline/12 months: 17.27/21.33 vs. 19.09/17.36, respectively). On all other outcome measures the intervention and control groups had similar improvements. Irrespective of group allocation walking speed, endurance, and balance during ambulation all improved upon completion of therapy, and majority of participants retained these gains at long-term follow-ups. CONCLUSIONS: Task-oriented training improves walking ability in individuals with incomplete SCI, even in the chronic stage. Further randomized controlled trials, involving a large number of participants are needed, to verify if FES-assisted treadmill training is superior to aerobic and strength training.

Walking economy during cued versus non-cued self-selected treadmill walking in persons with Parkinson's disease.

BACKGROUND: Gait impairments related to Parkinson's disease (PD) include variable step length and decreased walking velocity, which may result in poorer walking economy. Auditory cueing is a common method used to improve gait mechanics in PD that has been shown to worsen walking economy at set treadmill walking speeds. It is unknown if auditory cueing has the same effects on walking economy at self-selected treadmill walking speeds. OBJECTIVES: To determine if auditory cueing will affect walking economy at self-selected treadmill walking speeds and at speeds slightly faster and slower than self-selected. METHODS: Twenty-two participants with moderate PD performed three, 6-minute bouts of treadmill walking at three speeds (self-selected and ± 0.22 m·sec-1). One session used cueing and the other without cueing. Energy expenditure was measured and walking economy was calculated (energy expenditure/power). RESULTS: Poorer walking economy and higher energy expenditure occurred during cued walking at a self-selected and a slightly faster walking speed, but there was no apparent difference at the slightly slower speed. CONCLUSION: These results suggest that potential gait benefits of auditory cueing may come at an energy cost and poorer walking economy for persons with PD at least at some treadmill walking speeds.