Gait Speed Research Articles

Knee joint mechanics during gait after anterior cruciate ligament reconstruction using a partial or full thickness quadriceps tendon autograft at 2 years after surgery.

Despite quadriceps weakness in individuals after quadriceps tendon anterior cruciate ligament reconstruction (QT-ACLR), and its association with knee joint mechanics, no studies have addressed gait mechanics in both partial-thickness (PT-Q) and full-thickness (FT-Q) options for QT-ACLR. To assess gait mechanics across a QT-ACLR cohort. We hypothesized that QT-ACLR would show changes in knee joint mechanics compared to control participants (CON) and nonoperated limbs. Additionally, we hypothesized that FT-Q operated limbs would show greater changes compared to PT-Q and CON. Retrospective cohort study. University-affiliated sports medicine institute. Sixteen patients who underwent QT-ACLR (7 FT-Q: Age (years) = 28.6 ± 7.3, post-op (months) = 23.5 ± 10.7, 9 PT-Q: Age = 25.2 ± 4.3, post-op = 24.4 ± 11.7) were recruited and compared to 11 CON (age = 23.4 ± 4.8). Participants underwent gait testing with force plate integrated motion capture. Mixed repeated-measures analyses of covariance, adjusted for gait speed, were used to determine significant main effects or interactions in peak knee flexion angle, sagittal knee range of motion, peak internal knee extension moment (KEM), and peak internal knee flexion moment. When measured an average of 2 years after surgery, no main effect for limb or limb by depth interaction were detected. A significant effect by group was observed for peak KEM (p = .03, η2 = .27) and peak knee flexion angle (p = .04, η2 = .24) in the loading response phase. FT-Q (p = .02) and PT-Q (p = .03) showed lower KEM compared to the CON group in both limbs. The FT-Q group showed lower peak knee flexion angle compared to the CON group (p = .01). Knee joint symmetry may be recovered 2 years following QT-ACLR, but lower KEM compared to CON for both graft options and lower peak knee flexion angle than CON for the FT-Q group may indicate a need for further investigation in QT-ACLR.

Association Between Standard Gait Measures and Anterior Quadriceps Muscle Thickness as Measured by Point of Care Ultrasound (POCUS)

Background: Gait parameters and sarcopenia both predict falls risk among older adults. Our objective was to evaluate whether fast, easy-to-obtain measures of anterior thigh muscle by point of care ultrasound (POCUS) are significantly associated with standard gait measures. Methods: All subjects were referred from ambulatory geriatric medicine clinics at an academic center. Quadriceps muscle thickness was measured by a portable ultrasound device. Gait variables were measured by the patient in comfortable walking shoes walking for six minutes. The primary response variables were gait variables, and the predictor variables were age, biological sex, body mass index, and muscle thickness. Univariate and multivariate regression analyses were performed. Results: A total of 150 participants were recruited from geriatric medicine clinics (65 women, 84 men). Muscle thickness was measured in 149 participants, and the mean (SD) was 1.91 (0.52) (median 1.82 cm, 0.96 to 3.68 cm). Univariate analysis of gait parameters with age showed a statistically significant correlation with gait speed (R2=0.16, P < 0.000), average stride length (R2=0.142, P < 0.000), and average stride velocity (R2=0.182, P < 0.000). Among all the gait variables, average swing time (P = 0.010) and average stance time (P = 0.010) were correlated significantly with muscle thickness. For multivariate analysis with age and gait variables, age was a significant independent variable for all gait variables that were significant in univariate analysis. Conclusion: POCUS showed a significant association with average swing time, average stance time, and step time variability. Although more work needs to be done, POCUS has the potential to be a rapid screening tool for gait assessment.

Gait abnormalities and longitudinal fall risk in older patients with end-stage kidney disease and sarcopenia.

Sarcopenia, gait disturbance, and intradialytic hypotension are among the various factors that contribute to fall risk. This study aimed to investigate the relationship between risk of sarcopenia, hemodialysis (HD) session, and long-term fall risk in older end-stage kidney disease (ESKD) patients by analyzing their spatiotemporal gait characteristics. We recruited 22 non-demented patients aged ≥ 65 years who were undergoing maintenance HD. Participants were divided into two groups based on their SARC-F score (< 4 and ≥ 4) to identify those with higher and lower risk of sarcopenia. Demographics, comorbidities, and renal parameters were compared between groups. Inertial measurement unit-based technology equipped with triaxial accelerometry and gyroscope was used to evaluate gait characteristics. The gait task was assessed both before and after dialysis using the Timed-Up and Go (TUG) test and a 10-meter walking test at a regular pace. Essential gait parameters were thoroughly analyzed, including gait speed, stride time, stride length, double-support phase, stability, and symmetry. We investigated the interaction between the dialysis procedure and gait components. Outcome of interest was any occurrence of injurious fall during follow-up period. Logistic regression models were employed to examine the relationship between baseline gait markers and long-term fall risk. The SARC-F ≥ 4 group showed various gait abnormalities, including longer TUG time, slower gait speed, longer stride time, shorter stride length, and longer double support time compared to counterpart (SARC-F < 4). After HD sessions, the SARC-F ≥ 4 group showed a 2.0-second decrease in TUG task time, an 8.0cm/s increase in gait speed, an 11.6% lower stride time, and a 2.4% increase in gait symmetry with significant group-time interactions. Shorter stride length and longer double support time were associated with injurious falls during the two-year follow-up. Our study demonstrated the utility of triaxial accelerometers in extracting gait characteristics in older HD patients. High-risk sarcopenia (SARC-F ≥ 4) was associated with various gait abnormalities, some of which partially improved after HD sessions. These gait abnormalities were predictive of future falls, highlighting their prognostic significance.

Spatiotemporal Gait Asymmetries Remain Unaffected by Increased Load Carriage in Professional Intervention Police Officers

Background: Although evidence indicates that load carriage may have an influence on walking patterns, the specific impacts of progressively increased loads on spatial and temporal gait asymmetries remain underexplored. Therefore, the primary aim of this study was to examine whether an increased load carriage had an effect on spatiotemporal gait asymmetries among intervention police officers. Methods: For the purpose of this study, 96 male intervention police officers were recruited and assessed under four load conditions: (i) “No load”, (ii) “a 5 kg load”, (iii) “a 25 kg load”, and (iv) “a 45 kg load”. Spatial and temporal gait parameters were measured using a pedobarographic platform (Zebris FDM). The spatial and temporal gait parameters, along with the ground reaction forces beneath different foot regions, were examined. The gait asymmetry for each parameter was calculated using the formula (xright − xleft)/0.5 × (xright + xleft)*100%, where “x” represents the numerical value of each parameter for the left and right sides of the body. Results: The findings indicated no statistically significant differences in the spatiotemporal parameters, nor ground reaction force gait asymmetries between the left and right foot, during walking under a progressively increased load carriage. Additionally, the parameter values for both the left and right sides of the body remained consistent, with a high intercorrelation observed across all of the loading conditions. The gait speed and ground reaction forces, which served as covariates, did not significantly change the spatiotemporal gait asymmetries. Conclusions: In summary, this study demonstrates that an increased load carriage did not lead to a progressive rise in spatiotemporal gait asymmetries in professional intervention police officers. However, further examination using an advanced 3-D gait analysis and an assessment of physiological patterns and adaptations is recommended to identify and confirm the key factors influencing gait asymmetry.

Changes in Physical Function After Long Corrective Fusion to the Ilium for Adult Spinal Deformity

Study Design. Prospective cohort study. Objective. To investigate longitudinal changes in physical functional status after long corrective fusion in patients with adult spinal deformity (ASD) during 2 years of follow-up. Summary of Background Data. In ASD surgery, reports assessing physical functional status in long-term observations for more than a year are lacking. Assessing whether patients maintain significant improvements in their physical status with a longer follow-up duration is crucial. Methods. A total of 70 female patients with ASD who underwent long corrective fusion of ≥ 7 segments between June 2016 and June 2022 were included in this study. Preoperative and postoperative assessments (at 6 months, 1 year, and 2 years) included radiographic spinopelvic parameters, health-related quality of life (HRQOL) using the Scoliosis Research Society Outcome Instrument-22 (SRS-22) questionnaire, and physical function tests conducted by a physical therapist. Results. All domains of the SRS-22 improved the most in the first 6 months after surgery (P &lt;0.0001); however, the Pain and Function domains continued to improve gradually until 2 years postoperatively. Regarding trunk dynamic balance, the timed up-and-go test score improved gradually until 2 years postoperatively (P &lt;0.0001). Regarding gait performance, gait speed and the 6-minute walking test improved the most in the first 6 months after surgery (P &lt;0.01) and almost reached a plateau 1 year postoperatively. Conclusions. Long corrective fusion for ASD significantly enhanced physical function and HRQOL within 2 years, with the greatest improvement in the first 6 months after surgery. These findings underscore the importance of increasing activities of daily living through early exercise instruction, as well as preventive measures to avoid early surgery-related complications. Level of Evidence. 3

Association between cardiovascular disease risk and sarcopenia in community-dwelling Japanese older adults.

Sarcopenia's high prevalence in older adults with cardiovascular disease (CVD) suggests that the risk of comorbidity in sarcopenia might also be increased during the at-risk phase of CVD. However, the relationship between CVD risk and sarcopenia has not been elucidated. Therefore, the purpose of this cross-sectional study was to investigate the association between CVD risk and sarcopenia in community-dwelling Japanese older adults. The participants in this cross-sectional study included 14 923 community-dwelling Japanese older adults (mean age 73.2 ± 5.6 years). The present study estimated the CVD risk using the revised World Health Organization risk chart, and classified CVD risk into "low" (<10%) and "mid-high" (≥10%). Assessments of sarcopenia, muscle mass, muscle strength and gait speed were measured based on the clinical definitions. Among the participants, 654 people (4.4%) had sarcopenia, and 4857 (32.6%) had CVD mid-high risk. A multiple logistic model showed that the CVD mid-high risk was associated with sarcopenia (odds ratio [OR] 1.55, 95% confidence interval [CI] 1.28-1.89). In addition, CVD mid-high risk was associated with low muscle mass (OR 1.74, 95% CI 1.50-2.01), low muscle strength (OR 1.25, 95% CI 1.14-1.37) and slow gait speed (OR 1.17, 95% CI 1.07-1.27) in the adjusted model. Among community-dwelling older adults, high or moderate CVD risk was associated with an increased risk of sarcopenia. Our findings could help identify older adults with a future high risk for sarcopenia. Geriatr Gerontol Int 2024; ••: ••-••.

'Can do' versus 'Do do' in nursing home residents: identification of contextual factors discriminating groups with aligned or misaligned physical activity and physical capacity.

Physical activity (PA) is fundamental to nursing home residents' health. Likewise, physical capacity (PC) is essential to carry out activities of daily living. Although PC and PA are associated, misalignment has been reported in specific subgroups. Increased PC is oftentimes not linked to high PA (i.e., Can do - don't do) and vice versa (i.e., Can't do - do do). Therefore, identifying other contextual factors influencing PA in misaligned groups is important. This study aimed to identify contextual factors in nursing home residents with aligned or misaligned PA and PC. In total, 180 nursing home residents (≥ 65 years, 79.4% females) were divided into four quadrants (Q1: Can do - do do; Q2: Can do - don't do; Q3: Can't do - do do; Q4: Can't do - don't do) based on thresholds for PA (≥ or < 2,500 steps/day) and PC (≤ or > 0.5m/s gait speed). Kruskal-Wallis H test and effect sizes (ES) were applied to analyze quadrants' differences regarding PA (steps per day), objective motor capacity, life-space mobility, activities of daily living (ADL), psychosocial well-being, cognition, subjective mobility-related concerns, and spatial orientation. Specific contextual factors differed significantly between the groups. Compared to Q1, Q2 presents a significantly lower life-space mobility (ES: 0.35) and objective motor capacity (ES: 0-36-0.49); Q3 has a lower objective motor capacity (ES: 0.55-1.10); Q4 shows lower independence in ADL (ES: 0.57), life-space mobility (ES: 0.48), subjective mobility-related concerns (ES: 0.38) and objective motor capacity (ES: 0.99-1.08). No significant group differences were found for psychosocial well-being, cognition, and spatial orientation. This study provides new insights into PA behavior of nursing home residents. Key variables linked to PA are objective motor capacity, life-space mobility, ADL, and subjective mobility-related concerns. Surprisingly, some potentially impactful variables such as cognition, orientation, and psychosocial well-being did not differ between the groups. This may suggest that these variables may not represent key targets for interventions aiming to improve PA. This study builds the foundation for further research into the underlying mechanisms behind PA behaviors and supports future efforts to plan specific, targeted interventions for nursing home residents. The trial was prospectively registered at DRKS.de with registration number DRKS00021423 on April 16, 2020.

Probiotics' supplementation alleviates disease severity and improves postural balance by repairing intestinal leak in patients suffering from osteoarthritis: A double-blinded clinical trial.

Increased intestinal leakiness and associated systemic inflammation are potential contributors to osteoarthritis (OA) and postural imbalance in the geriatric population. To-date, no successful treatment to correct postural imbalance in OA is known. We aimed to explore the effects of a multistrain probiotic upon postural imbalance in OA-affected patients. In this randomized, double-blind trial with a placebo group, 147 patients suffering from knee OA (age-span = 64-75 years) were divided into placebo (n=75) and probiotics (n=72) study groups. Vivomix 112 billion, multistrain probiotic was given once a day for 12 weeks. The outcomes of study variables were determined first at baseline and later after 12 weeks of intervention. These were Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC), knee flexion range-of-movement (ROM), pain intensity by visual analogue scale (VAS), handgrip strength (HGS), gait speed, and balance control assessed in standing, semi-tandem, and tandem stances. We determined plasma zonulin, to determine intestinal leak along with c-reactive protein (CRP) and 8-isoprostanes levels. A total of 136 OA patients taking placebo (n=71) and probiotics (n=65) were analyzed. The probiotics group exhibited a reduction in pain intensity, disease severity, and WOMAC scores along with improvement in balance scores, HGS, and walking speed (p<0.05 for all), no change in ROM, resting pain, and 8-isoprostanes levels. The correlation analysis revealed a robust association of balance scores with plasma markers of intestinal leakiness and inflammation in probiotics but not in the placebo group. Probiotics reduce postural imbalance in OA patients partly due to a reduction in intestinal leakiness.

Circulating BMP-7 Level is Independent of Sarcopenia in Older Asian Adults.

In vitro and animal studies have demonstrated that BMP-7, renowned for its osteogenic properties, also exerts beneficial effects on muscle metabolism by enhancing myogenesis and reversing muscle atrophy. Despite being proposed as a common regulatory factor for both muscle and bone, the impact of BMP-7 on human muscle health has not been thoroughly investigated. This cross-sectional study involved 182 community-dwelling older adults who underwent a comprehensive geriatric assessment in South Korea. Sarcopenia was diagnosed using Asian-specific cutoffs, and serum BMP-7 levels were quantified via enzyme immunoassay. The mean age of the participants was 72.2 ± 7.3 years, with 62.6% being female. After adjustments for confounders, serum BMP-7 levels were not significantly different between individuals with and without sarcopenia, nor were there differences based on skeletal muscle mass, strength, or physical performance levels (P = 0.423 to 0.681). Likewise, no correlations were detected between circulating BMP-7 levels and any sarcopenia assessment metrics such as skeletal muscle index, grip strength, gait speed, or chair stand completion times (P = 0.127 to 0.577). No significant associations were observed between increases in serum BMP-7 concentrations and the risk of sarcopenia or poor muscle phenotypes (P = 0.431 to 0.712). Stratifying participants into quartiles based on serum BMP-7 levels also indicated no differences in sarcopenia-related parameters (P = 0.663 to 0.996). Despite experimental evidence supporting BMP-7's role in muscle metabolism, this study found no significant association between serum BMP-7 levels and clinical indicators of muscle health in older adults. These findings challenge the utility of serum BMP-7 as a biomarker for sarcopenia in this demographic.

Sex differences in the associations of accelerometer-determined physical activity with physical and cognitive function in older adults living in long-term care

Older adults residing in long-term care often experience declines in physical and cognitive functions despite the access to in-house physical activity (PA) programs. This study aimed to evaluate the associations of PA with physical function and global cognitive function in older adults living in long-term care, while examining potential sex differences. A cross-sectional analysis of baseline data from a two-arm cluster randomized controlled trial was conducted, involving 67 participants (34 men, 33 women). PA levels were assessed using tri-axial accelerometers. Physical function, including muscular strength, postural sway, and Short Physical Performance Battery (SPPB) and cognitive function were measured. Spearman correlation analysis revealed no significant associations between PA metrics and muscular strength, postural sway, or global cognitive function across the entire samples (p ≥ 0.091). Multiple linear regression models were developed for the entire sample, males, and females to examine the associations between PA and physical function measures and global cognitive function. After adjustments for confounders, light PA was significantly associated with higher SPPB sub-scores (gait: β = 0.600, p &amp;lt; 0.001; sit-to-stand: β = 0.574, p &amp;lt; 0.001), faster usual gait speed (β = 0.659, p = 0.012), and shorter sit-to-stand times (β = −0.305, p = 0.041) across the whole sample. Similar significant associations were observed in males between light PA and SPPB scores (total: β = 0.319, p = 0.040; gait: β = 0.532, p &amp;lt; 0.001; sit-to-stand: β = 0.417, p = 0.009), usual gait speed (β = 0.762, p = 0.017), and sit-to-stand times (β = −0.677, p &amp;lt; 0.001). In females, a significant association was found between light PA and global cognitive function (β = 0.319, p = 0.012) after adjusting for confounders. This study highlights sex differences in the association of accelerometer-determined PA with physical and cognitive function in older adults living in long-term care, with LPA showing beneficial effects, especially for physical function in males and for cognitive function in females.

Artificial intelligence driven clustering of blood pressure profiles reveals frailty in orthostatic hypertension.

Gravity, an invisible but constant force , challenges the regulation of blood pressure when transitioning between postures. As physiological reserve diminishes with age, individuals grow more susceptible to such stressors over time, risking inadequate haemodynamic control observed in orthostatic hypotension. This prevalent condition is characterized by drops in blood pressure upon standing; however, the contrary phenomenon of blood pressure rises has recently piqued interest. Expanding on the currently undefined orthostatic hypertension, our study uses continuous non-invasive cardiovascular data to explore the full spectrum of blood pressure profiles and their associated frailty outcomes in community-dwelling older adults. Given the richness of non-invasive beat-to-beat data, artificial intelligence (AI) offers a solution to detect the subtle patterns within it. Applying machine learning to an existing dataset of community-based adults undergoing postural assessment, we identified three distinct clusters (iOHYPO, OHYPO and OHYPER) akin to initial and classic orthostatic hypotension and orthostatic hypertension, respectively. Notably, individuals in our OHYPER cluster exhibited indicators of frailty and sarcopenia, including slower gait speed and impaired balance. In contrast, the iOHYPO cluster, despite transient drops in blood pressure, reported fewer fallers and superior cognitive performance. Surprisingly, those with sustained blood pressure deficits outperformed those with sustained rises, showing greater independence and higher Fried frailty scores. Working towards more refined definitions, our research indicates that AI approaches can yield meaningful blood pressure morphologies from beat-to-beat data. Furthermore, our findings support orthostatic hypertension as a distinct clinical entity, with frailty implications suggesting that it is worthy of further investigation.

Metabolic syndrome is associated with poorer outcomes in people with osteoarthritis participating in a rehabilitation program: an observational study

Purpose To determine the prevalence of metabolic syndrome and explore its association with clinical outcomes (pain, quality of life, and physical function) in adults participating in an education and exercise program (GLA:D®). Methods An observational study of adults with hip and/or knee osteoarthritis who participated in GLA:D® between 2019 and 2022. Metabolic syndrome status was determined through self-report. Differences in clinical outcomes among people with, at risk of (1–2 risk factors), or without metabolic syndrome were compared at baseline, 3-, and 12-months using linear mixed models (age, sex, and baseline outcomes as covariates). Results Of 6846 participants (aged 65(SD 9) years), 20% (n = 1337) had, and 68% (n = 4632) were at risk of metabolic syndrome. Adults with metabolic syndrome reported higher pain (0–100 VAS: 7.3, 95% CI 5.4–9.1), lower health-related quality of life (EQ5D 0–100, VAS: −8.6, 95% CI −10.2 to −7.0), and slower gait speed (−0.26 m/s, 95%CI -0.3 to −0.23) at baseline compared to those with no metabolic risk factors. Differences remained at 3- and 12-months for pain and quality of life. Conclusions Metabolic syndrome risk factors were common in adults with osteoarthritis. Clinical outcomes remain impaired in people with metabolic syndrome compared to those without after education and exercise, suggesting further intervention may be required.

Exploring the influence of body movements on spatial perception in landscape and interior design

This study investigates the influence of body movements on spatial perception in both landscape and interior design environments, focusing on how physical interactions shape spatial understanding beyond visual perception alone. Grounded in the theory of embodied cognition, the research examines how gait, posture, and movement dynamics affect spatial awareness. The study captures detailed data on movement patterns and visual engagement across different spatial contexts using a combination of real-world observations and Virtual Reality (VR) simulations, motion-tracking systems, wearable sensors, and eye-tracking technology. A total of 157 participants, aged 20 to 65, navigated both outdoor landscapes and indoor environments, with key variables such as surface materials, spatial layout, and lighting conditions manipulated to assess their effects on spatial perception. The study measured gait speed, step frequency, path deviations, time to destination, visual attention, and subjective ratings of perceived openness, ease of movement, and emotional response. Key findings include that surface materials significantly influenced gait speed and step frequency. For example, participants walking on concrete had a significantly faster gait speed (mean difference = 0.5220, p = 0.001) than those walking on gravel. In terms of spatial layout, the two-way Analysis of variance (ANOVA) results showed that winding paths led to more path deviations (F-statistic = 350.00, p = 3.19 × 10−8) and longer times to destination (F-statistic = 1744.00, p = 2.39 ´ 10−11) compared to straight paths. The environment type (landscape vs. interior) also significantly affected navigation, with landscape participants showing a more significant deviation from direct paths (F-statistic = 19.60, p = 2.37 × 10−3). Visual engagement data, analyzed through a chi-square test, indicated that vertical elements like walls approached significance in attracting visual attention (Chi-square = 2.88, p = 0.0896), while other elements like trees and benches had less impact. The Wilcoxon signed-rank test results showed significant differences between real-world and VR experiences in perceived openness (W-statistic = 0.0, p = 0.001953), ease of movement (W-statistic = 0.0, p = 0.001953), and comfort (W-statistic = 0.0, p = 0.001953), highlighting VR’s limitations in replicating the full embodied experience of physical spaces.

The temporal relation of physical function with cognition and the influence of brain health in the oldest-old.

Introduction Physical function and cognition seem to be interrelated, especially in the oldest-old. However, the temporal order in which they are related and the role of brain health remain uncertain. Methods We included 338 participants (mean age 93.1 years) from two longitudinal cohorts: The UCI 90+ Study and EMIF-AD 90+ Study. We tested the association between physical function (Short Physical Performance Battery, gait speed and handgrip strength) at baseline with cognitive decline (MMSE, memory tests, Animal fluency, Trail Making Test (TMT) A and Digit Span Backward), and the association between cognition at baseline with physical decline (mean follow-up 3.3 years). We also tested whether measures for brain health (hippocampal, white matter lesion and gray matter volume) were related to physical function and cognition, and whether brain health was a common driver of the association between physical function and cognition by adding it as confounder (if applicable). Results Better performance on all physical tests at baseline was associated with less decline on MMSE, memory and TMT A. Conversely, fewer associations were significant but better scores on memory, TMT A and Digit Span Backward were associated with less physical decline. When adding measures for brain health as confounder, all associations stayed significant except for memory with gait speed decline. Discussion In the oldest-old, physical function and cognition are strongly related, independently of brain health. Also, the association between physical function and cognitive decline is more pronounced than the other way around, suggesting a potential for slowing cognitive decline by optimizing physical function.

The Association between Psychotropic Medication Use and Gait and Mobility Impairment in Community-Dwelling Older People. Data from The Irish Longitudinal Study on Ageing (TILDA).

Little work to date has quantified the effect of psychotropic medications (antidepressants, benzodiazepines, 'Z' drugs, antipsychotics, anticholinergics) on mobility and gait in later life. The aim of this study is to examine the relationship between these medications and mobility/gait parameters in a large cohort of community-dwelling older people. Participants were included if they were ≥60 years at TILDA Wave 1 and underwent gait and mobility assessment (Gaitrite system), with follow-up at Wave 3 (4 years). Medication lists were examined for psychotropic medications. Regression models assessed the relationship between psychotropic medications and mobility, using the following parameters: Timed Up and Go (TUG), gait speed, step length / width, double support phase. Multilevel modelling assessed trajectories of mobility/gait variables over time by psychotropic use. Of 2620 patients, 12% were prescribed ≥1 psychotropic medication, 3% prescribed ≥2 psychotropics. Cross-sectionally, psychotropic medication was independently associated with prolonged TUG (β=0.50 (95% CI 0.27-0.73); p<0.001), slower gait speed (β=-5.65 (95% CI -7.92 - -3.38); p<0.001), shorter step length (β=-2.03 (95% CI -2.93 - -1.42); p<0.001) and increased double support phase (β=0.47 (95% CI 0.19-0.75); p=0.001).Longitudinally, psychotropic use was independently associated with transition to abnormal TUG (OR 2.68 (95% CI 1.55-4.64), p<0.001), while using ≥2 psychotropics was associated with transition to slower gait speed (OR 2.59 (95% CI 1.01-6.68); p=0.048). Psychotropic use was associated with significantly poorer mobility and gait performance, both cross-sectionally and longitudinally. It is imperative that psychotropic medication use is reviewed as part of comprehensive geriatric assessment.

Altered gait speed and brain network connectivity in Parkinson's disease.

Slow gait speed and disrupted brain network connectivity are common in patients with Parkinson's disease (PD). This study aimed to clarify the relationship between gait speed and clinical characteristics in PD, and explore the underlying brain network mechanisms. Forty-two PD patients and 20 healthy controls (HC) were recruited. Statistical independent component analysis and correlation analysis were employed to investigate underlying neural mechanisms and relationships. PD patients exhibited significantly slower gait speed, which showed a significant negative correlation with postural instability and gait disturbance scores. Network connectivity analysis revealed decreased intranetwork functional connectivity (FC) within visual network (VN) and cerebellum network (CN), but increased internetwork FC between CN and both sensorimotor network (SMN) and frontoparietal network (FPN) in PD patients compared to HC. The slow gait speed PD subgroup demonstrated increased intranetwork FC within SMN and VN, along with decreased FC between VN and both FPN and default mode network. Correlation analyses revealed negative correlation between gait speed and FC of CN and positive correlation to FC of CN-SMN. Our study identified relationships between gait speed and clinical characteristics, and corresponding network connectivity alterations in PD patients, providing insights into the neural mechanisms underlying gait impairments in PD.

A retrospective analysis of a clinician-initiated high-intensity locomotor training implementation project in an inpatient rehabilitation facility.

The Academy of Neurologic Physical Therapy's Intensity Matters campaign recommends the implementation of high-intensity locomotor training for all patients with neurologic dysfunction with goals to improve walking. Retrospectively determine the effectiveness of a clinician-initiated implementation project on the adoption, reach, and fidelity of high-intensity locomotor training for patients with stroke during inpatient rehabilitation and, determine whether the project led to changes in patient outcomes. Retrospective analysis of electronic medical records from 1 year before and after the project. Patients admitted with a stroke diagnosis were included. Demographic information, the number of high-intensity sessions, the percentage of time spent in the target heart rate zone, standardized assessment scores for motor function, functional mobility, balance, gait speed and endurance, and discharge destination were extracted for descriptive and linear mixed model analysis. Clinician reach was 75%, and adoption of high-intensity training varied between clinicians from 47.1% and 83.3%. Of eligible patients, 55% received the target intervention at least once, reflecting the patient reach. Implementation fidelity was 18.84%. Linear mixed effects modeling revealed a statistically significant effect of time (p < .001) but not group allocation or group × time interaction. Although statistically significant differences in patient outcomes compared to pre-implementation were not found, results highlight the limitations associated with adopting high-intensity locomotor training for patients post-stroke in this setting .It remains unclear whether the implementation fidelity achieved was sufficient to impact patient outcomes. Further research is needed to establish fidelity targets and identify barriers to successful implementation projects by clinicians.

Self-selected speed provides more accurate human gait kinematics and spatiotemporal parameters than overground simulated speed on a treadmill: a cross-sectional study

BackgroundWalking speed, a key element of gait analysis, is essential for evaluating the biomechanics of the musculoskeletal system and is typically assessed on flat surfaces, such as walkways or treadmills. While many authors have compared the differences and similarities between treadmill and overground walking, no studies have yet investigated the differences between treadmill gait analysis at self-selected speed (SS) and overground simulated speed (OS). The hypothesis is that accurate kinematic measurements depend on selecting the correct gait speed; however, a mismatch between the perceived comfortable treadmill speed and actual overground speed may affect the accuracy of treadmill gait analyses. This study aimed to assess treadmill gait in healthy young adults by comparing the SS with the OS. The objectives were to determine whether participants could match SS with OS on a treadmill, examine sex differences in gait kinematics and spatiotemporal parameters (KSP) at different speeds, and identify which speed better reflects natural gait kinematics.MethodsA total of 60 healthy men and 70 healthy women, aged 22–35 years, participated in this cross-sectional study to investigate the gait kinematics and spatiotemporal differences between the SS and OS. Student’s t-test, Bonferroni adjustment, Cohen’s effect size, and quadratic regression were employed to analyse differences across walking speeds and groups.ResultsA discrepancy between OS and SS was observed in 66.4% of the participants. Our findings revealed that the adjusted R² values for KSP at SS were consistently greater than those at OS, suggesting that SS offers a more robust and accurate representation of gait kinematics, whereas OS is less reliable.ConclusionsThese findings underscore the importance of individualized speed selection in gait analysis, as it significantly impacts the accuracy of kinematic and spatiotemporal measurements. This insight is pivotal for clinicians and researchers to develop more effective rehabilitation strategies and comprehensively understand gait dynamics.

Indoor and outdoor 10-Meter Walk Test and Timed Up and Go in patients after total hip arthroplasty: a reliability and comparative study.

The 10-Meter Walk Test (10MWT) and Timed Up and Go (TUG) are valid tools for gait performance and mobility assessment after total hip arthroplasty (THA). The study aimed to assess test-retest reliability of 10MWT and TUG in indoor and outdoor environments in patients in acute phase after THA and compare their indoor vs. outdoor performance during these tests. Thirty-five inpatients performed 10MWT and TUG in indoor and outdoor settings on the second postoperative day. An additional evaluation session was performed after 1 hour under the supervision of the same operator. Test-retest reliability was assessed using Intraclass Correlation Coefficient (ICC: 2.1) and Minimal Detectable Change (MDC95), while paired t-tests were used to compare indoor vs. outdoor performance. Indoor (ICC: 0.94, MDC95: 0.13 m/s) and outdoor (ICC: 0.91, MDC95: 0.16 m/s) 10MWT at maximum speed and indoor (ICC: 0.92, MDC95: 2.5 s) and outdoor (ICC: 0.93, MDC95: 2.4 s) TUG revealed excellent reliability. Indoor (ICC: 0.86, MDC95: 0.16 m/s) and outdoor (ICC: 0.89, MDC95: 0.16 m/s) 10MWT at spontaneous speed revealed good reliability. Spontaneous (mean difference [MD]: 0.05 m/s, 95% confidence interval [CI95]: 0.03, 0.07, p < 0.001) and maximum (MD: 0.02 m/s, CI95: 0.01, 0.04, p < 0.001) 10MWT revealed higher gait speed when performed outdoors compared to indoors. Indoor and outdoor 10MWT and TUG are reliable tests in acute phase after THA. Higher gait speed during outdoor 10MWT may depend on test score variability, due to MDs being lower than MDC95.

Higher Magnesium Intake Is Associated With a Lower Risk of Frailty in Older Adults

ObjectivesMagnesium deficiency is common in older adults and has been associated with reduced muscle functionality and several age-related diseases. Evidence of its relationship with frailty is scarce. We aimed to explore the association of magnesium intake with incident frailty in the Seniors-ENRICA-1 cohort. DesignProspective longitudinal cohort study. Setting and ParticipantsThe ENRICA study is a population-based study (N = 13,105) that includes a representative sample of the noninstitutionalized Spanish population aged 18 years and older. For the present analyses, we used data from the community-dwelling participants aged 60 years and older at baseline (n = 2519). After exclusions, we included data from 1900 participants of the Seniors-ENRICA-1 cohort (mean age 68.7 ± 6.4 years; 51.7% women). MethodsFood consumption was assessed at baseline with a validated, computer-based, face-to-face dietary history (DH-ENRICA), from which magnesium intake was estimated. Frailty was defined as having 3 or more of Fried criteria: exhaustion, low physical activity, slow gait speed, weakness, and weight loss. Analyses were performed with logistic regression adjusted for potential confounders. ResultsDuring a mean follow-up of 3.5 years, 136 new cases (7.2%) of frailty occurred. Compared with the lowest sex-specific quartile of magnesium intake, the fully adjusted odds ratio (95% CI) for incident frailty across increasing quartiles of intake was 0.62 (0.36, 1.07), 0.53 (0.28, 0.98), and 0.43 (0.21, 0.86), respectively (P-trend = .016). Corresponding results for slow gait speed were 0.68 (0.47, 1.01), 0.58 (0.37, 0.89), and 0.52 (0.32-0.84), respectively (P-trend = .008). Other Fried criteria showed a similar tendency to reduced frailty incidence with increasing magnesium intake, without achieving statistical significance in the fully adjusted model. Conclusions and ImplicationsHigher magnesium intake was inversely and independently associated with lower frailty risk, especially of slow gait speed, in community-dwelling older adults, suggesting that adequate intake of this vital ion could help prevent unhealthy aging.