19 results
A Real-World Study of Nusinersen Effects in Adults with Spinal Muscular Atrophy Type 2 and 3
- Isabelle Côté, Victoria Hodgkinson, Marianne Nury, Louis Bastenier-Boutin, Xavier Rodrigue
-
- Journal:
- Canadian Journal of Neurological Sciences , First View
- Published online by Cambridge University Press:
- 27 March 2024, pp. 1-10
-
- Article
- Export citation
-
Background:
Spinal muscular atrophy (SMA) is a progressive genetic disorder characterized by muscle weakness ultimately leading to pulmonary impairments that can be fatal. The recent approval of nusinersen, a disease-modifying therapy, substantially changed the prognosis for patients, particularly in children. However, real-world evidence about its long-term effectiveness in adults remains limited. This study aimed to document longitudinal data on motor function, pulmonary function and patient-reported outcome measures of Canadian adults with SMA type 2 and 3 treated with nusinersen.
Methods:Outcomes from 17 patients were collected at the Institut de réadaptation en déficience physique de Québec during routine clinical visits over 36 months post nusinersen treatment, using the Hammersmith Functional Motor Scale Expanded for SMA (HFMSE), Revised Upper Limb Module (RULM), 6-Minute Walk Test (6MWT), Children’s Hospital of Philadelphia Adult Test of Neuromuscular Disorders (CHOP-ATEND), SMA functional rating scale (SMAFRS), pulmonary function testing and subjective changes reported by patients.
Results:After 36 months, 9 patients showed motor function improvement. Changes beyond the minimal clinically important difference were seen for four patients on the HFMSE, four patients on the RULM and five patients on the 6MWT. Pulmonary function remained stable for most subjects. Subjective positive changes were reported in 88% of patients and five patients showed improvement in the SMAFRS.
Conclusion:This real-world study demonstrates the positive effects of nusinersen in adults with SMA types 2 and 3. Although stabilizing the patient’s condition is considered therapeutic success, this study shows an improvement in motor function and subjective gains in several patients.
5 Cognitive Reserve in Amyotrophic Lateral Sclerosis: The Role of Occupational Skills and Requirements
- Sebleh Alfa, Hannah Jin, Lauren Massimo, Lauren Elman, Colin Quinn, Corey McMillan, Emma Rhodes
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 603-604
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Amyotrophic Lateral Sclerosis (ALS) is a devastating neurodegenerative disease that results in progressive decline in motor function in all patients and cognitive impairment in a subset of patients. Evidence suggests that cognitive reserve (CR) may protect against cognitive and motor decline in ALS, but less is known about the impact of specific occupational skills and requirements on clinical outcomes in ALS. We expected that a history of working jobs with more complex cognitive demands would protect against cognitive decline, while jobs that require fine and complex motor skills would protect against motor dysfunction.
Participants and Methods:Participants were 150 ALS patients recruited from the University of Pennsylvania’s Comprehensive ALS Center. Participants underwent clinical and neuropsychological evaluations within 1 year of ALS diagnosis. Cognitive performance was measured using the Edinburgh Cognitive and Behavioral ALS Screen (ECAS), which includes ALS-Specific (e.g., verbal fluency, executive functions, language, social cognition) and NonSpecific (e.g., memory, visuospatial functions) composite scores. Motor functioning was measured using the Penn Upper Motor Neuron (UMN) scale and the ALS Functional Rating Scale (ALS-FRS). Occupational skills and requirements for each participant were assessed using data from the Occupational Information Network (O*NET) Database. O*NET data were assessed using principal components analysis, and 17 factor scores were derived representing distinct worker characteristics (n=5), occupational requirements (n=7), and worker requirements (n=5). These scores were entered as independent variables in multiple linear regression models using ECAS, UMN, and ALS-FRS scores as dependent variables covarying for education.
Results:Preserved ECAS ALS-Specific performance was associated with jobs that involve greater reasoning abilities (ß=2.03, S.E.=0.79, p<.05), analytic skills (ß=3.08, S.E.=0.91, p<.001), and humanities knowledge (ß=1.20, S.E.=0.58, p<.05), as well as less exposure to environmental hazards (ß=-2.42, S.E.=0.76, p<.01) and fewer demands on visualperceptual (ß=-1.75, S.E.=0.73, p<.05) and technical skills (ß=-1.62, S.E.=0.63, p<.05). Preserved ECAS Non-Specific performance was associated with jobs that involve greater exposure to conflict (ß=0.82, S.E.=0.33, p<.05) and social abilities (ß=0.65, S.E.=0.29, p<.05). Jobs involving greater precision skills (ß=1.92, S.E.=0.79, p<.05) and reasoning ability (ß=2.10, S.E.=0.95, p<.05) were associated with greater disease severity on the UMN, while jobs involving more health services knowledge were associated with worse motor functioning on the ALS-FRS (ß=-1.30, S.E.=0.60, p<.05).
Conclusions:Specific occupational skills and requirements show protective effects on cognitive functioning in ALS, while others confer risk for cognitive and motor dysfunction. Preserved cognitive functioning was linked to a history of employment in jobs requiring strong reasoning abilities, social skills, and humanities knowledge, while poorer cognitive functioning was linked to jobs involving a high risk of exposure to environmental hazards and high visuo-perceptual and technical demands. In contrast, we did not find evidence of motor reserve, as no protective effects of occupational skills and requirements were found for motor symptoms, and jobs involving greater precision skills, reasoning abilities, and health services knowledge were linked to worse motor functioning. Our findings offer new insights into how occupational history may protect against cognitive impairment or confer elevated risk for cognitive and motor dysfunction in ALS.
56 Predictors of Finger Tapping Variability in Older Adults Evaluated for a Neurodegenerative Memory Disorder
- Molly M McElvogue, Lori Steffes, Anna Burke, Ashley M Stokes, George P Prigatano
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 567-568
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Patients with early Alzheimer Disease (AD) and Mild Cognitive Impairment of the Amnestic type (MCI-A) have been reported to show large variability of tapping scores. Factors that contribute to that variability remain undetermined. This preliminary study aimed to identify predictors of finger tapping variability in older adults evaluated for a neurodegenerative memory disorder. Based on earlier research with normally functioning adults, we predicted that the number of “invalid” tapping responses (i.e. failure of the index finger to adequately lift off the tapping key once it is depressed to produce the next number on a mechanical counter) and the female gender would predict finger tapping variability, but age and educational level would not predict variability.
Participants and Methods:This preliminary study included 4 groups of participants, comprised of 8 healthy controls (HC, 3 males; 73±7years); 12 persons with subjective memory complaints (SMC, 3 males; 69±5 years); 12 with MCI-A (7 males; 76±5 years) and 7 early AD (5 males; 75±6years). All participants were administered a modified version of the Halstead Finger Tapping Test (HFTT). Mean, range of tapping score (i.e. a measure of variability), and number of invalid taps across 7 trials in each hand were calculated. ANOVA was performed for the HFTT metrics with the main effect of group. Tukey HSD tests were used for post hoc comparisons between groups. Multiple regression analysis was performed to determine the degree to which the number of invalid tapping responses, sex, age, and educational level predicted finger tapping variability using all 4 groups.
Results:Mean tapping score did not vary significantly across groups in the dominant [F (3, 35) = 0.633, p = 0.599] or non-dominant [F (3, 35) = 2.345, p = 0.090] hand. Range score approached a significant difference between groups in the dominant hand [F (3, 35) = 2.745, p = 0.058], with a clear significant effect of group on range score in the non-dominant hand [F (3, 35) = 4.078, p = 0.014]. Range score in the nondominant hand was significantly higher in the AD compared to SMC (p = 0.018) and HC (p = 0.024). Regression analysis revealed statistically significant findings for the dominant hand (R2 = 0.327, F (4, 34) = 4.130, p = 0.008) and for the non-dominant hand (R2 = 0.330, F (4, 34) = 4.180, p = 0.007). For both the dominant and non-dominant hands, number of invalid taps significantly predicted range score (ß = 0.453, p = 0.044, and ß = 0.498, p = 0.012, respectively). Sex, age, and education years did not predict range scores.
Conclusions:Variability of finger tapping in patients evaluated for neurodegenerative memory disorders and aged matched controls is predicted by the number of invalid tapping responses (comprising over 30% of the variance), but not by demographic variables in this clinical sample. Neurodegenerative disorders may eliminate a sex effect.
4 Severity of Retinopathy of Prematurity and Motor Skills Development in Preschoolers
- Emma Gimenez DeGeorge, Christina Dandar, Allyssa Mattes, Andrew Heitzer, Jamie Piercy, Brittany Paul, Christina Lee, Judith Klarr, Sarah Raz
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 614-615
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Children born preterm are at increased risk of deviation from the typical developmental trajectory. The probability of adverse developmental sequelae is increased in those with history of major perinatal complications. Retinopathy of prematurity (ROP) is a pathological disordered growth of retinal blood vessels occurring in very preterm neonates who require supplemental oxygen. ROP has been linked to intermittent hypoxemic events and blood gas derangements occurring in the Neonatal Intensive Care Unit (NICU), particularly in ventilated infants. Though presence and severity of ROP have been linked to neurodevelopmental impairment, little is known about the relationship between ROP severity and motor development in the preschool age. Because the same hypoxemic events and blood gas changes that lead to severe ROP may also lead to greater developmental deficits in motor control, we hypothesized that ROP severity will be inversely linked to the quality of motor functioning even in NICU graduates without neurological impairments.
Participants and Methods:We included 95 preterm (23.6 - 33.6 weeks gestation) preschoolers (49 females, 44 members of twin pairs or triplets). The participants' age ranged from 3.3 - 4.1 years (adjusted for prematurity). ROP screening was conducted during NICU stay and rated from immature retina (0) to grade 4. Motor abilities were assessed with the Peabody Developmental Motor Scales (PDMS-2). Cases with diagnosed perinatal brain pathology (moderate to severe) or cerebral palsy were excluded from analyses.
Results:We used linear mixed regression analyses with multiple gestation as a random factor. Severity of ROP was our predictor of interest, whereas socioeconomic status, sex, gestational age, and birth-weight SD served as covariates. Separate analyses were conducted using the PDMS-2 Total Motor, Fine Motor, and Gross Motor Quotients as dependent variables. ROP severity explained a unique portion of the variance in the Total Motor Quotient (F[1, 89] = 5.59, p = .02). Examination of the relationship between ROP severity and motor skill domains yielded a significant association for the Fine Motor Quotient (F[1, 89] = 6.19, p = .015) and a trend for the Gross Motor Quotient (F[1, 89] = 3.64, p = .06).
Conclusions:The results of this study reveal that increase in ROP severity is linked to poorer motor skills in preterm-born preschoolers without major disabilities or perinatal diagnosis of moderate to severe brain pathology. This association was evident for both fine and gross motor skills, though only the relationship between ROP severity and the former motor index reached conventional statistical significance. Importantly, ROP severity accounted for a unique portion of the variance in motor performance, over and above the variance explained by other perinatal risk factors. This result is consistent with previous research findings indicating that ROP is linked to the occurrence of multiple, subtle hypoxemic events and 'exposure' to blood gas derangements during NICU stay in very preterm neonates who require respiratory support.
60 Associations Between Motor Task Deficits and Uneven Scores Across WISC-V Coding and Symbol Search Subtests
- Katherine C. Paltell, Erin T. Kaseda, Jennifer L. Osborne, Allison N. Shields, Alexandra C. Kirsch
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 737-738
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Deficits in visual-motor coordination and/or fine motor dexterity are often present in pediatric neurological and neurodevelopmental conditions and may adversely affect performance on tests with motor demands. This consideration is relevant when interpreting discrepant scores across Wechsler Intelligence Scale for Children, Fifth Edition (WISC-V) Processing Speed Index (PSI) subtests, specifically Symbol Search and the more motorically demanding Coding. Although test developers maintain that motor ability is unlikely to significantly impact Coding performances, clinicians often consider whether uneven WISC-V PSI subtest scores (Coding<Symbol Search) may in part be attributed to motor-related difficulties, when indicated. This has important clinical implications, as WISC-V Coding may then be omitted or substituted when calculating FSIQ. Thus, the present study aims to evaluate the role of motor task deficits in uneven PSI subtest scores in a sample of clinic-referred youth.
Participants and Methods:Participants were 238 children and adolescents (MAge=10.62 years; 65.5% male; 60.5% white) referred for neuropsychological assessment. All participants completed the Coding and Symbol Search subtests of the WISC-V and at least one of two motor tasks: the Beery-Buktenica Developmental Test of Visual-Motor Integration (VMI) and the Grooved Pegboard (GP). To evaluate patterns of functioning, we determined the frequencies of patients who demonstrated uneven PSI subtest performances (defined in this study as a Coding scaled score [ss] at least 3-points lower than that of Symbol Search) and/or normative weaknesses (i.e., Standard Score [SS] below 80, per recommendations from the American Academy of Clinical Neuropsychology) on motor tasks. A chi-square test of independence was used to evaluate associations between uneven PSI performance and the presence/absence of motor weaknesses. Among those with uneven PSI performance, a one-way ANOVA was used to examine whether PSI subtest difference scores varied as a function of motor performance group (No Weakness=0, VMI Weakness Only=1, GP Weakness Only=2, Weaknesses on Both=3).
Results:Of the 238 participants, 28 (11.0%) displayed normative weaknesses on the VMI only, 43 (16.9%) displayed weaknesses on the dominant-GP only, and 18 (7.1%) displayed weaknesses on both tasks. On the WISC-V, 56 participants (23.5%) exhibited uneven PSI subtest performance (Coding<Symbol Search), with 21 (37.5%) of those participants displaying at least one normative motor weakness. Chi-square analyses indicated no significant association between the presence/absence of motor skill weakness and uneven PSI subtest performance, (X2 (3) = 5.79, p = .122). Among those with uneven PSI performance, Coding/Symbol Search difference scores were not significantly associated with motor performance group (F(3,55) = 1.26, p = .297).
Conclusions:These findings suggest that while patients with uneven WISC-V Coding and Symbol Search scores may also display motor task deficits, these deficits are not significantly associated with uneven performances overall. Additionally, of the participants with uneven PSI subtest scores, the majority did not exhibit normative weaknesses on motor tasks. Therefore, clinicians may be overcorrecting for a motoric cause of uneven performance and underappreciating the potential unevenness a child demonstrates in processing speed. Future studies should evaluate the role of other neurocognitive factors, such as working memory, in this score discrepancy pattern.
97 Distinct Clinical and Neuroanatomic Factors Associated with Function-based versus Patient-Reported Outcome Measures After Stroke
- Julie A DiCarlo, Abhishek Jaywant, Kimberly Erler, Perman Gochyyev, Jessica Ranford, Steven C Cramer, David J Lin
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 196-197
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Patient-reported outcome measures provide valuable insights into health status after neurologic disease, but their relationships with function-based outcome measures remain incompletely understood. Here we evaluate the relationship between these two classes of measure using dimensionality-reduction techniques in patients after acute stroke and examine their associated patterns of neuroanatomical injury.
Participants and Methods:Fifty-four adults with upper extremity motor deficits were serially assessed at four time points after stroke with functional outcome measures (Upper Extremity Fugl-Meyer, Barthel Index, modified Rankin Scale, Box and Blocks, 9- Hole Peg, Grip Strength) as well as patient-reported measures (PROMIS-Global Physical, Mental, and Social Health, Patient Health Questionnaire-9) of health status. At each timepoint after stroke, exploratory and confirmatory factor analysis were performed to identify and confirm the underlying factorial structure of the entire battery of outcome measures. Multivariate linear regression analysis was used to determine the amount of variance explained by clinical and demographic characteristics on extracted factors. Voxel-Based Lesion Symptom Mapping was used to examine the relationship between factors and patterns of neuroanatomical injury.
Results:In the battery of stroke outcome measures, two factors were identified and retained, accounting for >78% of the overall variance across outcomes at every timepoint. Function-based measures loaded onto Factor 1 separately from patient-reported measures which loaded onto Factor 2. Results were consistent at each serial timepoint after stroke. Pre-stroke disability (p=0.03) and amount of damage to the corticospinal tract (p=0.001), explained significant variance in performance on Factor 1 (function-based outcomes), whereas education (p=0.01) and socioeconomic status (p=0.04) explained significant variance in performance on Factor 2 (PROMs). While function-based measures were related to injury to subcortical brain regions known to be important for motor function, patient-reported measures were related to injury to cortical brain regions including the insula and inferior parietal lobe, known to be important for affective processing and social cognition.
Conclusions:Two distinct factors representing function-based and patient-reported measures of health status were extracted from the study battery of stroke outcome measures scored across the first year post-stroke. Each factor was associated with injury to brain regions concordant with the content of the represented assessments. These findings emphasize the distinct behavioral elements and neuroanatomical underpinnings of function-based and patient-reported outcome measures after stroke and have potential implications for precision rehabilitation.
2 Associations Between Motor Functioning and Intellectual Abilities in Pediatric Arterial Ischemic Stroke
- Justine Ledochowski, Mahmoud Slim, Mary Desrocher, Robyn Westmacott, Nomazulu Dlamini
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 94-95
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Motor impairments are one of the most common adverse outcomes after pediatric arterial ischemic stroke (AIS), affecting approximately half of survivors. The development of motor and cognitive skills is closely interrelated, and they share common neural substrates. The objective of this study was to examine whether motor functioning after the acute phase of stroke is associated with school-age intellectual abilities. We also examined associations between concurrent motor functioning and intellectual abilities. Finally, we explored clinical features associated with motor impairments.
Participants and Methods:Participants were 64 children, 34 childhood AIS (Meanage= 11.90[2.38]); 30 perinatal AIS (Meanage= 8.75[2.22]), from the Children’s Stroke Program at SickKids Hospital. Motor functioning was assessed with the Pediatric Stroke Outcome Measure sensorimotor subscale at two timepoints, Time 1 or early recovery (childhood group between 30 days post-stroke to 1 year; perinatal group between 2-5 years of age) and Time 2, closest to neuropsychological testing. Intellectual abilities were measured using the Wechsler Intelligence Scale for Children 4th or 5th edition. Associations between motor and intellectual functioning were examined separately in childhood and perinatal AIS groups. Clinical features associated with motor impairment were examined across the full sample.
Results:Motor functioning during early recovery was significantly associated with processing speed (r= -.391, p= .036) in the perinatal group and with overall intellectual functioning (r= -.414, p= .018) verbal intellectual abilities (r= -.444, p= .011), working memory (r= .393, p= .026), and processing speed (r= -.351, p= .042) in the childhood group. There were no associations between concurrent motor and intellectual functioning in the perinatal group, and only with processing speed (r= -.525, p= .002) in the childhood group. When motor functioning was dichotomized as no/mild motor deficit and moderate/severe motor deficit at Time 1, children in the perinatal group with moderate/severe motor deficit had significantly lower perceptual reasoning scores (f[28]= 2.15, p= .040) and participants in the childhood group with moderate/severe motor deficit had significantly lower perceptual reasoning (f[32]= 2.35, p= .025) and processing speed (f[32]= 2.14, p= 0.41) scores. There were no differences between no/mild and moderate/severe motor deficit groups for either perinatal or childhood AIS at Time 2. Clinical features associated with moderate/severe motor deficit at Time 1 were cortical+subcortical infarcts, large lesions, presenting with hemiparesis and seizures at time of neuropsychological assessment, and accessing occupational therapy and physical therapy.
Conclusions:Results suggest that motor functioning during early stroke recovery is associated with intellectual outcome, whereas motor functioning at time closest to neuropsychological assessment is not. This may be related neuroplastic changes post-injury, likely in frontal-subcortical connections, that result in observable motor deficits after stroke and affect subsequent hierarchal brain maturational processes thereby impacting later cognitive outcome. Different patterns of associations between motor functioning and specific intellectual abilities in perinatal and childhood groups suggest possible age-mediated effects on this relationship.
20 The Impact of Perceived Pain on Neural Efficiency During Walking in Older Adults
- Hannah Darwazah, Roee Holtzer, Frederick Foley, Elizabeth Seng
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, pp. 333-334
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Pain is a mechanism for attention disruption due, in part, to a shared reliance on the prefrontal cortex (PFC). Amongst older adults, the experience of pain is both prevalent and functionally impactful. Dual-task walking (DTW) paradigms are a useful means of assessing the impact of pain on attentional control and known to be sensitive to changes in the cortical hemodynamic response within the PFC. To date, however, few studies have utilized such paradigms to examine the impact of self-reported pain on attentional control via assessment of cognitive, gait and neuroimaging outcomes. Examining these associations would facilitate a better understanding of the ways in which pain may negatively impact neural efficiency, thereby increasing risk of adverse functional outcomes, in healthy aging.
Participants and Methods:Study participants (N= 408; mean age = 76 ± 6.5ys; % female =55.4) were grouped into pain (n= 266) and no pain (n= 142) groups based upon their responses on the MOS-PSS and MOS-PES. These questionnaires were also used to assess self-reported levels of pain severity and interference amongst individuals with reported pain. Functional near-infrared spectroscopy was used to measure intraindividual variability (IIV) of the cortical hemodynamic response within the PFC during a DTW paradigm which consisted of Single-Task-Walk (STW), Cognitive Interference (Alpha), and Dual-Task-Walk (DTW) conditions. Participants walked along an electronic walkway and quantitative gait data were extracted in order to assess IIV in stride length during STW and DTW conditions. The rate of correct letter generation was used as a measure of cognitive accuracy during Alpha and DTW conditions. Linear mixed effects models (LMEMs) were used to examine the effects of perceived pain on neural and behavioral responses as well as on the change in these outcomes form single- to dual-task conditions. Stratified LMEMs were used to examine whether these associations differed by gender.
Results:LMEMs revealed that perceived pain presence was associated with reduced IIV in PFC oxygenation (estimate = -0.032, p = 0.037) and reduced IIV in stride length in the DTW condition (estimate = -1.180, p = 0.006). High pain severity was associated with a greater increase in stride length IIV from STW to DTW (estimate = -1.301, p = 0.039). Stratified LMEMs revealed that the association between pain and neural IIV was significant in only males (estimate = -0.049, p = 0.037), while the association between pain and gait IIV was significant in only females (estimate = -1.712, p = .008).
Conclusions:Study results suggest that self-reported pain over one month is associated with differential patterns of neural and behavioral responding amongst healthy, community-dwelling older adults. Furthermore, it appears that males are more susceptible to the neural effects of pain, while females are more susceptible to the behavioral effects under attention-demanding conditions. In this population, these patterns may reflect a tendency towards inefficient neural and behavioral modifications in response to perceived pain. These findings highlight the need for clinical use of routine pain assessments and, when appropriate, the implementation of timely and effective pain treatments in aging.
3 Relationships between Motor Skills and Executive Functions in Preterm-Born Preschoolers
- Christina Dandar, Allyssa Mattes, Jamie Piercy, Andrew Heitzer, Brittany Paul, Emma Gimenez Degeorge, Christina Lee, Judith Klarr, Sarah Raz
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, p. 614
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Motor skills have been linked to executive functions (EFs) in typically developing school-, and preschool-age children. Yet fine motor skills have been more consistently correlated with EFs than gross motor skills, perhaps because they are more frequently investigated. Preterm born children are vulnerable to deficits in both gross and fine motor skills, even after exclusion of neurological cases. In addition to motor skills, EFs may also be compromised in preterm born preschoolers. Because premature birth increases the odds for atypical brain development, and since adverse effects on brain functioning tend to yield increased dispersion of performance scores, we wished to determine whether fine and gross motor skills are differentially linked to performance on tasks measuring EF skills in nonhandicapped preschoolers born preterm.
Participants and Methods:We studied 99 preterm (born < 34 weeks) singleton preschoolers (3-4 years of age; 50 females), all graduates of the Neonatal Intensive Care Unit at William Beaumont Hospital, Royal Oak, MI. Motor skills were assessed with the Peabody Developmental Motor Scales - (Second Edition) which provide Fine and Gross Motor Quotients (FMQ, and GMQ, respectively). Three core EFs were measured: working memory, motor inhibition, and verbal fluency. Working memory skills were assessed with two Clinical Evaluation of Language Fundamentals - Preschool -Second Edition subtests: Recalling Sentences (RS) and Concepts and Following Directions (CFD). Motor inhibition and verbal fluency were assessed with the NEPSY-II Statue and Word Generation (WG) subtests, respectively. Children with a history of moderate to severe intracranial pathology or cerebral palsy were excluded.
Results:We conducted linear regression analyses using scaled scores from the Statue, WG, RS, and CFD subtests as the predicted variables. Predictors of interest were the FMQ and GMQ. We adjusted for sociodemographic factors (SES and sex) and perinatal risk (gestational age, sum of antenatal complications and birth weight SD). The GMQ was significantly associated with all four EF measures (Statue, t(84) = 4.13, p < .001; CFD, t(92) = 3.83, p < .001; WG, t(84) = 3.38, p = .001; RS, t(90) = 3.37, p = .001). The FMQ was significantly associated with three of four EF measures (Statue, t(84) = 3.41, p = .001; CFD, t(92) = 3.97, p < .001; WG, t(84) = 1.96, p = .054; RS, t(90) = 2.91, p = .005).
Conclusions:Both fine and gross motor skills were associated with EF in nonhandicapped preterm-born singletons. Lower motor functioning in either motor domain was linked to reduction in performance on diverse EF measures. It should be emphasized that motor performance contributed to explaining variance in EFs even after statistical adjustment for early medical risk. In addition to the obvious conclusion that motor skills may underpin EF skills, it is likely that early risk factors not captured by the medical risk variables used in our analyses were nonetheless tapped by variability in motor performance. As preschool EFs are essential for subsequent academic performance, the significance of age-appropriate motor development in the preschool age should not be underestimated in our at-risk population.
23 Musical Training May Not Enhance Cognitive-Motor Integration in Healthy Young Adults
- Mohammed A. Mudarris, Rebecca S. Schaefer
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 29 / Issue s1 / November 2023
- Published online by Cambridge University Press:
- 21 December 2023, p. 540
-
- Article
-
- You have access Access
- Export citation
-
Objective:
Hand and arm functions have been associated with cognition in healthy young and older adults (Vasylenko et al., 2018) and in patients with Parkinson's disease (Bezdicek et al., 2014). Music training has been proposed to integrate motor and cognitive functions by engaging motoric, sensory, perceptual, and various cognitive domains (Wan & Schlaug, 2010). In this study, we examined if performance on fine and gross motor tasks is predicted by cognitive measures of memory, attention, and executive functions, and whether this relationship varies by the extent of musical training in healthy young participants.
Participants and Methods:Forty five healthy young participants were recruited (M = 22.32, SD = 4.10; 78% female). Participants completed fine (Grooved pegboard) and gross motor (Box and Blocks) measures as well as cognitive measures (Rey auditory verbal learning test, Stroop, Trail making, and D2 cancellation), and the musical training subscale of the Goldsmith Musical Sophistication Index. Two multiple regression models were conducted assessing cognitive measures as predictors of fine and gross motor functions, with musical training as a covariate in both models.
Results:Musical training was normally distributed across participants (M = 23.47, SD = 10.28). The results of the first model assessing the role of cognitive measures as predictors of fine motor function indicate a moderate fit (F(5,36) = 3.32, R = 0.55, explaining .32 of variance, p < .05), with memory (B = 2.75, SE = 0.82, p < .005) and sustained attention (B = 0.09, SE = 0.03, p < .01) as moderate predictors. These cognitive measures were also found to predict gross motor function (F(5,36) = 3.06, p < .05, R = 0.55, explaining .30 of the variance), with memory retention (B = 2.49, SE = 0.83, p < .001) and sustained attention (B = 0.07, SE = 0.03, p < .05) as moderate predictors. In both models, musical training was not a significant predictor.
Conclusions:We found that both fine and gross hand motor functions are predicted by cognitive measures of memory retention and sustained attention. Our results support previous findings associating cognition and motor function, with attention being relevant in young adults and memory a predictor in older adults (Vasylenko et al., 2018). We corroborate these findings for hand function, but did not find executive functions to be implicated, which were previously reported as a predictor only for older adults. While musical training has been suggested to enhance the cognitive-motor relationship as it involves motor skills as well as engages various cognitive domains (Wan & Schlaug, 2010), prior musical training was not found to affect this relationship. While music background did not predict better hand motor function, it did account for more interpersonal variance. The results suggest that for most amateur musicians, including those with years of experience, musical training may not affect the association between cognition and both fine and gross hand motor skill. The current findings indicate that while musical training can be an enriching experience, it may not (exclusively) enhance motor-cognitive integration. Different outcomes may be found with more extreme levels of music training, or a different age group.
Chapter 26 - Electrical and Magnetic Brain Stimulation to Enhance Post-stroke Recovery
- from Part VI - Stroke Rehabilitation and Recovery
- Edited by Jeffrey L. Saver, Graeme J. Hankey, University of Western Australia, Perth
-
- Book:
- Stroke Prevention and Treatment
- Published online:
- 15 December 2020
- Print publication:
- 10 December 2020, pp 532-550
-
- Chapter
- Export citation
-
Summary
Non-invasive brain stimulation to stimulate neuroplasticity, enhance recovery, and improve mood after stroke has made substantial technical advances in the past two decades. The most common neuromodulatory techniques are transcranial direct current stimulation (tDCS), applying a weak electrical current across the brain, and transcranial magnetic stimulation (TMS), inducing an electrical field within the brain. Currently, the only non-invasive brain stimulation technique and indication for which there is a sufficiently strong evidence base to support routine use in clinical practice is transcranial magnetic stimulation to improve mood in post-stroke depression. TMS applied to dorsolateral prefrontal cortices can substantially reduce depressive symptoms, though not increase complete remission. TMS is a reasonable second-line intervention in patients with post-stroke depressed mood who have been resistant to pharmacotherapy. For several additional indications in post-stroke patients, both TMS and tDCS have shown signals of potential benefit in randomized trials. The strongest evidence is for enhancement of recovery of upper extremity motor function and hand dexterity with TMS. In addition, there is suggestive evidence for possible benefit in improving recovery of function after stroke in walking (TMS), activities of daily living (tDCS), aphasia (both), hemispatial neglect (both), and swallowing (both). However, for these and potentially other recovery-enhancing applications, substantial additional larger trials are needed.
Effects of whole-body vibration on motor function in patients with Parkinson’s disease: a systematic review and meta-analysis
- Chuan He, Caixia Su, Wentong Zhang, Qi Wan
-
- Journal:
- Brain Impairment / Volume 22 / Issue 2 / September 2021
- Published online by Cambridge University Press:
- 04 December 2020, pp. 205-216
-
- Article
- Export citation
-
Objective:
To review the effects of whole body vibration for patients with Parkinson’s disease.
Design:Randomized clinical trials comparing whole body vibration with no vibration or conventional physical therapy for patients with Parkinson’s disease were searched up to July 31, 2019.
Results:Seven studies with 196 patients were included for quantitative analysis. No significant difference was found between groups in motor score of unified Parkinson’s disease rating scale (UPDRS-III) (WMD [weighted mean difference] = −1.75, 95% CI, −5.40 to 1.90, I2 = 45.8%), functional reach test (SMD [standardized mean difference] = 0.21, 95% CI, −0.29 to 0.71; I2 = 0%), and other balance tests (including Berg balance test and Tinetti score) (SMD = 0.39, 95% CI, −0.01 to 0.80; I2 = 0%). No statistical difference was detected in walking velocity as well (WMD = −0.05, 95% CI, −0.17 to 0.06; I2 = 0%). In contrast, the pooled analysis from four studies on the Time Up and Go test showed favorable results for whole body vibration (WMD = −1.59, 95% CI, −2.90 to −0.28, I2 = 0%).
Conclusion:Whole body vibration may not be beneficial over placebo or conventional physical therapy in overall motor function, balance, and walking velocity in patients with Parkinson’s disease. However, it might have positive effects on sit to stand transitions or turning.
Chapter 1 - Introduction
- Edited by Kenneth M. Heilman, University of Florida, Stephen E. Nadeau, University of Florida
-
- Book:
- Cognitive Changes and the Aging Brain
- Published online:
- 30 November 2019
- Print publication:
- 05 December 2019, pp 1-4
-
- Chapter
- Export citation
-
Summary
Our brains are continuously changing and these changes alter brain functions. With maturation, there is growth and unfortunately, even with healthy aging, decline. Aging-related decrements affect neurons and their connectivity, neurotransmitter systems, and even support systems such as glia. Aging affects some brain regions (frontal lobes and hippocampi) more than others. This book reviews and discusses aging-related changes and their influence on the major neurobehavioral domains, beginning with reviews of aging-related changes in anatomy and physiology. Subsequent chapters review cross-sectional and longitudinal studies of aging-related changes in sensory perception (vision, hearing, touch, smell, taste) and cognitive functions (memory, language, motor planning, attention, executive functions, emotions, creativity). In each chapter, mechanisms that may account for these changes are discussed. Declines related to aging per se are distinguished from declines related to aging-associated diseases. Final chapters discuss what can potentially be done to slow or reverse aging-related decline of cognitive functions, including exercise, cognitive rehabilitation, and pharmacological agents. It is hoped this book will help clinicians differentiate between normal aging processes and brain diseases, reduce the adverse effects of brain aging, and stimulate further research on how adverse effects of brain aging can be reversed, stopped, modified, or best managed.
Tardive dyskinesia: motor system impairments, cognition and everyday functioning
- Martin Strassnig, Amie Rosenfeld, Philip D. Harvey
-
- Journal:
- CNS Spectrums / Volume 23 / Issue 6 / December 2018
- Published online by Cambridge University Press:
- 07 September 2017, pp. 370-377
-
- Article
- Export citation
-
The recent approval of treatments for tardive dyskinesia (TD) has rekindled interest in this chronic and previously recalcitrant condition. A large proportion of patients with chronic mental illness suffer from various degrees of TD. Even the newer antipsychotics constitute a liability for TD, and their liberal prescription might lead to emergence of new TD in patient populations previously less exposed to antipsychotics, such as those with depression, bipolar disorder, autism, or even attention deficit hyperactivity disorder. The association of TD with activity limitations remains poorly understood. We review potential new avenues of assessing the functional sequelae of TD, such as the performance of instrumental activities of daily living, residential status, and employment outcomes. We identify several mediating aspects, including physical performance measures and cognition, that may represent links between TD and everyday performance, as well as potential treatment targets.
Chapter 9 - Vestibular syndromes and vertigo
- from Section 1 - Clinical manifestations
- Edited by Louis R. Caplan, Jan van Gijn
-
- Book:
- Stroke Syndromes, 3ed
- Published online:
- 05 August 2012
- Print publication:
- 12 July 2012, pp 117-130
-
- Chapter
- Export citation
-
Summary
The primary function of the sensory cortex is to discriminate sensation: appreciation and recognition of spatial relations, appreciation of similarity and differences of external objects, precise localization of the point touched, and identification of objects (stereognosis). Although less carefully examined than motor or speech abnormalities, somatosensory abnormality is present in at least half of stroke patients. The sensory abnormality is characterized by the presence of paresthesias and a selective loss of lemniscal sensation. Pontine tegmental strokes affecting the sensory tracts are often accompanied by sensory symptoms. Concomitant involvement of the adjacent pyramidal tract results in a sensory-motor stroke, and additional involvement of the cerebellothalamic fibers at the ventrolateral nucleus may produce a hypesthetic ataxic hemiparesis syndrome. Although motor symptoms are usually dominant in patients with subcortical strokes, small or even relatively large lesions primarily affecting the thalamocortical sensory radiation can result in pure or predominant sensory symptoms.
Growth restriction alters adult spatial memory and sensorimotor gating in a sex-specific manner
- B. Lauritz, A. L. Siebel, V. Guille, A. J. Jefferies, M. E. Wlodek
-
- Journal:
- Journal of Developmental Origins of Health and Disease / Volume 3 / Issue 1 / February 2012
- Published online by Cambridge University Press:
- 05 December 2011, pp. 59-68
-
- Article
- Export citation
-
In Western society, impaired uteroplacental blood flow is the major cause of human intrauterine growth restriction. Infants born small and who experience late childhood accelerated growth have an increased risk of developing adult diseases. Recent studies also suggest a link between birth weight and altered adult behavior, particularly relating to motor function, learning and memory, depression and schizophrenia. The aim of this study was to determine the relative influence of prenatal and postnatal growth restriction on adult behavioral outcomes in male and female rats. Uteroplacental insufficiency was induced in Wistar Kyoto rats by bilateral uterine vessel ligation on day 18 of gestation producing growth-restricted offspring (Restricted group). The Control group had sham surgery. Another group underwent sham surgery, with a reduction in litter size to five at birth equivalent to the Restricted litter size (Reduced Litter group). At 6 months of age, a series of behavioral tests were conducted in male and female offspring. Growth restriction did not impair motor function. In fact, Restricted and Reduced Litter males showed enhanced motor performance compared with Controls (P < 0.05). Spatial memory was greater in Restricted females only (P < 0.05). The Porsolts test was unremarkable, however, males exhibited more depressive-like behavior than females (P < 0.05). A reduction in sensorimotor gating function was identified in Reduced Litter males and females (P < 0.05). We have demonstrated that growth restriction and/or a poor lactational environment can affect adult rat behavior, particularly balance and coordination, memory and learning, and sensorimotor gating function, in a sex-specific manner.
A comparison of the hazard perception ability of matched groups of healthy drivers aged 35 to 55, 65 to 74, and 75 to 84 years
- MARK S. HORSWILL, NANCY A. PACHANA, JOANNE WOOD, SHELBY A. MARRINGTON, JENNA McWILLIAM, CYNTHIA M. McCULLOUGH
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 15 / Issue 5 / September 2009
- Published online by Cambridge University Press:
- 01 September 2009, pp. 799-802
-
- Article
- Export citation
-
We examined differences in response latencies obtained during a validated video-based hazard perception driving test between three healthy, community-dwelling groups: 22 mid-aged (35–55 years), 34 young–old (65–74 years), and 23 old-old (75–84 years) current drivers, matched for gender, education level, and vocabulary. We found no significant difference in performance between mid-aged and young-old groups, but the old-old group was significantly slower than the other two groups. The differences between the old-old group and the other groups combined were independently mediated by useful field of view (UFOV), contrast sensitivity, and simple reaction time measures. Given that hazard perception latency has been linked with increased crash risk, these results are consistent with the idea that increased crash risk in older adults could be a function of poorer hazard perception, though this decline does not appear to manifest until age 75+ in healthy drivers. (JINS, 2009, 15, 799–802.)
Neuropsychological effects of treatments for adults with cancer: A meta-analysis and review of the literature
- CAY ANDERSON-HANLEY, MARNE L. SHERMAN, RAINE RIGGS, V. BEDE AGOCHA, BRUCE E. COMPAS
-
- Journal:
- Journal of the International Neuropsychological Society / Volume 9 / Issue 7 / November 2003
- Published online by Cambridge University Press:
- 12 February 2004, pp. 967-982
-
- Article
- Export citation
-
A meta-analysis was conducted to evaluate possible neuropsychological effects of treatments for cancer in adults. A search revealed 30 studies, encompassing 29 eligible samples, and leading to inclusion of a total of 838 patients and control participants. A total of 173 effect sizes (Cohen's d) were extracted across 7 cognitive domains and as assessed in the literature via 3 methods of comparison (post-treatment compared with normative data, controls, or baseline performance). Statistically significant negative effect sizes were found consistently across both normative and control methods of comparison for executive function, verbal memory, and motor function. The largest effects were for executive function and verbal memory normative comparisons (−.93 and −.91, respectively). When limiting the sample of studies in the analyses to only those with relatively “less severe” diagnoses and treatments, the effects remained. While these results point toward some specific cognitive effects of systemic cancer therapies in general, no clear clinical implications can yet be drawn from these results. More research is needed to clarify which treatments may produce cognitive decrements, the size of those effects, and their duration, while ruling out a wide variety of possible mediating or moderating variables. (JINS, 2003, 9, 967–982.)
SECTION I - NEUROLOGICAL EXAMINATION AND NEURODIAGNOSTIC TESTING
-
- By Sid M. Shah, Assistant Clinical Professor Michigan State University; Faculty member of Sparrow/MSU Emergency Medicine Residency Program Lansing, Michigan, Kevin M. Kelly, Associate Professor of Neurology Drexel University College of Medicine
- Edited by Sid M. Shah, Michigan State University, Kevin M. Kelly, Drexel University, Philadelphia
-
- Book:
- Principles and Practice of Emergency Neurology
- Published online:
- 06 August 2009
- Print publication:
- 18 February 2003, pp -
-
- Chapter
- Export citation
-
Summary
A detailed neurological history allows one to focus on important components of the neurological examination and for saving time and resources. The important elements of a focused neurological examination include onset of symptoms, temporal relationships of symptoms, progression of symptoms, associated symptoms, exacerbating and alleviating factors, symptoms that indicate involvement of a particular region of central nervous system (CNS), history of similar event and history of medication use. This chapter describes the examination of mental status, cranial nerve function, motor function, deep tendon reflexes, cutaneous reflexes, and miscellaneous signs, sensory modalities, and pathological reflexes. The Glasgow Coma Scale is often used as a method of briefly quantitating neurological dysfunction. A simple method to remember the anatomic basis of neurological examination is to focus on five levels of the CNS, which are the brain, the brainstem, the spinal cord, the peripheral nerves, and the muscles.