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2022 ◽  
Vol 12 (2) ◽  
pp. 759
Author(s):  
Anna M. Krol ◽  
Aritra Sarkar ◽  
Imran Ashraf ◽  
Zaid Al-Ars ◽  
Koen Bertels

Unitary decomposition is a widely used method to map quantum algorithms to an arbitrary set of quantum gates. Efficient implementation of this decomposition allows for the translation of bigger unitary gates into elementary quantum operations, which is key to executing these algorithms on existing quantum computers. The decomposition can be used as an aggressive optimization method for the whole circuit, as well as to test part of an algorithm on a quantum accelerator. For the selection and implementation of the decomposition algorithm, perfect qubits are assumed. We base our decomposition technique on Quantum Shannon Decomposition, which generates O(344n) controlled-not gates for an n-qubit input gate. In addition, we implement optimizations to take advantage of the potential underlying structure in the input or intermediate matrices, as well as to minimize the execution time of the decomposition. Comparing our implementation to Qubiter and the UniversalQCompiler (UQC), we show that our implementation generates circuits that are much shorter than those of Qubiter and not much longer than the UQC. At the same time, it is also up to 10 times as fast as Qubiter and about 500 times as fast as the UQC.


Neurology ◽  
2021 ◽  
Vol 98 (1 Supplement 1) ◽  
pp. S26-S26
Author(s):  
Shaun Kornfeld ◽  
Emily Kalambaheti ◽  
Matthew Michael Antonucci

ObjectiveTo demonstrate decreased post-concussive symptomatology and neurocognitive improvements in a professional hockey player following a multimodal, functional neurology approach to neurorehabilitation.BackgroundHockey is one of the top 3 sports in which concussions occur and has one of the top 10 highest participation numbers of sports in the northern hemisphere. The investigation of treatment modalities is warranted given the prevalence of hockey throughout society. This case study presents a 31-year-old male professional hockey athlete who had sustained 5 diagnosed concussions with additional suspected concussions throughout his career. His symptoms remained after independently receiving physical therapy and vestibular rehabilitation, causing an inability to continue playing hockey at a professional level.Design/MethodsThe patient was prescribed 10 treatment sessions over 5 contiguous days at an outpatient neurorehabilitation center specializing in functional neurology. The C3Logix neurocognitive assessment and graded symptom checklist were utilized at intake and discharge. Multimodal treatment interventions included transcranial photobiomodulation, non-invasive neuromodulation of the lingual branch of the trigeminal nerve, hand-eye coordination training, vestibular rehabilitation utilizing a three-axis whole-body off-axis rotational device, and cognitive training.ResultsOn intake, their composite symptom score was reported as 16/162, Trail Making Test Part B was 24.1 seconds, Simple Reaction Time was 274 milliseconds, and Choice Reaction Time was 496 milliseconds. On discharge, the patient experienced an 81% in self-reported symptoms, Trail Making Test Part B improved to 17 seconds (+29.46%), Simple Reaction Time was 252 milliseconds (8% faster), and Choice Reaction Time was 465 milliseconds (24% faster).ConclusionsThe present case study results demonstrated meaningful improvements in both self-rated concussion symptoms and neurocognitive performance for this patient. The Press suggest further investigation into functional neurology-based, multimodal, intensive approaches to decrease chronic post-concussion symptoms and improve neurocognitive performance in athletes that engage in hockey.


2021 ◽  
Vol 3 (6) ◽  
pp. 41-51
Author(s):  
D. Detullio

Reference [1] presented pooled data for the specificity of the M-FAST cut-off, but ignored or excluded data based on poor justifications and used questionable analytic methods. The analyses here corrected the problems associated with [1]. No moderator substantively influenced sensitivity values. Therefore, sensitivity values were pooled across all studies (k = 25) to provide an overall estimate. Overall, the average sensitivity of the M-FAST cut-off was estimated to be 0.87, 95% CI [0.80, 0.91], and 80% of true sensitivity values were estimated to range from 0.63 to 0.96. Thus, there could be methodological scenarios when the M-FAST cut-off may not operate efficiently. Average specificity values for the M-FAST cut-off were moderated by one variable: the comparison group. On average, specificity values for clinical comparison (k = 15) groups (i.e., 0.80, 95% CI [0.73, 0.85]) were lower than specificity values for non-clinical comparison (k = 11) groups (i.e., 0.96, 95% CI [0.89, 0.99]). Unlike the CIs, the estimated distributions of true specificity values for the two subgroups overlapped, which suggests there could be scenarios when these subgroups share the same true specificity value. The M-FAST was designed to be a screener to detect potential feigning of psychiatric symptoms. An examinee is never to be designating as feigning or malingering psychiatric symptoms based on only a positive M-FAST result. As a screening instrument, the results here show that the M-FAST cut-off is operating adequately overall and negate the conclusions of [1].


2021 ◽  
Vol 3 (6) ◽  
pp. 30-40
Author(s):  
D. Detullio

Reference [1] presented a skewed perspective of the M-FAST literature base and provided the flawed conclusion that the M-FAST should no longer be used in practice. In an attempt to correct the many issues with [1], this article provides a narrative review of the strengths and weaknesses of research findings for the M-FAST interpretation as well as reviews methodological concepts underlying feigning research. The M-FAST was designed to screen for potential feigning of psychiatric symptoms. It was not designed to conclude that an examinee is feigning or malingering psychiatric symptoms. A positive result on the M-FAST only indicates that additional data needs to be collected to make the aforementioned conclusions. Applying the M-FAST in any other way is a serious error on the part of the user. The research literature thus far generally supports the use of the M-FAST cut-off as a screening measure for possible feigning of psychiatric symptoms. However, there are scenarios when the M-FAST may not operate as efficiently, and these scenarios are discussed. Reference [1] misrepresented the purpose of the M-FAST as well as research findings on the M-FAST. Therefore, [1] should be read with great caution.


2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Hui-Fen Mao ◽  
Athena Yi-Jung Tsai ◽  
Ling-Hui Chang ◽  
I-Lu Tsai

Abstract Background In most controlled studies of multi-component cognitive intervention, participants’ cognitive levels are homogenous, which is contrary to real-world settings. There is a lack of research studying the implementation of evidence-based cognitive intervention in communities. This study describes the implementation and preliminary effectiveness of a Multi-component Cognitive Intervention using Simulated Everyday Tasks (MCI-SET) for older adults with different cognitive levels in real-world settings. Methods Single group, pre-intervention assessment, post-intervention assessment, and 3-month follow-up research design. MCI-SET consists of 12 two-hour weekly sessions that include motor-cognitive tasks, cognitive training, and cognitive rehabilitation. One hundred and thirty participants, > = 65 and frail, dependence on > = one instrumental daily activity, or with confirmed dementia, from eight community centers were included. The primary outcome is general cognition (Montreal Cognitive Assessment-Taiwan, MoCA-T). Secondary outcomes are memory (Miami Prospective Memory Test, Digits Forward, Digits Backward), attention (Color Trail Test-Part 1), executive function (Color Trail Test-Part 2), and general function (Kihon Checklist-Taiwan). Results Pre-intervention workshop for group leaders, standardized activity protocols, on-site observation, and ten weekly conferences were conducted to ensure implementation fidelity. MCI-SET had an 85% retention rate and 96% attendance rate. The participants had a mean age of 78.26 ± 7.00 and a mean MoCA-T score of 12.55 ± 7.43. 73% were female. General cognition (Hedges’ g = 0.31), attention (Hedges’ g = 0.23), and general function (Hedges’ g = 0.31), showed significant post-intervention improvement with small effect size. Follow-ups showed maintained improvement in general cognition (Hedges’ g = 0.33), and delayed effect on attention (Hedges’ g = 0.20), short-term memory (Hedges’ g = 0.38), and executive function (Hedges’ g = 0.40). Regression analysis indicated that the intervention settings (day care centers vs neighborhood centers), the pre-intervention cognitive levels, and the pre-intervention general function of the participants were not associated with the outcomes. Conclusions MCI-SET is feasible and can improve the cognitive skills and general functions of older adults with heterogeneous cognitive skills or disabilities. It is essential to tailor programs to fit the interests of the participants and the culture of local communities. Group leaders must also have the skills to adjust the cognitive demands of the tasks to meet the heterogeneous cognitive levels of participants. Trial registration This study was retrospectively registered at clinicaltrials.gov (Identifier: NCT04615169).


2021 ◽  
Vol 13 ◽  
Author(s):  
Antoine Langeard ◽  
Marta Maria Torre ◽  
Jean-Jacques Temprado

Objective: With aging, gait becomes more dependent on executive functions, especially on switching abilities. Therefore, cognitive-motor dual-task (DT) paradigms should study the interferences between gait and switching tasks. This study aimed to test a DT paradigm based on a validated cognitive switching task to determine whether it could distinguish older-old adults (OO) from younger-old adults (YO).Methods: Sixty-five healthy older participants divided into 29 younger-old (<70 years) and 36 older-old (≥70 years) age groups were evaluated in three single-task (ST) conditions as follows: a cognitive task including a processing speed component [Oral Trail Making Test part A (OTMT-A)], a cognitive task including a switching component [Oral Trail Making Test part B (OTMT-B)], and a gait evaluation at normal speed. They were also evaluated under two DT conditions, i.e., one associating gait with OTMT-A and the other associating gait with OTMT-B. Cognitive and gait performances were measured. The comparison of cognitive and gait performances between condition, logistic regression, and receiver operating characteristic (ROC) analyses were performed.Results: The cognitive and gait performances were differently affected by the different conditions (i.e., ST, DT, OTMT-A, and OTMT-B). The OTMT-B produced higher interference on gait and cognitive performances. Moreover, a higher number of errors on the OTMT-B performed while walking was associated with the older-old age group.Conclusion: Using validated cognitive flexibility tasks, this DT paradigm confirms the high interference between switching tasks and gait in older age. It is easily implemented, and its sensitivity to age may highlight its possible usefulness to detect cognitive or motor declines.


2021 ◽  
Vol 36 (6) ◽  
pp. 1153-1153
Author(s):  
Daniel W Lopez-Hernandez ◽  
Bethany A Nordberg ◽  
Alexis Bueno ◽  
Pavel Y Litvin ◽  
Amy Bichlmeier ◽  
...  

Abstract Introduction Repeated sports-related concussions have been associated with cognitive deficits, similar to other forms of traumatic brain injury. We investigated three different measures of executive ability derived from the Trail Making Test part B (TMT-B) in healthy comparison (HC) adults and retired football players. Methods The sample consisted of 32 HC, 15 retired football speed players (FSP; e.g., quarterbacks), and 53 retired football non-speed players (FNP) participants. Participants were administered both TMT part A (TMT-A) and TMT-B, and total time for completion was recorded. A series of ANCOVAs, controlling for age and education were conducted to evaluate group differences in executive abilities. Executive measures included the TMT-B raw score (i.e., seconds to complete TMT-B), the raw score difference (in seconds) between TMT-A and TMT-B (TMT-BA), and the difference between a predicted TMT-B score (TMT-BP) and the obtained TMT-B score (TMT-BBP). Correlations between TMT-B, TMT-BA, and TMT-BBP and other executive functioning tests (i.e., letter fluency and animal naming) were evaluated. Results Results revealed that the HC group outperformed both retired football player groups on all measures of executive ability derived from TMT-B, p’s < 0.05, ηps2 = 0.18–0.45. Furthermore, the retired FNP TMT-B and TMT-BA were significantly correlated with both letter fluency and animal naming, r’s = −0.40 to −0.36, p’s < 0.05. Discussion We found that the HC group outperformed both retired football player groups on all three TMT variables. In our retired FNP sample, more TMT variables correlated with executive functioning measures which suggests that TMT-B and TMT-BA are likely better measures of executive ability than TMT-BBP.


2021 ◽  
Vol 9 (7_suppl3) ◽  
pp. 2325967121S0003
Author(s):  
Lauren E. Watchmaker ◽  
Scott J. Hetzel ◽  
Ernest L. Sink ◽  
Andrea M. Spiker

Background: Hip dysplasia and related instability can cause pain, limit hip function, and ultimately result in osteoarthritis. The Prone Apprehension Relocation Test (PART) augments existing radiographic markers and clinical provocative maneuvers in diagnosing hip dysplasia. Reproducibility of the PART between examiners has not been previously studied. Hypothesis/Purpose: One measure of the potential clinical utility of the PART depends on the reproducibility of test results by evaluating providers including physicians, licensed athletic trainers, and physical therapists. The purpose of this study is to determine the inter-rater reliability of the PART between health care professionals. Methods: We retrospectively identified patients in our institution’s hip preservation registry who presented between September 2017 and June 2019 for evaluation of hip pain. Patients included in the study had the PART performed by two health care professionals who were blinded to the other’s results. Inter-rater reliability was assessed using the Cohen 𝜅, with a value of 𝜅 ≥ 0.75 considered excellent inter-rater reliability, between 0.75 and 0.40 moderate, and ≤ 0.40 poor. Results: 96 patients (190 hips) were included, with 63 females and 35 males, average age 32 ± 12.1 years. 23 hips had a positive PART from both examiners. Inter-rater reliability was excellent between health care professionals for the PART when evaluating the right hip (𝜅 = 0.80), left hip (𝜅 = 0.82), and when combining the results for left and right (𝜅 = 0.81). A sub-analysis of patients who had a positive PART from both raters demonstrated that 19 of the 23 hips had a lateral center edge angle > 25°. Conclusion: Our study demonstrates that the PART is a reliable physical exam maneuver in the evaluation of hip pain.


2021 ◽  
Vol 12 ◽  
Author(s):  
Diego Iacono ◽  
Sorana Raiciulescu ◽  
Cara Olsen ◽  
Daniel P. Perl

We aimed to detect the possible accelerating role of previous traumatic brain injury (TBI) exposures on the onset of later cognitive decline assessed across different brain diseases. We analyzed data from the National Alzheimer's Coordinating Center (NACC), which provide information on history of TBI and longitudinal data on cognitive and non-cognitive domains for each available subject. At the time of this investigation, a total of 609 NACC subjects resulted to have a documented history of TBI. We compared subjects with and without a history of previous TBI (of any type) at the time of their first cognitive decline assessment, and termed them, respectively, TBI+ and TBI– subjects. Three hundred and sixty-one TBI+ subjects (229 male/132 female) and 248 TBI– subjects (156 male/92 female) were available. The analyses included TBI+ and TBI– subjects with a clinical diagnosis of Mild Cognitive Impairment, Alzheimer's disease, Dementia with Lewy bodies, Progressive supranuclear palsy, Corticobasal degeneration, Frontotemporal dementia, Vascular dementia, non-AD Impairment, and Parkinson's disease. The data showed that the mean age of TBI+ subjects was lower than TBI– subjects at the time of their first cognitive decline assessment (71.6 ± 11.2 vs. 74.8 ± 9.5 year; p < 0.001). Moreover, the earlier onset of cognitive decline in TBI+ vs. TBI– subjects was independent of sex, race, attained education, APOE genotype, and importantly, clinical diagnoses. As for specific cognitive aspects, MMSE, Trail Making Test part B and WAIS-R scores did not differ between TBI+ and TBI– subjects, whereas Trail Making Test part A (p = 0.013) and Boston Naming test (p = 0.008) did. In addition, data showed that neuropsychiatric symptoms [based on Neuropsychiatry Inventory (NPI)] were much more frequent in TBI+ vs. TBI– subjects, including AD and non-AD neurodegenerative conditions such as PD. These cross-sectional analyses outcomes from longitudinally-assessed cohorts of TBI+ subjects that is, subjects with TBI exposure before the onset of cognitive decline in the contest of different neurodegenerative disorders and associated pathogenetic mechanisms, are novel, and indicate that a previous TBI exposure may act as a significant “age-lowering” factor on the onset of cognitive decline in either AD and non-AD conditions independently of demographic factors, education, APOE genotype, and current or upcoming clinical conditions.


Strain ◽  
2021 ◽  
Author(s):  
Lloyd Fletcher ◽  
Frances Davis ◽  
Sarah Dreuilhe ◽  
Aleksander Marek ◽  
Fabrice Pierron

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