Your search keyword '"real-time feedback"' showing total 79 results

1. The Volitional Control of Individual Motor Units Is Constrained within Low-Dimensional Neural Manifolds by Common Inputs.

Author

Rossato J, Avrillon S, Tucker K, Farina D, and Hug F

Subjects

Humans, Male, Adult, Young Adult, Volition physiology, Torque, Isometric Contraction physiology, Knee Joint physiology, Ankle Joint physiology, Muscle, Skeletal physiology, Motor Neurons physiology, Electromyography

Abstract

The implementation of low-dimensional movement control by the central nervous system has been debated for decades. In this study, we investigated the dimensionality of the control signals received by spinal motor neurons when controlling either the ankle or knee joint torque. We first identified the low-dimensional latent factors underlying motor unit activity during torque-matched isometric contractions in male participants. Subsequently, we evaluated the extent to which motor units could be independently controlled. To this aim, we used an online control paradigm in which participants received the corresponding motor unit firing rates as visual feedback. We identified two main latent factors, regardless of the muscle group (vastus lateralis-medialis and gastrocnemius lateralis-medialis). The motor units of the gastrocnemius lateralis could be controlled largely independently from those of the gastrocnemius medialis during ankle plantarflexion. This dissociation of motor unit activity imposed similar behavior to the motor units that were not displayed in the feedback. Conversely, it was not possible to dissociate the activity of the motor units between the vastus lateralis and medialis muscles during the knee extension tasks. These results demonstrate that the number of latent factors estimated from linear dimensionality reduction algorithms does not necessarily reflect the dimensionality of volitional control of motor units. Overall, individual motor units were never controlled independently of all others but rather belonged to synergistic groups. Together, these findings provide evidence for a low-dimensional control of motor units constrained by common inputs, with notable differences between muscle groups., Competing Interests: The authors declare no competing financial interests., (Copyright © 2024 the authors.)

Published

2024

2. Efficacy of Real-Time Feedback Exercise Therapy in Patients Following Total Hip Arthroplasty: Protocol for a Pilot Cluster-Randomized Controlled Trial.

Author

Widhalm K, Maul L, Durstberger S, Putz P, Leder-Berg S, Kainz H, and Augat P

Subjects

Humans, Pilot Projects, Male, Female, Middle Aged, Adult, Austria, Osteoarthritis, Hip surgery, Osteoarthritis, Hip rehabilitation, Randomized Controlled Trials as Topic, Arthroplasty, Replacement, Hip rehabilitation, Exercise Therapy methods

Abstract

Background: Osteoarthritis of the hip joint is an increasing functional and health-related problem. The most common surgical treatment is hip replacement to reduce pain and improve function. Rehabilitation after total hip arthroplasty (THA) is not regulated in Austria and mostly depends on the patient's own initiative and possibilities. Functional deficits, such as valgus thrust of the leg, functional Trendelenburg gait, or Duchenne limp, are characteristic symptoms before and, due to the performance learning effect prior to surgery, also after the operation. Addressing these deficits is possible through neuromuscular-focused exercise therapy. The efficacy of such therapy relies significantly on the quality of performance, the frequency of exercise, and the duration of engagement. Enhancing sustainability is achievable through increased motivation and real-time feedback (RTF) on exercise execution facilitated by digital feedback systems., Objective: This study will be performed to quantify the medium-term effectiveness of digital home exercise feedback systems on functional performance following THA., Methods: A clinical trial with a cluster-randomized, 2-arm, parallel-group design with an 8-week intervention phase and subsequent follow-ups at 3 and 6 months postsurgery will be conducted. Feedback during exercising will be provided through a blended-care program, combining a supervised group exercise program with a self-developed digital feedback system for home exercise. In total, 70 patients will be recruited for baseline. The primary outcome parameters will be the frontal knee range of motion, pelvic obliquity, and lateral trunk lean. Secondary outcomes will be the sum scores of patient-reported outcomes and relevant kinematic, kinetic, and spatiotemporal parameters., Results: The trial started in January 2024, and the first results are anticipated to be published by June 2025. RTF-supported home exercise is expected to improve exercise execution quality and therapeutic adherence compared to using paper instructions for excise guidance., Conclusions: The anticipated findings of this study aim to offer new insights into the effect of a blended-care program incorporating digital RTF on exercise therapy after unilateral THA, in addition to knowledge on the functional status 3 and 6 months postsurgery, for further improvement in the development of rehabilitation guidelines following THA., Trial Registration: ClinicalTrials.gov: NCT06161194; https://clinicaltrials.gov/study/NCT06161194., International Registered Report Identifier (irrid): PRR1-10.2196/59755., (©Klaus Widhalm, Lukas Maul, Sebastian Durstberger, Peter Putz, Sebastian Leder-Berg, Hans Kainz, Peter Augat. Originally published in JMIR Research Protocols (https://www.researchprotocols.org), 20.08.2024.)

Published

2024

3. Developing competency of nursing students in cardiopulmonary resuscitation using Resuscitation Quality Improvement technology.

Author

Oermann MH, VanRiel YM, Stieve DE, Vermeesch CA, Crane PC, Kratovil A, Baker M, Guerra DS, Chamness J, Saeed BA, Rogers V, Flicker JM, and Patterson CM

Subjects

Humans, United States, Female, Male, Manikins, Education, Nursing, Baccalaureate methods, Adult, Cardiopulmonary Resuscitation education, Cardiopulmonary Resuscitation standards, Clinical Competence, Quality Improvement, Students, Nursing statistics & numerical data

Abstract

Objectives: This study examined the outcomes of training nursing students in CPR skills using the Resuscitation Quality Improvement (RQI) program., Methods: Nursing students (n=2,193) in 12 schools across the United States participated in this study. Students performed compressions and bag-masked ventilation on adult and infant manikins using the RQI simulation station without and then with feedback on their performance., Results: With real-time, objective feedback from the RQI simulation station, students' performance of CPR skills improved, and they retained their skills over time., Conclusions: The RQI program and methodology of feedback is effective for training nursing students to be competent in CPR skills, essential for safe patient care. Nursing and other healthcare professions programs should consider adopting the RQI program for students to develop competency in CPR., (© 2024 the author(s), published by De Gruyter, Berlin/Boston.)

Published

2024

4. Do laypersons need App-linked real-time feedback devices for effective resuscitation? - Results of a prospective, randomised simulation trial.

Author

Wingen S, Großfeld N, Adams NB, Streit A, Stock J, Böttiger BW, and Wetsch WA

Abstract

Background: App-linked real-time feedback-devices for cardiopulmonary resuscitation (CPR) aim to improve laypersons' resuscitation quality. Resuscitation guidelines recommend these technologies in training settings. This is the first study comparing resuscitation quality of all App-linked feedback-devices currently on market., Methods: A prospective randomised simulation study was performed. After standardised instructions, participants performed 2-minutes compression-only CPR on a manikin without feedback (baseline). Afterwards, participants performed 4 × 2 min CPR with four different feedback devices in randomised order (CorPatch® Trainer, CPRBAND AIO Training, SimCPR®ProTrainer, Relay Response™) (intervention). CPR metrics (chest compression depth (CD), chest compression rate (CR), percentage of correct CD/CR (%), correct hand position, correct chest recoil, and technical preparation-time) were assessed. Devices data were compared to the baseline group using Wilcoxon testing with IBM SPSS (primary outcome). Differences between devices were analysed with ANOVA testing (secondary outcome). Normally distributed data were described as mean ± standard deviation (SD) and non-normally distributed data as Median [Interquartile range (IQR). CPR self-confidence was measured by means of questionnaire before and after feedback devices' use. Comparison was performed by students t -test., Results: Forty participants were involved. SimCPR®ProTrainer was the only device, which resulted in guideline-compliant chest compressions (Mean ± SD:5.37 ± 0.76) with improved chest compression depth ( p  < 0.001), and percentage of correct chest compression depth ( p  < 0.001) compared to unassisted CPR (baseline). CorPatch® Trainer as the only device with audio-visual recoil instructions resulted in improved chest recoil (Mean ± SD:72.25 ± 24.89) compared to baseline (Mean ± SD:49.00 ± 42.20; p  < 0.01), while the other three devices resulted in significantly lower chest recoil rates (CPRBAND AIO Training: 37.03 ± 39.90; p  < 0.01, SimCPR®ProTrainer: Mean ± SD:39.88 ± 36.50; p  = 0.03, Relay Response™: Mean ± SD:36.88 ± 37.73; p  = 0.02). CPR quality when using the different feedback devices differ in chest compression depth ( p  = 0.02), chest compression rate ( p  < 0.001), percentage of correct chest compression depth/rate ( p  = 0.03/ p  = 0.04), and technical preparation-time ( p  < 0.001). Feedback-devices' use increased participant's CPR self-confidence ( p  < 0.001)., Conclusion: Although, CPR feedback devices show improved CPR performance in layperson in some metrics, none of the tested CPR feedback devices supported layperson in overall adequate CPR performance. More and better technical functionality is necessary, to fully utilise the potential of CPR feedback devices and to prevent a worsening of CPR performance when layperson use this technology., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: ‘Sabine Wingen is executive personal assistant of the executive board of the German Resuscitation Council (GRC) and receive fees for lectures and consulting from FOM Hochschule für Oekonomie & Management and L2R GmbH. Nele Großfeld works for the L2R GmbH. Jan Stock is Head of the L2R GmbH and Project Manager at the Hans Peter Esser GmbH. Bernd W. Böttiger is treasurer of the European Resuscitation Council (ERC), Founder of the ERC Research NET, Chairman of the German Resuscitation Council (GRC), Member of the „Advanced Life Support (ALS) Task Force of the International Liaison Committee on Resuscitation (ILCOR), Member of the Executive Committee of the German Interdisciplinary Association for Intensive Care and Emergency Medicine (DIVI), Founder of the “Deutsche Stiftung Wiederbelebung”, Federal Medical Advisor of the German Red Cross (DRK), Member of the Advisory Board of the “Deutsche Herzstiftung”, Co-Editor of “Resuscitation”, Editor of the Journal “Notfall + Rettungsmedizin”, Co-Editor of the Brazilian Journal of Anesthesiology. He received fees for lectures from the following companies: Forum für medizinische Fortbildung (FomF), ZOLL Medical Deutschland GmbH, C.R. Bard GmbH, Becton Dickinson GmbH. Wolfgang A. Wetsch, Niels-Benjamin Adams, and Antonia Streit have no conflicts of interest.’., (© 2024 The Author(s).)

Published

2024

5. Realtime assessment of vascular occlusion and reperfusion in animal models of intraoperative imaging - a pilot study.

Author

Kandukuri J, Jain A, Karmarkar P, Gadagkar H, Aberman H, Wang Q, and Rege A

Abstract

Objectives: Intraoperative monitoring of blood flow (BF) remains vital to guiding surgical decisions. Here, we report the use of SurgeON™ Blood Flow Monitor (BFM), a prototype system that attaches to surgical microscopes and implements laser speckle contrast imaging (LSCI) to noninvasively obtain and present vascular BF information in real-time within the microscope's eyepiece., Methods: The ability of SurgeON BFM to monitor BF status during reversible vascular occlusion procedures was investigated in two large animal models: occlusion of saphenous veins in six NZW rabbit hindlimbs and clipping of middle cerebral artery (MCA) branches in four Dorset sheep brain hemispheres. SurgeON BFM acquired, presented, and stored LSCI-based blood flow velocity index (BFVi) data and performed indocyanine green video angiography (ICG-VA) for corroboration., Results: Stored BFVi data were analyzed for each phase: pre-occlusion (baseline), with the vessel occluded (occlusion), and after reversal of occlusion (re-perfusion). In saphenous veins, BFVi relative to baseline reduced to 5.2±3.7 % during occlusion and returned to 102.9±14.9 % during re-perfusion. Unlike ICG-VA, SurgeON BFM was able to monitor reduced BFVi and characterize re-perfusion robustly during five serial occlusion procedures conducted 2-5 min apart on the same vessel. Across four sheep MCA vessels, BFVi reduced to 18.6±7.7 % and returned to 120.1±27.8 % of baseline during occlusion and re-perfusion phases, respectively., Conclusions: SurgeON BFM can noninvasively monitor vascular occlusion status and provide intuitive visualization of BF information in real-time to an operating surgeon. This technology may find application in vascular, plastic, and neurovascular surgery., Competing Interests: Competing interests: When this work was performed, authors JK, AJ, PK, HG, and AR were employed by Vasoptic Medical, Inc., which is commercializing the SurgeON technology. Authors JK, PK, HG, and AR have ownership interest in Vasoptic Medical, Inc., including patents pertaining to this work., (© 2024 the author(s), published by De Gruyter, Berlin/Boston.)

Published

2024

6. Could Having Access to Real-Time Data on Your Emotions Influence Subsequent Behavior? Evidence from a Randomized Controlled Trial of Japanese Office Workers.

Author

Kadoya Y, Fukuda S, and Khan MSR

Abstract

Improvements in mental health through real-time feedback on emotions have consequences for productivity and employee wellness. However, we find few extant studies on how real-time feedback on emotions can influence subsequent behavior modification in the Japanese workplace. We conducted a randomized controlled trial (RCT) with 30 employees of an insurance company in Japan and observed their emotions for 10 working days using a wearable biometric device. We compared the emotions of employees who had access to real-time emotional states (treatment group) with those of employees who did not (control group). The results of the panel regression analysis showed that access to real-time emotions was negatively associated with happy emotions and positively associated with angry and sad emotions. The results indicated that even after having access to the objective statuses of emotions, participants were unable to continue with happy emotions and reverse angry and sad emotions to other comfortable emotions. Our findings imply that feedback on real-time emotional states should be associated with appropriate training and motivation to utilize feedback for behavioral modification.

Published

2024

7. Real-time feedback on chest compression efficacy by hands-free carotid Doppler in a porcine model.

Author

Faldaas BO, Nielsen EW, Storm BS, Lappegård KT, Nilsen BA, Kiss G, Skogvoll E, Torp H, and Ingul CB

Abstract

Aim: Current guidelines for cardiopulmonary resuscitation (CPR) recommend a one-size-fits-all approach in relation to the positioning of chest compressions. We recently developed RescueDoppler, a hands-free Doppler ultrasound device for continuous monitoring of carotid blood flow velocity during CPR. The aim of the present study is to investigate whether RescueDoppler via real-time hemodynamic feedback, could identify both optimal and suboptimal compression positions., Methods: In this model of animal cardiac arrest, we induced ventricular fibrillation in five domestic pigs. Manual chest compressions were performed for ten seconds at three different positions on the sternum in random order and repeated six times. We analysed Time Average Velocity (TAV) with chest compression position as a fixed effect and animal, position, and sequential time within animals as random effects. Furthermore, we compared TAV to invasive blood pressure from the contralateral carotid artery., Results: We were able to detect changes in TAV when altering positions. The positions with the highest (range 19 to 48 cm/s) and lowest (6-25 cm/s) TAV were identified in all animals, with corresponding peak pressure 50-81 mmHg, and 46-64 mmHg, respectively. Blood flow velocity was, on average, highest at the middle position (TAV 33 cm/s), but with significant variability between animals (SD 2.8) and positions within the same animal (SD 9.3)., Conclusion: RescueDoppler detected TAV changes during CPR with alternating chest compression positions, identifying the position yielding maximal TAV. Future clinical studies should investigate if RescueDoppler can be used as a real-time hemodynamical feedback device to guide compression position., Competing Interests: The authors declare the following financial interests/personal relationships, which may be considered as potential competing interests: Hans Torp and Charlotte Björk Ingul are employed by Cimon Medical which owns the technology associated with RescueDoppler., (© 2024 The Author(s).)

Published

2024

8. Ventilation assisted feedback in out of hospital cardiac arrest.

Author

Gerber S, Pourmand A, Sullivan N, Shapovalov V, and Pourmand A

Subjects

Humans, Feedback, Respiration, Artificial, Out-of-Hospital Cardiac Arrest therapy, Cardiopulmonary Resuscitation, Emergency Medical Services

Abstract

Excessive ventilatory volumes and rates during cardiopulmonary resuscitation (CPR) can lead to adverse effects, such as elevated intrathoracic pressure and decreased coronary blood flow. The 2020 American Heart Association (AHA) guidelines acknowledge the value of real-time feedback devices in improving CPR performance. In this case series, three out-of-hospital cardiac arrest cases received ventilation feedback during prehospital resuscitation and the initial in-hospital care phase. In each case, a notable increase in ventilation rate and volume was observed following the transfer of care from emergency medical services to hospital staff. This deviation from established ventilation guidelines emphasizes the importance of monitoring and addressing ventilation strategy during the transition to hospital care. Existing evidence supports the importance of maintaining specific ventilation rates and tidal volumes during cardiac arrest to improve outcomes. We believe further research is essential to establish a definitive link between ventilation strategies and patient outcomes, ultimately enhancing resuscitation efforts and patient survival rates. Integrating real-time ventilation feedback devices both in and out of the hospital during cardiac arrest presents an opportunity for quality improvement and adherence to national standards., Competing Interests: Declaration of Competing Interest The authors do not have a financial interest or relationship to disclose regarding this research project., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

9. Association of Real-Time Feedback and Cardiopulmonary-Resuscitation Quality Delivered by Ambulance Personnel for Out-of-Hospital Cardiac Arrest.

Author

Lyngby RM, Quinn T, Oelrich RM, Nikoletou D, Gregers MCT, Kjølbye JS, Ersbøll AK, and Folke F

Subjects

Humans, Heart Massage methods, Ambulances, Feedback, Time Factors, Out-of-Hospital Cardiac Arrest diagnosis, Out-of-Hospital Cardiac Arrest therapy, Cardiopulmonary Resuscitation methods, Emergency Medical Services methods

Abstract

Background High-quality cardiopulmonary resuscitation (CPR) is associated with improved survival from out-of-hospital cardiac arrest and includes chest compression depth, chest compression rate, and chest compression fraction within international guideline recommendations. Previous studies have demonstrated divergent results of real-time feedback on CPR performance and patient outcomes. This study investigated the association between emergency medical service CPR quality and real-time CPR feedback for out-of-hospital cardiac arrest. Methods and Results This study collected out-of-hospital cardiac arrest data within the Capital Region of Denmark and compared CPR quality delivered by ambulance personnel. Data were collected in 2 consecutive phases from October 2018 to February 2020. Median chest compression depth was 6.0 cm (no feedback) and 5.9 cm (real-time feedback) ( P =0.852). Corresponding proportion of guideline-compliant chest compressions for depth was 16.6% and 28.7%, respectively ( P <0.001). Median chest compression rate per minute was 111 and 109 ( P <0.001), respectively. Corresponding guideline adherence proportion for compression rate was 65.4% compared with 80.4% ( P <0.001), respectively. Chest compression fraction was 78.9% compared with 81.9% ( P <0.001), respectively. The combination of guideline-compliant chest compression depth and chest compression rate simultaneously was 8.5% (no feedback) versus 18.8% (feedback) ( P <0.001). Improvements were not significant for return of spontaneous circulation (odds ratio [OR], 1.08 [95% CI, 0.84-1.39]), sustained return of spontaneous circulation (OR, 1.00 [95% CI, 0.77-1.31]), or survival to hospital discharge (OR, 0.91 [95% CI, 0.64-1.30]). Conclusions Real-time feedback was associated with improved guideline compliance for chest compression depth, rate, and fraction but not return of spontaneous circulation, sustained return of spontaneous circulation, or survival to hospital discharge. Registration URL: https://www.clinicaltrials.gov; Unique identifier: NCT04152252.

Published

2023

10. Validation of Inertial Measurement Units for Analyzing Golf Swing Rotational Biomechanics.

Author

Kim SE, Burket Koltsov JC, Richards AW, Zhou J, Schadl K, Ladd AL, and Rose J

Subjects

Male, Humans, Female, Biomechanical Phenomena, Torso, Pelvis, Shoulder, Movement, Golf

Abstract

Training devices to enhance golf swing technique are increasingly in demand. Golf swing biomechanics are typically assessed in a laboratory setting and not readily accessible. Inertial measurement units (IMUs) offer improved access as they are wearable, cost-effective, and user-friendly. This study investigates the accuracy of IMU-based golf swing kinematics of upper torso and pelvic rotation compared to lab-based 3D motion capture. Thirty-six male and female professional and amateur golfers participated in the study, nine in each sub-group. Golf swing rotational kinematics, including upper torso and pelvic rotation, pelvic rotational velocity, S-factor (shoulder obliquity), O-factor (pelvic obliquity), and X-factor were compared. Strong positive correlations between IMU and 3D motion capture were found for all parameters; Intraclass Correlations ranged from 0.91 (95% confidence interval [CI]: 0.89, 0.93) for O-factor to 1.00 (95% CI: 1.00, 1.00) for upper torso rotation; Pearson coefficients ranged from 0.92 (95% CI: 0.92, 0.93) for O-factor to 1.00 (95% CI: 1.00, 1.00) for upper torso rotation ( p < 0.001 for all). Bland-Altman analysis demonstrated good agreement between the two methods; absolute mean differences ranged from 0.61 to 1.67 degrees. Results suggest that IMUs provide a practical and viable alternative for golf swing analysis, offering golfers accessible and wearable biomechanical feedback to enhance performance. Furthermore, integrating IMUs into golf coaching can advance swing analysis and personalized training protocols. In conclusion, IMUs show significant promise as cost-effective and practical devices for golf swing analysis, benefiting golfers across all skill levels and providing benchmarks for training.

Published

2023

11. Computer vision-based algorithm to sUppoRt coRrect electrode placemeNT (CURRENT) for home-based electric non-invasive brain stimulation.

Author

Windel F, Gardier RMM, Fourchard G, Viñals R, Bavelier D, Padberg FJ, Rancans E, Bonne O, Nahum M, Thiran JP, Morishita T, and Hummel FC

Subjects

Humans, Brain physiology, Electrodes, Electric Stimulation, Computers, Transcranial Direct Current Stimulation

Abstract

Objective: Home-based non-invasive brain stimulation (NIBS) has been suggested as an adjunct treatment strategy for neuro-psychiatric disorders. There are currently no available solutions to direct and monitor correct placement of the stimulation electrodes. To address this issue, we propose an easy-to-use digital tool to support patients for self-application., Methods: We recruited 36 healthy participants and compared their cap placement performance with the one of a NIBS-expert investigator. We tested participants' placement accuracy with instructions before (Pre) and after the investigator's placement (Post), as well as participants using the support tool (CURRENT). User experience (UX) and confidence were further evaluated., Results: Permutation tests demonstrated a smaller deviation within the CURRENT compared with Pre cap placement (p = 0.02). Subjective evaluation of ease of use and usefulness of the tool were vastly positive (8.04 out of 10). CURRENT decreased the variability of performance, ensured placement within the suggested maximum of deviation (10 mm) and supported confidence of correct placement., Conclusions: This study supports the usability of this novel technology for correct electrode placement during self-application in home-based settings., Significance: CURRENT provides an exciting opportunity to promote home-based, self-applied NIBS as a safe, high-frequency treatment strategy that can be well integrated in patients' daily lives., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

12. Real-time feedback on mobile application use for emergency management affects the door-to-needle time and functional outcomes in acute ischemic stroke.

Author

Reziya H, Sayifujiamali K, Han HJ, Wang XM, Nuerbiya T, Nuerdong D, Sang Q, and Wu YF

Subjects

Humans, Retrospective Studies, Feedback, Tomography, X-Ray Computed, Treatment Outcome, Thrombolytic Therapy adverse effects, Time-to-Treatment, Fibrinolytic Agents adverse effects, Ischemic Stroke diagnostic imaging, Ischemic Stroke therapy, Mobile Applications, Stroke diagnostic imaging, Stroke therapy

Abstract

Objectives: Time from onset to reperfusion affects mortality and favorable outcomes in patients with acute ischemic stroke (AIS). To evaluate effects of a real-time feedback mobile application on critical time intervals and functional outcomes in stroke emergency management., Methods: We recruited patients with clinically suspected acute stroke from December 1st, 2020 until July 30st, 2022. All Patients had a non-contrast computed tomography (CT) and were included only if they had AIS. We divided the patients into two groups based on the date of availability on mobile application: pre-APP group and post-APP group. Onset to Door time (ODT), Door to Imaging Time (DIT), Door to Needle Time (DNT), Door to Puncture Time (DPT), Door to Recanalization Time (DRT), National Institutes of Health Stroke Scale (NIHSS) and modified Rankin Scale (mRS) were compared between two groups., Results: We retrospectively enrolled 312 AIS patients who were assigned into the pre-APP group (n = 159) and post-APP group (n = 153). The median ODT time and median admission NIHSS score were not significantly different between the two groups at baseline assessment. The median (IQR) DIT [44 (30-60) min vs 28 (20-36) min, P < 0.01] and DNT [44 (36.25-52) min vs 39 (29-45) min, P = 0.02] both decreased significantly in two groups. However, median DPT and DRT time showed no significant differences. The proportion of mRS score of 0 to 2 at day 90 was significantly higher in the post-App group than in the pre-App group, at 82.4% and 71.7%, respectively (dominance ratio OR=1.84, 95% CI: 1.07 to 3.16, P = 0.03)., Conclusion: The present findings indicate that the real-time feedback of stroke emergency management used by a mobile application have potential for shortening the DIT and DNT time and improve the prognosis of stroke patients., Competing Interests: Declaration of Competing Interest None of the authors have any potential conflicts of interest associated with this research., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

13. The Effect of Real-Time Tibial Acceleration Feedback on Running Biomechanics During Gait Retraining: A Systematic Review and Meta-Analysis.

Author

Li X, Yu J, Bai J, Huang H, Ying S, Wang A, and Wang P

Subjects

Humans, Feedback, Biomechanical Phenomena, Gait, Acceleration, Fractures, Stress, Running

Abstract

Objectives: To explore the immediate and retention effect of real-time tibial acceleration feedback on running biomechanics during gait retraining., Methods: Five electronic databases were searched to identify relevant studies published before May 2022. The included studies were evaluated for methodological quality and bias risk, and data were extracted. A meta-analysis was conducted on the primary outcomes, including peak tibial acceleration (PTA) and vertical ground reaction force. Subgroup analysis was performed by gender, feedback criterion, mode, dosage, fading, retention period, and running environment to evaluate the source of heterogeneity. Qualitative analysis was performed to describe other variables., Results: Fourteen studies (174 participants) were eligible. Meta-analysis showed that real-time tibial acceleration feedback reduced PTA (P < .01, P < .01), vertical impact peak (P = .004, P < .01), vertical average loading rate (P < .01, P < .01), and vertical instantaneous loading rate (P < .01, P < .01) after feedback and during retention period (5 min-12 mo). Subgroup analysis showed that the immediate effect of vertical impact peak was more noticeable with mixed gender (P = .005) and fading feedback (P = .005) conditions, and the retention effect of PTA was more noticeable with high feedback dosage (P < .01) and fading feedback (P < .01) conditions., Conclusions: Real-time tibial acceleration feedback can reduce PTA and vertical ground reaction force during gait retraining, and for periods of 5 minutes to 12 months when the feedback is removed.

Published

2023

14. Real-time video and force analysis feedback system for learning strength skills on rings in men's artistic gymnastics.

Author

Fujihara T

Subjects

Male, Humans, Feedback, Biomechanical Phenomena, Gymnastics

Abstract

The importance of objective evaluations has gathered more attention than before for a fairer and better performance judgment in gymnastics. The purpose of this report was to disseminate information about our system and provide an example of data utilisation in high-level competitive training from a practical standpoint. The system combined video and force data, measured with two force transducers at the top of the ring cables, wirelessly transmitted to a computer. The force data synchronised with the video were available in real time or immediately after trials, making it possible to objectively quantify the amount of spotting that a gymnast received as external physical assistances. The simplicity of the setup and several special functions of the system led athletes and coaches spontaneously to use it in their regular training to quantify their skill level. Based on the regular utilisation of the system, the general correspondence between objectively measured values and the subjective perception of spotters was determined. In addition, the data suggested the possibility of technical evaluation of a certain type of strength skill based on force data. The data that are shared in this report should be beneficial in facilitating activities to integrate science into practice in gymnastics.

Published

2023

15. Comparison of real-time feedback and debriefing by video recording on basic life support skill in nursing students.

Author

Ghaderi MS, Malekzadeh J, Mazloum S, and Pourghaznein T

Subjects

Humans, Clinical Competence, Feedback, Video Recording, Cardiopulmonary Resuscitation education, Students, Nursing

Abstract

Background: Cardiopulmonary resuscitation skill have a direct impact on its success rate. Choosing the right method to acquire this skill can lead to effective performance. This investigation was conducted to compare the effect of Real-time feedback and debriefing by video recording on basic life support skill in nursing students., Methods: This quasi-experimental study was performed on 67 first year nursing students. First, a theoretical basic life support (BLS) training session was held for the all participants, at the end of session the pre-test was taken. Students were randomly assigned to two groups. A 4-hour practical BLS training session was conducted in the real - time feedback group as well as the debriefing by video recording group, and at the end of the training, a post-test was taken from each group. Each group received a post-test. Data were analyzed using SPSS 25 software., Results: Results showed a significant difference between mean (SD) of debriefing by video recording group in pre-test and post-test (p < 0.001) and in the real-time feedback group there was a significant difference between mean (SD) in pre-test and post-test (p < 0.001), respectively. In addition, there was no significant difference between the mean score of basic life support skill in real-time feedback and debriefing by video recording., Conclusions: Both real-time feedback and debriefing by video recording were effective on basic life support skill., (© 2023. The Author(s).)

Published

2023

16. Acceptability and Feasibility of Wearable Transdermal Alcohol Sensors: Systematic Review.

Author

Brobbin E, Deluca P, Hemrage S, and Drummond C

Abstract

Background: Transdermal alcohol sensors (TASs) have the potential to be used to monitor alcohol consumption objectively and continuously. These devices can provide real-time feedback to the user, researcher, or health professional and measure alcohol consumption and peaks of use, thereby addressing some of the limitations of the current methods, including breathalyzers and self-reports., Objective: This systematic review aims to evaluate the acceptability and feasibility of the currently available TAS devices., Methods: A systematic search was conducted in CINAHL, EMBASE, Google Scholar, MEDLINE, PsycINFO, PubMed, and Scopus bibliographic databases in February 2021. Two members of our study team independently screened studies for inclusion, extracted data, and assessed the risk of bias. The study's methodological quality was appraised using the Mixed Methods Appraisal Tool. The primary outcome was TAS acceptability. The secondary outcome was feasibility. The data are presented as a narrative synthesis., Results: We identified and analyzed 22 studies. Study designs included laboratory- and ambulatory-based studies, mixed designs, randomized controlled trials, and focus groups, and the length the device was worn ranged from days to weeks. Although views on TASs were generally positive with high compliance, some factors were indicated as potential barriers and there are suggestions to overcome these., Conclusions: There is a lack of research investigating the acceptability and feasibility of TAS devices as a tool to monitor alcohol consumption in clinical and nonclinical populations. Although preliminary evidence suggests their potential in short-term laboratory-based studies with volunteers, more research is needed to establish long-term daily use with other populations, specifically, in the clinical and the criminal justice system., Trial Registration: PROSPERO CRD42021231027; https://www.crd.york.ac.uk/prospero/display&#95;record.php?RecordID=231027., (©Eileen Brobbin, Paolo Deluca, Sofia Hemrage, Colin Drummond. Originally published in JMIR Human Factors (https://humanfactors.jmir.org), 23.12.2022.)

Published

2022

17. Instantaneous effect of real-time avatar visual feedback on interlimb coordination during walking post-stroke.

Author

Liu LY, Sangani S, Patterson KK, Fung J, and Lamontagne A

Subjects

Humans, Feedback, Sensory, Walking

Abstract

Background: Gait asymmetry, which is common after stroke, is typically characterized using spatiotemporal parameters of gait that do not consider the aspect of movement coordination. In this manuscript, we examined whether an avatar-based feedback provided as a single-session intervention to improve gait symmetry also improved inter-limb coordination among people with stroke and we examined the relationship between changes in coordination and step length symmetry., Methods: Twelve stroke participants walked on a self-paced treadmill with and without a self-avatar that replicated their locomotor movements in real time. Continuous relative phase and angular coefficient of correspondence calculated using bilateral sagittal hip movements were used to quantify temporal and spatial interlimb coordination, respectively. Spatial gait symmetry, previously shown to improve with the avatar feedback, was quantified using step length ratio between both limbs, with the largest value as numerator., Findings: Participants who improved their spatial symmetry during avatar exposure also improved their temporal coordination, while spatial coordination remained unchanged. Overall, improvements in spatial symmetry correlated positively with improvements in temporal coordination. The non-paretic hip and paretic ankle angle excursion in the sagittal plane also significantly increased during avatar exposure., Interpretation: Improvements in gait symmetry may be explained by changes in interlimb coordination. Current data and existing literature further suggest that such improvements are largely driven by adaptations in non-paretic leg movements, notably at the hip. By providing real-time information on walking movements not affordable in other ways, avatar-based feedback shows great potential to improve gait symmetry and interlimb coordination post-stroke., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

18. AMX - the highly automated macromolecular crystallography (17-ID-1) beamline at the NSLS-II.

Author

Schneider DK, Soares AS, Lazo EO, Kreitler DF, Qian K, Fuchs MR, Bhogadi DK, Antonelli S, Myers SS, Martins BS, Skinner JM, Aishima J, Bernstein HJ, Langdon T, Lara J, Petkus R, Cowan M, Flaks L, Smith T, Shea-McCarthy G, Idir M, Huang L, Chubar O, Sweet RM, Berman LE, McSweeney S, and Jakoncic J

Subjects

Crystallography, X-Ray, Macromolecular Substances chemistry, Synchrotrons

Abstract

The highly automated macromolecular crystallography beamline AMX/17-ID-1 is an undulator-based high-intensity (>5 × 10 12  photons s -1 ), micro-focus (7 µm × 5 µm), low-divergence (1 mrad × 0.35 mrad) energy-tunable (5-18 keV) beamline at the NSLS-II, Brookhaven National Laboratory, Upton, NY, USA. It is one of the three life science beamlines constructed by the NIH under the ABBIX project and it shares sector 17-ID with the FMX beamline, the frontier micro-focus macromolecular crystallography beamline. AMX saw first light in March 2016 and started general user operation in February 2017. At AMX, emphasis has been placed on high throughput, high capacity, and automation to enable data collection from the most challenging projects using an intense micro-focus beam. Here, the current state and capabilities of the beamline are reported, and the different macromolecular crystallography experiments that are routinely performed at AMX/17-ID-1 as well as some plans for the near future are presented., (open access.)

Published

2022

19. Evaluation of Combinations of Nudging, Pricing, and Labeling Strategies to Improve Diet Quality: A Virtual Grocery Store Experiment Employing a Multiphase Optimization Strategy.

Author

Shin S, Chakraborty B, Yan X, van Dam RM, and Finkelstein EA

Subjects

Costs and Cost Analysis, Diet, Humans, Supermarkets, Consumer Behavior, Food Preferences

Abstract

Background: Several intervention strategies have been shown to improve diet quality. However, there is limited evidence on the increase in effectiveness that may be achieved through select combinations of these strategies., Purpose: This study aimed to identify an effective multicomponent intervention to improve diet quality of a grocery basket by applying a Multiphase Optimization Strategy framework and testing various combinations of four promising strategies using a fully functional web-based grocery store: (i) front-of-pack food labels and real-time feedback of the healthiness of the shoppers' grocery basket, (ii) a tax, (iii) ordering products by a nutritional quality score, and (iv) healthier substitute offers., Methods: We conducted a hypothetical shopping study (N = 756) with a randomized full factorial design (16 conditions) to estimate main and interaction effects of the four interventions., Results: The "food labels & real-time feedback" and "ordering" strategies had significantly positive main effects on overall diet quality of the shopping basket (both at p < .001). We found no effects on diet quality for the "tax" and "healthier substitute offers." None of the two-way interaction effects for different strategies on overall diet quality and nutrients were significant., Conclusions: Having "food labels & real-time feedback" and "ordering" simultaneously seemed to be more effective at improving diet quality, compared to having only one of these interventions. These results suggest that a combination of food labels with real-time feedback and ordering interventions can be part of a promising multicomponent strategy to improve diet quality in online shopping platforms., Trial Registration: ClinicalTrials.gov NCT04632212., (© Society of Behavioral Medicine 2022. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

20. [The Effect of Using a Real-Time Feedback Device on the Quality of Cardio Pulmonary Resuscitation (CPR)].

Author

Lee PH, Hsiao YH, Weng SR, Lin PH, and Lin SC

Subjects

Feedback, Humans, Manikins, Pressure, Cardiopulmonary Resuscitation methods, Heart Arrest therapy

Abstract

Background: Cardiopulmonary resuscitation (CPR) is a standard procedure delivered to patients experiencing cardiac arrest. CPR quality is associated with the rate of survival of patients with cardiac arrest., Purpose: To determine the efficacy of a real-time feedback device in terms of improving CPR performance quality and CPR self-efficacy in nursing staffs., Methods: A total of 72 nursing staffs were enrolled in this randomized trial (intervention n = 38, control n = 34). A real-time feedback device was used to monitor CPR quality and provide real-time feedback. The participants performed CPR on a manikin with (intervention) or without (control) feedback for 5 cycles (about 2 minutes). Data on participant demographic characteristics and CPR self-efficacy scores were also collected., Results: The intervention group performed better in terms of the compression adequate rate ratio (76.3 vs. 52.3, p < .001), mean depth (52.8 mm vs. 50.6 mm, p = .003), adequate depth ratio (65.6 vs. 55.1, p = .014), quality of CPR performance score (44.1 vs. 26.1, p < .001), proportion of excellent CPR (60.5 vs. 26.5, p < .001), and CPR self-efficacy score (40.22 vs. 36.71, p < .001). However, no significant differences between the two groups were found in terms of proportion of complete chest decompression and chest compression fracture (p >.05)., Conclusions: Using a real-time feedback device may not only significantly improve the quality of CPR performed on a manikin but also improve self-confidence to implement CPR correctly in practice.

Published

2022

21. Advanced Clinical Neonatal Nursing Students' Transfer of Performance: From Skills Training With Real-Time Feedback on Ventilation to a Simulated Neonatal Resuscitation Scenario.

Author

Rød I, Jørstad AK, Aagaard H, Rønnestad A, and Solevåg AL

Abstract

Background: Advanced clinical neonatal nurses are expected to have technical skills including bag-mask ventilation. Previous studies on neonatal bag-mask ventilation skills training focus largely on medical students and/or physicians. The aim of this study was to investigate whether advanced clinical neonatal nursing students' bag-mask ventilation training with real-time feedback resulted in transfer of bag-mask ventilation performance to a simulated setting without feedback on ventilation., Materials and Methods: Students in advanced clinical neonatal nursing practiced bag-mask ventilation on a premature manikin (Premature Anne, Laerdal Medical, Stavanger, Norway) during skills training. A flow sensor (Neo Training, Monivent AB, Gothenburg, Sweden) was placed between the facemask and the self-inflating bag (Laerdal Medical), and visual feedback on mask leak (%), expiratory tidal volume (VT e in ml/kg), ventilation rate and inflation pressure was provided. Two months later, the students participated in a simulated neonatal resuscitation scenario. The same variables were recorded, but not fed back to the students. We compared ventilation data from skills- and simulation training. A structured questionnaire was used to investigate the students' self-perceived neonatal ventilation competence before and after the skills- and simulation training., Results: Mask leakage and ventilation rate was higher, and VT e lower and highly variable in the simulated scenario compared with skills training (all p < 0.001). There was no statistically significant difference in inflation pressure ( p = 0.92). The fraction of ventilations with VT e within the target range was lower during simulation (21%) compared to skills training (30%) ( p < 0.001). There was no difference in the students' self-perceived competence in bag-mask ventilation before vs. after skills- and simulation training., Conclusion: Skills training with real-time feedback on mask leak, ventilation rate, tidal volume, and inflation pressure did not result in objective or subjective improvements in bag-mask ventilation in a simulated neonatal resuscitation situation. Incorrect VT e delivery was common even when feedback was provided. It would be of interest to study whether more frequent training, and training both with and without feedback, could improve transfer of performance to a simulated resuscitation setting., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Rød, Jørstad, Aagaard, Rønnestad and Solevåg.)

Published

2022

22. Metabolic cost of transport and stance time asymmetry in individuals with unilateral transtibial amputation using a passive prostheses while walking.

Author

Wedge RD, Sup FC 4th, and Umberger BR

Subjects

Amputation, Surgical rehabilitation, Exercise Test, Gait, Humans, Walking, Artificial Limbs

Abstract

Background: People with unilateral amputation typically walk with greater metabolic cost than able-bodied individuals, while preferring asymmetric walking characteristics. It is unclear if asymmetric walking is energetically optimal and how metabolic cost accounts for asymmetric patterns in people with amputation. The purpose of this study was to determine the effects of stance-time asymmetry on the metabolic cost of transport., Methods: Fourteen participants (seven with amputation) completed two laboratory sessions where they walked on a treadmill while receiving real-time visual feedback about stance-time asymmetry. Expired gases were collected to determine the metabolic cost for a range of asymmetries (-15% to +15% in 5% increments, positive percentages represent more time on intact [dominant] limb)., Findings: Participants with amputation walked with greater (P = 0.008) stance-time asymmetry (4.34 ± 1.09%) compared with able-bodied participants (0.94 ± 2.44%). Stance-time asymmetry had a significant effect on metabolic cost (P < 0.001). The asymmetries coinciding with the predicted minimum metabolic cost for people with (3.23 ± 2.90%) and without (1.81 ± 2.18%) amputation were not different from preferred asymmetries (P = 0.365; p = 0.513), respectively. The cost of symmetric walking was 13.6% greater than near preferred walking for people with amputation (5% more time on intact limb)., Interpretation: Metabolic cost is not the only objective of walking, but like able-bodied individuals, it may influence how people with amputation walk. Rehabilitation typically tries to restore inter-limb symmetry after an injury, yet if the limbs are asymmetric, symmetric gait may not be optimal with current assistive devices., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

23. Using natural language processing to understand, facilitate and maintain continuity in patient experience across transitions of care.

Author

Khanbhai M, Warren L, Symons J, Flott K, Harrison-White S, Manton D, Darzi A, and Mayer E

Subjects

Female, Humans, Machine Learning, Patient Outcome Assessment, Patient-Centered Care, Pregnancy, Natural Language Processing, State Medicine

Abstract

Background: Patient centred care necessitates that healthcare experiences and perceived outcomes be considered across all transitions of care. Information encoded within free-text patient experience comments relating to transitions of care are not captured in a systematic way due to the manual resource required. We demonstrate the use of natural language processing (NLP) to extract meaningful information from the Friends and Family Test (FFT)., Methods: Free-text fields identifying favourable service ("What did we do well?") and areas requiring improvement ("What could we do better?") were extracted from 69,285 FFT reports across four care settings at a secondary care National Health Service (NHS) hospital. Sentiment and patient experience themes were coded by three independent coders to produce a training dataset. The textual data was standardised with a series of pre-processing techniques and the performance of six machine learning (ML) models was obtained. The best performing ML model was applied to predict the themes and sentiment from the remaining reports. Comments relating to transitions of care were extracted, categorised by sentiment, and care setting to identify the most frequent words/combinations presented as tri-grams and word clouds., Results: The support vector machine (SVM) ML model produced the highest accuracy in predicting themes and sentiment. The most frequent single words relating to transition and continuity with a negative sentiment were "discharge" in inpatients and Accident and Emergency, "appointment" in outpatients, and "home' in maternity. Tri-grams identified from the negative sentiments such as 'seeing different doctor', 'information aftercare lacking', 'improve discharge process' and 'timing discharge letter' have highlighted some of the problems with care transitions. None of this information was available from the quantitative data., Conclusions: NLP can be used to identify themes and sentiment from patient experience survey comments relating to transitions of care in all four healthcare settings. With the help of a quality improvement framework, findings from our analysis may be used to guide patient-centred interventions to improve transitional care processes., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

24. Interventional cardiac MRI using an add-on parallel transmit MR system: In vivo experience in sheep.

Author

Godinez F, Tomi-Tricot R, Delcey M, Williams SE, Mooiweer R, Quesson B, Razavi R, Hajnal JV, and Malik SJ

Subjects

Animals, Equipment Design, Heart diagnostic imaging, Magnetic Resonance Imaging, Phantoms, Imaging, Radio Waves, Sheep, Magnetic Resonance Imaging, Interventional

Abstract

Purpose: We present in vivo testing of a parallel transmit system intended for interventional MR-guided cardiac procedures., Methods: The parallel transmit system was connected in-line with a conventional 1.5 Tesla MRI system to transmit and receive on an 8-coil array. The system used a current sensor for real-time feedback to achieve real-time current control by determining coupling and null modes. Experiments were conducted on 4 Charmoise sheep weighing 33.9-45.0 kg with nitinol guidewires placed under X-ray fluoroscopy in the atrium or ventricle of the heart via the femoral vein. Heating tests were done in vivo and post-mortem with a high RF power imaging sequence using the coupling mode. Anatomical imaging was done using a combination of null modes optimized to produce a useable B 1 field in the heart., Results: Anatomical imaging produced cine images of the heart comparable in quality to imaging with the quad mode (all channels with the same amplitude and phase). Maximum observed temperature increases occurred when insulation was stripped from the wire tip. These were 4.1℃ and 0.4℃ for the coupling mode and null modes, respectively for the in vivo case; increasing to 6.0℃ and 1.3℃, respectively for the ex vivo case, because cooling from blood flow is removed. Heating < 0.1℃ was observed when insulation was not stripped from guidewire tips. In all tests, the parallel transmit system managed to reduce the temperature at the guidewire tip., Conclusion: We have demonstrated the first in vivo usage of an auxiliary parallel transmit system employing active feedback-based current control for interventional MRI with a conventional MRI scanner., (© 2021 The Authors. Magnetic Resonance in Medicine published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.)

Published

2021

25. The Effects of Sit-to-Stand Training Combined with Real-Time Visual Feedback on Strength, Balance, Gait Ability, and Quality of Life in Patients with Stroke: A Randomized Controlled Trial.

Author

Hyun SJ, Lee J, and Lee BH

Subjects

Exercise Therapy, Feedback, Sensory, Gait, Humans, Muscle Strength, Postural Balance, Quality of Life, Time and Motion Studies, Stroke therapy, Stroke Rehabilitation

Abstract

This study aimed to investigate the effects of lower limbs muscles' strength, balance, walking, and quality of life through sit-to-stand training combined with real-time visual feedback (RVF-STS group) in patients with stroke and to compare the effects of classic sit-to-stand training (C-STS group). Thirty patients with stroke were randomly divided into two groups. The RVF-STS group received sit-to-stand training combined with real-time visual feedback using a Wii Balance Board ( n = 15), and the C-STS group received classic sit-to-stand training ( n = 15). All participants received training for 20 min once a day, 5 days a week for 6 weeks, and both groups underwent general physical therapy for 30 min before training. Before and after the training, the muscle strength of the hip flexor, abductor, and knee extensor were measured, and the Wii Balance Board was used to perform the center of pressure test and Berg Balance Scale to evaluate static and dynamic balance. Additionally, the 10 m walking test and the Timed Up and Go test were performed to evaluate gait function. The Stroke-Specific Quality of Life was used to measure the quality of life. The results showed that the lower extremity muscle strength, balance ability, walking ability, and quality of life of the RVF-STS group significantly improved in comparison of the pre- and post-differences ( p < 0.05), and it also showed significant differences between groups ( p < 0.05). This study showed that sit-to-stand training combined with real-time visual feedback was effective at improving the muscle strength of the lower extremities, balance, gait, and quality of life in patients with stroke. Therefore, repeating sit-to-stand training combined with real-time visual feedback could be used as an effective treatment method for patients with stroke.

Published

2021

26. Efficacy of a Simplified Feedback Trainer for High-Quality Chest Compression Training: A Randomized Controlled Simulation Study.

Author

Meng XY, You J, Dai LL, Yin XD, Xu JA, and Wang JF

Subjects

Computer Simulation, Feedback, Manikins, Humans, Random Allocation, Military Personnel education, Cardiopulmonary Resuscitation education, Heart Massage

Abstract

Background: The most recent international guidelines recommended support training of chest compression (CC) using feedback devices. This study aimed to compare the training efficacy of a simplified feedback trainer with the traditional cardiopulmonary resuscitation (CPR) simulator in CPR training. Methods: A total of 60 soldiers were randomly allocated into three groups equally, trained with a simplified external cardiac massage (ECM) trainer named Soul Sheath TM (SS) (SS group), a Resusci Anne manikin (RA group), or traditional simulation training with instructor feedback, respectively. After 7 days of training, the CPR skills were tested blindly in a 2-min assessment session. The primary outcome was the proportion of effective CC, and the secondary outcome included CC rate, depth, compression position, and extent of the release. Results: The percentage of effective CC achieved in the SS group was comparable with the RA group (77.0 ± 15.52 vs. 77.5 ± 10.73%, p = 0.922), and significantly higher than that in the control group (77.0 ± 15.52 vs. 66.8 ± 16.87%, p = 0.037). Both the SS and RA groups showed better CC performance than the control group in terms of CC rate (SS group vs. control group, P = 0.032 and RA group vs. control group, P = 0.026), the proportion of shallow CC (SS group vs. control group, P = 0.011 and RA group vs. control group, P = 0.017). No difference between the SS group and RA group was found in all the CC parameters. Conclusions: The simplified ECM trainer (SS) provides a similar efficacy to the traditional manikin simulator with feedback in CC training to improve the quality of CPR skills., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Meng, You, Dai, Yin, Xu and Wang.)

Published

2021

27. High Number of Door Openings Increases the Bacterial Load of the Operating Room.

Author

Lansing SS, Moley JP, McGrath MS, Stoodley P, Chaudhari AMW, and Quatman CE

Subjects

Air Microbiology, Bacterial Load, Colony Count, Microbial, Humans, Risk Factors, Operating Rooms, Surgical Wound Infection epidemiology

Abstract

Background: Operating room (OR) traffic and door openings have emerged as potential modifiable risk factors for the development of surgical site infections. Methods: This study compared the microbial load of a Control OR without traffic versus a Simulated OR with the traffic in a typical orthopedic surgery case. Air particle counts and colony forming units (CFUs) were measured. A novel iOS app was developed to provide real-time door counts. Results: There were 1,862 particles >5.0 mcm in the Simulated OR compared with 56 in the Control OR. The CFUs from plates in the Simulated OR ranged from 4-22 (on brain heart infusion [BHI] agar), 2-266 (on mannitol salt agar [MSA]), and 1-19 (on Pseudomonas isolation agar [PIA]), while all plates in the Control OR grew 0-1 CFUs. Conclusions: High number of door openings leads to more airborne bacteria in the OR and viable bacterial on OR surfaces. The increased bacterial load throughout the OR was independent of distance from the door.

Published

2021

28. Evaluation of Caregiver Training Procedures to Teach Activities of Daily Living Skills.

Author

Preas EJ and Mathews TL

Abstract

Caregivers of children with an autism spectrum disorder are often responsible for assisting their children to complete activities of daily living skills. Effective and efficient caregiver training methods are needed to train caregivers. The present study used two concurrent multiple-baseline across-participants designs to evaluate the effects of real-time feedback and behavioral skills training on training eight caregivers to implement teaching procedures for activities of daily living skills with their child. We assessed caregivers' accuracy and correct implementation of the six-component teaching procedure after they received either real-time feedback or behavioral skills training. Caregivers from both groups mastered and maintained correct implementation of the teaching procedures with their child. The overall results suggest that real-time feedback and behavioral skills training are efficacious to train caregivers to implement activities of daily living skills procedures with their children, and that real-time feedback may be an efficient alternative method to train caregivers., Supplementary Information: The online version contains supplementary material available at 10.1007/s40617-020-00513-z., Competing Interests: Conflict of interestThe authors declare that they have no conflict of interest., (© Association for Behavior Analysis International 2021.)

Published

2021

29. Effects of real-time feedback during decline walking on kinematic and kinetic gait parameters in a healthy population: study protocol for a randomized trial - up and down.

Author

Widhalm K, Durstberger S, and Putz P

Subjects

Adolescent, Adult, Biomechanical Phenomena, Exercise Test, Feedback, Humans, Kinetics, Randomized Controlled Trials as Topic, Young Adult, Gait, Walking

Abstract

Background: The control of the dynamic functional leg alignment (dFLA) and biomechanical load are important joint-related aspects regarding the development of osteoarthritis (OA). Research on level walking with feedback on load-related parameters has provided innovative treatment possibilities. With regard to walking on sloped surfaces, fundamental biomechanical knowledge exists. However, comprehensive data on the agreement of kinematics and kinetics of self-paced ramp versus sloped treadmill walking is lacking. Further, deeper insights into the control of the dFLA during decline walking and the usefulness of real-time feedback are missing., Methods/design: Thirty healthy participants aged between 18 and 35 years will be included. They will complete a three-dimensional gait analysis walking self-paced up and down on a 5-m ramp with a 10° inclination. Subsequently, speed-matched to ramp-up walking and self-paced 10° incline split-belt treadmill walking will be assessed. Afterwards, the participants will be observed under four different conditions of 10° declined walking on the same treadmill (a) self-paced walking, (b) self-paced walking with an internal focus of attention, (c) self-paced walking with real-time feedback, and (d) condition c speed-matched walking. The primary outcome parameter will be the frontal knee range of motion (fKROM). Secondary outcomes include the ground reaction force loading rate, spatial-temporal parameters, as well as sagittal, frontal and transversal kinematics, and kinetics for the lower extremities., Discussion: The findings aim at improving the understanding of the effects of real-time feedback on the control of the dFLA and lower limb loading. Following clinical practicable methods for effective feedback devices can be developed and evaluated. Additionally, the first dataset comparing kinematic and kinetic parameters for decline and incline ramp walking versus walking on an instrumented treadmill will be available for appropriate intervention planning., Trial Registration: ClinicalTrials.gov NCT04763850 . Prospectively registered on 21 February 2021., (© 2021. The Author(s).)

Published

2021

30. Feasibility of a real-time pattern-based kinematic feedback system for gait retraining in pediatric cerebral palsy.

Author

Liu X, Oliveira N, Ehrenberg N, Cheng J, Bentley K, Blochlinger S, Shoval H, and Barrance P

Abstract

Introduction: Visual biofeedback of lower extremity kinematics has the potential to enhance retraining of pathological gait patterns. We describe a system that uses wearable inertial measurement units to provide kinematic feedback on error measures generated during periods of gait in which the knee is predominantly extended ('extension period') and flexed ('flexion period')., Methods: We describe the principles of operation of the system, a validation study on the inertial measurement unit derived knee flexion angle on which the system is based, and a feasibility study to assess the ability of a child with cerebral palsy to modify a gait deviation (decreased swing phase knee flexion) in response to the feedback., Results: The validation study demonstrated strong convergent validity with an independent measurement of knee flexion angle. The gait pattern observed during training with the system exhibited increased flexion in the flexion period with maintenance of appropriate extension in the extension period., Conclusions: Inertial measurement units can provide robust feedback during gait training. A child with cerebral palsy was able to interpret the novel two phase visual feedback and respond with rapid gait adaptation in a single training session. With further development, the system has the potential to support clinical retraining of deviated gait patterns., Competing Interests: Declaration of conflicting interests: The author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: Authors NO, NE, JFC, SB, and PB are co-inventors on a provisional US patent application that describes aspects of the two phase feedback system described in this article. The authors declare no other competing or conflicting interests with respect to this article., (© The Author(s) 2021.)

Published

2021

31. EEG-Based Prediction of the Recovery of Carotid Blood Flow during Cardiopulmonary Resuscitation in a Swine Model.

Author

Kim H, Kim KH, Hong KJ, Ku Y, Shin SD, and Kim HC

Subjects

Animals, Electroencephalography, Hemodynamics, Humans, Swine, Ventricular Fibrillation, Cardiopulmonary Resuscitation, Heart Arrest therapy

Abstract

The recovery of cerebral circulation during cardiopulmonary resuscitation (CPR) is important to improve the neurologic outcomes of cardiac arrest patients. To evaluate the feasibility of an electroencephalogram (EEG)-based prediction model as a CPR feedback indicator of high- or low-CBF carotid blood flow (CBF), the frontal EEG and hemodynamic data including CBF were measured during animal experiments with a ventricular fibrillation (VF) swine model. The most significant 10 EEG parameters in the time, frequency and entropy domains were determined by neighborhood component analysis and Student's t -test for discriminating high- or low-CBF recovery with a division criterion of 30%. As a binary CBF classifier, the performances of logistic regression, support vector machine (SVM), k-nearest neighbor, random forest and multilayer perceptron algorithms were compared with eight-fold cross-validation. The three-order polynomial kernel-based SVM model showed the best accuracy of 0.853. The sensitivity, specificity, F1 score and area under the curve of the SVM model were 0.807, 0.906, 0.853 and 0.909, respectively. An automated CBF classifier derived from non-invasive EEG is feasible as a potential indicator of the CBF recovery during CPR in a VF swine model.

Published

2021

32. Effect of real-time and post-event feedback in out-of-hospital cardiac arrest attended by EMS - A systematic review and meta-analysis.

Author

Lyngby RM, Händel MN, Christensen AM, Nikoletou D, Folke F, Christensen HC, Barfod C, and Quinn T

Abstract

Objectives: A systematic review to determine if cardiopulmonary resuscitation (CPR) guided by either real-time or post-event feedback could improve CPR quality or patient outcome compared to unguided CPR in out-of-hospital cardiac arrest (OHCA)., Methods: Four databases were searched; PubMed, Embase, CINAHL, and Cochrane Library in August 2020 for post 2010 literature on OHCA in adults. Critical outcomes were chest compression depth, rate and fraction. Important outcomes were any return of spontaneous circulation, survival to hospital and survival to discharge., Results: A total of 9464 studies were identified with 61 eligibility for full text screening. A total of eight studies was included in the meta-analysis. Five studies investigated real-time feedback and three investigated post-event feedback. Meta-analysis revealed that real-time feedback statistically improves compression depth and rate while post-event feedback improved depth and fraction. Feedback did not statistically improve patient outcome but an improvement in absolute numbers revealed a clinical effect of feedback. Heterogenity varied from "might not be important" to "considerable"., Conclusion: To significantly improve CPR quality real-time and post-event feedback should be combined. Neither real-time nor post event feedback could statistically be associated with patient outcome however, a clinical effect was detected. The conclusions reached were based on few studies of low to very low quality., Prospero Registration: CRD42019133881., (© 2021 The Authors.)

Published

2021

33. Higher resuscitation guideline adherence in paramedics with use of real-time ventilation feedback during simulated out-of-hospital cardiac arrest: A randomised controlled trial.

Author

Lyngby RM, Clark L, Kjoelbye JS, Oelrich RM, Silver A, Christensen HC, Barfod C, Lippert F, Nikoletou D, Quinn T, and Folke F

Abstract

Objectives: To investigate whether real-time ventilation feedback would improve provider adherence to ventilation guidelines., Design: Non-blinded randomised controlled simulation trial., Setting: One Emergency Medical Service trust in Copenhagen., Participants: 32 ambulance crews consisting of 64 on-duty basic or advanced life support paramedics from Copenhagen Emergency Medical Service., Intervention: Participant exposure to real-time ventilation feedback during simulated out-of-hospital cardiac arrest., Main Outcome Measures: The primary outcome was ventilation quality, defined as ventilation guideline-adherence to ventilation rate (8-10 bpm) and tidal volume (500-600 ml) delivered simultaneously., Results: The intervention group performed ventilations in adherence with ventilation guideline recommendations for 75.3% (Interquartile range (IQR) 66.2%-82.9%) of delivered ventilations, compared to 22.1% (IQR 0%-44.0%) provided by the control group. When controlling for participant covariates, adherence to ventilation guidelines was 44.7% higher in participants receiving ventilation feedback. Analysed separately, the intervention group performed a ventilation guideline-compliant rate in 97.4% (IQR 97.1%-100%) of delivered ventilations, versus 66.7% (IQR 40.9%-77.9%) for the control group. For tidal volume compliance, the intervention group reached 77.5% (IQR 64.9%-83.8%) of ventilations within target compared to 53.4% (IQR 8.4%-66.7%) delivered by the control group., Conclusions: Real-time ventilation feedback increased guideline compliance for both ventilation rate and tidal volume (combined and as individual parameters) in a simulated OHCA setting. Real-time feedback has the potential to improve manual ventilation quality and may allow providers to avoid harmful hyperventilation., (© 2021 The Authors.)

Published

2021

34. No goal is an island: the implications of systems theory for the Sustainable Development Goals.

Author

Skene KR

Abstract

The Sustainable Development Goals (SDGs) have now been in place for 4 years, as the center-piece of the sustainable development program of the United Nations. This paper argues that the Earth system fundamentally represents the organizational framework of the planet and, therefore, any attempt at avoiding the existential threat to humanity that our activities are creating must be integrated within this system. We examine how complex systems function in order to identify the key characteristics that any sustainability policy must possess in order to deliver successful, long-term coexistence of humanity within the biosphere. We then examine what this means in terms of the SDGs, currently the dominant policy document on global sustainability and lying at the heart of Agenda 30. The paper explores what a sustainable program of actions, aimed at properly integrating within the Earth system, should look like, and what changes are needed if humanity is to address the multiple challenges facing us, based on systems theory. Central to this is the acknowledgement of shortcomings in current policy and the urgent need to address these in practice., (© Springer Nature B.V. 2020.)

Published

2021

35. A Multimodal Real-Time Feedback Platform Based on Spoken Interactions for Remote Active Learning Support.

Author

Cornide-Reyes H, Riquelme F, Monsalves D, Noel R, Cechinel C, Villarroel R, Ponce F, and Munoz R

Subjects

Betacoronavirus, COVID-19, Coronavirus Infections pathology, Coronavirus Infections virology, Feedback, Humans, Learning, Mobile Applications, Pandemics, Pneumonia, Viral pathology, Pneumonia, Viral virology, SARS-CoV-2, Social Networking, Students, Education, Distance methods

Abstract

While technology has helped improve process efficiency in several domains, it still has an outstanding debt to education. In this article, we introduce NAIRA, a Multimodal Learning Analytics platform that provides Real-Time Feedback to foster collaborative learning activities' efficiency. NAIRA provides real-time visualizations for students' verbal interactions when working in groups, allowing teachers to perform precise interventions to ensure learning activities' correct execution. We present a case study with 24 undergraduate subjects performing a remote collaborative learning activity based on the Jigsaw learning technique within the COVID-19 pandemic context. The main goals of the study are (1) to qualitatively describe how the teacher used NAIRA's visualizations to perform interventions and (2) to identify quantitative differences in the number and time between students' spoken interactions among two different stages of the activity, one of them supported by NAIRA's visualizations. The case study showed that NAIRA allowed the teacher to monitor and facilitate the learning activity's supervised stage execution, even in a remote learning context, with students working in separate virtual classrooms with their video cameras off. The quantitative comparison of spoken interactions suggests the existence of differences in the distribution between the monitored and unmonitored stages of the activity, with a more homogeneous speaking time distribution in the NAIRA supported stage.

Published

2020

36. Implementation and Initial Construct Validity Evidence of a Tool, myTIPreport, for Interactive Workplace Feedback on ACGME Milestones.

Author

Husk KE, Learman LA, Field C, and Connolly A

Subjects

Clinical Competence, Education, Medical, Graduate, Educational Measurement, Feedback, Humans, Internship and Residency, Workplace

Abstract

Objective: To describe implementation of myTIPreport for milestone feedback and to initiate construct validity testing of myTIPreport for milestones., Design: myTIPreport was used to provide workplace feedback on Accreditation Council for Graduate Medical Education required milestone sets. Performance of senior learners (postgraduate year [PGY]-4s) was compared to that of junior learners (PGY-1s) to begin the process of construct validity testing for myTIPreport., Setting: A convenience-based site selection of Obstetrics and Gynecology (OBGYN) residency programs., Participants: OBGYN residents and faculty., Results: Amongst the 12 participating OBGYN residency programs, there were 444 unique learners and 343 unique faculty teachers. A total of 5293 milestone feedback encounters were recorded. Mean PGY-4 performance was rated higher than mean PGY-1 performance on all 25 of the compared milestone sets, with statistically significant differences seen for 19 (76%) of these 25 milestone sets and nonsignificant differences in the predicted direction observed for the other 6 milestone sets., Conclusions: myTIPreport detected differences between senior and junior learners for the majority of compared feedback encounters for OBGYN residents. Findings support the emerging construct validity of myTIPreport for milestone feedback., Competing Interests: Conflict of interest This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors., (Copyright © 2020 Association of Program Directors in Surgery. Published by Elsevier Inc. All rights reserved.)

Published

2020

37. Effect of an EMG-FES Interface on Ankle Joint Training Combined with Real-Time Feedback on Balance and Gait in Patients with Stroke Hemiparesis.

Author

Bae S, Lee J, and Lee BH

Abstract

This study evaluated the effects of an electromyography-functional electrical stimulation interface (EMG-FES interface) combined with real-time balance and gait feedback on ankle joint training in patients with stroke hemiplegia. Twenty-six stroke patients participated in this study. All subjects were randomly assigned to either the EMG-FES interface combined with real-time feedback on ankle joint training (RFEF) group ( n = 13) or the EMG-FES interface on ankle joint training (EF) group ( n = 13). Subjects in both groups were trained for 20 min a day, 5 times a week, for 4 weeks. Similarly, all participants underwent a standard rehabilitation physical therapy for 60 min a day, 5 times a week, for 4 weeks. The RFEF group showed significant increases in weight-bearing lunge test (WBLT), Tardieu Scale (TS), Timed Up and Go Test (TUG), Berg Balance Scale (BBS), velocity, cadence, step length, stride length, stance per, and swing per ( p < 0.05). Likewise, the EF group showed significant increases in WBLT, TUG, BBS, velocity, and cadence ( p < 0.05). Moreover, the RFEF group showed significantly greater improvements than the EF group in terms of WBLT, Tardieu Scale, TUG, BBS, velocity, step length, stride length, stance per, and swing per ( p < 0.05). Ankle joint training using an EMG-FES interface combined with real-time feedback improved ankle range of motion (ROM), muscle tone, balance, and gait in stroke patients. These results suggest that an EMG-FES interface combined with real-time feedback is feasible and suitable for ankle joint training in individuals with stroke.

Published

2020

38. The Effect of Dynamic Food Labels with Real-Time Feedback on Diet Quality: Results from a Randomized Controlled Trial.

Author

Shin S, van Dam RM, and Finkelstein EA

Subjects

Adult, Female, Food Analysis, Health Behavior, Humans, Noncommunicable Diseases epidemiology, Noncommunicable Diseases prevention & control, Prevalence, Commerce methods, Consumer Behavior, Diet, Healthy, Feedback, Food Labeling, Food Supply methods, Nutritive Value, Online Systems

Abstract

The rising prevalence of non-communicable diseases has brought attention to the importance of consuming a healthy diet. One strategy to improve diet quality is through front-of-pack (FOP) nutrition labels. Taking advantage of an online grocery store, we allowed consumers to choose the FOP labels they preferred, and combined this information with real-time feedback on the overall nutritional quality of the shopping basket. We hypothesized that these dynamic food labels with real-time feedback (DFLF) would improve nutritional quality of food purchases. This trial followed a two-arm (no-label control and DFLF) crossover design with 125 participants exposed to each condition once in random order via an online grocery store. A first difference regression model allowed for estimating the unbiased effect of the DFLF on diet quality, measured by the weighted average Nutri-Score (ranging 1 to 5) per serving (primary) and changes in select nutrients and calories. The mean weighted Nutri-Score was 0.4 (12.6%) higher in the DFLF arm (CI: [0.2, 0.6]) relative to the control. The DFLF also decreased the amount of sugar per serving by 0.9 g (CI: [-1.7, -0.0]) and total sugar per shop by 169.5 g (CI: [-284.5, -54.5]). The DFLF features significantly improved nutrition quality relative to no labelling, as measured by average Nutri-Score values. These results shed light on the considerable potential of the online shopping environment to improve diet quality through customization and real time feedback.

Published

2020

39. Real-time feedback to reduce low-back load in lifting and lowering.

Author

Punt M, Nematimoez M, van Dieën JH, and Kingma I

Subjects

Adult, Biomechanical Phenomena, Female, Humans, Lumbar Vertebrae physiology, Male, Torso physiology, Weight-Bearing, Back physiology, Feedback, Lifting

Abstract

Low-back pain (LBP) is a common health problem. Literature indicates an exposure-response relation between work-related lifting and LBP. Therefore, this study investigated effects of three kinds of real-time feedback on low-back load, quantified as lumbar moments, during lifting. We recruited 97 healthy male and female participants without a recent history of LBP and without prior biomechanical knowledge on lifting. Participants were assigned to groups based on the time of enrollment, filling the four groups in the following order: moment feedback, trunk inclination angle feedback, lumbar flexion feedback, and a control group not receiving feedback. Feedback was given by a sound when a threshold level of the input variable was exceeded. Participants were unaware of the input variable for the feedback, but were instructed to try to avoid the audio feedback by changing their lifting strategy. The groups with feedback were able to reduce the audio feedback and thus changed the input variable towards a more desired level. Lumbar moments significantly decreased over trials in the inclination and moment feedback groups, remained similar in the lumbar flexion group and increased in the control group. Between group comparisons revealed that low-back load was significantly lower in the moment and inclination groups compared to the control group. Additionally, moments were lower in the inclination group than in the lumbar flexion group. Real-time feedback on moments or trunk inclination is a promising tool to reduce low-back load during lifting and lowering., Competing Interests: Declaration of Competing Interest We declare that we have no Financial or personal relationships with other people or organizations that could inappropriately influence (bias) our work., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

40. Biofeedback Systems for Gait Rehabilitation of Individuals with Lower-Limb Amputation: A Systematic Review.

Author

Escamilla-Nunez R, Michelini A, and Andrysek J

Subjects

Adult, Amputees, Feedback, Sensory physiology, Female, Humans, Lower Extremity surgery, Male, Middle Aged, Prostheses and Implants, Rehabilitation methods, Treatment Outcome, Wearable Electronic Devices, Amputation, Surgical methods, Gait physiology, Locomotion physiology, Lower Extremity physiopathology

Abstract

Individuals with lower-limb amputation often have gait deficits and diminished mobility function. Biofeedback systems have the potential to improve gait rehabilitation outcomes. Research on biofeedback has steadily increased in recent decades, representing the growing interest toward this topic. This systematic review highlights the methodological designs, main technical and clinical challenges, and evidence relating to the effectiveness of biofeedback systems for gait rehabilitation. This review provides insights for developing an effective, robust, and user-friendly wearable biofeedback system. The literature search was conducted on six databases and 31 full-text articles were included in this review. Most studies found biofeedback to be effective in improving gait. Biofeedback was most commonly concurrently provided and related to limb loading and symmetry ratios for stance or step time. Visual feedback was the most used modality, followed by auditory and haptic. Biofeedback must not be obtrusive and ideally provide a level of enjoyment to the user. Biofeedback appears to be most effective during the early stages of rehabilitation but presents some usability challenges when applied to the elderly. More research is needed on younger populations and higher amputation levels, understanding retention as well as the relationship between training intensity and performance.

Published

2020

41. Visual Biofeedback and Changes in Lower Extremity Kinematics in Individuals With Medial Knee Displacement.

Author

Marshall AN, Hertel J, Hart JM, Russell S, and Saliba SA

Subjects

Adolescent, Adult, Ankle physiopathology, Anterior Cruciate Ligament Injuries physiopathology, Anterior Cruciate Ligament Injuries prevention & control, Biomechanical Phenomena, Cohort Studies, Female, Hip physiopathology, Humans, Movement, Risk Factors, Torso physiology, Torso physiopathology, Young Adult, Biofeedback, Psychology methods, Exercise physiology, Knee physiopathology, Lower Extremity physiopathology

Abstract

Context: Increased frontal-plane knee motion during functional tasks, or medial knee displacement, is a predictor of noncontact anterior cruciate ligament injury and patellofemoral pain. Intervention studies that resulted in a reduced risk of knee injury included some form of feedback to address aberrant lower extremity movement patterns. Research on integrating feedback into single-legged tasks and the ability to train 1 task and test another is limited., Objective: To determine if adding real-time visual biofeedback to common lower extremity exercises would improve single-legged landing mechanics in females with medial knee displacement., Design: Cohort study., Setting: University laboratory., Patients or Other Participants: Twenty-four recreationally active females with medial knee displacement were randomized to a visual-biofeedback group (n = 12; age = 19.75 ± 0.87 years, height = 165.32 ± 8.69 cm, mass = 62.41 ± 8.91 kg) or a control group (n = 12; age = 19.75 ± 0.97 years, height = 166.98 ± 6.89 cm, mass = 59.98 ± 6.24 kg)., Intervention(s): Individuals in the feedback group viewed a real-time digital model of their body segments generated by Microsoft Kinect. The skeletal model changed color according to the knee-abduction angle of the test limb during the exercise tasks., Main Outcome Measure(s): Participants completed 3 trials of the single-legged drop vertical jump (SL-DVJ) while triplanar kinematics at the trunk, hip, knee, and ankle were collected via 3-dimensional motion capture. The feedback and control groups completed lower extremity exercises with or without real-time visual biofeedback, respectively. After the intervention, participants completed 3 additional trials of the SL-DVJ., Results: At baseline, the feedback group had 3.83° more ankle eversion than the control group after initial contact. After the intervention, the feedback group exhibited 13.03° more knee flexion during the flight phase of the SL-DVJ and 6.16° less knee abduction after initial contact than the control group. The feedback group also demonstrated a 3.02° decrease in peak knee-abduction excursion compared with the baseline values ( P = .008)., Conclusions: Real-time visual biofeedback immediately improved faulty lower extremity kinematics related to knee-injury risk. Individuals with medial knee displacement adjusted their movement patterns after a single training session and reduced their medial knee motion during a dynamic task.

Published

2020

42. Efficacy of a real-time patient feedback system: patient satisfaction study in psychiatry.

Author

Werkkala CM, Bäckmand HM, Kuosmanen LM, Vastamäki MH, Rajala TH, Lindqvist PR, and Jylhä PJ

Subjects

Adult, Ambulatory Care Facilities, Feedback, Female, Humans, Male, Delivery of Health Care standards, Patient Satisfaction, Psychiatry standards, Quality Assurance, Health Care methods, Quality Assurance, Health Care standards

Abstract

Aim: The aim of the study was two-fold: first, to assess the efficacy of an electronic real-time feedback system; second, to examine patient satisfaction. Methods: This was a mixed-method study. Data were collected from two psychiatric outpatient clinics using electronic patient feedback devices. The efficacy of the real-time feedback system was assessed by calculating the overall response rate, and the response rate to each individual five-point Likert scale statement and open-ended question by using descriptive statistics. Patient satisfaction was examined by analyzing the response rate to each statement. Open-ended feedback was analyzed by using inductive qualitative content analysis. Results: The overall response rate was 21.0% ( n  = 1658) and response rates varied by statements. Most of the patients saw that they received the appointment to the outpatient clinic quickly enough ( n  = 1404, 85%), the personnel treated them well ( n  = 1126, 95%), the information about the care was understandable ( n  = 1066, 94%), and decisions regarding their care were made together with them ( n  = 1051, 94%). Of the patients, 94% ( n  = 1052) would recommend the service. Positive open-ended feedback highlighted good service, skilled staff, perceived benefits and help from care. Critique and development areas dealt with the large number of forms that required filling out beforehand, subjective experience of long waiting times, and having too many collaborative professionals present during treatment. Conclusions: The real-time feedback system proved to be an efficient method of gathering patient feedback. Patient satisfaction seemed to be high with received care in all fields.

Published

2020

43. Injury Risk Factors Integrated Into Self-Guided Real-Time Biofeedback Improves High-Risk Biomechanics.

Author

Bonnette S, DiCesare CA, Kiefer AW, Riley MA, Barber Foss KD, Thomas S, Kitchen K, Diekfuss JA, and Myer GD

Subjects

Adolescent, Adult, Anterior Cruciate Ligament Injuries prevention & control, Biomechanical Phenomena, Cross-Over Studies, Female, Humans, Kinetics, Risk Factors, Young Adult, Athletic Injuries prevention & control, Exercise Movement Techniques methods, Feedback, Sensory

Abstract

Context: Existing anterior cruciate ligament (ACL) injury prevention programs have failed to reverse the high rate of ACL injuries in adolescent female athletes., Objective: This investigation attempts to overcome factors that limit efficacy with existing injury prevention programs through the use of a novel, objective, and real-time interactive visual feedback system designed to reduce the biomechanical risk factors associated with ACL injuries., Design: Cross-over study., Setting: Medical center laboratory., Participants: A total of 20 females (age = 19.7 [1.34] y; height = 1.74 [0.09] m; weight = 72.16 [12.45] kg) participated in this study., Methods: Participants performed sets of 10 bodyweight squats in each of 8 training blocks (ie, 4 real-time and 4 control blocks) and 3 testing blocks for a total of 110 squats. Feedback conditions were blocked and counterbalanced with half of participants randomly assigned to receive the real-time feedback block first and half receiving the control (sham) feedback first., Results: Heat map analysis revealed that during interaction with the real-time feedback, squat performance measured in terms of key biomechanical parameters was improved compared with performance when participants squatted with the sham stimulus., Conclusions: This study demonstrates that the interactive feedback system guided participants to significantly improve movement biomechanics during performance of a body weight squat, which is a fundamental exercise for a longer term ACL injury risk reduction intervention. A longer training and testing period is necessary to investigate the efficacy of this feedback approach to effect long-term adaptations in the biomechanical risk profile of athletes.

Published

2019

44. Continuous prospectively navigated multi-echo GRE for improved BOLD imaging of the kidneys.

Author

Morrell GR, Jeong EK, Shi X, Zhang L, and Lee VS

Subjects

Adult, Humans, Male, Respiration, Signal-To-Noise Ratio, Young Adult, Kidney metabolism, Magnetic Resonance Imaging, Oxygen blood

Abstract

The objective of this study is to develop improved methods for renal blood oxygenation level dependent (BOLD) imaging. T2* mapping of the kidneys, or renal BOLD imaging, may depict renal oxygen levels and may be valuable as a noninvasive means of following the progression of renal disease. Current renal BOLD data is limited by imaging in a single breath hold, which results in low resolution and low signal-to-noise ratio (SNR). We compare a new free-breathing renal BOLD method with conventional breath-hold BOLD (BH-BOLD). A multi-echo GRE sequence with continuous prospective respiratory navigation and real-time feedback was developed that allows high resolution and high SNR renal BOLD imaging with constant sequence repetition time (TR) during free-breathing BOLD (FB-BOLD). The sequence was evaluated in 10 normal volunteers and compared with conventional BH-BOLD. Scan time for the FB-BOLD sequence was approximately three minutes, compared with 15 seconds for the BH-BOLD sequence. SNR of source images and residual error of T2* fitting were compared between the two methods. The FB-BOLD sequence produced motion-free T2* maps of the kidneys with SNR 1.9 times higher than BH-BOLD images. Residual error of T2* fitting was consistently lower in the right kidney with FB-BOLD (30% less than BH-BOLD) but higher in the left kidney (80% more than BH-BOLD), likely related to placement of the navigator on the right hemidiaphragm. A free-breathing prospectively navigated renal BOLD sequence allows flexible tradeoff between scan time, resolution, and SNR., (© 2019 John Wiley & Sons, Ltd.)

Published

2019

45. Real-Time Aural and Visual Feedback for Improving Violin Intonation.

Author

Pardue LS and McPherson A

Abstract

Playing with correct intonation is one of the major challenges for a string player. A player must learn how to physically reproduce a target pitch, but before that, the player must learn what correct intonation is. This requires audiation- the aural equivalent of visualization- of every note along with self-assessment whether the pitch played matches the target, and if not, what action should be taken to correct it. A challenge for successful learning is that much of it occurs during practice, typically without outside supervision. A student who has not yet learned to hear correct intonation may repeatedly practice out of tune, blithely normalizing bad habits and bad intonation. The real-time reflective nature of intonation and its consistent demand on attention make it a ripe target for technological intervention. Using a violin augmented to combine fingerboard sensors with audio analysis for real-time pitch detection, we examine the efficacy of three methods of real-time feedback for improving intonation and pitch learning. The first, aural feedback in the form of an in-tune guide pitch following the student in real-time, is inspired by the tradition of students playing along with teachers. The second is visual feedback on intonation correctness using an algorithm optimized for use throughout normal practice. The third is a combination of the two methods, simultaneously providing aural and visual feedback. Twelve beginning violinists, including children and adults, were given four in-situ 20-30 min lessons. Each lesson used one of the intonation feedback methods, along with a control lesson using no feedback. We collected data on intonation accuracy and conducted interviews on student experience and preference. The results varied by player, with evidence of some players being helped by the feedback methods but also cases where the feedback was distracting and intonation suffered. However interviews suggested a high level of interest and potential in having such tools to help during practice, and results also suggested that it takes time to learn to use the real-time aural and visual feedback. Both methods of feedback demonstrate potential for assisting self-reflection during individual practice.

Published

2019

46. The Supporting Adolescent Adherence in Vietnam (SAAV) study: study protocol for a randomized controlled trial assessing an mHealth approach to improving adherence for adolescents living with HIV in Vietnam.

Author

DeSilva M, Vu CN, Bonawitz R, Hai LT, Van Lam N, Yen LT, Gifford AL, Haberer J, Linh DT, and Sabin L

Subjects

Adolescent, Age Factors, Caregivers psychology, Child, Feasibility Studies, Female, HIV Infections diagnosis, HIV Infections psychology, Health Knowledge, Attitudes, Practice, Humans, Male, Randomized Controlled Trials as Topic, Time Factors, Treatment Outcome, Vietnam, Adolescent Behavior, Anti-HIV Agents therapeutic use, Child Behavior, HIV Infections drug therapy, Medication Adherence, Telemedicine methods

Abstract

Background: The overall goal of the Supporting Adolescent Adherence in Vietnam (SAAV) study is to improve understanding of an adherence feedback mHealth intervention designed to help adolescents living with HIV (ALHIV) maintain high adherence to antiretroviral therapy (ART), critical to effective treatment. Specifically, we aim to: (1) conduct formative research with Vietnamese ALHIV and their caregivers to better understand adherence challenges and refine the personalized mHealth intervention package; and (2) assess the feasibility, acceptability, and efficacy of the intervention to improve ART adherence by implementing a randomized controlled trial (RCT)., Methods: The study will utilize mixed methods. The formative phase will include 40 in-depth interviews (IDIs) with 20 adolescent (12-17 years)/caregiver dyads and eight focus group discussions with adolescents, caregivers, and clinicians at the National Hospital for Pediatrics (NHP) in Hanoi, Vietnam. We will also conduct 20 IDIs with older adolescents (18-21 years) who have transitioned to adult care at outpatient clinics in Hanoi. We will then implement a seven-month RCT at NHP. We will recruit 80 adolescents on ART, monitor their adherence for one month to establish baseline adherence using a wireless pill container (WPC), and then randomize participants to intervention versus control within optimal (≥ 95% on-time doses) versus suboptimal (< 95% on-time doses) baseline adherence strata. Intervention participants will receive a reminder of their choice (cellphone text message/call or bottle-based flash/alarm), triggered when they miss a dose, and engage in monthly counseling informed by their adherence data. Comparison participants will receive usual care and offer of counseling at routine monthly clinic visits. After six months, we will compare ART adherence, CD4 count, and HIV viral suppression between arms, in addition to acceptability and feasibility of the intervention., Discussion: Findings will contribute valuable information on perceived barriers and facilitators affecting adolescents' ART adherence, mHealth approaches as adherence support tools for ALHIV, and factors affecting adolescents' ART adherence. This information will be useful to researchers, medical personnel, and policy-makers as they develop and implement adherence programs for ALHIV, with potential relevance to other chronic diseases during transition from adolescent to adult care., Trial Registration: ClinicalTrials.gov, NCT03031197 . Registered on 21 January 2017.

Published

2019

47. Targeted partial reconstruction for real-time fMRI with arbitrary trajectories.

Author

Riemenschneider B, LeVan P, and Hennig J

Subjects

Algorithms, Humans, Linear Models, Magnetic Resonance Imaging, Motor Cortex diagnostic imaging, Software, Brain diagnostic imaging, Image Processing, Computer-Assisted methods

Abstract

Purpose: A partial image reconstruction formalism is introduced for the targeted extraction of real-time feedback from arbitrary trajectories when full image reconstruction in real time is computationally too demanding., Methods: Explicit calculation and storage of linear combinations of lines of the reconstruction matrix by an incomplete basis change in spatial coordinates lead to translation of the expensive full reconstruction from a frame-wise application to a region of interest (ROI)-wise application. This step is independent from signal data and can be executed before the experiment. Subsequently, the results of the sum over fully reconstructed voxels can be evaluated directly. Data from a high-speed fMRI acquisition was used to investigate the targeted partial reconstruction of a functional ROI atlas, incorporating an intravolume dephasing correction. The same data and ROIs were used for a comparison of the time series obtained with those obtained from already existing methods for compartment-wise reconstruction. To examine real-time feasibility, the reconstruction was implemented and tested for online reconstruction performance., Results: The reconstruction yields results that are virtually identical to the standard reconstruction (i.e., the magnitude sums over the ROIs), with negligible discrepancies even after termination of the conjugate gradient algorithm at a feasible number of iterations. Notably, more discrepancies arise with existing compartment-wise reconstructions. The online real-time implementation evaluated 1 ROI within 2.8 ms in the case of a highly parallel 3D whole brain acquisition., Conclusion: The high reconstruction fidelity and speed are satisfying for the exemplary application of real-time functional feedback using a highly parallel 3D whole brain acquisition., (© 2018 International Society for Magnetic Resonance in Medicine.)

Published

2019

48. An Evaluation of Real-Time Feedback Delivered Via Telehealth: Training Staff to Conduct Preference Assessments.

Author

Ausenhus JA and Higgins WJ

Abstract

Effective, efficient, and accessible staff-training procedures are needed to meet the service-delivery demand for treating individuals diagnosed with autism spectrum disorder. The present study evaluated the effectiveness of delivering real-time feedback via telehealth to train staff to conduct a preference assessment. A nonconcurrent multiple-baseline across-participants design showed that remote real-time feedback was associated with short training time and minimal sessions to achieve mastery. Generalization and maintenance probes indicated these skills were transferable to other preference assessment stimuli and learners., Competing Interests: Conflict of InterestThe authors have declared no conflicts of interest., (© Association for Behavior Analysis International 2019.)

Published

2019

49. The use of biofeedback for gait retraining: A mapping review.

Author

van Gelder LMA, Barnes A, Wheat JS, and Heller BW

Subjects

Biomechanical Phenomena, Feedback, Sensory, Gait Disorders, Neurologic physiopathology, Humans, Research Design, Biofeedback, Psychology, Gait physiology, Gait Disorders, Neurologic rehabilitation

Abstract

Background: Biofeedback seems to be a promising tool to improve gait outcomes for both healthy individuals and patient groups. However, due to differences in study designs and outcome measurements, it remains uncertain how different forms of feedback affect gait outcomes. Therefore, the aim of this study is to review primary biomechanical literature which has used biofeedback to alter gait-related outcomes in human participants., Methods: Medline, Cinahl, Cochrane, SPORTDiscus and Pubmed were searched from inception to December 2017 using various keywords and the following MeSHterms: biofeedback, feedback, gait, walking and running. From the included studies, sixteen different study characteristics were extracted., Findings: In this mapping review 173 studies were included. The most common feedback mode used was visual feedback (42%, n = 73) and the majority fed-back kinematic parameters (36%, n = 62). The design of the studies was poor: only 8% (n = 13) of the studies had both a control group and a retention test; 69% (n = 120) of the studies had neither. A retention test after 6 months was performed in 3% (n = 5) of the studies, feedback was faded in 9% (n = 15) and feedback was given in the field rather than the laboratory in 4% (n = 8) of the studies., Interpretation: Further work on biofeedback and gait should focus on the direct comparison between different modes of feedback or feedback parameters, along with better designed and field based studies., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

50. Gait retraining using real-time feedback in patients with medial knee osteoarthritis: Feasibility and effects of a six-week gait training program.

Author

Richards R, van den Noort JC, van der Esch M, Booij MJ, and Harlaar J

Subjects

Aged, Biomechanical Phenomena, Feasibility Studies, Female, Humans, Knee Joint physiopathology, Male, Middle Aged, Osteoarthritis, Knee surgery, Patient Reported Outcome Measures, Recovery of Function, Exercise Therapy, Gait physiology, Osteoarthritis, Knee physiopathology, Osteoarthritis, Knee rehabilitation

Abstract

Background: The knee adduction moment (KAM) is often elevated in medial knee osteoarthritis (KOA). The aim of this study was to evaluate effects on KAM and patient-reported outcomes of a six-week gait training program., Methods: Twenty-one patients (61 ± 6 years) with KOA participated in a six-week biofeedback training program to encourage increased toe-in (all patients) and increased step-width (five patients). Patients received real-time visual feedback while walking on an instrumented treadmill. We analysed the effect of the gait modification(s) on peak KAM in week six and three and six months post-training. We also evaluated the effect on pain and functional ability., Results: Of 21 patients starting the program, 16 completed it with high attendance (15 and 16 respectively) at the three and six month follow-ups. First peak KAM was significantly reduced by up to 14.0% in week six with non-significant reductions of 8.2% and 5.5% at the follow-ups. Functional ability (assessed using the WOMAC questionnaire) improved significantly after the training (eight point reduction, p = 0.04 in week six and nine point reduction, p = 0.04 at six-month follow-up). There was also a trend towards reduction in WOMAC pain (p = 0.06) at follow-up., Conclusions: Biofeedback training to encourage gait modifications is feasible and leads to short-term benefits. However, at follow-up, reductions in KAM were less pronounced in some participants suggesting that to influence progression of KOA in the longer term, a permanent regime to reinforce the effects of the training program is needed. Trial number: ISRCTN14687588., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018