PURPOSE: To compare audio-only biofeedback to conventional audiovisual biofeedback for regulating patients' respiration during four-dimensional radiotherapy, limiting damage to healthy surrounding tissues caused by organ movement. MATERIALS AND METHODS: Six healthy volunteers were assisted by audiovisual or audio-only biofeedback systems to regulate their respirations. Volunteers breathed through a mask developed for this study by following computer-generated guiding curves displayed on a screen, combined with instructional sounds. They then performed breathing following instructional sounds only. The guiding signals and the volunteers' respiratory signals were logged at 20 samples per second. RESULTS: The standard deviations between the guiding and respiratory curves for the audiovisual and audio-only biofeedback systems were 21.55% and 23.19%, respectively; the average correlation coefficients were 0.9778 and 0.9756, respectively. The regularities between audiovisual and audio-only biofeedback for six volunteers' respirations were same statistically from the paired t-test. CONCLUSION: The difference between the audiovisual and audio-only biofeedback methods was not significant. Audio-only biofeedback has many advantages, as patients do not require a mask and can quickly adapt to this method in the clinic.
Biofeedback, Psychology* ; Feedback, Sensory ; Healthy Volunteers ; Humans ; Masks ; Radiotherapy* ; Respiration* ; Volunteers

PURPOSE: The authors would like to introduce two patients who presented with velopharyngeal inadequacy. We emphasize the importance of nasaopharyngeal endoscopy in evaluating the velopharyngeal function and the usefulness of biofeedback trial therapy. METHODS: Two patients visited our clinic due to velopharyngeal inadequacy. Both of the patients showed hypernasality, nasal emission and compensatory articulation such as glottal stop. During oral examination and nasopharyngeal endoscopy both showed no evidence of structural deformities. One inconsistently showed a small gap during articulation. The other showed a rather large gap during compensatory articulation. Both received a simultaneous biofeedback trial therapy using the nasopharyngeal endoscope. RESULTS: Both patients were successfully diagnosed and treated at once using biofeedback trial therapy with nasopharyngeal endoscopy. By giving direct visual feedback to the patient, they were both able to achieve complete velopharyngeal closure during production of 2~3 nonsence syllables and hypernasality was not detected in both of them. CONCLUSION: The authors were able to help patients with velopharyngeal inadequacy to have velopharyngeal closure through biofeedback trial therapy. The accurate evaluation of velopharyngeal function and the possibility of closure prevented unnecessary operations.
Biofeedback, Psychology ; Congenital Abnormalities ; Diagnosis, Oral ; Endoscopy ; Feedback, Sensory ; Humans ; Velopharyngeal Insufficiency

Feedback is an important way of information transmission in motor function output. Movement-related information can be transmitted as proprioceptive, haptic, visual and/or audial information to the central nervous system for control and modification of the temporal and spatial precision of motor output. Here presented is a systematic discussion on the principle, technique and effect for some typical motor function rehabilitation methods such as treatment based on EMG feedback, robot-aided movement therapy, high-level perceptional feedback and motor training effect with 3-D virtual reality environment.
Feedback, Psychological ; Humans ; Motor Activity ; physiology ; Motor Skills Disorders ; etiology ; rehabilitation ; Stroke ; complications ; Stroke Rehabilitation ; Therapy, Computer-Assisted ; User-Computer Interface

No abstract available.
Brain ; Neurofeedback

BACKGROUND

Recovery is essential for high-intensity intermittent sports athletes to achieve optimal performance. Heart rate variability (HRV) serves as a marker of the autonomic nervous system, which also measures the parasympathetic regulation that facilitates recovery. Neurofeedback (NBF) intervention, combined with deep breathing and mental imagery, presented positive results in facilitating parasympathetic reactivation. However, limited studies exist in investigating the influence of the NBF intervention on HRV parameters and recovery, specifically in high-intensity intermittent sports athletes.

This pilot study aims to investigate the effects and influence of neurobiofeedback intervention on recovery via the use of HRV of UAAP Collegiate Basketball and Football Athletes.

The research will be done with a Quasi-experimental onegroup pretest-posttest study design.

Participants will undergo a neurobiofeedback intervention following neuromuscular and metabolic training. Data is collected with a Polar H10 HRM Chest Strap connected to an Elite HRV monitoring application and will be analyzed by Kubios HRV software.

Descriptive statistics will be computed for participant characteristics. Kolmogorov-Smirnov test (p >0.05) will assess normality. Two-way repeated-measures ANOVAs will examine NBF effects across exercise types, with Bonferroni-corrected pairwise comparisons and trend analysis for the main effects and non-significant but clinically relevant patterns. All analyses will be done using SPSS v25.

It is expected that the neurobiofeedback intervention will have an effect and influence by eliciting a lower LF/HF ratio and SD1/SD2, suggesting a facilitated reactivation of the parasympathetic nervous system, promoting recovery after undergoing neuromuscular or metabolic training.

There is limited evidence regarding the use of virtual reality (VR) and interactive video gaming for improving arm function because there are few such commercial devices and little relevant research. However, evidence of the greater effectiveness of upper extremity VR training over that of conventional therapy after stroke has recently grown due to the adoption of various therapeutic devices. VR applications are novel and potent technologies for upper extremity rehabilitation after stroke because the interface technologies, augmented reality technologies, and various sensorimotor feedback techniques are rapidly advancing. Going forward, VR technology should be designed to provide the possibility of intense functional repetitive practice for patients. The combination of VR with robotic devices, neuromodulation, mirror therapy, and telerehabilitation may synergistically improve upper extremity function after stroke. In severely injured patients, robotic interfaces should be considered, the level of difficulty should be fitted appropriately to the severity of the deficits, and the fact that it is difficult to train patients repeatedly and effectively in a real-world environment should be considered. Further research should be conducted on the application of VR programs in larger populations, VR involving various training paradigms, VR at different exercise levels, and the long-term sustained effects of VR. In addition, synergistically enhanced effects of combining other treatments and feedback paradigms with well-designed interfaces should be investigated.
Arm ; Feedback, Sensory ; Humans ; Rehabilitation* ; Stroke* ; Upper Extremity*

The cavitron ultrasonic surgical aspirator(CUSA) has been used for the surgical removal of 26 cases of spinal intradural tumors. In 26 patients, total removal was possible in 77% and there was no neurological deterioration due to surgical removal using CUSA. 21 of 26 patients(84%) showed neurological improvement at long term follow-up examination. The cavitron ultrasonic surgical aspirator had advantages in the surgical removal of spinal intradural tumors, as follows:1) precise removal of tumor without excessive meahcnical manipulation of normal tissue;2) rapidity of action relative to the consistency of the tissue;3) direct visualization of the tissue being removed and good proprioceptive feedback for the surgeon;4) preservation of large vessel and very little bleeding;5) lack of thermal injury. The limitation of CUSA was obscuring of operation field by large and straight hand piece.
Feedback, Sensory ; Follow-Up Studies ; Hand ; Humans ; Ultrasonics*

OBJECTIVE: To determine stability parameters in clinical balance tests and posturography that can assess age-related changes in posture control sensitively METHOD: Thirty nine healthy elderly people over 60 years old and twenty young controls were recruited. Elderly people were subdivided into 3 groups by age (aged 60~69, 70~79, over 80). Subjects were evaluated with clinical balance tests and posturography. In posturography, center of pressure (COP) parameters were obtained as total path distance, sway area, mean frequency of sway in comfortable standing. Visual feedback system (VFS) was added to posturography and then subjects were asked to move their COP into the target circle on monitor with active movement on force plate. In VFS, time to get in the circle, total path of deviation, time in the circle were measured. RESULTS: Time in the circle assessed by posturography with VFS showed significant difference between age groups (p<0.05). Significant correlations between time in the circle and clinical balance tests were also found (p<0.01). CONCLUSION: A posturography with VFS was considered to have clinical usefulness in sensitive evaluation of age-related change of balance control in healthy elderly people.
Aged* ; Feedback, Sensory ; Humans ; Middle Aged ; Postural Balance ; Posture

PURPOSE: The purpose of this study was to investigate the effect of self-postural control on foot pressure in subjects with forward head posture. METHODS: Forty-two healthy adults were recruited in this study. Participants were divided into two groups: The forward-head postural (FHP) group (craniovertebral angle<53°, n=22) and the control group (craniovertebral angle≥53°, n=20). In the FHP group, foot pressure was measured using three different standing postures: Comfortable standing posture (CSP), subjective neutral standing posture (SNSP), and neutral standing posture with visual feedback (NSP-VP). Each position was performed in random order. In the control group, foot pressure was measured only using the comfortable standing posture. RESULTS: With respect to CSP and SNSP, there was a significant difference on heel pressure between the two groups (p<0.05). Regarding NSP-VP, however, there was no significant differences on heel pressure between the two groups (p>0.05). CONCLUSION: We suggest that cervical posture control using visual feedback has a positive effect on the distribution of foot pressure in subjects with forward head posture.
Adult ; Feedback, Sensory* ; Foot* ; Head* ; Heel ; Humans ; Posture*

As an important auxiliary tool for amputees to gain abled limb functions, prosthetic limbs with decoration or feedforward control channel could not meet the needs. In order to enable the prosthesis to deliver the information, includes temperature, pressure, position, shape and so on, a variety of sensory feedback methods have been integrated into the prosthesis. According to the position of the feedback terminal on the human body, the perceptual feedback systems include invasive and noninvasive sensory feedback. This review presents the research progress of these perceptual feedback techniques, and summarizes the problems in the application in artificial limbs. Finally, the development trend of sensory feedback technology in prostheses is prospected.
Amputees ; Artificial Limbs ; Feedback, Sensory ; Humans ; Prosthesis Design ; Technology