52 Clinical Trials for Various Conditions
This study will enroll participants with a non-infected, corneal persistent epithelial defect (PED) resulting from an ocular chemical and/or thermal ocular injury which is non-responsive or refractory to current standard of care for at least 14 days. It will assess the efficacy and safety of Nexagon® (lufepirsen) plus standard of care versus NEXAGON-vehicle (placebo) plus standard of care. The recovery of the corneal epithelium will be the primary outcome measure, defined as a cornea that re-epithelializes by Day 28 of treatment and remains re-epithelialized for at least a further 28 days.
The purpose of the study is to monitor changes in brain structure and function between the pre-training and post-training, in a population of tactical team members wearing the Device and compared to a similar population not wearing the device. Secondly, the purpose is to determine the protection of the device relative to amount and magnitude of sustained head impacts.
This is a prospective, observational, consecutive, qualitative, multicenter study. Based on the available published evidence that supports patient challenges with eyedrop administration, the purpose of this video-capture study is to evaluate a more real-world population of consenting patients, regardless of age, with or without visual impairment, at routine eyecare visits. To date, no studies have been performed evaluating a real-world population consisting of daily routine eyecare clinic patients with or without visual impairment. This study will help to determine the ability to achieve success with self-administration of eyedrops in the real world.
The purpose of this study is to determine the feasibility of producing artificial vision in persons with blindness. Study participants will have wireless electrical stimulators implanted into the cortical vision processing areas of their brains. The ability of the participants to perceive artificial vision in response to electrical stimulation will be assessed.
Radiation retinopathy is a disease of the retina. It occurs in people who have received or been exposed to radiation near the eyes. The blood vessels are abnormal and may grow which lead to scarring and a loss of central vision. Currently, the treatment for radiation retinopathy is laser photocoagulation. This treatment has been found to have limited use in this type of condition. Compassionate use of anecortave acetate injection is being considered to prevent the growth of the blood vessels under the retina.
The purpose of this study is to identify the incidence of scratches on the surface of the eye in children who cannot blink due to medication use and to identify how best to reduce the risk of a scratch on the surface of the eye when patients are using specific medicines.
Two percent of all patients presenting to the Emergency Departments have complaints involving the eye. Corneal abrasions are a common diagnosis with patients with eye pain and often cause significant discomfort. Current treatment includes a thorough evaluation of the eye followed by patching, empiric antibiotics, cycloplegics and oral pain medicines. This study will be a randomized controlled trial to determine the safety and efficacy of BCLs. It will involve the initial patient evaluation followed by a return visit to the Emergency Department within 36 hours for re-examination. At each visit, the patient will be assessed for the size and location of the abrasion along with their report of pain using a visual analog scale. Data will be recorded on a standard data collection sheet. Telephone contact will be made at 30 days to ensure resolution of abrasion and that no complications ensued.
The main aim of the study is to determine the safety and feasibility of a cultivated autologous limbal epithelial cell (CALEC) transplantation in the treatment of limbal stem cell deficiency.
Transcorneal Electrical Stimulation (TES) using the "OkuStim®" device delivers electrical impulses to damaged and/or diseased photoreceptor cells. This electric stimulation of the retina may help to preserve visual acuity and/or the visual field.
Assessing the function of the optic nerve is paramount during various neurosurgical procedures. Effective optic nerve monitoring has remained elusive as Visual Evoked Potentials (the current existing tool) provides only diffuse and delayed assessment of nerve function. Here, the investigators propose a prospective study involving adult patients (aged 18 years and older) undergoing endonasal or open cranial approaches around the optic nerves, who will receive pre- and post-operative visual evaluations. During surgery, the optic nerve and chiasm will be stimulated, and the response will be recorded in both eyes and the occipital cortex via skin electrodes. The investigators aim to utilize anterograde optic nerve microstimulation to assess the nerve's integrity during open and endoscopic cranial approaches. Electrophysiological readings will be acquired, as is routine in the operating room, by our team of experts, and intraoperative findings will be correlated with post- surgical clinical outcomes. Our objective is to utilize existing technology in the operating room to safely and effectively monitor optic nerve function during surgery.
Traumatic brain injury (TBI) is one of the most frequent injuries affecting service members. Unfortunately, current neurocognitive assessment tools are unable to reliably detect mild TBI more than a few days post- injury. Therefore, development of advanced systems for assessment and diagnosis of TBI are a top priority within Department of Defense. This project aims to evaluate a combined electroencephalography (EEG) and eye tracking system capable of assessing compromised cognitive function stemming from TBI, with the goal of enhancing operational readiness and aiding in diagnosis, improving health care and rehabilitation for affected military personnel.
This study will test a portable virtual reality (VR) system with integrated eye tracking called Virtual Eye Rotation Vision Exercises (VERVE). The proposed VERVE platform will deliver vergence therapy in an automated manner. This research will involve 30 non-traumatic brain injury (TBI) binocularly normal (BNC) Veterans and 50 post-traumatic convergence insufficiency (PTCI) Veterans who will undergo Active and Sham therapy (equally divided groups) to determine the effectiveness of VERVE vergence therapy.
The BrainPort V200 Device is a wearable, non-surgical, prosthetic device intended for people who are profoundly blind. The BrainPort V200 translates images captured by a digital camera into electro-tactile stimulation presented on the user's tongue to perceive shape, size, location, and motion of objects within the environment. The purpose of this study is to evaluate the safety and functional performance of the BrainPort V200 device in individuals who have been medically documented as blind, light perception or worse, due to a traumatic injury (cortical or ocular).
Eye Movement Desensitization and Reprocessing therapy is a time-limited trauma-response therapy that treats symptoms of stress that result disturbing life experiences. Eye Movement Desensitization and Reprocessing therapy has been used to treat trauma-related symptoms for people living with HIV. People living with HIV tend to experience higher psychiatric morbidity rates of depression, anxiety, and post-traumatic stress symptoms than the general population. However, even with case studies of Eye Movement Desensitization and Reprocessing therapy on people living with HIV, there is no definitive protocol for the clinician as they navigate the therapy. This study aims to assess the feasibility and acceptability of delivering an Eye Movement Desensitization and Reprocessing therapy protocol tailored for people living with HIV and trauma. 20 people living with HIV will be recruited to participate in an eight-week Eye Movement Desensitization and Reprocessing therapy. The therapy will be focused on assessing the viability of an Eye Movement Desensitization and Reprocessing protocol that is specified for people living with HIV.
The goal of this clinical trial is to find out whether stimulating the brain with electrical current during naps can increase certain kinds of brain activity that happen during sleep and lead to improvements in emotional health and stress resilience. Participants will attend up to 3 study visits, each of which may last up to 4-5 hours. During these visits, participants will wear a high density electroencephalography (hdEEG) cap and take a nap.
The investigators previously developed a virtual 14-day dual-task walking exercise program and tested its feasibility with individuals with mild traumatic brain injury (mTBI) history. The investigators will test the feasibility and efficacy of a mobile app-version (Uplode) of the same 14-day exercise program (Brain \& Walk Exercise Every Day \[BraW-Day\]), on cognition, sensorimotor, and other functions in a group of voluntary young adults with an mTBI between last three months to two years, including student athletes, Veterans, and ethnic minorities.
The purpose of this study is to determine the value of including dynamic vision testing into California State University, Northridge (CSUN) Athletics' established concussion protocol. The study's hypotheses are 1) dynamic vision testing will reveal vision impairments right after a person sustains a concussion, 2) these impairments may still be present upon clearance to return to play.
The purpose of this study is to develop a highly portable, ruggedized diagnostic tool for concussion, EyeBOX Lens (EBLens), that can be utilized in deployed field and far-forward settings. The EBLens will be based on a concussion diagnostic algorithm from the FDA cleared EyeBOX device, developed by Oculogica, and eye-tracking data collected from a wearable set of eye-tracking glasses, developed by Adhawk Microsystems. Once the EBLens is prototyped, an algorithm for diagnosing concussion will be developed that is specifically appropriate for the EBLens via a case-control clinical study comparing 100 concussed to 100 non-concussed subjects (Phase I). Participants, age 18-35 years, will be recruited from the KACH research team and affiliated providers and clinical sites. Concussed individuals will be assessed within 72 hours of concussion. Demographics, basic medical history, symptom severity, a visio-vestibular exam and the EBLens scan will be collected on both injured cases and uninjured controls at a single time point. The algorithm and the EBLens will be validated in a subsequent, prospective cohort validation study (Phase II) designed for FDA submission. The correlation of the EBLens output with resolution of symptoms will also be observed in longitudinal follow-up of concussed participants in the validation study. The participant population for this study will be cadets recruited from the USMA and young athletes recruited from affiliated sites during baseline concussion testing. Participants will be assessed at baseline at the start of their academic year or sports season. Those participants who experience a concussive injury will be assessed again at three time points; 1) within 72 hours of injury, 2) weekly until and at the time of initiation of a graded return to activity protocol, and 3) upon clearance for unrestricted RTP/RTD.
The purpose of this study is to determine the value of including dynamic vision testing into California State University, Northridge (CSUN) Athletics' established concussion protocol. The study's hypotheses are 1) dynamic vision testing will reveal vision impairments right after a person sustains a concussion, 2) these impairments may still be present upon clearance to return to play.
The purpose of this study is to determine the value of including dynamic vision testing into California State University, Northridge (CSUN) Athletics' established concussion protocol. The study's hypotheses are 1) dynamic vision testing will reveal vision impairments right after a person sustains a concussion, 2) these impairments may still be present upon clearance to return to play.
The purpose of this study is to determine the sensitivity and specificity of an aid in assessment of concussion based on eye-tracking, in comparison to a clinical reference standard appropriate for sport-related concussion evaluation.
The purpose of this study is to evaluate a new control (i.e., the vision-guided shared control) for a wheelchair-mounted assistive robotic manipulator among powered wheelchair users. This study will consist of a questionnaire about general demographics, health information, and previous experience with assistive technology. Several tests will also be administered to test upper extremity function and ability as well as to test spatial orientation and visualization ability. Participants till then undergo a training phase with the assistive robotic manipulator mounted on a table to assess if they will be eligible for participation in the study. Eligible participants will move on to a second training phase where they will be asked to learn and practice slightly more complex tasks while using the vision-guided shared controller. After this training the assistive robotic manipulator will be mounted to the participants wheelchair and they will be asked to complete a number of everyday tasks from a task list. At the conclusion of the study, researchers will conduct a brief semi-structured interview with each participant and obtain more insight on how participants perceive the ease-of-use and usefulness of the vision-guided shared control.
Traumatic brain injury (TBI) is a health issue impacting athletes and no clinical treatment protocol, other than rest, is yet established. The efficacy of a treatment protocol relies on objective, physiological measures of brain function and ultimately a quantification of injury severity. The present study aims to assess neurophysiological markers of auditory and visual measures of brain function using the NeuroCatch Platform and eye-tracking technology, respectively. The current gold standard of TBI evaluation, including cognitive and balance assessments, will also be captured.
Repetitive head impacts in sports and military may cause deleterious effects in the nervous system. Investigators' previous works in football players have shown promising results in prediction of concussion and prevention of long-term defect using eye-movement paradigm (ocular-motor system) and blood biomarker. However, acute head impact effects on aforementioned parameters remain unknown. Thus, to answer a critical research question that whether or not ocular-motor system and brain-derived blood biomarker may be acutely altered following 10 successions of controlled soccer heading. To answer the question, investigators hypothesized that acute bout of soccer heading will not elicit noticeable change in subject's symptoms but to induce a transient defect in the ocular-motor system and increase plasma expression of brain-derived biomarker.
The purpose of this single center, longitudinal, pilot study is to provide evidence for the use of an eye tracking system as an objective tool to identify mild traumatic brain injury (mTBI) related oculomotor dysfunction (OMD) and predict the effectiveness of neurovision rehabilitation (NVR) of OMD. Eye tracking visual stimulus measurements will be compared to objective developmental optometrist (OD) diagnosis and assessments. It will be determined whether an eye tracking system can predict the presence or absence of mTBI related OMD and whether mTBI patients who have OMD based on the eye tracking system will respond positively to NVR.
The purpose of this investigator-initiated study is to compare the use of pupilometer and ultrasound assessment of optic nerve sheath diameter in predicting the ICP and to see if there is a value that could be used to indicate elevated ICP with either modality as these numbers are inconsistent throughout the literature. Patients that have either an external ventricular drain (EVD) or bolt placed will be enrolled in the study. After the EVD and bolt are placed the patient will undergo pupilometer examination (standard of care) followed by ultrasound assessment of the optic nerve sheath diameter (ONSD). The three values will be recorded. The same patient may have multiple readings performed if there is a change in ICP either spontaneously or due to intervention.
Optic Nerve Ultrasound (ONUS) is a promising non-invasive tool for the detection of raised Intracranial Pressure (ICP). Variability in the optimal Optic Nerve Sheath Diameter (ONSD) threshold corresponding to elevated ICP in multiple studies limits the value of ONUS in clinical practice. The investigators goal is to develop and validate an automated image analysis algorithm for standardization of ONSD measurement from ultrasound videos. Patients with acute brain injury requiring invasive ICP monitoring will undergo bedside ONUS, with blinded ONSD measurement by an expert investigator. The image analysis algorithm will then be used to measure ONSD and accuracy determined compared to the "reference standard" expert measurement.
The purpose of this study is to determine the sensitivity and specificity of an aid in assessment of concussion based on eye-tracking, in comparison to a clinical reference standard appropriate for the Emergency Department (ED) or concussion clinic.
Mild TBI subjects will initially be identified by providers in the Hennepin County Medical Center (HCMC) TBI Clinic. The subjects will then undergo objective testing by the developmental optometrist to confirm if they do or do not have vision dysfunction related to the mTBI. At the Center of Magnetic Resonance Research (CMRR) located at the University of Minnesota (U of M), the whole brain will be imaged using resting state and task functional MRI and diffuse tensor imaging (DTI) using a high field 3 Tesla (T) MRI. The subjects will then receive neurovision rehabilitation if they are in the vision dysfunction group. This treatment is standard care. Both groups will then undergo repeat objective vision testing by the developmental optometrist at 3 and 6 months to confirm that vision dysfunction has resolved. Resting state and task fMRI and DTI will be done at the same time to compare functional and structural connectivity changes between the 2 groups.
Previous research and position statements have outlined the necessity of balance and gait testing in the post-concussion evaluation of athletes. However, many of the currently available balance testing techniques lack objectivity and sensitivity to the effects of concussion. Such balance impairments may exist following concussion due to disruption of vestibular and/or ocular motor systems. However, no clinically feasible tools have been longitudinally examined to detect gait balance control deficits or to investigate how vestibular or motor dysfunction may lead to gait imbalance. Additionally, participation in physical and cognitive activities post-concussion may affect recovery. While limited evidence exists to support this notion, further investigation is necessary to improve clinical management recommendations. The proposed study will allow for the examination of tools which add value to post-concussion clinical evaluations and study-related outcomes will enhance the understanding of dynamic balance control and vestibular/ocular motor recovery, and their potential for implementation into concussion management protocols.