Clinical Research Directory

Study of the Dynamics of Verbal and Non-verbal Interaction in Healthy Subjects, Through the Recording of Body Movements and Non-invasive Neurophysiological Techniques

Based on study literature, the investigators can say that our study aims to give an explanation not only from a behavioral point of view but also with respect to what are the neuronal mechanisms underlying our ability to perceive and analyze our own and others' actions. This is essential to fully understand the complexity of our social behaviors. The knowledge of these mechanisms has a high value and relevant implications for many research fields both within and outside the neurosciences. The project aims to study the neurobehavioral correlates of verbal and non-verbal communication. Through the use of non-invasive behavioral and neurophysiological techniques, the study intends to highlight the neurobehavioral markers that allow to quantify the temporal evolution of communication dynamics in healthy subjects.

Harnessing Neuroplasticity of Postural Sensorimotor Networks Using Non-Invasive Spinal Neuromodulation to Maximize Functional Recovery After Spinal Cord Injury

It has been demonstrated that the human lumbosacral spinal cord can be neuromodulated with epidural (ESS) and transcutaneous (TSS) spinal cord stimulation to enable recovery of standing and volitional control of the lower limbs after complete motor paralysis due to spinal cord injury (SCI). The work proposed herein will examine and identify distinct electrophysiological mechanisms underlying transcutaneous spinal stimulation (TSS) and epidural spinal stimulation (ESS) to define how these approaches determine the ability to maintain self-assisted standing after SCI.

A Neuromodulation Auditory System to Optimize Patient Experience During Dysfunctional Dialysis Access Endovascular Procedures

Peri-procedural stress is a common challenge in interventional radiology that can negatively impact patient tolerance and the overall procedural experience. This randomized controlled trial (RCT) was designed to evaluate the clinical impact of a non-commercially available, newly-developed structured auditory neuromodulation system, designed to optimize patient experience during endovascular procedures for dysfunctional dialysis access.

Ultrasound Neuromodulation in Essential Tremor

This study is being done to test whether low-intensity focused ultrasound (LIFU) (low energy sound waves) cause temporary changes in brain activity and behavior when directed at particular parts of the brain. By targeting LIFU to the parts of the brain thought to be responsible for essential tremor (ET), and measuring any associated improvement in tremor, the investigators hope to show that LIFU can be a useful tool for studying the brain circuits responsible for tremor and other brain disorders.

Clinical Efficacy of Intermittent Theta Burst Transcranial Magnetic Stimulation With Different Modes on Parkinson's Disease

TMS regulates cortical excitability through electromagnetic induction, with low-frequency stimulation suppressing and high-frequency stimulation enhancing excitability. Building on theta-gamma coupling, iTBS induces broader improvements in functional brain connectivity within a shorter stimulation period, particularly by significantly reducing abnormal variability in the prefrontal and parietal regions, demonstrating superior neuromodulatory efficiency and network remodeling capacity. This study aims to compare the symptomatic effects of different iTBS protocols on Parkinson's disease, optimize stimulation parameters, and evaluate safety, while also analyzing the time-dependent trends of therapeutic efficacy through 1- and 3-month follow-ups.

The Role of Transcutaneous Vagus Nerve Stimulation in Treatment of Acute Brain Injury

Acute brain injury is a major global health problem associated with high mortality and morbidity, limited therapeutic options, prolonged hospital stays, and long-term disability that significantly impairs quality of life and increases healthcare costs. Noninvasive transcutaneous VNS developed as a safer approach for treating cerebral edema, epileptic seizures, and blood-brain barrier disruption, for facilitating the recovery of motoric and cognitive functions, and for immunomodulation. Transcutaneous VNS improves cerebral perfusion pressure and tissue oxygenation, supports reperfusion of the penumbral zone, and reduces neuronal hyperexcitability, thereby suppressing seizures.It may exert anti-inflammatory effects by reducing microglial cytokine and chemokine production. Additionally, vagal stimulation promotes acetylcholine-mediated suppression of pro-inflammatory cytokines, including TNF, IL-1β, IL-6, and IL-18. Another anti-inflammatory mechanism involves ghrelin, a peptide hormone whose serum levels increase under vagal stimulation. Elevated ghrelin reduces TNF-α and other pro-inflammatory cytokines and may limit intracerebral hemorrhage by inhibiting the NLRP3 inflammasome and activating the Nrf2/ARE signaling pathway. Biomarkers such as S100 protein and neuron-specific enolase (NSE) are valuable indicators of brain tissue damage and clinical outcomes; tVNS may reduce their levels and support non-invasive monitoring of disease progression. The technique is considered safe in patients . To date, tVNS has not been evaluated in clinical trials in Croatia, nor reported in case studies or cohort analyses. Study outcomes will be correlated with patients' clinical status, duration and course of hospitalization, complication rates, and overall treatment outcomes.

Characterising the Network-Specific Effects of Piriform Cortex Stimulation Via SEEG

The prospective study aims to characterize the network-specific modulatory effects of piriform cortex stimulation in patients undergoing stereotactic EEG for drug-resistant epilepsy. Using multimodal data, it seeks to link stimulation-evoked electrophysiological responses across brain networks with clinical outcomes, to inform targeted neuromodulation therapies.

Treatment of SSD With tcVNS and taVNS

This study aims to compare two non-invasive nerve stimulation devices, gammaCore and Nurosym, to find out which one is more effective in reducing physical discomfort and health-related anxiety in patients with Somatic Symptom Disorder, a condition where individuals experience significant physical symptoms and have excessive thoughts and worries about their health. Participants in this study will receive treatment using both devices at different times. Both devices work by sending mild electrical pulses through the skin to stimulate the vagus nerve, a major nerve that helps regulate body functions. One device (gammaCore) is placed on the neck, while the other (Nurosym) is worn on the ear. The order in which a participant receives the two treatments will be decided by chance, like flipping a coin. Each treatment period will last for two weeks, with a one-week break in between. Over the course of the study (about 8 weeks), participants will visit the hospital for treatment sessions and to complete questionnaires and have non-invasive measurements of body responses, such as heart rate variability.

Effects of Transcutaneous Auricular Vagus Nerve Stimulation on Cognitive Performance and Sex Differences

This study investigates the effects of transcutaneous auricular vagus nerve stimulation (taVNS) on cognitive performance in healthy adults. The study uses a sham-controlled, cross-over design in which each participant receives both active taVNS and sham stimulation in separate sessions. Each participant completes both conditions (active and sham) in a randomized order using a crossover design. Cognitive performance will be assessed before and after each session using standardized tests. The study also explores whether males and females respond differently to taVNS, in order to identify potential sex-related differences in cognitive outcomes.

The Effect of Thalamic Stimulation on Sleep Oscillations

The thalamus plays a key role in supporting sleep and is also a target of therapeutic stimulation. This project investigates when, where, and how electrical stimulation delivered to the thalamus in humans elicits or disrupts sleep oscillations. This research is a first step to better understand how current neuromodulation therapies affect sleep and may help advance toward new therapies to improve sleep for a wide range of neurological and neuropsychological disorders.

Analysis of Neuromodulation as a Complementary Treatment to Evidence-based Clinical Intervention in Subjects With Musculoskeletal Pathology of the Upper Limb: a Double-blind Randomized Clinical Trial

This project aims to analyze the use of neuromodulation within a treatment protocol for musculoskeletal conditions of the upper limb, as well as to determine the difference between two and three sessions per week. Study participants will be divided into four intervention groups: the first will receive two sessions per week for a period of six months, while the second will receive three sessions per week for the same period. The treatment protocol will consist of therapeutic physical exercise focused on the muscles and joints of the lower limb, stretching of the involved muscles, and neuromodulation of the brachial plexus nerve root, which innervates the affected structures. The third and fourth intervention groups will receive the same treatment as mentioned above, but without neuromodulation. The third group will receive three sessions per week, while the second group will receive two sessions per week. Two different types of measurement variables will be used: objective variables will be used to measure range of motion and muscle strength. Subjective variables will also be used through validated questionnaires, covering physical activity, health-related quality of life, upper limb function, and a visual analog scale for pain perception.

Analysis of Neuromodulation as a Complementary Treatment to Evidence-based Clinical Intervention in Subjects With Musculoskeletal Pathology of the Lower Limb: a Double-blind Randomized Clinical Trial

This project aims to analyze the use of neuromodulation within a treatment protocol for musculoskeletal conditions of the lower limb, as well as to determine the difference between two and three sessions per week. Study participants will be divided into four intervention groups: the first will receive two sessions per week for a period of six months, while the second will receive three sessions per week for the same period. The treatment protocol will consist of therapeutic physical exercise focused on the muscles and joints of the lower limb, stretching of the involved muscles, and neuromodulation of the nerve root of the lumbosacral plexus, which innervates the affected structures. The third and fourth intervention groups will receive the same treatment as mentioned above, but without neuromodulation. The third group will receive three sessions per week, while the second group will receive two sessions per week. Two different types of measurement variables will be used: objective variables will be used to measure range of motion and muscle strength. Subjective variables will also be used through validated questionnaires, covering physical activity, health-related quality of life, lower limb function, and a visual analog scale for pain perception.

tDCS for Cancer-Related Fatigue and Weakness

This pilot study investigates the effectiveness of non-invasive brain stimulation (tDCS) in alleviating cancer-related fatigue (CRF) and muscle weakness. Using a randomized, double-blind crossover design, participants perform fatiguing muscle tasks with and without tDCS, and outcomes include task endurance, maximal voluntary contraction force, and neuromuscular markers. Neural mechanisms will be assessed via EEG, TMS, and MRI.

tVNS and Myofascial Release in Tinnitus

This randomized controlled trial aims to investigate the effectiveness of transcutaneous vagus nerve stimulation (tVNS) and myofascial release exercises in patient wiht chronic subjective tinnitus. Participants will be randomly assigned into three groups: (1) tVNS group, (2) Myofascial exercise group, and (3) Control group receiving standart medical care. The primary outcome is change in tinnitus severity measured by the Tinnitus Handicap Inventory (THI). Secondary outcomes include tinnitus loudness Visual Analouge Scale for Tinnitus (VAS), sleep quality Pitsburgh Sleep Quality Index (PSQI) and audiometric findings.

Study to Compare the Clinical Effectiveness and Cost Utility of an All-in-one Procedure With an At-home Screening Trial

In 2019, the Dutch Healthcare Institute published a consensus report outlining when spinal cord stimulation (SCS) for chronic pain qualifies for reimbursement under Dutch health insurance. It mandates that adult patients with significant pain (VAS ≥50mm or NRS ≥5) undergo an at-home screening trial, which must show at least 50% pain reduction to proceed with permanent implantation. Screening trials give patients early access to the therapy, but they are expensive, often redundant, and pose risks such as infection. A recent UK study (TRIAL-STIM) found no significant difference in outcomes between patients who had screening trials and those who received an all-in-one SCS procedure, but the trial strategy incurred greater costs. Given these findings, and the fact that all-in-one procedures are already used in certain Dutch cases, it is reasonable to evaluate this approach more broadly. Therefore, a pragmatic, multi-centre, randomized non-inferiority trial will compare the effectiveness of the all-in-one procedure, no trial group (NTG) to the standard two-step approach, trial group (TG) in Dutch patients with chronic neuropathic pain.

Repetitive Transcranial Magnetic Stimulation Combined With Bimanual Therapy for Upper Limb Stroke Rehabilitation

The goal of this clinical trial is to evaluate whether combining repetitive transcranial magnetic stimulation (rTMS) with machine-assisted bimanual therapy (BT) can improve upper limb function in stroke patients. The participants will be individuals aged 40-80 years who have experienced a first-time ischemic or hemorrhagic stroke. The main questions it aims to answer are: * Does the combined therapy enhance motor recovery compared to traditional rehabilitation methods? * Are changes in brain activity associated with improvements in upper limb function? Participants will be randomly assigned to different groups and will: * Receive rTMS stimulation on specific areas of the brain to modulate neural activity, * Perform machine-assisted bimanual exercises to promote motor skills, and * Undergo assessments before, immediately after, and during follow-up periods to measure functional improvements.

Non-invasive Vagus Nerve Stimulation in Patients Undergoing Electrophysiological Study

The Non-invasive Vagus Nerve Stimulation in Patients Undergoing Electrophysiological Study is a single center, pilot, prospective study that aims at evaluating the effects of auricular vagus nerve stimulation (aVNS) on the human cardiac conduction system.

Neurophysiological Investigation of the Approach-avoidance Axis in OCD: Applications to Neuromodulation

We will recruit 10 patients with OCD meeting established criteria for surgical evaluation. Following informed consent and baseline evaluations, each will be implanted with permanent DBS SenSight leads and the Medtronic Percept RC IPG, which has on-device neural recording capability and rechargeability. We will collect a broad array of neurobehavioral data across two environments with complementary advantages: the clinic and the home. The first 2 Aims test our mechanistic hypothesis by studying the pattern of VS neural activity in the controlled environment of the lab/clinic during two complementary paradigms: one based on a psychophysical behavioral task, the other based on ERP, a therapeutic behavioral intervention. The third aim tests this hypothesis in an ambulatory, naturalistic setting with chronic neural on-device recordings paired with time resolved behavioral measures. We will investigate a possible common neural basis underlying approach and avoidance across these 3 paradigms. Subjects will participate in research at 7 critical timepoints during routine clinic visits (Fig. 4): before implant, 1 day before DBS activation, immediately after DBS activation, 2 weeks, 3 months, 6 months, and 12 months after DBS initiation. At these timepoints, patients will complete clinical assessments, perform the Probabilistic Approach Avoidance Task (PAAT), and conduct exposure trials under the guidance of a psychologist. The clinic offers the most controlled environment and provides opportunities for collecting high temporal resolution behavior synchronized to local field potential (LFP) recordings. These data will allow us to identify the degree of overlap in the time-resolved neural activity driving individual decisions to approach potential rewards or avoid potential aversive stimuli (Aim 1), and resist performing compulsions in order to achieve relief after OCD symptoms are triggered (Aim 2). At home, our goal is to investigate patient trajectories along the approach-avoidance axis as OCD symptoms improve (Aim 3). We will leverage passive, on device recordings that occur in the background of everyday life activities and synchronize these neural recordings with data collected via wearables, ecological assessments, and video diaries. Capturing neural and behavioral data in the home environment is essential for understanding the neural and behavioral changes that occur over longer timescales than individual clinical visits. The neurobehavioral biomarkers generated by this dataset will provide trackable readouts of clinical status that could inform therapeutic decision-making and enable data driven intervention.

tDCS and Musical Performance in Young Orchestra Musicians

The goal of this clinical trial is to learn if transcranial direct current stimulation (tDCS) can improve the technical, expressive, and stage aspects of musical performance in young orchestra musicians aged 18 to 30 years. The main questions it aims to answer are: * Does active tDCS improve musical performance compared to sham stimulation? * Does active tDCS reduce music performance anxiety and increase musical self-efficacy? Researchers will compare the active tDCS group to the sham stimulation group to see if active stimulation has positive effects on musical performance and psychological factors. Participants will: * Receive either active or sham tDCS stimulation * Perform a musical piece before and after stimulation * Complete questionnaires about anxiety and musical self-confidence

Improving Pelvic Rehabilitation Using Epidural Stimulation After Spinal Cord Injury

The investigators will recruit up to 20 volunteers with chronic, supra-sacral SCI. Following screening, eligible participants will enter 'Phase I', they will complete baseline outcome measures and then have the epidural spinal cord stimulator (eSCS) implanted with either percutaneous or paddle electrodes. Preoperative and intraoperative testing will determine exact location of electrodes. Mapping and optimisation of stimulation parameters will be performed simultaneously with urodynamic investigations of bladder function, and anorectal physiology investigations of bowel function. The acute effects of eSCS to suppress bladder overactivity, facilitate voiding, prevent unwanted reflex sphincter activity, and pelvic floor function will guide development of eSCS programmes for use at home. In 'Phase II', participants will use eSCS at home for 12-weeks. Participants will also be taught how to perform bladder and pelvic floor muscle training (PFMT) in combination with eSCS. Outcome measures assessing bladder, bowel, sexual function, quality of life, motor function and spasticity will be captured prior to and following the 12-week intervention, and at 3 and 6 month follow up.

Optimization of ITBS for Depression

Repetitive TMS (rTMS) is a well-established method for modulating brain activity. Through successive stimulations in the form of magnetic fields, it is possible to modify the sensitivity of neurons in the brain, also known as cortical excitability. Cortical excitability is important for the induction of brain plasticity, the ability of the brain to reorganize itself and form new connections in response to stimuli. A particular class of rTMS, intermittent theta burst TMS (iTBS), is commonly used to modulate cortical excitability and induce plasticity for therapeutic purposes, notably for treatment-resistant depression. Different iTBS stimulation parameters can be used to induce plasticity. This study will focus on two parameters, namely, the form and duration of the electromagnetic stimulation. The shape of the electromagnetic pulse refers to how the electromagnetic wave is configured over time, while the duration is simply the period during which this electromagnetic pulse remains active. These parameters are expected to influence the effectiveness of iTBS in modulating cortical activity but remain little studied. The main aim of this study will be to compare the effectiveness of different stimulation parameters in the induction of plasticity, which will then make it possible to improve the rTMS protocols used for treatment-resistant depression.

Safety, Feasibility, and Efficacy of TSCS on Stabilizing Blood Pressure for Acute Inpatients With SCI

Current forms of pharmacologic and non-pharmacologic treatments for hypotension and orthostatic hypotension (OH) remain inadequate during acute inpatient rehabilitation (AIR) following a traumatic spinal cord injury (SCI). A critical need exists for the identification of safe, practical, and effective treatment options that stabilize blood pressure (BP) after traumatic SCI. Recent published evidence suggests that transcutaneous Spinal Cord Stimulation (TSCS) can be used to raise seated BP, and mitigate the falls in BP during orthostatic repositioning in individuals with chronic SCI. This site-specific project will focus on the use of TSCS to stabilizing seated BP and mitigate the fall in BP during orthostatic repositioning during AIR following traumatic SCI.