Loading clinical trials...
Loading clinical trials...
Discover 9,711 clinical trials near Nashville, Tennessee. Find research studies in your area.
Showing 2681-2700 of 9,711 trials
NCT04718129
Randomized controlled trial comparing a coached, app-based mindfulness intervention versus a no-intervention control condition. Primary outcome: adolescents' reports of affect as measured with ecological momentary assessment (EMA) at post-intervention. Participants will include 120 youth ages 12-17 years old.
NCT03782493
The objective of the proposed study is to evaluate the efficacy of the Enhanced Milieu Teaching-Sentence Focus (EMT-SF) intervention, implemented by caregivers and interventionists, relative to a control condition enrolling 108 30-month-old children and their caregivers. The central hypothesis is that intervention will result in better overall child language skills at 49 months of age.
NCT04601337
Many surgical procedures such as brachial plexus reconstruction, nerve repair, and dorsal root rhizotomies rely on the spatial selectivity of their neural stimulation methods to identify specific nerve fascicles or rootlets. Due to the variable distribution of nerves between patients, many times it is not enough to rely on the historical topography of nerves to determine their location and identity.Currently, electrical stimulation (ES) methods are used to stimulate nerves in order to locate and map them intraoperatively. ES, however, is subject to current spread in which the electrical stimulus extends beyond the area proximal to the electrode into the surrounding tissue. This can result in the stimulation of multiple fascicles introducing ambiguity as to the location and/or identity of a specific nerve or fascicle. Our group has shown that infrared neural stimulation (INS), a novel optical and label-free means of exciting neural tissue, is capable of safely stimulating nerves with a higher degree of spatial specificity than traditional ES methods. Our clinical studies have even shown that INS can outperform ES, achieving isolated rootlet responses. The investigators hypothesize that the spatial selectivity of INS can be further utilized in upper extremity surgeries such as brachial plexus reconstruction and nerve transfers to improve intraoperative nerve identification and localization. While the initial clinical work was performed with a costly clinical laser system, our group has demonstrated the efficacy of cost-effective laser diode systems for INS in animal models in vivo.The safety of these lasers, however, has yet to be proven histologically in human patients. The objective of this proposal is two-fold: to demonstrate the efficacy of INS for spatially selective nerve stimulation in the upper extremity and to determine the histological safety of INS using diode laser systems in human patients. To do so, the investigators will recruit patients undergoing brachial plexus reconstruction (BPR) and nerve transfer surgeries wherein both the effectiveness and spatial selectivity of INS can be demonstrated and histological samples can be obtained without detriment to the patients' quality of care or recovery. To accomplish these objectives, the investigators propose the following aims: Aim 1: Design and fabricate a clinical fiberoptic probe for a diode-based INS system Aim 2: Demonstrate the efficacy of INS in nerve transfer cases Aim 3: Determine the histological safety of the diode-based INS system