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NCT07486414
The objective of this study is to evaluate the efficacy and safety of Small-molecular-weight deer antler collagen (NP-2007) on skin health, including skin hydration, transepidermal water loss (TEWL), elasticity, and eye wrinkles.
NCT04294888
The purpose of this study is to assess the effects of non-invasive brain stimulation on memory in cognitively unimpaired older adults and in patients amnestic mild cognitive impairment (aMCI) due to Alzheimer's disease (AD). This study will use repetitive Transcranial Magnetic Stimulation (rTMS) to stimulate nodes of the Default Mode Network (DMN)- which is thought to support episodic memory and to be affected by Alzheimer's pathology. We will use functional connectivity MRI (fcMRI) to assess changes in functional network architecture following the stimulation. We will also assess putative cognitive improvements resulting from the stimulation by in-depth memory testing.
NCT02861742
The KALICOU 3 study will evaluate the effect of emotional skills of patients and their partners on their individual disease subjective experience during care pathways, from chemotherapy to surveillance.
NCT03803904
This proposal will evaluate two brain health measures, cerebrovascular perfusion and cerebrovascular reactivity (CVR), before and after a proven, interval-based, aerobic exercise intervention in older Veterans. The hypothesis is that the 12-week aerobic exercise intervention (Spin) will increase perfusion and improve CVR in brain regions susceptible to age-related decline. This information will inform the impact of exercise on cerebrovascular health which is known to be negatively impacted in aging and implicated in the development of neurodegenerative disease. This information will also aid the investigators' continued efforts of clinical implementation of evidence-based exercise interventions in the local Atlanta VA and surround region.
NCT06645847
This study aims to find out if a food supplement that contains a naturally occurring substance, ketones, can help to improve strength and general wellness in adults at, or over the age of 65 years who are experiencing a slight decline in their physical function. Participation will involve a screening visit and 4 additional study visits over the course of 20 weeks. After being assessed for eligibility, study participants will be sorted into two groups at random and consume either a ketone or placebo supplement at home every day for 20 weeks. Both study products can cause gastro-intestinal side effects in some individuals. At all study visits, subjects will provide blood samples. At three study visits, subjects will be asked to complete physical performance tests, provide blood, stool and urine samples. They will also complete questionnaires during three study visits to assess physical function, markers of inflammation, and other aspects of general well-being. The study enrolls at three sites across the United States, in California (Buck Institute), Ohio (Ohio State University), and Connecticut (University of Connecticut). The study is coordinated by the San Francisco Coordinating Center (California Pacific Medical Center).
NCT07031921
The study titled "Ultrasound Image Bank: Advancing Medical Research and Diagnostics", sponsored by the Fondazione Policlinico Universitario A. Gemelli IRCCS, aims to create a large-scale database of gynecological ultrasound images. These images will be collected during routine clinical care from both healthy patients and those with benign or malignant gynecological conditions. The goal is to support medical training, clinical research, and the development of artificial intelligence (AI) models for diagnostic purposes. This is a prospective, observational, single-center study, with an expected enrollment of approximately 25,000 patients over five years. The ultrasound images will be linked to histological outcomes (for those undergoing surgery within 3 months) or to follow-up scans at 1 year, to enhance early diagnosis and personalized treatment approaches.
NCT07416396
The use of food supplements with the aim of increasing longevity in the general population is rapidly increasing, while high-quality clinical evidence on the efficacy of comprehensive formulations and their impact on biomarkers of aging is lacking. The present clinical trial will evaluate the effects of selected morning- and evening-speciffic dietary supplement on longevity biomarkers in a selected population of healthy adults of both sexes between the ages of 50 and 70 and compare it to placebo. The main questions it answers are: Does the 6-month use of the longevity supplement impact the 6-months change in different markers for measuring biological age compared to placebo? The study will involve 60 subjects, of whom 30 will consume the morning- and evening-speciffic longevity food supplements and 30 will consume a placebo. The study will last 6 months. The subjects will will visit the Faculty four times: at the beginning of the study (background measurement), after one, three and six months of consuming the dietary supplement or placebo. At each visit, subjects will undergo anthropometric measurements, blood pressure measurements, and blood samples will be taken to determine baseline haematocrite, albumin, creatinine, alcaline phosphatase, lipid profile, glucose concentration, inflammatory parameters, antioxidant potential, liver enzymes, and expression of genes for autophagy and oxidative stress. Subjects will also complete 3-day food diaries and questionnaires on general health, physical activity, and quality of sleep and life. On baseline and final (six months) measurements resting metabolic rate and DXA body composition measurements will be performed.
NCT04848038
The number of older Americans will double in the next 4 decades to nearly 90 million, placing an unprecedented financial and resource burden on the health care system. Exercise has clear and demonstrable physical benefits, but a more precise understanding of how exercise supports cognitive function is essential. Demonstrating definitively that exercise as recommended by public health entities has benefits for cognition would have enormous public health implications, encourage the public to adapt more active lifestyles, and stimulate the development of effective exercise delivery programs.
NCT07461584
This project optimizes high-resolution tACS to improve memory in healthy older adults, advancing drug-free approaches for ADRD. We test stimulation schedules and develop an adaptive, brain-guided tACS system to strengthen memory-supporting networks.
NCT00051857
This study will use magnetic resonance imaging (MRI) and ultrasound images to study how muscles, tendons, and bones work together to cause motion. The procedure is one of several tools being developed to characterize normal and impaired musculoskeletal function, with the goal of developing improved methods of diagnosis and treatment of movement disorders. Healthy normal volunteers must be age 5 to unlimited, with or without joint impairment, may be eligible for this study. Volunteers with joint impairment may not have serious injury to the joint being studied, previous surgery on the joint being studied, or extreme pain at the joint being studied. MRI uses a strong magnet and radio waves to create images of the inside of the body. The subject lies on a long narrow couch inside a metal cylinder (the scanner) for up to 3 hours while the scanner gathers data. Earplugs are worn to muffle loud noises caused by electrical switching of radiofrequency circuits used in the scanning process. A special pad or tube may be placed over or around the region being scanned to improve the quality of the data. The subject will be asked to repeatedly move a specific joint, such as the knee, for brief periods, usually less than 5 minutes. The subject can communicate via intercom with the person performing the study at all times during the procedure, and may request to stop the study at any time.
NCT07456319
This pilot randomized, double-blind, controlled trial evaluated the effects of a Tenebrio molitor-enriched protein biscuit combined with a structured physical activity program on cardiometabolic health in older adults. Participants aged 65 years and older were assigned to receive either insect-based or control biscuits following supervised exercise sessions for 28 days. Primary outcomes focused on changes in lipid profile, while secondary outcomes included anthropometric measures, body composition, blood pressure, physical function, glucose metabolism, hepatic function and inflammatory biomarkers.
NCT06750653
This is a randomized, investigator-blinded, self-controlled pilot study of the physiologic response to topical moisturizers among older adults with dry skin. The overarching hypothesis is that skin barrier decline is an important source of chronic inflammation, and that skin barrier restoration with moisturizers can reduce serum biomarkers of inflammation. The primary objective is to determine the feasibility for a larger trial, and the secondary objectives are to determine the extent to which measures of serum inflammation, skin barrier function, and the skin microbiome change in response to moisturizers. Participants will be asked to apply one of two topical moisturizers that are widely available over the counter in the US (Vaseline® 100% pure petroleum jelly or CeraVe® moisturizing cream) once daily for 4 weeks to the front of the torso, buttocks, arms, and legs. Subjects will act as their own control (i.e. they will be asked to apply the study moisturizer they are randomized to for one intervention period (4 weeks) and not to apply topical moisturizers for the other 4- week intervention period). Participants will be randomized in a 1:1:1:1 ratio to one of 4 treatment groups: i. no intervention then CeraVe; ii. CeraVe then no intervention; iii. no intervention then Vaseline; iv. Vaseline then no intervention. At each visit (baseline, week 4, and week 8), participants will undergo skin barrier testing, skin microbiome sampling, and phlebotomy to measure serum inflammatory markers.
NCT05548322
Our sense of touch is essential to explore our environment and experience life and is based on signals from receptors in the body that are sensitive to different types of stimulation. The TACTHUM projects aims to investigate the fundamental firing of mechanoreceptors in the body to various external stimuli, with an end-aim to better understand the human somatosensory system and to apply this knowledge to provide comprehensive sensory feedback in prosthetics. We have a vast system of peripheral receptors in the skin and muscles that provide us with exquisitely detailed information about our everyday interactions. When there is injury to a body part, such as in amputation, there is a significant loss of somatosensory input. Prosthetic devices have greatly developmed in the past few years, especially with the introduction of useful sensory feedback. However, there is a lot to discover both about the workings of the somatosensory system and how to recreate this to give feedback in a prosthetic device. The main objective of the TACTHUM project is to understand how to recover and apply useful somatosensory feedback in prostheses for amputees. There are a number of other sub-objectives, to: 1. Determine how tactile mechanoreceptors encode the texture of natural surfaces during passive and active exploration. 2. Investigate how our sense of touch varies with emotional state. 3. Explore what happens to our sense of touch when we explore surfaces at different temperatures. 4. Understand the origin of our perception of humidity. 5. Investigate differences in the encoding of tactile information with age. 6. Determine the perceptions generated by the stimulation of single tactile afferents. 7. Study changes in spontaneous activity and responses to tactile stimulation on the residual limb of amputees. To accomplish these objectives, we will primarily use the technique of microneurography, in vivo recordings from peripheral nerves, to gain direct information about the firing of peripheral neurons in humans. In conjunction with this, we will use a variety of mechanical and thermal stimuli to excite somatosensory fibers and register the activity of other physiological and perceptual measures. This will allow us to gain a fuller understanding of how the incoming somatosensory signals are interpreted and processed. Overall, we aim to explore how more naturalistic tactile interactions are encoded and how these can be translated to provide realistic prosthetic feedback.
NCT07442097
The goal of this clinical trial is to evaluate the safety and tolerability of the nutritional supplement Youniqor in healthy older adults. The main questions it aims to answer are: Is Youniqor safe and well tolerated when taken daily by healthy adults aged 60 to 80 years? Are there any adverse events or clinically relevant changes in vital signs or laboratory parameters during the study period? Participants will: Take Youniqor daily for 8 weeks Attend scheduled study visits for safety assessments, including vital signs, blood and urine tests, and electrocardiograms Report any adverse events during the study period
NCT07436936
This multicenter, cross-sectional observational study aims to use precision nutrition tools to identify metabolic clusters in adults aged 50-75 years, enabling tailored nutritional and protein recommendations based on specific metabolic characteristics. Conducted at Eurecat-Reus (Catalonia) and AZTI (Bizkaia), the study will enroll 200 participants (75 at Eurecat, 125 at AZTI). Analyses will include metabolomics, gut microbiota profiling, epigenomics, and glycomics, with the goal of refining dietary guidelines and protein intake recommendations to address the specific needs of aging populations.
NCT06491264
With an aging population worldwide, it is critical to develop effective interventions promoting healthy cognitive aging. Transcranial electrical stimulation (tES) is a promising but not fully realized noninvasive brain stimulation approach that could improve memory. This study investigates the behavioral and electrocortical effects of personalized tES in aging to determine whether whether optimal dosing, electrode placements, and waveforms elicit stronger responses.
NCT07272642
LNTH-2403 (177Lu-DOTA-DUNP19) is a lutetium-177 radiolabeled, fully humanized monoclonal antibody (mAb) that binds with high specificity and affinity to leucine-rich repeat containing 15 (LRRC15), a transforming growth factor (TGF) - β-driven biomarker expressed on the cell membrane of cancer cells and/or cancer-associated fibroblasts 9CAFs) in select tumor types. Upon binding, LNTH-2403 is rapidly internalized, such that it can serve as a dual-purpose agent for both non-invasive imaging and radiotheranostic treatment of LRRC15- positive tumors. This first-in-human (FIH) imaging study will evaluate the safety and imaging of LNTH-2403 in participants with locally advanced or metastatic solid tumors.
NCT06397469
The goals of the proposed research are to first determine the minimal and/or optimal dose of a digital intervention required for cognitive enhancement, and then to examine the impact of several potential moderators of treatment effects (i.e., cognitive decline, AD polygenic hazard score, cardiovascular risk, and race/ethnicity). This knowledge gained from his high-impact study with transform the field of cognitive interventions, paving the way for a precision medicine model for cognitive enhancing interventions that improve quality of life for older adults and individuals with cognitive deficits at risk of developing dementia.
NCT07171450
The goal of this clinical trial is to determine if a neuroscience-based computerized cognitive remediation ("brain training") program can treat neurocognitive dysfunction (i.e., memory or thinking difficulties) that emerges in some older adults following a viral infection. The main questions it aims to answer are: * Does computerized cognitive remediation improve cognitive performance and day-to-day functioning in older adults with postviral neurocognitive dysfunction? * Will treatment effects be maintained over time, leading to better long term cognitive outcomes? * Does the treatment lead to reductions in blood-based markers of inflammation as a potential mechanism of cognitive symptom improvement? * Can the treatment be optimized and refined based on feedback from participants to improve user (patient) experience? Researchers will compare the computerized cognitive remediation program to an active computer-based control condition (alternative computer activities) to see if the computerized cognitive remediation program works to treat postviral neurocognitive dysfunction. Participation takes approximately 43-48 hours over 7 months, with most activities (40-46 hours) completed within the first 7-8 weeks, including: * Initial intake visit: Eligibility confirmation (\~2-3 hours) * Computer activities: About 5 hours per week for \~6 weeks (total \~30 hours) completed on a computer tablet provided by the study and loaned to participants for use during the treatment phase * Weekly remote check-in meetings: \~30 minutes each during treatment * Blood draws: Two sessions (before and after treatment), \~20-30 minutes each * Three research visits: Pre-treatment, post-treatment, and 6-month follow-up (\~2-3 hours each, including assessments of cognitive, emotional, and daily functioning)
NCT07344753
Magnetic resonance imaging (MRI) is a common imaging procedure that is safe and non-invasive, as it relies on the use of different magnetic fields. It is the gold standard examination for a wide range of pathologies. However, it has many disadvantages, including the repetitive noise produced by the coils during image acquisition sequences, which can cause discomfort. The noise level often exceeds 100 dB, while the noise exposure limit for workers is set at 87 dB. There is no regulatory limit for patients. Although it is relatively loud and quite unpleasant, this noise is not harmful to health and does not amplify, contrary to the perception that one may have in the tunnel. Noise-cancelling headphones and earbuds are strongly recommended for patients to reduce any discomfort that may result. In practice, the imaging department requires all patients to wear hearing protection. Other disadvantages of MRI include confinement in a tunnel and the need to remain completely immobile for approximately six sequences, each of 2 to 5 minutes in duration. This can be problematic, particularly for patients suffering from pain or respiratory failure, or for agitated individuals who find it difficult to remain motionless in a lying position for long periods of time. These various issues are particularly relevant in the paediatric population, for whom MRI is the preferred imaging technique due to its safety in terms of radiation exposure. The specific characteristics of this population require more complex patient management due to the particular constraints of MRI. Acceptance of the following four points appears to be key to its successful implementation: lying down, with the head in a tunnel, intense and repeated noises, and strict immobility for at least 30 minutes. Without these conditions, the images recorded will not provide reliable results that can be used for diagnosis. To meet these constraints, at Nantes University Hospital, general anaesthesia was routinely administered to children aged 3 to 6 until September 2023. This ensures a 100% success rate for the examination, but it is not a trivial procedure for the child and is stressful for their parents. Since then, a light sedation protocol has been offered as part of the care pathway. This involves the child taking medication one hour and then thirty minutes before the MRI scan to calm them down until they fall asleep. Unfortunately, access to this MRI under light sedation or general anaesthesia complicates the appointment booking process, as it requires the presence of a medical team during dedicated shifts. MRI scans under light sedation are scheduled for three slots per week. At the end of 2025, the waiting time was four months for light sedation and six months for general anaesthesia. In order to improve and speed up the care of children who need to perform an MRI scan, a specific consultation with an immersive four-module programme has been designed at Nantes University Hospital with the aim of optimising the chances of success of the examination without general anaesthesia or sedation, thereby: * Reduce waiting times for appointments, and thus reduce the period of stress for parents awaiting a diagnosis for their child. * Reduce the time required for the examination. Indeed, an examination under light sedation considerably lengthens the treatment time, with a sedation onset time of approximately 1.5 hours. * Increasing the success rate of MRI scans under light sedation following failure without sedation. This innovative approach is based on an immersive experience in the form of a course consisting of four modules designed to help children practise four areas that can be challenging for them (immersion in a tunnel, loud noise, the constraints of specific equipment, and immobility). These modules are themed around the marine world, in line with the already approved paediatric radiology programme. It will be offered to children aged 3 to 6 with no cognitive or behavioural disorders. The modules will be installed in a paediatric consultation room and will be used for half a day each month. When not needed, they'll be put away so the room can be used for consultations. The aim of our pilot study is to assess the impact of this immersive journey on the success of an MRI scan without general anaesthesia or sedation.