View clinical trials related to Atrophy.
Filter by:The purpose of this study is to assess the Safety and Efficacy of IONIS-FB-Lrx for up to 120 patients with Geographic Atrophy secondary to Age Related Macular Degeneration
The objective of this observational study is the radiographic evaluation of marginal bone remodeling after surgical implant insertion in an immediate loading all-on-four technique with trans-sinusal titanium implants, correlating the gingival thickness and the height of the implant prosthetic stump with the proportion of the abovementioned marginal bone remodeling.
The maintenance of skeletal muscle mass and function is critical for healthy aging. Muscle loss with disuse, termed muscle disuse muscle atrophy, leads to impaired functional capacity, the onset of insulin resistance, as well as a heightened risk for morbidity and mortality. With advancing age there is a chronic wasting of muscle. This is especially true in women, where rapid rates of decline in muscle mass and greater anabolic resistance are experienced around the time of menopause, despite higher protein synthesis rates. As women have a longer life expectancy, they are particularly venerable to age-related frailty and morbidity. Skeletal muscle protein turnover serves to maintain the optimal function of proteins and also provides plasticity of the tissue during altered demands such as during increased loading or unloading of the muscle. Reduced periods of physical activity also have a similar, albeit milder, impact on skeletal muscle and most, people will likely experience multiple bouts of skeletal muscle disuse during their lifetime from which some, particularly older adult women, will fail to fully recover. Thus, muscle disuse atrophy is a significant and continuing problem as reclamation of lost muscle mass, strength/function, and potentially metabolic health (particularly insulin-induced glucose disposal), following disuse is oftentimes incomplete and may be further exacerbated after menopause. Previous evidence has demonstrated that in the loss of muscle mass is less pronounced in post-menopausal women when receiving hormone replacement therapy. Skeletal muscle has estrogen-β-receptors on the cell membrane, in the cytoplasm and on the nuclear membrane, and therefore a direct mechanistic link between low estrogen levels and a decrease MPS. Interestingly, despite higher rates of protein synthesis, older women still lose muscle mass with advancing age. It has been suggested that the negative muscle protein balance is due to an enhanced rate of MPB. Insulin is a potent inhibitor of MPB and estrogen has been shown to enhance insulin sensitivity in skeletal muscle. However, to our knowledge, no study has examined the efficacy of estrogen supplementation to attenuate the losses of skeletal muscle mass and function during a period of disuse. The findings of this investigation may yield critical data for those who wish to combat skeletal muscle disuse atrophy, particularly after menopause.
The purpose of the study is to evaluate the efficacy and safety of CNTO 2476 cells administered into the subretinal space by the suprachoroidal surgical approach and the subretinal access kit (SRAK-02) in participants with visual acuity impairment associated with Geographic Atrophy (GA) secondary to Age Related Macular Degeneration (AMD).
Acute muscle wasting occurs early and rapidly during the first week of critical illness and contributes substantially to weakness acquired in the ICU. Muscle wasting and subsequent weakness is associated with delayed liberation from mechanical ventilation, prolonged hospital length of stay, long-term functional disability, and worse quality of life. Moreover, low muscle volume as well as ICU-acquired weakness increases the risk of mortality in critically ill patients. Although several factors likely accelerate skeletal muscle wasting during critical illness (e.g., immobility, inflammation, multi-organ failure), the understanding of the underlying mechanisms remains limited and is reflected in the lack of effective interventions to prevent the loss of muscle mass in ICU patients. To-date, there is no known safe and effective pharmacological or nutritional intervention to attenuate the acute loss of muscle mass in ICU patients. Leucine is an amino acid widely regarded for its anabolic effects on muscle metabolism. However, the concentrations required to maximize its anti-proteolytic effects are far greater than the concentrations required to maximally stimulate protein synthesis. This has resulted in the search for leucine metabolites that may also be potent mediators of anabolic processes in skeletal muscle; one such compound is β-hydroxy-β-methylbutyrate (HMB). HMB is thought to primarily facilitate protein synthesis through stimulation of mammalian target of rapamycin (mTOR), a protein kinase responsive to mechanical, hormonal, and nutritional stimuli that plays a central role in the control of cell growth. Randomized, controlled trials to assess the effect of HMB supplementation on clinical outcomes in patients with chronic diseases are limited, and even fewer studies have assessed its effects on skeletal muscle metabolism during critical illness. Furthermore, despite compelling preclinical evidence, the exact mechanisms underlying the effect of HMB supplementation during acute catabolic stress in humans is not well defined. Therefore, the investigators goal is to study the impact of early HMB supplementation on skeletal muscle mass in ICU patients and to explore the mechanisms by which HMB may exert its effects on skeletal muscle metabolism during critical illness.
Atrophic vaginitis affects the majority of post-menopausal women. It is characterized by dryness and inflammation of the vagina, with thinning of the vaginal tissues. Atrophic vaginitis is caused by the decreased effect of estrogens post menopause. Traditionally, local estrogens have been used to treat atrophic vaginitis Studies have shown that there are progesterone receptors in vaginal tissues. The use of progesterone to treat atrophic vaginitis has not yet been studied. However, its use has been studied in other populations including as a fertility medication in pregnant women. There is a significant group of women who cannot use, choose not to use, or do not respond to estrogenic therapies. The goal of this study is to evaluate the efficacy of vaginal progesterone in the treatment of urogenital atrophy, compared to placebo. This study is a randomized, double-blind, placebo controlled trial. The ultimate goal is to expand the treatment options for patients with symptoms of vaginal atrophy.
Clinical trials organization in several neuromuscular disorders (NMD) has some specific issues. Nonambulant status and difficulties with transportation are among them. Moreover a lot of patients with NMD have so poor condition that even short transportation is able to worse it. Such situation forces researchers to limit a region of recruitment for clinical trials and to exclude from trials more severe subgroup of patients, which cause additional issues especially for rare diseases. The purpose of this study is to prove hypothesis about possibility to reliably monitor patient condition remotely, without trial site visiting. Visit-free study design is potentially able to widen eligible patient population and to decrease patient dropout rate as well as burden of numerous assessments. Meanwhile assessment frequency could be increased enabling monitoring of short fluctuations in patients' condition. Spinal muscular atrophy (SMA) is a rare neuromuscular condition to which all mentioned above issues are completely applicable. Direct current stimulation (DCS) of neural structures is well studied and safe intervention, however, its effects on SMA patients' strength and durability has not been reported for today. The investigators suppose that investigation of DCS action in SMA patient population is an adequate model for visit-free design feasibility, reliability and sensitivity evaluation.
Bone fractures heal most of the time particularly well and without complications. The solidification takes rarely more than two to three months. The wound healing depends greatly on a good blood supply and needs several steps. These processes culminate in a new mass of heterogeneous tissue which is known as the fracture callus. Unfortunately, 2%-5% bone fractures cannot achieve a proper solidification and between the ununited fragments a scar tissue appears. This incorrect healing induces pain and even infections. When this situation persists more than 6 months, it is referred to as nonunion fracture, which will require some form of intervention to stimulate the natural healing process of the body. First of all, good surgical techniques with stable immobilization should be applied and local infection should be excluded. Then stimulation of the callus is required. Cell therapy with bone marrow cells has emerged as a promising new approach for bone regeneration. Animal studies as well as preliminary human studies have shown that Mesenchymal Stem Cells, a particular kind of stem cells isolated from the bone marrow, could induce callus formation when injected in the nonunion site of a broken bone. In this study the investigators aim at determining whether Mesenchymal Stem Cells (MSC) isolated from the patient's bone marrow and injected in the nonunion site could be a safe and effective treatment for nonunion fractures. Patients will be randomized in two groups; one injected with Mesenchymal Stem Cell and the other injected with placebo. The investigators seek also to know how long it takes to develop the callus formation and whether there is a partial or a complete callus formation.
The purpose of this study is to test the hypothesis that endothelin plays a role in the pathogenesis of supine hypertension in pure autonomic failure by increasing vascular resistance. To gauge its contribution to blood pressure regulation, pure autonomic failure and multiple system atrophy patients with supine hypertension will undergo a medication testing with the endothelin blocker, BQ123. We will compare the hemodynamic effects between PAF and MSA patients. Our primary endpoint will be the decrease in blood pressure during the administration of this compound.
This is a non-randomized, open-label, dose-escalating Phase Ia study performed at a single center designed to evaluate the safety, pharmacokinetics, and preliminary efficacy of intravitreous administration of RNA-144101 in patients with geographic atrophy (GA).