search

Active clinical trials for "Vitamin D Deficiency"

Results 261-270 of 697

Sunlight Exposures Effect on Serum Vitamin D Levels

Vitamin D Deficiency

When people eat a meal, some, but not all of the calcium in that meal is absorbed, that is, moved into the bloodstream. When the skin is exposed to sunlight during summer months, Vitamin D is made there and then modified into more active forms by the liver and kidneys. These more active forms of Vitamin D improve calcium absorption. Many adults living in the U.S. have little or no sun exposure and are low in Vitamin D. We know that specific wavelengths of sunlight called Ultraviolet-B cause Vitamin D to be made in the skin.

Completed2 enrollment criteria

A Study to Assess the Effectiveness of an Investigational Drug in Elderly Subjects With Low Vitamin...

Vitamin D Deficiency

This study will assess the effectiveness of an investigational drug in elderly subjects with low vitamin D levels.

Completed2 enrollment criteria

The Influence of Food Matrix Delivery System on the Bioavailability of Vitamin D3

Vitamin D Deficiency

This study investigates the influence of different food matrices on the bioavailability of vitamin D. Although most vitamin D comes from skin synthesis in response to sun exposure, dietary intake is also important - especially during winter time where there is no endogenous production of vitamin D in Denmark. A way to maintain an adequate vitamin D status is to supplement either as tablets/droplets or as fortified food. However, there seems to be an inter-individual variation in response to supplementation. This study aims to investigate whether this variation in absorption of vitamin D may depend on delivery system.

Completed17 enrollment criteria

Immunomodulatory Vitamin D in Thalassemia

ThalassemiaTuberculosis1 more

Thalassemia becomes one of global health issue and so does Indonesia. In 2015, more than 7600 children were diagnosed as this hemoglobin genetic disease wherein anemia and lifetime blood transfusion contribute to their morbidity and mortality in Indonesia. Major β-Thalassemia is the most common type found. However, along with disease progression and age, iron accumulation and dysregulation becomes the most common complication exist. In cellular level, this condition results in cell and tissue damage especially immune cells and promotes favor condition for siderophilic bacteria such as Mycobaterium tuberculosis (Mtb) to growth rapidly. Severe infection becomes the second most cause of death in thalassemia-β major patients. Tuberculosis (Tb) remains the global health issue especially in developing countries. Based on World Health Organization (WHO) report on 2015, Indonesia is the second highest burden of TB in the world. Both of adaptive and innate immune system plays important role in Mtb recognition and eradication. However, immune cells mechanism and activity in response to Mtb infection during iron accumulation condition on thalassemia-β major patients may be altered therefore need for further study. Macrophage is an adaptive immune cell, has a pivotal role on circulating-iron regulation and serves as Mtb host cell. To understand macrophage activity on thalassemia-β major patients can be studied by monocyte characteristic stimulated by Mtb antigen and evaluated by its differentiation into three subsets based on CD14 and CD16. Mtb antigen presentation is identified by HLA-DR expression on monocyte membrane. Vitamin D is one of the most affected micronutrients on major β-thalassemia patients, yet it has immunomodulatory effect on immune system. Recent finding of vitamin D receptor (VDR) expressed in monocyte strongly convince that vitamin D should be maintained in major β-thalassemia patients where it is found lower in these patients. Thus, this original and true report aimed to declare that the research activity has finished and the data has been elaborated. Future plan is developing the original article based on the research finding corroborating the previous knowledge and innovative suggestion for the quality of thalassemia.

Completed5 enrollment criteria

Vitamin D Supplementation on in Major Orthopedic Surgery

Hypovitaminosis DCardiovascular Diseases

Prospective, monocentric study in open, aimed at evaluating the effects of supplementation with calcifediol on left ventricular function parameters in cardiopathic subjects undergoing major orthopedic surgery.

Completed8 enrollment criteria

Stability of Dental Implants Placed in Patients With Vitamin D Deficiency Using Sequential Drilling...

Implant Stability With Vitamin D Deficiency

- Vitamin D considers as the most potent effect on calcium level in blood it was found that vitamin D target mainly bone tissue intestine and kidney for calcium absorption In bone, vitamin D stimulates mainly the activity of osteoclasts osteoblast activity on the other hand it increases the production of extracellular matrix proteins by different osteoblastic activity. Vitamin D also increase intestinal calcium absorption and regulate synthesis and secretion of parathyroid hormone (PTH) Implant consider as one of the most successful treatment modalities that usually used in dental clinics for restoring single or multiple missed teeth knowing that successful rate of dental implant may reach up to 99% however there are many different techniques for implant placement they mainly depend on the same procedure for implant placement even sequential drilling technique or single drilling technique some paper supported that sequential drilling is much better than single drilling technique on other hand some assume that single drilling is much better as it save time effort material less bone trauma & less heat generation although there are many studies performed on sequential drilling & single drilling techniques we still have a gap for understanding the ideal technique for implant placement in patients with vitamin D deficiency

Completed11 enrollment criteria

Vitamin D Replacement Using Oral Thin Film (OTF) Cholecalciferol in Patients Undergoing Hematopoietic...

Vitamin D DeficiencyHematopoietic Stem Cell Transplantation (HSCT)

The investigators hypothesize that vitamin D levels can be improved in hematopoietic stem cell transplantation (HSCT) recipients not responding or tolerating standard enteral supplementation options by using vitamin D oral thin film (OTF) administration.

Completed3 enrollment criteria

Solius UV Light Source in Improving Serum Levels of 25-hydroxyvitamin D

Vitamin D DeficiencyVitamin D Insufficiency

This is a feasibility interventional study seeking to determine the safety and efficacy of the Solius Photobiologic System in increasing the serum levels of 25(OH)D in a vitamin D deficient/insufficient adult population.

Completed18 enrollment criteria

High Dose Vitamin-D Substitution in Patients With COVID-19: a Randomized Controlled, Multi Center...

Covid19Vitamin D Deficiency4 more

The world is currently facing a pandemic with the coronavirus (SARS-CoV-2) which leads to the disease of COVID-19. Risk factors for a poor outcome of COVID-19 have so far been identified as older age and co-morbidity including chronic respiratory conditions such as chronic obstructive pulmonary disease (COPD) and current smoking status. Previous studies found, that vitamin D deficiency is more prevalent among patients with these risk factors. There are observational studies reporting independent associations between low serum concentrations of 25-hydroxyvitamin D (the major circulating vitamin D metabolite) and susceptibility to acute respiratory tract infection. Vitamin D substitution in patients with COVID-19 who show a vitamin D deficiency should therefore be investigated for efficacy and safety. The study is designed as a randomized, placebo-controlled, double blind study. The objective of the study is to test the hypothesis that patients with vitamin D deficiency suffering from COVID-19 treated under standardized conditions in hospital will recover faster when additionally treated with a single high dose of vitamin D compared to standard treatment only.

Completed13 enrollment criteria

The Efficacy and the Safety of Vitamin D3 30,000 IU for Loading Dose Schedules

Vitamin D Deficiency

Treatment: A: Slower Loading Group (SLD): 30.000 IU cholecalciferol once weekly for ten weeks, followed by 30.000 IU cholecalciferol every two weeks for four weeks. B: Moderate Loading Dose group (MLD): 30.000 IU cholecalciferol twice weekly for five weeks, followed by 30.000 IU cholecalciferol every two weeks for four weeks. Every patients will receive calcium-citrate supplementation if average daily calcium intake does not reach the recommended daily amount. Setting: two-arms, controlled, randomised, comparative open-label, multicentric clinical trial aimed to assess the comparative efficacy on 25(OH)D elevation and on safety of the two loading dose schedules of 30.000 IU Vitamin D3 oral tablets (administered as "Moderate Loading Dose"or "Slower Loading Dose") combined with an follow-up maintenance period of biweekly administration. The comparative assessment is based on the elevation of 25(OH)D levels due to treatment efficacy from baseline and by the end of the maintenance (biweekly 30.000 IU) period for each treatment groups, and also the ratio of patients in target range (30-50 ng/ml) in order to evaluate the most beneficial "loading dose" schedule. Upon the serum 25(OH)D levels are exceeded the 55ng/ml limits by the end of the loading period the trial subjects should continue with the standard maintenance dose of vitamin D3 for the remaining four weeks of the study. The evaluation of the comparative safety will be done also by controlling the serum and the urinary calcium levels and the registration of adverse drug reaction. The primary objective is to assess the efficacy of the orally administered loading dose schedules of vitamin D3 in deficient patients. Efficacy is measured as the elevation of 25(OH)D levels compared to baseline. Rationale: Oral vitamin D3 is the treatment of choice in vitamin D deficiency. The UK NOS guideline recommended where rapid correction of vitamin D deficiency is required, such as in patients with symptomatic disease or about to start treatment with a potent antiresorptive agent, the recommended treatment regimen is based on fixed loading doses followed by regular maintenance therapy. The loading dose regimen to provide a total of approximately 300,000 IU vitamin D, given either as separate weekly or daily doses over 6 to 10 weeks followed by a maintenance therapy comprising vitamin D in doses equivalent to 800-2000 IU daily in general or up to 4,000 IU daily), given either daily or intermittently at higher doses. (NOS guidelines 2014). Recent research on vitamin D and the widening range of therapeutic applications available for cholecalciferol, which can be classified as both a vitamin and a pro-hormone. Additionally, it was now realized that the Food and Nutrition Board's previously defined Upper Limit (UL) for safe intake at 2,000 IU/day was set far too low and that the physiologic requirement for vitamin D in adults may be as high as 5,000 IU/day, which is less than half of the >10,000 IU that can be produced endogenously with full-body sun exposure. In a recent study showed that the safety of doses over 2000 IU/day-4000 IU/day for 3 months resulting in a ~360,000 UI cumulative dose. According to the study results, for the majority of the patients the 4000 IU/day (360,000 UI cumulative dose) was needed to achieve a 25(OH)D serum concentration above 75nmol/L (30 ng/mL), which is otherwise set as the target value by Endocrine Society Clinical Practice Guideline (Holick 2011b). Another study (Verussio et al 2014) cited shows the safety and efficacy of 50.000 IU/week for 8 weeks (400,000 UI cumulative dose for 8 weeks), followed by 25,000 IU twice a month which was more effective in raising the 25(OH)D level to the target range (of >30 ng/L) than 25,000 IU twice a month (50,000 IU/ month). In the latter group only 40% of the patients reached the target 25(OH)D levels at 6 months, compared to the 72% in the first group. The study supports efficacy of dosing and safety of the treatment of vitamin D deficiency a 50,000 IU /week loading dose scheme with a 8 weeks cumulative dose of >400,000 UI.

Completed28 enrollment criteria
1...262728...70

Need Help? Contact our team!


We'll reach out to this number within 24 hrs