Table of contents
- One Hundred Years after Vitamin D Discovery: Is There Clinical Evidence for Supplementation Doses?
- Clinical Trials table
- Measurement of Vitamin D Serum Concentrations and Definition of Hypovitaminosis
- Current Guidelines of Vitamin D Supplementation
- Vitamin D Supplementations and Doses of Reviewed Clinical Studies
- Vitamin D Supports the Innate and Adaptive Immune System
- Impact of Vitamin D on Chronic Diseases
- Role of Vitamin D in Infectious Diseases
- How to Supplement Vitamin D for Adults
- Concluding Remarks and Future Outlook
- VitaminDWiki - Vitamin D Cofactors in a nutshell table show the importance of each
- VitaminDWiki - One pill every two weeks gives you all the vitamin D most adults need
- VitaminDWiki -
43 Loading Dose intervention Trials
- VitaminDWiki - Optimum category contains
- VitaminDWiki - Proof that Vitamin D Works for >93 health problems
- VitaminDWiki - Intervention - Vitamin D includes >500 succesful trials
- VitaminDWiki - Consensus Vitamin D category contains
- VitaminDWiki - Can get 50,000 IU Vitamin D anywhere on the globe
Int J Growth Factors Stem Cells Dent 2020;3:3-11. DOI: 10.4103/GFSC.GFSC 4 20
Shahram Ghanaati 1,2 shahram.ghanaati at kgu.de, Joseph Choukroun 2, Ulrich Volz 3, Rebekka Hueber 3, Carlos Fernando de Almeida Barros Mourao 2, Robert Sader 4 2, Yoko Kawase-Koga 4, Ramesh Mazhari 5, Karin Amrein6, Patrick Meybohm7, Sarah Al-Maawi 4 2
'Department for Oral, Cranio-Maxillofacial and Facial Plastic Surgery, Medical Center of the Goethe University Frankfurt, 2FORM (Frankfurt Orofacial Regenerative Medicine)-Lab, Department for Oral, Cranio-Maxillofacial and Facial Plastic Surgery, Medical Center of the Goethe University Frankfurt, Germany, department
of Anaesthesiology, University Hospital Wuerzburg, Wuerzburg, Germany, 3SDS Swiss Dental Solutions AG, Kreuzlingen, Switzerland, 'Department of Oral and Maxillofacial Surgery, Tokyo Women's Medical University, Tokyo, Japan, division of Cardiology, George Washington University, Washington, D.C., USA, "Department
of Internal Medicine, Division of Endocrinology and Diabetology, Medical University of Graz, Graz, Austria
In the last decade, an increasing awareness was directed to the role of Vitamin D in nonskeletal and preventive roles for chronic diseases in different fields. Vitamin D deficiency was reported in many countries worldwide and is considered as a pandemic. However, no consensus exists about whether and how supplementation of Vitamin D may be beneficial as a preventive or adjuvant therapy. Thereby, this review aimed to deliver an overview about the administrated doses of Vitamin D in randomized controlled clinical studies, in order to evaluate the currently available clinical evidence. In addition, focus was placed on the recent advances on Vitamin D nonskeletal actions. The results sometimes showed a great discrepancy between the recommended Vitamin D dose by different guideline authorities, which are from 400 to 4000 IU/day, and the used doses in recent randomized controlled clinical studies, which were up to 100,000 IU/day. Different studies showed the positive effect of Vitamin D in supporting the immune system and preventing different chronic and infectious diseases. These findings reflect the need to rethink existing reference ranges and intake recommendations. Based on the analyzed range of clinically applied doses, we recommend a Vitamin D supplementation based on three different ranges, which include <40 ng/ml, >40 <80 ng/ml, and >80 ng/ml with oral Vitamin D intake of 10,000 IU/day, 5000 IU/day, and 1000 IU/day, respectively. A 25-hydroxyvitamin D blood serum monitoring is furthermore recommenced every 3 months to re-adjust the Vitamin D dose based on the above-mentioned concept. Ongoing clinical studies will have to further prove this concept for different patient groups.
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A healthy immune system is the basis of general health and body defense for many diseases. Lifestyle, individual behaviors, and living environment directly influence our health. In particular, good nutrition is key to maintain general health. Imbalance and malnutrition can compromise the immune system and increase the risk of preventable chronic diseases. In last decades, the prevalence of chronic diseases such as diabetes mellitus, obesity, cardiovascular diseases, and hypertension increased significantly, especially in industrial countries. One of the most important reasons for this change is the rapid change of the society’s lifestyle.
The role of Vitamin D in health and diseases gradually gained increasing interest in different fields. Shortly after Vitamin D was discovered in 1922, the Nobel Prize in Chemistry was awarded to Adolf Windhaus in 1928 for his studies on sterols and their connection with vitamins, which increased the research interest in this field.
Naturally, the endogenous synthesis of Vitamin D takes place in the skin and is limited to the time period of sun exposure. The ultraviolet B waves transform 7-dehydrocholesterol to cholecalciferol (Vitamin D3). To reach its active form, Vitamin D undergoes further transformations in the liver (to calcidiol 25-hydroxyvitamin D3 [25-OHD3]), which is the most sufficient metabolite of Vitamin D. The next transformation step takes place in the kidney, where calcidiol (25-OHD3) is transformed to the active form of Vitamin D, calcitriol (1,25-dihydroxycholecalciferol). Calcitriol serves as a transcription factor of genes for target proteins and thereby belongs to a wide range of hormones. Therefore, Vitamin D is considered as a prehormone rather than a vitamin14-51 [Figure 1].
Soon after its discovery, the relation between Vitamin D and parathyroid hormone, as well as its role in the regulation of the mineral and bone hemostasis, was recognized.[6-8] In this process, the active form of Vitamin D, i.e., calcitriol, targets different mechanisms to maintain the calcium level. In addition, it activates bone formation and regeneration by supporting cell differentiation and increasing calcium and phosphate serum concentration. One of the early well-understood diseases that result following Vitamin D deficiency is rickets in children (and osteomalacia in adults), which is characterized by severe mineralization disorder. Thereby, many studies focused mainly on the role of Vitamin D in bone health. Moreover, it gained expanding importance for the treatment of patients suffering from osteoporosis. Consequently, the history of its discovery made Vitamin D most popular for skeletal health.
However, in the last decade, numerous studies showed the crucial role of Vitamin D for general health and its wide range of function throughout the body. Various studies reported on the influence of Vitamin D to prevent chronic diseases and to reduce the prevalence of cardiovascular diseases and metabolic diseases such as diabetes mellitus. In addition, many studies analyzed its impact on the immune system and showed its capacity to reduce inflammation and support regeneration in different preclinical and clinical studies. In this context, Vitamin D also showed a beneficial impact on the prevention of infectious bacterial and viral diseases such as influenza and acute respiratory tract infection. In addition to the classical role of Vitamin D for bone health, its immunological features further highlight the importance of its adequate intake to maintain the required need of the body.
Unfortunately, the endogenous synthesis of Vitamin D is limited by sun exposure, which is not sufficiently available throughout the year in many countries. Moreover, the exogenous intake by food is limited and rather unknown for most of the world population. These factors resulted in a high prevalence of Vitamin D deficiency in many different countries in the past years. To date, the Vitamin D deficiency pandemic was frequently reported but was not well recognized in many countries. The first recommendation to administrate Vitamin D supplementation started around 1940. Eighty years later, there is still no consistent consensus about the Vitamin D supplementation and intake. One of the reasons is the historic development and understanding of its role. Thereby, supplementation recommendation focused mainly on the necessary intake to maintain bone health. Although increasing evidence of the multiple functions of Vitamin D to prevent many diseases was reported, these guidelines were barely changed. An additional factor is the poor evidence for the healthy serum concentration range and maximum concentration range, which has to be maintained when considering all reported functions of Vitamin D. This aspect was inconsistent through the literature because of the unstandardized measurement assays of Vitamin D according to the testing laboratory. In addition, there are many concerns and fears regarding Vitamin D toxicity. Altogether, there is a high clinical need to understand the role of Vitamin D and highlight recent researchers to establish supplementation protocols to maintain general health. Therefore, the aim of this narrative review is to deliver an overview about the administrated doses of Vitamin D in randomized controlled clinical studies to evaluate the currently available clinical evidence. In addition, this review focuses on the recent advances on Vitamin D nonskeletal actions.
Vitamin D (25-hydroxyvitamin D [25(OH) D]) is a highly lipophilic molecule. When circulating in the blood, about 80% of it is bound to its carrier protein (Vitamin D-binding protein [DBP]). Another 10%—15% of Vitamin D is transported by the carrier protein albumin. Only a minor part of Vitamin D circulates freely in the blood and provides thereby a higher availability to the cells. The 25(OH) D serum concentration is the most reliable indicator to evaluate the Vitamin D status. However, measurement of free 25(OH) D is technically rather difficult because of its low concentration and the limitation of available test methods. This aspect is still a topic of discussion in the research. In routine clinical practice, the total 25(OH) D serum concentration is measured to assess the Vitamin D level. Similar to other vitamins and blood components, Vitamin D values are mostly expressed either in nanomole per liter (nmol/l) or in nanogram per milliliter (ng/ml) according to the used unit system. Basically, 1 nmol/l equals 0.4 ng/ml (conversion factor: 2.5). The reference ranges of Vitamin D are inconsistent according to different recommendation. However, the most recommended range that is considered as adequate and healthy is 40-60 ng/ml (100-150 nmol/l).
A serum concentration below 30 ng/ml (75 nmol/l) is meanwhile considered as a deficiency in the literature/16-17’20’21 Many studies reported the Vitamin D status of different populations and recognized the worldwide Vitamin D deficiency pandemic. [16-22] Observational studies reported that the prevalence of 25(OH) D level below 20 ng/ml (50 nmol/l) reaches 24% in the USA, 37% in Canada, and 40% in Europe.[16-20] These levels are observed all over the world, for example, more than 20% of the Indian population had a 25(OH)D level below 12 ng/ml (30 nmol/l). The level of 25(OH)D serum concentration depends on the general health status, lifestyle, body mass, and age. Recent estimation in Germany (Robert Koch Institute) reported that 58% of 18-79-year-old participants have a serum concentration below 20 ng/ml (50 nmol/l). The serum concentration of Chinese postmenopausal women during wintertime was around 14 ng/ml (35 nmol/l). In Italy, the summertime mean 25(OH) D concentrations reached about 33 ng/ml (82.5 nmol/l) and 20 ng/ml for men in winter (50 nmol/l).
At our center, a pilot study was performed for volunteer medical staff of the oral, maxillofacial, and facial plastic surgery, Goethe University, Germany. Twenty-four medical staff were tested, from which 85.7% had a Vitamin D level under 30 ng/ml and 45.8% had a Vitamin D level under 10 ng/ml [Figure 2].
In addition to the endogenous synthesis of Vitamin D, there are natural exogenous sources of Vitamin D in different types of food. The amount of Vitamin D content can be expressed using two different units according to the used system. One used unit is the mass unit as microgram (qg). Alternatively, the international unit (IU) is the most used unit to express the amount and dose of Vitamin D supplementation. In general, 40 IUs equal 1 ug.
Food can provide Vitamin D supplementation as a natural source. Animal products provide mainly cholecalciferol (Vitamin D3), while plant and fungal sources contain mainly ergocalciferol (Vitamin D2). The richest natural source of Vitamin D is fish. For example, fresh eel provides 1200 IU/100 g, fresh wild salmon contains up to 1000 IU/100 g, and baked salmon delivers 540 IU/100 g. However, in most cases, the required Vitamin D supplementation is not achieved by natural nutrient sources. Therefore, supplementation is highly required in almost every case. However, current guidelines for supplementations are inconsistent and mainly based on the estimated need for bone health. Recommended doses range from 400 IU/day to 4,000 IU/day. The European Food Safety Authority recommends an intake of 600 IU/day for healthy adults. Similarly, the UK Scientific Advisory Committee on Nutrition advised an intake of 400 IU/day for all age groups. The Institute of Medicine (US) recommended 600 IU/day for individuals under 70 years old and 800 IU/day for individuals over 70 years old. The updated reference values of the German Nutrition Society (2012) recommended different intake values for each age group. For infants 400 IU/day, for all other groups, 800 IU/day Vitamin D intake was advised. The Endocrine Society (USA) recommended 1000-4000 IU/day. Some authors recommended a daily intake of 5000 IU/day to maintain the healthy Vitamin D level of around 40 ng/ml. The GrassrootsHealth Institute gathered data about daily Vitamin D dose of 10,000 IU/day and did not report adverse events.[20,29’30]
In addition, the highest tolerable dose to reach and maintain an adequate Vitamin D level without toxicity or side effects remains variable. The European Food Safety Agency stated that doses up to 10,000 IU/day are safe for patients without comorbidities, whereas the European Food Safety Authority considered the highest safe daily intake to be 4000 IU/day.
In addition to the recommendations of the different world societies and authorities, randomized controlled clinical trials (RCTs) were performed in different clinical fields to establish supplementation protocols and evaluate the impact of Vitamin D in healthy people and patients [Table 1]. Schoolchildren in Japan were supplemented with 1200 IU/day for 1 year as a preventive therapy for influenza. The results showed a significantly reduced incidence of influenza for children in the treatment arm taking 1200 IU/day of Vitamin D. The VITAL study analyzed the influence of Vitamin D on the prevention of cancer and cardiovascular confidence interval, MRI: Magnetic resonance imaging, 25(OH)D: 25-hydroxyvitamin D, MS: Multiple sclerosis, HR: Hazard ratio, EDSS: Expanded Disability status scale diseases. In this study, a total of 25,871 participants were included, and the Vitamin D group received a daily dose of 2000 IU/day for 5 years, but unfortunately, Vitamin D deficiency was not an inclusion criterion. No adverse events were reported in this rather long-term study. In the D2D study, patients with prediabetes received 4000 IU/day for 2 years to raise their Vitamin D level from 28 ng/ml to 54 ng/ml. Here, also, no toxicity or adverse events were reported. A relatively high-dose treatment was applied for ventilated intensive care patients in a further RCT. They received 50,000 IU/day in one group and 100,000 IU/day in another group for a total time of 5 days. The Vitamin D deficiency was eliminated, and the patients reached a level of 45 ng/ml and 55 ng/ml, respectively. There was a significant decrease in hospital length of stay over time in the 250,000 IU and the 500,000 IU Vitamin D3 group, compared to the placebo group (25 ± 14 and 18 ± 11 days compared to 36 ± 19 days, respectively; P = 0.03). This study did not report any adverse events in relation to Vitamin D. Another study used a one-time supplementation of 540,000 IU to increase the Vitamin D deficiency of critically ill patients of the intensive care unit. Thereafter, the patients received a monthly dose of 90,000 IU per month to maintain the Vitamin D level. The primary outcome was hospital length of stay. The median (interquartile range [IQR]) length of hospital stay was not significantly different between groups (20.1 days [IQR, 11.1-33.3] for Vitamin D3 vs. 19.3 days [IQR, 11.1-34.9] for placebo; P = 0.98). Hospital mortality was significantly lower with 28 deaths among 98 patients (28.6% [95% confidence interval (CI), 19.9%-38.6%]) for Vitamin D3 compared with 47 deaths among 102 patients (46.1% [95% CI, 36.2%-56.2%]) for placebo (hazard ratio [HR], 0.56 [95% CI, 0.35-0.90], P for interaction = 0.04) but not 6-month mortality (34.7% [95% CI, 25.4%-45.0%] for Vitamin D3 vs. 50.0% [95% CI, 39.9%-60.1%] for placebo; HR, 0.60 [95% CI, 0.39-0.93], P for interaction = 0.12). A further study analyzed different treatment doses and treatment periods for Vitamin D-deficient volunteers. One group received 25,000 IU every fortnight (calculated daily dose: 6250 IU/day) for 2 months, the second group received 25,000 IU/week (calculated daily dose: 3771 IU/day) for 1.5 months, and the third group received 25,000IU/week (calculated daily dose: 3771 IU/day) for 2 months. It was shown that weekly intake raised the Vitamin D level higher than intake every fortnight. Also here, no adverse events were reported. Aiming to establish a Vitamin D supplementation protocol, another study treated patients with Vitamin D deficiency with either 1000 IU/day, 5000 IU/day, or 10,000 IU/day over 5 months and reached the best Vitamin D increase in the 10,000 IU/l group without reporting any toxicity or side effects. Breast cancer patients with bone metastasis and bisphosphonate treatments received 7000 IU/day for 4 months without any complications. A further RCT considered a monthly high-dose supplementation of 100,000 IU/month (calculated daily dose: around 3000 IU/day) for several years and followed especially kidney-related adverse events. Eighteen urolithiasis events were recorded, 7 in the Vitamin D arm and 11 from the placebo arm. In addition, there was no case of hypercalcemia in the Vitamin D arm. The authors concluded that this high dose did not increase the risk of kidney stones.
Historic high-dose Vitamin D studies, conducted in the 1930s and 1940s, used daily doses between 60,000 IU/day and 600,000 IU/day to treat different pathologies such as rickets, asthma, rheumatoid arthritis, and tuberculosis. These studies reported hypercalcemia associated with high doses of Vitamin D that was possibly associated with idiopathic infantile hypercalcemia, for example, as a CYP24A1 loss of function mutation.[20’43]
Expanding interest has been directed to evaluate the impact of Vitamin D on the immune system. Several studies focused on its mechanisms of action on different cell types. Vitamin D receptor is expressed in a wide range of cells in the human body including cells of the immune system. The Vitamin D-specific receptor belongs to the group of nuclear receptors that serve as transcription factors. After binding to its receptor, Vitamin D regulates the expression of different genes and the synthesis of proteins. The wide distribution of Vitamin D receptor shows its importance and multifunctional role for the body. Specifically, the immunomodulatory aspect was reported recently. In this context, Vitamin D is able to enhance the innate immune system and inhibit the adaptive immune system. It is known that dendritic cells and macrophages as a part of the innate immune system as well as T- and B-lymphocytes as a part of the adaptive immune system express Vitamin D receptor. In this context, Vitamin D can regulate the inflammatory process. Calcitriol, the active form of Vitamin D, regulated the initial inflammation by inhibiting monocyte proliferation and inducing monocyte differentiation to macrophages. Simultaneously, it enhances the defense capacity of macrophages and promotes their phagocytotic and antimicrobial capacity. In addition, it was shown that calcitriol has the capacity to reduce the proinflammatory response of antigen-presenting cells by reducing their capacity to express proinflammatory cytokines such as interleukin (IL)-1, IL-6, IL-12, and tumor necrosis factor-alpha. Another highlighted effect of Vitamin D is the inhibition of B- and T-lymphocyte proliferation and the modulation of T-cell phenotype differentiation. Previous studies showed that Vitamin D inhibits the production of proinflammatory cytokines of Th1 lymphocytes and promotes the expression of anti-inflammatory cytokines of Th2 lymphocytes, which further explains its role as an immunomodulator. In addition, its influence on Treg cells was shown to be concentration-dependent.
Several studies showed that Vitamin D exhibits the capacity to control gens that are responsible for proliferation. This fact underlines its importance in the cancer prevention and supportive therapy. Clinical studies reported the positive impact of Vitamin D to reduce the incidence and support the treatment of different types of cancer including breast cancer, colon cancer, squamous cell carcinoma (SCC), and others. Different studies suggested that Vitamin D has also antiproliferative and proapoptotic effects on basal cell carcinoma and SCC cancer cells but not healthy keratinocytes.
An increasing prevalence of different chronic diseases such as hypertension, diabetes mellitus, cardiovascular diseases, and autoimmune diseases has been recorded in many countries in the last decade. The association of Vitamin D in the etiology, prevention, and treatment of chronic diseases has been suggested in many clinical studies. A recently published meta-analysis performed on 25 prospective cohort studies with around 10,000 cases showed that low Vitamin D level increased the risk of cardiovascular diseases by 44% (RR = 1.44, 95% CI: 1.24-1.69). It also increased the risk of cardiovascular disease mortality (RR = 1.54, 95% CI: 1.29-1.84) and incidence rates (RR = 1.18, 95% CI: 1-1.39). Evaluation of the correlation between serum Vitamin D status and blood pressure was analyzed in a clinical study, and 8155 hypertensive patients with Vitamin D deficiency were enrolled. The patients were motivated to increase their Vitamin D level to a range of 40-60 ng/ml (100-150 nmol/l). They received individual doses of 1000-20,000 IU/day. After 12 months, 71% ofthe Vitamin D supplemented patients were no longer hypertensive. Similar effects were observed in the prevention and treatment of diabetes mellitus. A placebo-controlled clinical study analyzed the effect of Vitamin D treatment on diabetes type II patients with mild-to-moderate depressive symptoms. The Vitamin D group received 4000 IU/day. Their Vitamin D level increased from 15.5 ± 8.8 ng/ml to 32.2 ± 8.9 ng/ml, and the depressive symptoms significantly decreased in comparison to the control group. In addition, the mean level of insulin was significantly higher in response to Vitamin D treatment compared to the control group.
There is also evidence of a beneficial effect of Vitamin D on chronic obstructive pulmonary disease (COPD). A meta-analysis reported that Vitamin D deficiency was associated with increased risk of COPD (odds ratio [OR]: 1.77, 95% CI: 1.18, 2.64, P = 0.006) and with COPD severity (OR: 2.83, 95% CI: 2.00, 4.00, P < 0.001). Further chronic diseases such as rheumatoid arthritis were also associated with Vitamin D deficiency. However, no consensus about the supplementation protocol is available, and thereby, the clinical outcomes are not reproducible. In addition, high attention is directed to the role of Vitamin D in inflammatory autoimmune diseases such as multiple sclerosis.[5>51]
The immunomodulatory function of Vitamin D and its impact on the immune system reflects its potential role in the defense of infectious diseases. Meanwhile, growing interest was directed to the influence of Vitamin D level on the prevalence and incidence of infectious diseases. Its potential anti-infective capacity made it a favorable candidate as an adjuvant therapy in numerous infective diseases.[13>52] A systematic review highlighted the correlation between Vitamin D deficiency and the status of chronic hepatitis B patients. In addition, it was shown that a low Vitamin D level is associated with a high hepatitis B viral load. Another study has shown that genetic variants in the Vitamin D metabolic pathway are involved in the hepatitis C virus infection. Recent research also suggested that Vitamin D may inhibit herpes infection in oral epithelial cells by regulating the gene expression of defense molecules such as LL-37. Some studies also reported the above mentioned preventive impact of Vitamin D supplementation on the reduction of influenza infections in childhood. Moreover, several studies reported the positive impact of Vitamin D on human immunodeficiency virus-1-infected patients. Other studies suggested that Vitamin D-regulated microRNAs may have a protective impact on dengue virus infection. [56-57] Another study showed that patients who developed pneumonia exhibited a much lower Vitamin D level than the healthy group. Interestingly, Vitamin D receptor polymorphism was shown in a recent meta-analysis to correlate with the risk of viral infections. Based on these data, a recently published review discussed the potential role of Vitamin D in the current COVID-19 pandemic, as this virus also belongs to the family of enveloped viruses. The European Food Safety Agency concluded that daily doses of Vitamin D up to 10,000 IU are safe.
Different doses were reported in the literature to increase the Vitamin D level to an adequate and health status. Notably, many authors recommended a higher daily dose than the corresponding authority guidelines. Most of the guidelines were committed to bone health. However, many studies proved or suggested an important role of Vitamin D in nonskeletal health. Based on the results of this review, we suggest a daily supplementation with adequate dose rather than interval supplementation with a high dose. A clinical study showed that after increasing the Vitamin D level to the required range, a daily dose of 2000 IU was insufficient to maintain the required Vitamin D level over a long time.
We recommend an individualized daily Vitamin D dose according to the patients’ need. A Vitamin D level of <40 ng/ml requires a daily intake of 10,000 IU to rapidly increase the levels to 40-80 ng/ml. This dose was thoroughly investigated and shown to be safe.[20,24’29’30] To maintain a healthy Vitamin D level (40-80 ng/ml), we recommend a daily dose of 5000 IU. In cases, where the recommended range of 40 and 80 ng/ml is exceeded, the daily Vitamin D intake should be reduced to 1000 IU. Finally, the 25(OH) D should be monitored every 3 months to assess the individual differences in metabolism of Vitamin D and allow for further individual adjustment of the dose according to the patients’ need [Figure 3].
Recently, Vitamin D has gained an increasing attention in different fields. The present review outlined the nonskeletal actions of Vitamin D and provided an overview about the current supplementation recommendations of different authorities as well as currently used supplementation doses in clinical studies. Most of the guidelines recommend daily doses between 400 and 4000 IU/day. This high variability is depending on the clinical background, treated population, and country. However, clinical studies applied doses of up to 100.000 IU/day without any adverse events of toxicity. These results underline the huge discrepancy between the growing evidence in the clinical field and the recommended dietary intake. One reason for the discrepancy is that the functions of Vitamin D outside bone health were not well recognized for a long time. Thereby, recommendations and authorities focused mainly on the needed dose for skeletal health. Unfortunately, despite the growing evidence of the role of Vitamin D in the immune system and the prevention of different diseases, most of the recommendations did not change. An additional interesting result of the present review is the discrepancy in the reference range for health status and hypovitaminosis, due to variable measurement techniques. A lot of effort has been made in the past years to establish standardized measurement assays with adequate references. These assays are critically needed to allow for reproducible and comparable values worldwide. Some studies previously showed that retrospective evaluation of Vitamin D values measured with specific assays showed totally different results when using standardized references.115' Thereby, a unifying evaluation of the Vitamin D status will allow a more thorough definition of Vitamin D deficiency.
Although Vitamin D toxicity is rare, there is a high clinical concern regarding the dose safety. Physiologically, there is a negative feedback system for the endogenous Vitamin D synthesis by the skin, whereas no such regulation mechanism is available for the exogenous intake. Therefore, it was frequently reported in the past that Vitamin D overdose may result in hypercalcemia or kidney stones. However, no safe maximum dose was yet defined. Moreover, there is no evidence linking Vitamin D intake with long-term adverse health outcomes.'17' Clinical studies showed that a daily dose of 20,000 IU/day over 12 months was safe and did not show any adverse events.'41' Some reports of Vitamin D intoxication were reported in the literature.'43,62,63' The main reasons for these reports were the misunderstanding of Vitamin D supplementation units and confusion between micrograms and international units. For example, a manufacturer did not clearly state the dose of the Vitamin D product. Patients who took 2 teaspoons daily supposing a supplementation of 2000 IU had received more than 1 million IU daily for more than a year.'62-63' Another case was the miscalculation in Vitamin D-supplemented milk (250,000 IU in 8 oz milk), and some consumers had serum calcium levels around 16 mg/dl and Vitamin D levels of up to 550 ng/ml.'64' These accidentally occurred intoxications are substantially higher than here reported high-dose supplementation clinical protocols. These observations provide well-documented evidence of the range in which Vitamin D intoxications are evidenced. However, when administering Vitamin D supplementation, it has to be noted that there are no predisposing comorbidities that affect the Vitamin D metabolism or liver/kidney insufficiency in the body. In this context, a personalized dose may be beneficial for some patients according to their lifestyle, metabolism, and current Vitamin D level. For example, many patients with malabsorption syndromes require a much higher dose of Vitamin D supplementation to reach the adequate range than healthy persons.'1’15' Another factor shown to influence the Vitamin D level is body mass. A recent study showed that the Vitamin D level increases in individuals with a normal body mass index. which is significantly higher than those with a body mass index of >30 kg/m2, when supplemented with the same daily dose.'65' Thereby, patients with a body mass index >30 kg/m2 were shown to require three times greater daily intake than persons with a normal body mass index to reach the same Vitamin D level.'27' In addition, a regular monitoring of the mineral homeostasis and the Vitamin D value is advisable when using daily high dose, whereas doses of up to 4000 IU/day do not require short-time monitoring.
A further important finding of the present review is that there are different clinically applied protocols. Some authors considered the supplementation of a moderate daily dose, while others used a relatively high daily dose. When comparing these protocols, it appears that a daily dose can rather maintain the Vitamin D level in the desired range than a high monthly dose. This may be explained by the 25(OH)D half-life. It was previously shown that the 25(OH)D3 half-life depends on genetic variability of the DBP and is generally about 15 days.'66' Similarly, patients who received 25,000 IU every fortnight for 2 months had lower Vitamin D levels than the group who received 25,000 IU weekly.'36' Interestingly, a further study treated 135 patients with Vitamin D level of >30 ng/ml with 50,000 IU weekly for 3 months to increase the Vitamin D level from 13.2 ± 3.3 ng/ml to 37.0 ± 4.7 ng/ml. Thereafter, the patients received a daily dose of 2000 IU to maintain their level. However, after 3 months, the Vitamin D level significantly dropped to 20.4 ± 5.4 ng/ml. These results show that 2,000 IU/day is not enough to maintain a healthy Vitamin D level even after a therapy.
Altogether this review should draw the attention to the existing hypovitaminosis D pandemic and highlight the role of Vitamin D for the immune system and nonskeletal diseases. The results showed that there is a growing evidence in the literature that Vitamin D is an important factor that can be applied as adjuvant therapy for many diseases. In conclusion, it was shown that daily Vitamin D dose of 10,000 IU is safe for application in patients without comorbidities affecting Vitamin D metabolism. This daily dose is often required to reach a healthy Vitamin D level of 40-60 ng/ml.
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- Bikle D, Bouillon R, Thadhani R, Schoenmakers I. Vitamin D metabolites in captivity? Should we measure free or total 25(OH)D to assess Vitamin D status? J Steroid Biochem Mol Biol 2017;173:105-16.
- Grant WB, Lahore H, McDonnell SL, Baggerly CA, French CB, Aliano JL, et al., Evidence that Vitamin D Supplementation Could Reduce Risk of Influenza and COVID-19 Infections and Deaths. Nutrients 2020;12:988.
- Hu YC, Wang WW, Jiang WY, Li CQ, Guo JC, Xun YH. Low Vitamin D levels are associated with high viral loads in patients with chronic hepatitis B: A systematic review and meta-analysis. BMC Gastroenterol 2019;19:84.
- Cashman KD, Dowling KG, Skrabakova Z, Gonzalez-Gross M, Valtuena J, De Henauw S, et al. Vitamin D deficiency in Europe: Pandemic? Am J Clin Nutr 2016;103:1033-44.
- German Nutrition Society. New reference values for Vitamin D Germany. Ann Nutr Metab 2012;60:241-6.
- Bresson JL,Burlingame B, Dean T, Fairweather-Tait S, Heinonen M, Hirsch-Ernst K, et al. Scientific opinion on dietary reference values for Vitamin D. EFSA J 2016.
- Vitamin D and Health 2016 ii. 2016. Available from: https://www.gov. uk/government/groups/scientific-advisory-committee-on-nutrition
- Ross AC, Manson JE, Abrams SA, Aloia JF, Brannon PM, Clinton SK, et al. The 2011 report on dietary reference intakes for calcium and Vitamin D from the Institute of Medicine: What clinicians need to know. J Clin Endocrinol Metab 2011;96:53-8.
- Holick MF, Binkley NC, Bischoff-Ferrari HA, Gordon CM, Hanley DA, Heaney RP, et al. Evaluation, treatment, and prevention of Vitamin D deficiency: An Endocrine Society clinical practice guideline. J Clin Endocrinol Metab 2011;96:1911-30.
- Adams JS, Ren S, Liu PT, Chun RF, Lagishetty V, Gombart AF, et al. Vitamin d-directed rheostatic regulation of monocyte antibacterial responses. J Immunol 2009;182:4289-95.
- Scientists’ Call to D*action for Public Health - Grassroots Health. Available from: https://www.grassrootshealth.net/project/ our-scientists/. [Last accessed on 2020 Mar 27].
- Vieth R. Vitamin D supplementation, 25-hydro xyvitamin D concentrations, and safety. Am J Clin Nutr 1999;69:842-56.
- Urashima M, Segawa T, Okazaki M, Kurihara M, Wada Y, Ida H. Randomized trial of Vitamin D supplementation to prevent seasonal influenza A in schoolchildren. Am J Clin Nutr 2010;91:1255-60.
- Manson JE, Cook NR, Lee IM, Christen W, Bassuk SS, Mora S, et al. Vitamin D supplements and prevention of cancer and cardiovascular disease. N Engl J Med 2019;380:33-44.
- Pittas AG, Dawson-Hughes B, Sheehan P, Ware JH, Knowler WC, Aroda VR, et al. Vitamin D supplementation and prevention of type 2 diabetes. N Engl J Med 2019;381:520-30.
- Han JE, Jones JL, Tangpricha V, Brown MA, Brown LAS, Hao L, et al. High dose Vitamin D administration in ventilated intensive care unit patients: A pilot double blind randomized controlled trial. J Clin Transl Endocrinol 2016;4:59-65.
- Amrein K, Schnedl C, Holl A, Riedl R, Christopher KB, Pachler C, et al. Effect of high-dose Vitamin D3 on hospital length of stay in critically ill patients with Vitamin D deficiency: The VITdAL-ICU randomized clinical trial. JAMA 2014;312:1520-30.
- van Groningen L, Opdenoordt S, van Sorge A, Telting D, Giesen A, de Boer H. Cholecalciferol loading dose guideline for Vitamin D-deficient adults. Eur J Endocrinol 2010;162:805-11.
- Heaney RP, Davies KM, Chen TC, Holick MF, Barger-Lux MJ. Human serum 25-hydroxycholecalciferol response to extended oral dosing with cholecalciferol. Am J Clin Nutr 2003;77:204-10.
- Peppone LJ, Huston AJ, Reid ME, Rosier RN, Zakharia Y, Trump DL, et al. The effect of various Vitamin D supplementation regimens in breast cancer patients. Breast Cancer Res Treat 2011;127:171-7.
- McCullough PJ, Lehrer DS, Amend J. Daily oral dosing of Vitamin D3 using 5000 TO 50,000 international units a day in long-term hospitalized patients: Insights from a seven year experience. J Steroid Biochem Mol Biol 2019;189:228-39.
- Malihi Z, Lawes CMM, Wu Z, Huang Y, Waayer D, Toop L, et al. Monthly high-dose vitamin D supplementation does not increase kidney stone risk or serum calcium: Results from a randomized controlled trial. Am J Clin Nutr 2019;109:1578-7.
- Soilu-Hânninen M, Aivo J, Lindstrôm BM, Elovaara I, Sumelahti ML, Fârkkilâ M, et al. A randomised, double blind, placebo controlled trial with vitamin D3 as an add on treatment to interferon p- 1b in patients with multiple sclerosis. J Neurol Neurosurg Psychiatry 2012;83:565-71.
- Etemadifar M, Janghorbani M. Efficacy of high-dose Vitamin D3 supplementation in Vitamin D deficient pregnant women with multiple sclerosis: Preliminary findings of a randomized-controlled trial. Iran J Neurol 2015;14:67-73.
- Howard JE, Meyer RJ. Intoxication with Vitamin D. J Clin Endocrinol Metab 1948;8:895-910.
- Chun RF, Shieh A, Gottlieb C, Yacoubian V, Wang J, Hewison M, et al. Vitamin D binding protein and the biological activity of Vitamin D. Front Endocrinol (Lausanne) 2019;10:718.
- Dohle E, Vorakulpipat P, Al-Maawi S, Schroder R, Booms P, Sader R, et al. Effect of Vitamin D3 on nonmelanoma skin cancer cells: A comparative in vitro study. Int J Growth Factors Stem Cells Dent 2020.
- Gholami F, Moradi G, Zareei B, Rasouli MA, Nikkhoo B, Roshani D, et al. The association between circulating 25-hydroxyvitamin D and cardiovascular diseases: A meta-analysis of prospective cohort studies. BMC Cardiovasc Disord 2019;19:248.
- Mirhosseini N, Vatanparast H, Kimball SM. The Association between Serum 25(OH)D Status and Blood Pressure in Participants of a Community-Based Program Taking Vitamin D Supplements. Nutrients. 2017;9. pii: E1244. doi: 10.3390/nu9111244.
- Omidian M, Mahmoudi M, Abshirini M, Eshraghian MR, Javanbakht MH, Zarei M, et al. Effects of Vitamin D supplementation on depressive symptoms in type 2 diabetes mellitus patients: Randomized placebo-controlled double-blind clinical trial. Diabetes Metab Syndr 2019;13:2375-80.
- Zhu M, Wang T, Wang C, Ji Y. The association between Vitamin D and COPD risk, severity, and exacerbation: An updated systematic review and meta-analysis. Int J Chron Obstruct Pulmon Dis 2016;11:2597-607.
- Heidari B, Hajian-Tilaki K, Babaei M. Vitamin D deficiency and rheumatoid arthritis: epidemiological, immunological, clinical and therapeutic aspects. Mediterr J Rheumatol 2019;30:94-102.
- Feige J, Moser T, Bieler L, Schwenker K, Hauer L, Sellner J. Vitamin D Supplementation in Multiple Sclerosis: A Critical Analysis of Potentials and Threats. Nutrients 2020;12. pii: E783. doi: 10.3390/nu12030783.
- Borella E, Nesher G, Israeli E, Shoenfeld Y. Vitamin D: A new anti-infective agent? Ann N Y Acad Sci 2014;1317:76-83.
- Fan HZ, Zhang R, Tian T, Zhong YL, Wu MP, Xie CN, et al. CYP24A1 genetic variants in the Vitamin D metabolic pathway are involved in the outcomes of hepatitis C virus infection among high-risk Chinese population. Int J Infect Dis 2019;84:80-8.
- Brice DC, Toth Z, Diamond G. LL-37 disrupts the Kaposi’s sarcoma-associated herpesvirus envelope and inhibits infection in oral epithelial cells. Antiviral Res 2018;158:25-33.
- Alvarez N, Aguilar-Jimenez W, Rugeles MT. The potential protective role of Vitamin D supplementation on HIV-1 infection. Front Immunol 2019;10:2291.
- Giraldo DM, Cardona A, Urcuqui-Inchima S. High-dose of Vitamin D supplement is associated with reduced susceptibility ofmonocyte-derived macrophages to dengue virus infection and pro-inflammatory cytokine production: An exploratory study. Clin Chim Acta 2018;478:140-51.
- Arboleda JF, Urcuqui-Inchima S. Vitamin D-regulated micro RNAs: Are they protective factors against dengue virus infection? Adv Virol 2016;2016:1016840.
- Lu D, Zhang J, Ma C, Yue Y, Zou Z, Yu C, et al. Link between community-acquired pneumonia and Vitamin D levels in older patients. Z Gerontol Geriatr 2018;51:435-9.
- Laplana M, Royo JL, Fibla J. Vitamin D Receptor polymorphisms and risk of enveloped virus infection: A meta-analysis. Gene 2018;678:384-94.
- Sanders KM, Stuart AL, Williamson EJ, Simpson JA, Kotowicz MA, Young D, et al. Annual high-dose oral Vitamin D and falls and fractures in older women: A randomized controlled trial. JAMA 2010;303:1815-22.
- Sadat-Ali M, Al-Anii FM, Al-Turki HA, AlBadran AA, AlShammari SM. Maintenance dose of Vitamin D: How much is enough? J Bone Metab 2018;25:161-4.
- Araki T, Holick MF, Alfonso BD, Charlap E, Romero CM, Rizk D, et al. Vitamin D intoxication with severe hypercalcemia due to manufacturing and labeling errors of two dietary supplements made in the United States. J Clin Endocrinol Metab 2011;96:3603-8.
- Koutkia P, Chen TC, Holick MF. Vitamin D intoxication associated with an over-the-counter supplement. N Engl J Med 2001;345:66-7.
- Jacobus CH, Holick MF, Shao Q, Chen TC, Holm IA, Kolodny JM, et al. Hypervitaminosis D associated with drinking milk. N Engl J Med 1992;326:1173-7.
- Ekwaru JP, Zwicker JD, Holick MF, Giovannucci E, Veugelers PJ. The importance of body weight for the dose response relationship of oral Vitamin D supplementation and serum 25-hydroxyvitamin D in healthy volunteers. PLoS One 2014;9:e111265.
- Jones KS, Assar S, Harnpanich D, Bouillon R, Lambrechts D, Prentice A, et al. 25(OH) D2 half-life is shorter than 25(OH)D3 half-life and is influenced by DBP concentration and genotype. J Clin Endocrinol Metab 2014;99:3373-81.
VitaminDWiki - Vitamin D Cofactors in a nutshell table show the importance of each
Supplement # of
Many people need Mg
Vit D consumed Mg
Muscle pain, Afib
30% Daily Vitamin K 149 Hard bones, soft arteries 115% 2 day Omega-3 380
Synergistic with Vit D
Independent of Vit D
30? % 2 day Calcium 217
Reduce or add Vit K 2 day Zinc 85 immunity 20 ?% if poor VDR 7 day Boron 32 plants and animals need B +20% 7 day Resveratrol 47 antioxident >100% if poor VDR Daily Also Vitamin C 53 Iodine 30
Vitamin B12 56
Selenium 25 Folate 31
VitaminDWiki - One pill every two weeks gives you all the vitamin D most adults need __
Diabetes + Heart Failure + Chronic Pain + Depression + Autism + Breast Cancer + Colon Cancer + Prostate Cancer + BPH (prostate) + Preeclampsia + Premature Birth + Falls + Cognitive Decline + Respiratory Tract Infection + Influenza + Tuberculosis + Chronic Obstructive Pulmonary Disease + Lupus + Inflammatory Bowel Syndrome + Urinary Tract Infection + Poor Sleep + Growing Pain + Multiple Sclerosis + PMS + Schizophrenia + Endometriosis + Smoking 27 problems
Note: Once a week also fights: COVID, Headaches, Colds, Fibromyalgia, Asthma, Hives, Colitis etc.
43 Loading Dose intervention Trials
This list is automatically updated
- Randomized Controlled Trials in VitaminDWiki - many studies
- NAFLD and Vitamin D - many studies
- Half as much AFIB after bypass if 600,000 IU of vitamin D before surgery – RCT April 2022
- COVID-19 mortality reduced 4X (chart looks like 2X) by large, infrequent doses of Vitamin D in France – July 2021
- Stoss (loading) dose of vitamin D resulted in bigger response at 30 days (again) – RCT April 2021
- Half as many problems if take Vitamin D (300,000 IU) before thyroidectomy – RCT Jan 2021
- Those getting an injection of 300,000 IU Vitamin D got out of the ICU a week sooner – RCT Dec 2020
- COVID-19 defeated 3x faster by 420,000 IU Vitamin D nanoemulsion – RCT Nov 12, 2020
- 44 percent of successful RCTs in VitaminDWiki used non-daily dosing - Nov 2020
- Vitamin D during pregnancy – single 200,000 IU similar to daily 5,000 IU – April 2020
- Traumatic Brain Injury – 120,000 IU of Vitamin D resulted in 3 fewer days on ventilators – RCT March 2020
- Several Diabetic pains reduced by injection of 300,000 IU of Vitamin D – RCT Feb 2020
- Vitamin D levels in children optimized with six Vitamin D biscuits – RCT Nov 2018
- Pregnancies helped a lot by Vitamin D (injection then 50,000 IU monthly) – RCT May 2018
- Far more Vitamin D in breast milk from a 150,000 IU dose than from daily 5,000 IU – RCT May 2018
- Weekly dosing of vitamin D is far better than single large dose (chronic liver, children) – March 2018
- Waist size reduced 3 cm by Vitamin D in those with Metabolic Syndrome – Jan 2017
- Birth rates doubled with Vitamin D - 300,000 for infertile men – RCT Nov 2017
- Childhood asthma problems eliminated for months by 600,000 IU of Vitamin D injection – June 2017
- Ulcerative colitis treated by injection of 300,000 IU of vitamin D – RCT July 2016
- Vitamin D injection is far better than oral for diabetics (poor gut) – RCT March 2017
- Fatigue reduced by a single dose of vitamin D (100,000 IU) – RCT Dec 2016
- Newborn Vitamin D - single 50,000 IU is better than daily – RCT Sept 2016
- Diabetic neuropathy reduced by injection of 600,000 IU of vitamin D – Feb 2016
- Inflammation reduced by a single dose of Vitamin D (200,000 IU) – RCT Jan 2016
- PMS reduced by half in girls who had low levels of vitamin D – RCT Dec 2015
- Rheumatoid arthritis reduced by 440,000 IU of Vitamin D over 4 months – Oct 2015
- Common cause of dizziness (BPPV) reduced 5 X by several doses of 50,000 IU of vitamin D – 2015, 2016
- 200,000 IU restored levels in HIV children having low vitamin D - Nov 2014
- Single dose (up to 60,000 IU) vitamin D raised levels in 87 percent of Cystic fibrosis patients – RCT March 2013
- 500,000 IU of vitamin D cut in half the hospital days following a lung failure – RCT 2015
- 5 days of 100,000 IU of Vitamin D increased hemoglobin in critical illness – RCT April 2015
- Clinical trials using a LOT of vitamin D intervention – Jan 2015
- Vitamin D restored in teens by doses totalling 300,000 IU – Nov 2014
- Sickle cell Vitamin D deficiency corrected with 160 K IU loading dose – July 2014
- Neonate loading dose of 30,000 IU vitamin D helped a lot – May 2014
- Diabetes (Type II) reduced by single injection of 300,000 IU of vitamin D3 – RCT March 2014
- 400,000 IU of vitamin D reduced adult pain and improved quality of life – March 2014
- Vitamin D injections of a total of 1,800,000 IU reduced shinbone tenderness – Feb 2013
- Lupus flares totally eliminated by loading dose then 100000 IU of vitamin D each month – Oct 2012
- Recurrence of child pneumonia delayed by 100000 IU of vitamin D – RCT Oct 2010
- 300,000 IU injection loading dose of vitamin D3 stopped gestational diabetes in RCT – Oct 2011
- Grade A recommendations for vitamin D - May 2009
VitaminDWiki - Optimum category contains
The RDA is barely enough for the bones to survive.
Need an optimal level for the body to thrive
97 items in Optimum Vitamin D category
- Is 50 ng of vitamin D too high, just right, or not enough
- Saudi study defines normal Vitamin D level to be 50 to 70 ng (diabetes, etc.) - June 2020
- French uncertain as to acceptable vitamin D levels: 11, 20, 30, 46 ng ( 80 percent less than 30 ng) - Oct 2013
- Need 40 to 60 ng of Vitamin D – 48 scientists call for action – 2015
- Vitamin D RDA of 600 IU is not enough - global RCT meta-analysis March 2019
- Vitamin D sufficiency 10 to 30 ng, optimal 40 to 80 ng (no consensus)– May 2018
- 4 X fewer visits to Dr. after getting high level of vitamin D (Interview with transcript) - Jan 3, 2022
- Need at least 80 ng of vitamin D if have chronic kidney disease – May 2012
- Vitamin D sufficiency 10 to 30 ng, optimal 40 to 80 ng (no consensus)– May 2018
- Sports benefits from up to 50 ng of Vitamin – meta-analysis - Nov 2012
- Vitamin D of 32 to 60 ng is needed before, during, and after pregnancy – Dec 2012
- Hypothesis by VitaminDWiki – Vitamin D levels are no longer limited by evolution
- VitaminDWiki pages with HIGH-DOSE in title 57 as of Feb 2022
An increasing number of PubMed articles about "Optimum Vitamin D"
VitaminDWiki - Proof that Vitamin D Works for >93 health problems
Vitamin D prevents or treats 93 health problems
ADHD, Alcoholic Liver Cirrhosis, ALS, Alzheimer's, Antibiotic Use in Seniors, Asthma, Autism, Autoimmune Diseases, Back pain, Blood Cell Cancer, Breast Cancer, Cardiovascular, Cholesterol, Chronic Hives, Chronic Kidney Disease, Cluster Headaches, Congestive Heart Failure (Infants), COPD, Crohn's Disease, C-Section and Pregnancy Risks, Cystic Fibrosis, Depression, Diabetes, Diabetic Neuropathy, Eczema, Falls, Fatigue, Fatty Liver (Child), Fibromyalgia, Gestational Diabetes, Gingivitis, Growing Pains, Hay Fever, Heart Attack, Hemodialysis, Hepatitis-C, Hip Fractures, Hypertension, Influenza, Irritable Bowel Syndrome, Ischemic Stroke, Knee Osteoarthritis, Leg Ulcers, Low Birth Weight, Lupus, Male Infertility, Menstrual Pain, Metabolic Syndrome, Middle Ear Infection (Infants), Mite Allergy, Multiple Sclerosis, Non-Alcoholic Fatty Liver Disease, Osteoarthritis, Parkinson's Disease, Perinatal Depression, Pneumonia (Ventilator-associated), Poor Sleep, PreDiabetes, Preeclampsia, Pre-term Birth, Prostate Cancer, Quality of Life, Raynaud's Pain, Respiratory Tract Infection, Restless Leg Syndrome, Rheumatoid Arthritis, Rickets, Sarcopenia, Sepsis, Short Neonates, Sickle Cell, Stronger Senior Muscles, Survive ICU, TB, Trauma Death, Traumatic Brain Injury, Tuberculosis, Ulcerative Colitis, Urinary Tract Infection, Vaginosis, Vertigo, Warts, Weight Loss
Select pink box in the upper right to select a language
Click on underlined items for details
Health Problem Treat
Reduction by Vit D RCT = Randomized Controlled Trial
* = link to additional RCT
CT = Clinical Trial
149 to 142 mm Hg
HT risk reduced 10X
RCT* *, 2400 IU. 100,000 IU*
When Vitamin D > 40 ng
Cardiovascular after attack T 32 % fewer deaths CT 1000 IU Diabetes Type 1 P 85 % 12,000 kids, 2000 IU Diabetes Type 2 T 62 % RCT* CRP reduction, 4000 IU
Injection is far better - RCT *
RCT 50,000 IU/2weeks + probiotics
RCT 5,000 IU daily 6 months
Back Pain T 95 %
60,000 IU weekly
Influenza P 90 % RCT *, 2000 IU Falls P 50% RCT, 100,000 IU monthly
RCT with Meals on Wheels 2016
Hip Fractures P 30 % RCT * 800 IU Rickets P 98 % Turkey, 400 IU
NOT RCT, given to all children
Raynaud's Syndrome T 40 % RCT, visual scale, 20000 IU Avg Menstrual pain P 76 % RCT, 7000 IU Avg,
70% reduction 2018
PMS reduced by half
Pregnancy risks P 50 % RCT, 4000 IU C-section, unplanned P 50 % RCT, 4000 IU, small study Low birth weight P 60 % RCT * 1000 IU of D2 TB P 60 % RCT, 800 IU Breast Cancer P 60 % RCT, 1100 IU (2007) Rheumatoid Arthritis pain T 40 % RCT, 500 IU, added to prescription Cystic Fibrosis T 75 %
2nd study improved
RCT, pilot 4X fewer deaths 250,000 IU
RCT, pilot 8,200 IU
Chronic Kidney T 90 to 70 PTH RCT, 3500 IU, Respiratory Tract Infection P 63 % 3 RCT, 4000 IU 1 year 2nd 2000/800 IU
20,000 IU weekly
Loading then 100,000 IU monthly,
RCT 4,000 IU
Sickle Cell T Less pain RCT, up to 100,000 IU/week Leg ulcer healing T 4X faster RCT, 50,0000 IU/week, small study Traumatic Brain Injury T 2X RCT, 20,0000 IU/day with progesterone Parkinson's Disease T Stabilized RCT, 1200 IU/day Multiple Sclerosis P
95% were CURED
RCT, 7100 IU prevent pre-MS ==> MS
20,000 to 140,000 IU/day
Congestive Heart Failure T 90 % RCT, 1000 IU infants (also: Adults, not RCT) Middle Ear Infection P 30 % RCT, 1000 IU infants Gingivitis T 88 % RCT, 2000 IU Muscle in seniors T 17 % more muscle RCT, 4000 IU Antibiotic use when >70y T 47 % RCT, 60,000 IU monthly Infants taller Benefit 1 cm tall RCT, 50,000 IU weekly,
for 8 weeks while pregnant
Gestational Diabetes T Reduced 3X RCT, 2 doses of 50,000 IU After Heart Attack T +6% ejection fraction RCT, 800,000 IU one time Prostate Cancer T Fewer +cores RCT, 4000 IU (2012) Asthma P T Reduced symptoms RCT, 60K IU/month;
RCT 50K IU/week
Need good D at 4 weeks into preg.
Depression T Reduced RCT 300,000 IU injection
RCT 1500 IU helped Prozac
RCT 50,000 IU weekly, elderly
Low vitamin D
P All infants > 20 mg RCT, 5,000 IU Fibromyalgia T Half of many still has Fibro RCT, 30-48 ng
RCT 50K IU/week
Hives, Chronic T Reduced 40% RCT, 4000 IU added Cholesterol T Reduced 4 mg RCT, 400 IU + Ca Weight Loss T lost 5 more lbs RCT, 2000 IU +diet +exercise Gestational Diabetes P 40% RCT * , 5,000 IU Chronic Obstructive
T 17X improvement CT, 50,000 IU weekly
RCT 100,000 IU monthly
Asthma T 1/2 Asthma attacks RCT >42 mg of vitamin D Quality of Life (QoL) T Nursing Home QoL CT, 4,000 IU in daily bread Death of Critically Ill
T 20% increase in survivability RCT 540 K IU loading than 90K monthly Restless Leg Syndrome T Score 26 ==> 10 CT, Vitamin D dose size
not stated in abstract
Hepatitis-C T Aided normal drugs RCT 2.000 IU Crohn's disease T improved when > 30 ng
2nd study fewer relapses
RCT 2,000 IU
10,000 IU RCT
Pre-term birth P 2.5X decrease, also: fewer
c-section & better Apgar
RCT 2,000 IU India Cluster headaches T CH eliminated in 60% 10,000 IU, Mg, Omega-3, etc Autism T 80% improved CT 300 IU/kg/day for 3 months PreDiabetes T ~20% reduced RCT 60,000 IU/month Weight loss:
Overweight and Obese
T 12 lbs in 6 months RCT 100,000 IU/month Sarcopenia = muscle loss T 27% increase RCT 1,000 IU Growing Pains T 60% decrease ~100,000 IU/month -NOT RCT
2nd study, similar results
Osteoarthritis pain T 60% decrease 50,000 IU/weekly - NOT RCT ALS T helped 2,000 IU - NOT RCT, given to all Vertigo T 3X reduction if raised > 10ng 600,000 IU load, then maint.
NOT RCT, given to all
Warts T 80% eliminated injection NOT RCT
Metabolic Syndrome P reduced 44% when VitD
increased by 30 ng
NOT RCT, given to all Hay fever P reduced 48% RCT 1,000 IU for 30 days Preeclampsia P Recurrance cut in half
3 RCT 3.6 X less likely if > 30 ng
50,000 IU every 2 weeks
4,000 IU daily
Blood cell cancer
T Survival 90% vs 50% 10,000 IU/week
NOT RCT, given to all
Irritable Bowel Syndrome T Reduced 3,000 IU spray RCT Urinary Tract Infection P 50% reduction RCT 20,000 IU weekly Mite Allergy P 5X reduction RCT 2,000 IU preg, 800 IU child Perinatal depression
(depression near birth)
T 50% reduction RCT 2,000 IU for just a few weeks Vaginosis T 10X reduction RCT 2,000 IU Eczema T Reduced 2 RCT 1,600 IU Non-Alcoholic
Fatty Liver Disease
T Reduced RCT 20,000 IU weekly Knee Osteoartiritis T Pain Reduced RCT 60,000 IU monthly after loading dose Tuberculosis T Faster Recovery RCT single 450,000 IU dose Stroke - Ischemic T Faster Recovery RCT single 600,000 IU injection
RCT single 300,000 IU injection
Sepsis T Reduce ICU and Hospital
length of stay by 7 days each
RCT 400,000 IU Trauma deaths T 50% fewer deaths Vitamin D & Glutamine
NOT RCT, given to all
Hemodialysis patients T helped 50,000 IU weekly NOT RCT, given to all Fatty liver - child T 2 X reduction RCT Vitamin D & DHA Fatigue T Reduced 100,000 IU single dose
NOT RCT, given to all
Sleep Disorders T Nicely treated RCT 50.000 IU bi-weekly Pneumonia
T RCT Death rate cut in half 300,000 IU injection Infertile males T birth rate doubled RCT 300,000 IU + maint Waist size T Waist size reduced 3 cm 100,000 IU loading + maint for 6 months
for those with Metabolic Syndrome
NOT RCT, given to all
RCT 3,000 IU for 12 weeks
RCT 50,000 IU weekly
Alcoholic liver cirrhosis T improved survival 1,000 IU of vitamin D NOT RCT Diabetic nephropathy T Reduced HOMA-IR, FRS RCT 50,000 IU weekly Ulcerative Colitis T Reduced 60% RCT 50,000 IU nano daily for a week Obese weight loss T Lost 3X more pounds $10 of Vitamin D added to
calorie restriction & walking
Endometriosis T Nicely treated RCT 50.000 IU bi-weekly Diabetic Wounds T 4X more likely to heal RCT 6,400 daily Alzheimer's T Often reverse Each person gets a different amount of
Vit D, Omega-3, B12, Iron, etc
Autoimmune P Decrease 30% RCT Vit D + Omega-3 Smoking T reduce problems RCT 50,000 bi-weekly
VitaminDWiki - Intervention - Vitamin D includes >500 succesful trials
VitaminDWiki - Consensus Vitamin D category contains
66 Vitamin D consensus publications
- French pediatric consensus: 30 – 60 ng of Vitamin D – Feb 2022
- 15 Clinical guidelines now recommend vitamin D – Nov 2021
- 34 clinical practice Vitamin D guidelines, huge diversity – Nov 2021
- Minimum National Vitamin D recommendations range from 200 to 4,000 IU – July 2021
- Controversies and consensus in Vitamin D – 3rd Conference Sept 2019
- Vitamin D Consensus 4,000 to 10,000 IU, upper limit 100 ng – Italy 2018
- 4,000 IU of Vitamin D is OK - 19 organizations agree - 2018 six say 10,000 IU is OK
- Why are doctors reluctant to accept vitamin D 10 reasons as of May 2021
- Doctors and medical communities appear to be poor audiences to convience that vitamin D is good
VitaminDWiki - Can get 50,000 IU Vitamin D anywhere on the globe100 years since Vitamin D discovery, proof that supplementation works – June 2022
1894 visitors, last modified 30 Jul, 2022,This page is in the following categories (# of items in each category)