Of vitamin D in the management of the individual organ system.Nevertheless, this is an area worthy of further research due to the biologic plausibility of a link between vitamin D deficiency and especially, cardiovascular and renal disease in SLE. Our systematic review has limitations. We 1081537 did not include articles in other languages which may have had Elacridar chemical information valuable information or additional evidence related to this topic. It is reasonable to assume that some studies with negative or null results were simply not published; a well recognised publication bias. The cross sectional study design used in the majority of these studies does not give us a clear picture as to whether vitamin D deficiency confers a poorer outcome of SLE in the long term. Future research on vitamin D in SLE will hopefully address more practical concerns and provide answers to the following questions : the most appropriate phase of SLE to assess vitamin D (ie, at the time of diagnosis or while in remission); the DOPS web cutoff value of `normal’ versus `insufficient’ vitamin D levels in lupus patients as compared to the general population; potential confounding factors such as medications, age, body size, geographic location, ethnicity,Vitamin D in SLETable 1. Summary of the selected studies.Ref. [31] [9]Year 2006Country United States SpainStudy design Cross sectional Case-control Cross sectional Cohort Cross sectional CohortStudy population 123 recently diagnosed SLE 240 controls 92 SLEFindings/Conclusions Lower vitamin D levels is associated with a. presence of renal disease b. photosensitivity. No relation was seen between vitamin D and disease duration, SLEDAI, SLICC-ACR or VAS indexes. Vitamin D deficiency was associated with a. lower global assessment scores, However, levels of dsDNA were higher in the group with levels of vitamin D that were greater than 47.7 nmol/L Vitamin D levels showed no correlation with bone mineral density Vitamin D level was associated with a. SLEDAI, b. osteocalcin c. bone-specific alkaline phosphatase. Lower vitamin D levels were significantly associated with higher a. diastolic blood pressure b. low-density lipoprotein cholesterol, c. lipoprotein(a) d.fibrinogen levels e. self-reported hypertension f. diabetes mellitus g. SLEDAI h. SLICC. With further adjustment for BMI, these associations were no longer significant. Inverse significant correlations between vitamin D levels and the VAS(fatigue) Changes in vitamin D levels correlated with changes in the VAS in patients with baseline vitamin D levels ,30 ng/ml No significant correlations between the vitamin D levels and: a. SLEDAI b. SDI A significant negative correlation between the serum concentration of vitamin D and the SLEDAI-2K and ECLAM scales Serum vitamin D levels were lower with a. increased SLEDAI score, b. frequency of photosensitivity Serum vitamin D concentration was inversely correlated with the BILAG index score. Vitamin D deficiency was associated with a. higher concentrations of liver enzymes, b. lower serum albumin and hemoglobin concentrations c. higher titers of antibodies to double-stranded DNA (ds-DNA). Vitamin D deficiency was associated with a. higher B cell activation b. higher serum IFNalpha activity The serum vitamin D levels, were positively correlated only with a. hemoglobin b. serum complement 3 but not with a. SLEDAI b. SLICCStatistical findings OR 13.3, p,0.01 OR 12.9, p,0.[27]United States37 female SLEp, or = 0.003 p = 0.[32] [15]2009Canada BrazilCross sectional Co.Of vitamin D in the management of the individual organ system.Nevertheless, this is an area worthy of further research due to the biologic plausibility of a link between vitamin D deficiency and especially, cardiovascular and renal disease in SLE. Our systematic review has limitations. We 1081537 did not include articles in other languages which may have had valuable information or additional evidence related to this topic. It is reasonable to assume that some studies with negative or null results were simply not published; a well recognised publication bias. The cross sectional study design used in the majority of these studies does not give us a clear picture as to whether vitamin D deficiency confers a poorer outcome of SLE in the long term. Future research on vitamin D in SLE will hopefully address more practical concerns and provide answers to the following questions : the most appropriate phase of SLE to assess vitamin D (ie, at the time of diagnosis or while in remission); the cutoff value of `normal’ versus `insufficient’ vitamin D levels in lupus patients as compared to the general population; potential confounding factors such as medications, age, body size, geographic location, ethnicity,Vitamin D in SLETable 1. Summary of the selected studies.Ref. [31] [9]Year 2006Country United States SpainStudy design Cross sectional Case-control Cross sectional Cohort Cross sectional CohortStudy population 123 recently diagnosed SLE 240 controls 92 SLEFindings/Conclusions Lower vitamin D levels is associated with a. presence of renal disease b. photosensitivity. No relation was seen between vitamin D and disease duration, SLEDAI, SLICC-ACR or VAS indexes. Vitamin D deficiency was associated with a. lower global assessment scores, However, levels of dsDNA were higher in the group with levels of vitamin D that were greater than 47.7 nmol/L Vitamin D levels showed no correlation with bone mineral density Vitamin D level was associated with a. SLEDAI, b. osteocalcin c. bone-specific alkaline phosphatase. Lower vitamin D levels were significantly associated with higher a. diastolic blood pressure b. low-density lipoprotein cholesterol, c. lipoprotein(a) d.fibrinogen levels e. self-reported hypertension f. diabetes mellitus g. SLEDAI h. SLICC. With further adjustment for BMI, these associations were no longer significant. Inverse significant correlations between vitamin D levels and the VAS(fatigue) Changes in vitamin D levels correlated with changes in the VAS in patients with baseline vitamin D levels ,30 ng/ml No significant correlations between the vitamin D levels and: a. SLEDAI b. SDI A significant negative correlation between the serum concentration of vitamin D and the SLEDAI-2K and ECLAM scales Serum vitamin D levels were lower with a. increased SLEDAI score, b. frequency of photosensitivity Serum vitamin D concentration was inversely correlated with the BILAG index score. Vitamin D deficiency was associated with a. higher concentrations of liver enzymes, b. lower serum albumin and hemoglobin concentrations c. higher titers of antibodies to double-stranded DNA (ds-DNA). Vitamin D deficiency was associated with a. higher B cell activation b. higher serum IFNalpha activity The serum vitamin D levels, were positively correlated only with a. hemoglobin b. serum complement 3 but not with a. SLEDAI b. SLICCStatistical findings OR 13.3, p,0.01 OR 12.9, p,0.[27]United States37 female SLEp, or = 0.003 p = 0.[32] [15]2009Canada BrazilCross sectional Co.