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Low Vitamin D3 (VD3) levels have been reported to be associated with the risk of allergic diseases like asthma. VD3 has been demonstrated in vitro, ex vivo and in animal models to program the immune system towards anti-inflammatory immune responses. VD3 co-administered with allergen may be a promising adjuvant to improve the onset and efficacy of allergen immunotherapy (AIT). A clinical trial will be performed to compare the immune effects, the tolerability and safety of multiple doses of aVD3 analogue (registered for the intravenous route) administered by the subcutaneous (s.c.) route in subjects with allergic rhinitis and healthy controls.
The overall aim is to provide additional (in vivo) support for the use of VD3 as an adjuvant in allergen-specific immunotherapy, on top of the existing pre-clinical evidence demonstrating that antigen-presenting cells educate the adaptive immune system towards an anti-inflammatory response when allergen is seen in the presence of VD3.
Low Vitamin D3 (VD3) levels have been reported to be associated with the risk of allergic diseases like asthma. In addition, VD3 has been demonstrated in vitro, ex vivo (skin-explants) and in animal models to program the immune system towards anti-inflammatory immune responses, dominated by regulatory T-cells (Treg) producing Interleukin (IL)-10. In response to allergens, healthy individuals by default have such a protective immune response against innocuous allergens, whereas allergic subjects develop an inflammatory Th2-type response. VD3 co-administered with allergen may be a promising adjuvant to improve the onset and efficacy of allergen immunotherapy (AIT), by helping the allergic immune system to divert towards an allergen-specific response dominated by regulatory T cells (Treg) and IL-10. A clinical trial will be performed to compare the immune effects, the tolerability and safety of multiple doses of a VD3 analogue (Zemplar® 5 μg/ml - Abbvie, registered for the intravenous route) administered by the subcutaneous (s.c.) route in subjects with allergic rhinitis and healthy controls. Primary and secondary outcomes will be compared at baseline and at several time points during the study to investigate whether 1) the healthy controls at baseline have a more anti-inflammatory systemic cellular immune response to polyclonal stimuli and to allergens compared to birch pollen allergic subjects, and 2) whether s.c.VD3 analogue can skew these responses in allergic subjects towards a profile more resembling the one observed in healthy controls. The overall aim is to provide additional (in vivo) support for the use of VD3 as an adjuvant in allergen-specific immunotherapy, on top of the existing pre-clinical evidence demonstrating that antigen-presenting cells educate the adaptive immune system towards an anti-inflammatory response when allergen is seen in the presence of VD3.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Paricalcitol (Vitamin D3) | Experimental | paricalcitol, (Zemplar® 5 μg/ml Abbvie), will be administered via the subcutaneous route 4 times at 0.5 ml (registered dose of 5 μg/ml, thus 2.5 μg per sub-cutaneous injection). The minimum time interval between two injections is 4 days, which is a significantly lower frequency than the prescribed maximum of 3 times a week or every other day. |
|
| Placebo | Active Comparator | Placebo, the same constituents as Zemplar (propylene glycol 30% (v/v) alcohol 20% (v/v)) but no paricalcitol, same dosage as verum-arm. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Paricalcitol | Drug | Vitamin D3 analogue |
|
|
| Measure | Description | Time Frame |
|---|---|---|
| change in IL-10 production from baseline | Compare the change in IL-10 production as marker of the induction of a more anti-inflammatory systemic immune response, at baseline and after 4 weeks of treatment comparing birch pollen allergic subjects and healthy controls in a placebo-controlled design. | baseline and 4 weeks of treatment |
| change in IL-10 production from baseline | Compare the change in IL-10 production as marker of the induction of a more anti-inflammatory systemic immune response, at baseline and at follow-up (between 5-7 weeks) comparing birch pollen allergic subjects and healthy controls in a placebo-controlled design. | baseline and follow-up visit (between 5-7 weeks) |
| Measure | Description | Time Frame |
|---|---|---|
| Change in IgE responses to birch pollen compared to baseline | IgE responses to birch pollen measured in serum by ImmunoCAPwill be compared between subjects treated with Vitamin D3 or placebo | Baseline compared to 4 weeks of treatment |
| To evaluate the number of patients that reported adverse events with Zemplar compared to placebo. This includes adverse measurements in blood safety biochemistry/haematology parameters, urinalysis, vital signs and ECG, lung function compared to placebo. |
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Inclusion Criteria (study object):
Inclusion Criteria (healthy control):
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Wytske J Fokkens, Prof MD PhD | Academic Medical Centre | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Academic medical center | Amsterdam | 1100 AZ | Netherlands |
The investigators have to discuss this within theEU project.
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| ID | Term |
|---|---|
| D006967 | Hypersensitivity |
| ID | Term |
|---|---|
| D007154 | Immune System Diseases |
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| ID | Term |
|---|---|
| C084656 | paricalcitol |
| D002762 | Cholecalciferol |
| ID | Term |
|---|---|
| D002782 | Cholestenes |
| D002776 | Cholestanes |
| D013256 | Steroids |
| D000072473 | Fused-Ring Compounds |
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| Placebo (for paricalcitol) | Drug | Injection fluid to mimic paricalcitol injection |
|
|
To evaluate the number of patients that reported adverse events with the VD3 analogue ZemplarĀ® compared to placebo. This includes adverse measurements in blood safety biochemistry/haematology parameters, urinalysis, vital signs and ECG, lung function compared to placebo. |
| Throughout the study and follow-up (a maximum total of 8 weeks) |
| changes in percentage Th1 cells characterized by the expression of CD4, CXCR3, CCR6 and T-bet, compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | Baseline compared to 4 weeks of treatment |
| changes in percentage Th1 cells characterized by the expression of CD4, CXCR3, CCR6 and T-bet, compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | baseline and follow-up visit (between 5-7 weeks) |
| changes in percentage Th2 cells characterized by the expression of CD4, CRTh2, CCR4 and Gata-3, compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | Baseline compared to 4 weeks of treatment |
| changes in percentage Th2 cells characterized by the expression of CD4, CRTh2, CCR4 and Gata-3, compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | baseline and follow-up visit (between 5-7 weeks) |
| changes in percentage Th17/Th22 cells characterized by the expression of CD4, CCR6, CCR4, CCR10 and RORc2 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | Baseline compared to 4 weeks of treatment |
| changes in percentage Th17/Th22 cells characterized by the expression of CD4, CCR6, CCR4, CCR10 and RORc2 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | baseline and follow-up visit (between 5-7 weeks) |
| changes in percentage Treg cells characterized by the expression of CD4, CD25, CD127, and Foxp3 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | Baseline compared to 4 weeks of treatment |
| changes in percentage Treg cells characterized by the expression of CD4, CD25, CD127, and Foxp3 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | baseline and follow-up visit (between 5-7 weeks) |
| changes in percentage B cells characterized by the expression of CD19, CD5, CD20, CD27, and CD38 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | Baseline compared to 4 weeks of treatment |
| changes in percentage B cells characterized by the expression of CD19, CD5, CD20, CD27, and CD38 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | baseline and follow-up visit (between 5-7 weeks) |
| changes in percentage antigen presenting cells characterized by the expression of CD11c, HLA-DR, CD14, CD16, CD1c, CD141, CD123, CD19, CD163, CD68, CD86 and CD83 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | Baseline compared to 4 weeks of treatment |
| changes in percentage antigen presenting cells characterized by the expression of CD11c, HLA-DR, CD14, CD16, CD1c, CD141, CD123, CD19, CD163, CD68, CD86 and CD83 compared to baseline | Part of characterization of cellular composition with respect to T-cell subsets, B-cells and APCs | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to enhance T-cell proliferation compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by allergen and T-cell proliferation will be measured by looking at H3-Thymidine incorporation (measured in cpm- in counts per minute) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to enhance T-cell proliferation compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by allergen and T-cell proliferation will be measured by looking at H3-Thymidine incorporation (measured in cpm- in counts per minute) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-5 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-5 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-13 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-13 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-17 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-17 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-10 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-10 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-21 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-21 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-22 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IL-22 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IFN-y compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce IFN-y compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce TGF-b compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with Bet v 1, to produce TGF-b compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by Bet v 1 and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to enhance T-cell proliferation compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and T-cell proliferation will be measured by looking at H3-Thymidine incorporation (measured in cpm- in counts per minute) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to enhance T-cell proliferation compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and T-cell proliferation will be measured by looking at H3-Thymidine incorporation (measured in cpm- in counts per minute) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-5 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-5 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-13 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-13 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-17 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-17 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IFN-y, compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IFN-y compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-10 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-10 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-21 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-21 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-22 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce IL-22 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce TGF-b compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated polyclonally (anti-CD3/anti-CD28), to produce TGF-b compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by (anti-CD3/anti-CD28) and cytokine production will be measured (in pg/ml) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IFN-y compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IFN-y compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-4 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-4 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-9 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-9 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-13 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-13 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-17A compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-17A compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-21 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-21 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-22 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | Baseline compared to 4 weeks of treatment |
| Changes in the ability of PBMCs stimulated with PMA/Ionomycin, to produce IL-22 compared to baseline | PBMCs from subjects treated with Vitamin D3 or placebo will be stimulated by PMA/Ionomycin and the percentage of cytokine producing cells will be measured as well as mean fluorescence intensity (MFI) | baseline and follow-up visit (between 5-7 weeks) |
| D011083 |
| Polycyclic Compounds |
| D013261 | Sterols |
| D014807 | Vitamin D |
| D012632 | Secosteroids |
| D008563 | Membrane Lipids |
| D008055 | Lipids |