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Original Research

Early changes in 25-hydroxyvitamin D levels and bone markers after monthly risedronate with cholecalciferol in Korean patients with osteoporosis

, , , , , , , , , , & show all
Pages 597-603 | Published online: 30 May 2013

Abstract

Purpose

This study investigated the efficacy and safety of monthly risedronate, with and without cholecalciferol, on 25-hydroxyvitamin D (25[OH]D) levels and bone markers in Korean patients with osteoporosis.

Methods

A randomized, double-blinded, prospective, 16-week clinical trial was conducted in ten hospitals. A total of 150 subjects with osteoporosis were randomized to one of the two treatment groups: RSDM+ (monthly risedronate 150 mg and cholecalciferol 30,000 IU combined in a single pill, n = 74) or RSDM (monthly risedronate 150 mg alone, n = 76). We measured serum levels of 25-hydroxyvitamin D (25[OH]D), parathyroid hormone (PTH), and bone markers, as well as performing muscle-function tests at baseline and after 16 weeks of treatment.

Results

After 16 weeks, serum 25(OH)D levels significantly increased from 17.8 to 26.8 ng/mL in the RSDM+ group, but did not change in the RSDM group. The RSDM+ group exhibited significantly decreased serum PTH from 46 to 36.7 pg/mL, while the RSDM group showed a tendency for PTH to increase from 38 to 40.6 pg/mL. In both groups, serum bone-specific alkaline phosphatase and C-terminal telopeptide rapidly declined, with significance at 16 weeks; there were no significant differences between the groups.

Conclusion

A once-monthly pill of risedronate and cholecalciferol provided equivalent antiresorptive efficacy to risedronate alone in terms of bone turnover and improved 25(OH)D levels over the 16-week treatment period without significant adverse events in Korean patients with osteoporosis.

Introduction

Many pharmacologic treatments for osteoporosis have demonstrated the ability to improve bone mineral density (BMD) and reduce fractures compared to placebo in randomized, controlled trials.Citation1 Bisphosphonates are the most commonly used medication for treatment of osteoporosis because of their efficacy. However, osteoporosis is a chronic disorder that needs long-term treatment, and bisphosphonate nonadherence is extremely common due to its complexity and adverse events of medication. Most patients discontinue bisphosphonates for osteoporosis therapy within 1 year.Citation2 One strategy to address the problem has been to reduce the frequency of the dose of bisphosphonates. Nowadays, oral bisphosphonates have been developed as a daily, weekly, and monthly administration.Citation3

Although there has been some debate on the optimal serum level of 25-hydroxyvitamin D (25[OH]D) for skeletal health, vitamin D is important for bone mineralization and interassay coefficient of variability {CV}, 10.8%; intra-assay skeletal health.Citation4 Vitamin D recommendation is an essential treatment modality for osteoporosis. However, despite physicians’ recommendations, the percentage of regular vitamin D intake among patients with osteoporosis is low.Citation5 Therefore, the development of a single-pill combination of bisphosphonates and vitamin D has been a subject of interest to improve patient compliance and vitamin D supplementation. Although a fixed-dose combination of weekly bisphosphonates and vitamin D has been introduced for the treatment of osteoporosis,Citation6,Citation7 no published data are available with respect to the efficacy of a fixed-dose combination of monthly medication. Therefore, this study was designed to assess the efficacy of once-a-month tablets containing risedronate 150 mg and cholecalciferol 30,000 IU, compared to that of the monthly risedronate alone, in terms of correction of 25(OH)D level and reduction in bone turnover.

Methods

Study design

This 16-week, randomized, double-blind, active-controlled study was conducted at ten centers in South Korea to determine the efficacy of once-a-month, single pills of risedronate 150 mg and cholecalciferol 30,000 IU. The trial was conducted between November 2009 and August 2010. The institutional review boards of the investigational centers provided ethical approval of the study, and informed consent was obtained from all participating subjects.

Postmenopausal women were eligible for inclusion if they had a bone mineral density T-score of ≤−2.5 at the mean lumbar spine (L1–4), femoral neck, or total, or if they had a T-score of ≤−1.0 with radiologic evidence of at least one vertebral fracture. Menopause was defined as the cessation of natural menstruation for at least 1 year and a serum follicle-stimulating hormone level >40 IU/L, with a reported hysterectomy. We excluded patients who had contraindications to oral bisphosphonates, such as esophageal strictures, renal failure, and low levels of 25(OH)D (less than 9 ng/mL). Previous use of oral bisphosphonates and vitamin D were allowed, but a washout period was needed, depending on the duration of treatment. A 2-year washout period was needed for bisphosphonate users and a 3- to 6-month period was required for vitamin D users of >200 IU.

Participants were evaluated for eligibility by dual energy X-ray absorptiometry and routine biochemical assay at each center, and their 25(OH)D levels were determined (RIA [interassay coefficient of variability {CV}, 10.8%; intra-assay CV, 9.4%]; Diasorin, Stillwater, MN, USA). Patients were randomized into two groups: RSDM+ (risedronate 150 mg with cholecalciferol 30,000 IU once monthly) and RSDM (monthly risedronate 150 mg alone). All participants also received 500 mg of elemental calcium supplements daily. A single-pill combination of RSDM+ was provided by Hanlim Pharmaceutical (Seoul, South Korea), and permission was granted by the Korean Food and Drug Administration Board Committee to conduct the clinical trial. Participants were not allowed to take any additional vitamin D supplements and were asked to limit sunlight exposure.

Efficacy and safety evaluations

The primary end points compared the changes in 25(OH) D levels at baseline and after 16 weeks of treatment. Secondary efficacy parameters included measurement of bone specific alkaline phosphatase (enzyme-linked immunosorbent assay, Meta BAP EIA kit [interassay CV, 5%–7.6%; intra-assay CV, 3.9%–5.8%]; Quidel, San Diego, CA, USA), serum C-telopeptide of type I collagen (electrochemiluminescence immunoassay, CrossLaps [interassay CV, 4.2%–7.6%; intra-assay CV, 2%–5.8%]; Roche, Mannheim, Germany), and serum intact parathyroid hormone (PTH) levels (immunoradiometric assay, ELSA-PTH [interassay CV, 4.6%; intra-assay CV, 4.3%]; Cisbio, Sorgues, France), after 16 weeks of treatment at a central laboratory. Lower-extremity function was assessed using an 8-foot walking-speed test (8-foot walk test) and a timed test of rising from a chair and sitting back down (sit-to-stand test).

Safety was monitored during the study with all clinical and laboratory adverse experiences. The patients were seen by the investigators during their week 8 and 16 study visits; adverse events could be reported in person or by phone at any time during the study.

Statistical analysis

All analyses were performed on an intention-to-treat basis. An unpaired t-test, Fisher’s exact test and Pearson’s Chi-squared test were used to compare the differences between the treatment groups. A paired t-test was used to compare pre- to post-treatment differences within the same group. An analysis of covariance was used to compare serum PTH changes from baseline at week 16, since serum levels of PTH showed a significant difference between the RSDM+ and RSDM groups. Analysis was done via SPSS (version 13.0; IBM, Armonk, NY, USA).

Results

Patient disposition and baseline characteristics

The disposition of the participants who were randomized to the study is detailed in . We enrolled 150 participants (74 RSDM+ and 76 RSDM) in the study. The completion rate for the 16-week study was similar for the two treatment groups (85.1% versus 85.5%). There were no clinically significant differences in the baseline characteristics between the treatment groups, with the exception of PTH levels (). The prevalence of vitamin D insufficiency (<20 ng/mL) was 77% and 69.7% in each group, respectively.

Table 1 Baseline characteristics of the participants

Figure 1 Participant disposition in 16-week study.

Note: Randomization and follow-up study.
Figure 1 Participant disposition in 16-week study.

Efficacy and safety

After 16 weeks of treatment, the mean serum 25(OH)D level increased significantly from 17.8 to 26.8 ng/mL in the RSDM+ group, but did not change in the RSDM group (). As shown in , the proportion of patients with vitamin D insufficiency decreased significantly in the RSDM+ group from 77% to 14.9%, but increased in the RSDM group from 69.7% to 79.7%. There was a significantly smaller proportion of patients with 25(OH)D level < 15 ng/mL at 16 weeks with RSDM+ (1.5%) when compared with that of RSDM alone (63.8%). The increase in 25(OH)D levels of the RSDM+ group was greater in vitamin D-insufficient patients (). Furthermore, the level of 25(OH)D decreased in patients with 25(OH)D level ≥ 30 ng/mL at baseline.

Figure 2 Mean changes in serum 25-hydroxyvitamin D (25[OH]D) concentration after 16 weeks of treatment.

Abbreviations: RSDM+, monthly risedronate and cholecalciferol; RSDM, monthly risedronate alone.

Figure 2 Mean changes in serum 25-hydroxyvitamin D (25[OH]D) concentration after 16 weeks of treatment.Abbreviations: RSDM+, monthly risedronate and cholecalciferol; RSDM, monthly risedronate alone.

Figure 3 Percentages of participants with 25-hydroxyvitamin D level in different subcategories at week 16.

Abbreviations: RSDM+, monthly risedronate and cholecalciferol; RSDM, monthly risedronate alone.

Figure 3 Percentages of participants with 25-hydroxyvitamin D level in different subcategories at week 16.Abbreviations: RSDM+, monthly risedronate and cholecalciferol; RSDM, monthly risedronate alone.

Figure 4 Mean changes in 25-hydroxyvitamin D (25[OH]D) level in each group with different baseline subcategories.

Abbreviations: RSDM+, monthly risedronate and cholecalciferol; RSDM, monthly risedronate alone.
Figure 4 Mean changes in 25-hydroxyvitamin D (25[OH]D) level in each group with different baseline subcategories.

In the RSDM+ group, a significant decrease in serum PTH was observed compared to the control group. No change in serum PTH was noted in the RSDM group compared to those at the baseline level. There was also a significant decrease in serum calcium for the RSDM group. Serum phosphorus significantly decreased in both groups. The bone turnover markers bone-specific alkaline phosphatase and carboxy-terminal collagen cross-links (CTX) decreased significantly compared to the baseline level, although no differences were observed between the two groups ().

Table 2 Changes in PTH, calcium, phosphorus, and bone turnover markers between baseline and week 16 of treatment

There were no improvements in the 8-foot walking or sit-to-stand tests, which we used to assess lower-extremity function after the 16-week vitamin D supplementation (data not shown).

A similar number of subjects reported adverse events in each group: 58.1% in the RSDM+ group and 57.8% in the RSDM group (data not shown). No serious adverse events were reported. Muscular and gastrointestinal discomforts were the major drug-related adverse events in both groups (35.1% and 22.9% of RSDM+ versus 30% and 19.7% of RSDM, respectively). Among muscular discomforts, myalgia was the most common symptom in both groups (35.1% of RSDM+ versus 30.2% of RSDM). Diarrhea was reported in 8.1% of the RSDM+ group and 7.9% of the RSDM. There were no laboratory adverse reports, including hypercalcemia and hypercalciuria.

Discussion

Many observational studies have demonstrated a relationship between higher serum 25(OH)D and BMD, and a reduction in hip-fracture risk.Citation8,Citation9 An Institute of Medicine report concluded that 25(OH)D equal to 20 ng/mL covers the requirements of 97.5% of the US population, and an adequate vitamin D intake is 600 IU per day for children aged 1 year or older and 800 IU per day for adults over 70 years of age.Citation10 However, the definition of vitamin D insufficiency and recommendations for vitamin D intake are slightly different between the expert societies. The National Osteoporosis Foundation recommends 800–1000 IU vitamin D per day.Citation11 The US Endocrine Society guidelines suggest that for adults aged 18 years or older, 1500–2000 IU per day may be needed to raise the serum 25(OH) D level consistently above 30 ng/mL, which is considered to be the optimal level.Citation12 To improve vitamin D intake, a single combined formulation containing bisphosphonates and vitamin D has been developed. A weekly dose of alendronate 70 mg and cholecalciferol 2800 IU increased the 25(OH)D level by 1.2 ng/mL only after 15 weeks.Citation7 A single-pill combination of weekly risedronate 35 mg and cholecalciferol 5600 IU increased 25(OH)D levels by 12.3 ng/mL.Citation6 Therefore, a single-pill combination of bisphosphonates and cholecalciferol proved its efficacy in terms of vitamin D supplementation and antiresorptive effect. Supplementation of cholecalciferol 5600 IU has become a commonly used dosage for a single combined pill of weekly bisphosphonates.

It is known that patients prefer a less frequent and more convenient dosing regimen.Citation13 A monthly dosing regimen has better therapeutic adherence than a weekly dosing regimen in postmenopausal osteoporosis.Citation14 Thus, monthly risedronate was combined with cholecalciferol 30,000 IU, which is an estimated dose of 1000 IU per day in this trial. Even though the result was not from a head-to-head trial, monthly cholecalciferol 30,000 IU in this study showed less increase in 25(OH)D levels compared to that of the previously conducted trial with weekly cholecalciferol 5600 IU. Additionally, the percentage of vitamin D-insufficient patients (<20 ng/mL) decreased from 77% to 14.9% after 16 weeks of treatment with monthly 30,000 IU cholecalciferol, but decreased from 80.5% to 5.4% with weekly 5600 IU cholecalciferol.Citation6 In another study, weekly administration of vitamin D resulted in a greater increase of serum 25(OH)D levels than monthly administration.Citation15 Therefore, we can speculate that more cholecalciferol is needed for long-term interval treatment.

Recently, reports on increased risk for cardiovascular events associated with calcium supplementation have been controversial.Citation16 In response to these concerns, the American Society for Bone and Mineral Research stated that food remains the best source of calcium and that supplements should only be used when adequate dietary intake of calcium cannot be achieved. Monthly bisphosphonate with cholecalciferol will be a good choice to provide convenience for patients who can take in adequate calcium from food and want less frequent medication.

The present study showed no increase in 25(OH)D levels in the vitamin D-sufficient group (≥30 ng/mL), as shown in . This could be attributed to 24-hydroxylation and formation of the inactive metabolite, although the precise physiological mechanism remains unclear.Citation17 This change infers a good physiological regulation that protects against vitamin D intoxication, since the increase of serum 25(OH)D was lower in patients with higher initial serum 25(OH)D levels.Citation18 These data suggest that monthly 30,000 IU cholecalciferol is safe in terms of vitamin D toxicity, even in vitamin D-sufficient patients. The minimum dose of vitamin D that causes hypercalcemia in some healthy adults is 40,000 IU taken daily for many months.Citation19 In fact, doses of 4000 IU/day and 50,000 IU/week have been administered without toxicity.Citation20 However, we need to check the long-term safety issues regarding vitamin D toxicity with monthly 30,000 IU cholecalciferol.

Recently, a single megadose of oral vitamin D3 has been associated with a higher risk of both falls and fractures in the first 3 months after dosing.Citation21 Other studies have suggested that the dosing interval rather than the total dose might determine the outcome.Citation22,Citation23 Therefore, changes in BMD and fracture reductions with monthly 30,000 IU cholecalciferol are needed to verify the efficacy of this regimen. This trial did not evaluate the change of BMD, but found that bone markers were significantly reduced, as much as in other studies. It has been estimated that change in BMD explains only 4%–28% of the reduction in vertebral fracture risk, as observed in antiresorptive agents.Citation24 Early decrease in bone turnover is related to long-term increase in BMD in patients treated with bisphosphonates.Citation25 The 55%–60% decrease in bone resorption measured by CTX at 3–6 months with risedronate therapy was significantly associated with reduction in vertebral fracture risk.Citation26 The decrease of CTX at 4 months in this trial was 76% (RSDM+) and 75% (RSDM), respectively. In terms of reduction in bone resorption, a single-pill combination of monthly risedronate with cholecalciferol is at least as good as the risedronate monthly regimen.

Our study showed that a monthly combination regimen decreased PTH levels. Among patients treated with bisphosphonates, PTH levels increased, presumably in response to a subclinical decrease in serum calcium caused by the inhibition of bone resorption.Citation7 On the other hand, serum PTH decreased in the vitamin D-only treatment.Citation15 These data suggest that monthly 30,000 IU cholesterol may attenuate the effect of bisphosphonate on the change of serum calcium, as shown in .

A limitation of this study may be the seasonal variation of 25(OH)D. The treatment spanned from winter to summer. Circulating 25(OH)D levels vary seasonally due to seasonal fluctuations in sunlight ultraviolet B irradiation.Citation27 Annual peak and nadir 25(OH)D levels occur in autumn and late winter or spring, respectively. However, patients in each group were matched by season to avoid confounding seasonal effects, and were provided with topical sunblock cream to limit their exposure to sunlight. The other limitation of this trial may be the duration of treatment. The short duration of our study prevented meaningful evaluation of BMD, locomotive function, and occurrence of fracture. Therefore, it is difficult to determine that a single-pill combination of risedronate and cholecalciferol would be more effective than a separate regimen as an osteoporosis treatment. However, it must be noted that coadministration in a single tablet reduced the proportion of patients with vitamin D insufficiency without reducing the antiresorptive efficacy of risedronate.

Conclusion

This once-monthly dosing may become an optimal choice for treatment of osteoporosis, providing convenience and efficacy in terms of decreased resorption and enhanced vitamin D status without toxicity.

Acknowledgments

This study was supported by Hanlim Pharmaceutical Co, Seoul, South Korea. All authors declare that they have no conflicts of interest.

Disclosure

The authors report no conflicts of interest in this work.

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