A pilot feasibility randomised controlled trial of bone antiresorptive agents on bone turnover markers in critically ill women

Critical illness is associated with increased bone turnover, loss of bone density, and increased risk of fragility fractures. The impact of bone antiresorptive agents in this population is not established. This trial examined the efficacy, feasibility, and safety of antiresorptive agents administered to critically ill women aged fifty years or greater. Women aged 50 years or greater admitted to an intensive care unit for at least 24 h were randomised to receive an antiresorptive agent (zoledronic acid or denosumab) or placebo, during critical illness and six months later (denosumab only). Bone turnover markers and bone mineral density (BMD) were monitored for 1 year. We studied 18 patients over 35 months before stopping the study due to the COVID-19 pandemic. Antiresorptive medications decreased the bone turnover marker type 1 cross-linked c-telopeptide (CTX) from day 0 to 28 by 43% (± 40%), compared to an increase of 26% (± 55%) observed with placebo (absolute difference − 69%, 95% CI − 127% to − 11%), p = 0.03). Mixed linear modelling revealed differences in the month after trial drug administration between the groups in serum CTX, alkaline phosphatase, parathyroid hormone, and phosphate. Change in BMD between antiresorptive and placebo groups was not statistically analysed due to small numbers. No serious adverse events were recorded. In critically ill women aged 50-years and over, antiresorptive agents suppressed bone resorption markers without serious adverse events. However, recruitment was slow. Further phase 2 trials examining the efficacy of these agents are warranted and should address barriers to enrolment. Trial registration: ACTRN12617000545369, registered 18th April 2017.


Study population and controls
Eligible patients were women admitted to intensive care and (1) aged 50 years of age or greater, or postmenopausal (amenorrhea for greater than 6-months or serum follicular stimulating hormone (FSH) > 40mIU/L) or aged less than 50 years or age and had undergone bilateral salpingo-oopherectomy; and (2) with an intensive care unit length of stay of 24 h or greater.

Randomisation
Randomisation was performed using a computer-generated allocation schedule developed and adhered to by the site clinical trials pharmacist.All personnel, apart from the trial pharmacist, were blinded to treatment allocation.Prior to July 2019, enrolled patients were randomised 1:1 to either denosumab 60 mg subcutaneous 6-monthly, or placebo.In August 2019, the management committee agreed a third zoledronic acid arm should be added to the pilot trial to investigate the safety and efficacy of this first-line agent in the critical illness setting.Subsequently enrolled patients were randomised 1:1:1 to either denosumab 60 mg subcutaneous 6-monthly, or zoledronic acid 5 mg intravenous injection annually, or placebo.

Interventions
Prior to administration of trial medication, participant serum vitamin D level was measured.If the level was less than 50 nmol/L, 50,000 IU oral or enteral cholecalciferol cholecalciferol was administered.Serum vitamin D level was reassessed, and repeat dosing of cholecalciferol administered until participant serum vitamin D level exceeded 50 nmol/L.Participants were assessed as eligible to receive trial medication when they were (1) vitamin D replete, (2) assessed as having no new or untreated sepsis, (3) serum ionised calcium greater than 0.9 mmol/L, and (4) eGFR greater than 30 mL/min and not receiving renal replacement therapy.
On the day of trial medication administration, participants received denosumab 60 mg in a single use 1 ml syringe administered as subcutaneous injection, or zoledronic acid 5 mg in 100 ml 0.9% saline administered as an intravenous infusion, or placebo consisting of 0.9% saline subcutaneous and/or intravenous delivered in an identical preparation and method as the trial medication.The trial medication was administered by an ICU bedside nurse or trial nurse who were blinded to the treatment allocation.Monitoring for hypocalcaemia (defined as ionized calcium < 0.9 mmol/L) occurred at 8-12 h and 24 h post trial drug administration.If present, hypocalcemia was treated with parenteral calcium using existing hospital protocols to maintain a target ionized calcium range of 0.9-1.1 mmol/L).
If the participant was discharged to the ward on the day of trial medication administration, monitoring occurred on the first and second day after trial medication administration.At six-months participants were unblinded, and those receiving denosumab returned to hospital and received denosumab as an outpatient.

Outcomes
The primary outcome was change in serum CTX from baseline to day 28 after administration of the first dose of trial medication.
Secondary outcomes included longitudinal change in serum CTX, serum P1NP, other biochemical markers, and annualised change in BMD (lumbar spine and dual femoral neck) for the year after ICU discharge.
The primary feasibility outcome was enrolment and retention over time.Safety outcomes included the incidence of (1) severe hypocalcaemia, (2) osteonecrosis of the jaw, (3) new infection (skin, abdominal, urinary tract, respiratory, bacteraemia, sepsis or septic shock), or (4) new renal failure (acute kidney injury was assessed with the use of a five-category scoring system to evaluate risk, injury, failure, loss, and end-stage kidney injury (RIFLE)) 17 .

Statistical analysis
Sample size was based on convenience, with 10 participants per treatment arm.All data was assessed for normality.Continuously normally distributed data were reported as mean (± standard deviation), whereas non-parametric data were reported using median (interquartile range [IQR]) or frequency distribution.The primary outcome (change in CTX to day 28) was compared between groups using a student t-test and reported as a percentage change with a 95% confidence interval.Longitudinal data were analysed using mixed linear modelling fitting main effects for treatment and time with an interaction term between treatment and time reflecting change in treatment over the duration of the study.All analyses were performed using SAS version 9.4 (SAS Institute, Inc., Cary, NC, USA) and a two-sided p-value of 0.05 was used to indicate statistical significance.All data generated or analysed during this study are included in this published article [and its supplementary information files].

Participants
We screened 253 patients and enrolled 18 participants over 35 months (9 were randomised to denosumab, 7 to placebo, and 2 to zoledronic acid).Of the 18 participants, 10 (56%) completed 1-year follow-up.Details of screening and flow through the study are provided in Fig. 1.Baseline patient demographics including osteoporosis risk factors, critical illness severity, key interventions and major outcomes are presented in Table 1.Primary osteoporotic risk factors were uncommon.

Outcomes
The mean serum CTX at day 0 and day 28, absolute and percent change during this period, for the antiresorptive and placebo groups are provided in Table 2. Baseline mean CTX (antiresorptive 666 (± 263) ng/L, placebo 529 (± 221) ng/L) exceeded the third interquartile reference value for population-based women (338 ng/L [IQR, 212-499] 18 .A significant difference in change in serum CTX was observed between the two groups, with a 43% (± 40%) decrease in the antiresorptive group compared to a 26% (± 55%) increase in the placebo group, (difference (95% CI) − 69% (− 127% to − 11%) p = 0.03).This was supported by longitudinal mixed linear modelling of serum CTX over the one-year follow-up period, characterised by a decrease in serum CTX at day 7 and 28 in the antiresorptive group that was no longer apparent at 6 and 12-month follow-up (Fig. 2).
The comparison of distribution biochemical and haematological markers over time for the antiresorptive vs placebo groups are displayed in Fig. 3.There was no difference in the distribution of the bone formation marker (P1NP), vitamin D, serum calcium, serum creatinine, or serum C-reactive protein.However, there was a significant increase in serum parathyroid hormone and alkaline phosphatase and a significant decrease in serum phosphate at the day 7 and 28 time points in the antiresorptive group compared to the placebo group.
Bone mineral density measurements at baseline and one-year were completed in 10 of 18 participants.Femoral neck BMD change was − 1.2 ± 4.6% in the antiresorptive group vs + 1.5 ± 4.6% in the placebo group, and spine BMD change was + 0.6 ± 3.5% in the antiresorptive group vs -1.5 ± 2.3% in the placebo group (Fig. 4).Due to the small sample size statistical analysis was not performed.
Adverse events are provided in Table 3. Overall, no serious adverse events were reported.One adverse event was reported, asymptomatic hypocalcaemia in a participant in the placebo arm at the 6-month visit.

Key findings
The administration of antiresorptive agents in critically ill women aged 50 years or above was associated with a significant short-term decrease in bone resorption markers, with no reported adverse events.Recruitment in this pilot trial, however, was slow, occurring at the rate of 1 participant every 2-months, an important feasibility issue for future studies.

Relationship to previous studies
There is a clear rationale for systematically investigating the role of antiresorptive agents during critical illness.First, critical illness is associated with increased bone turnover, characterised by increased osteoclastic bone resorption, an increase in immature osteoblast number and activity, and reduced activity of mature osteoblasts, of the magnitude described in postmenopausal females or metabolic bone disease 9,10,19,20  www.nature.com/scientificreports/describing the mechanism and cellular pathways associated with this relationship.The effect of cytokines on osteoclast activation factors that increase maturation and lifespan of osteoclasts, a direct effect of cytokines on osteoclast precursors has been described, and a positive association between critical illness related changes to the somatotrophic, thyrotrophic, and gonadotrophic axes, inflammatory cytokines and osteoclastic and osteoblastic activity has been described 19 .In addition, in-vitro experiments report an increased number and activity of osteoclast activation factors and mature osteoclasts, and reduction in bone angiogenesis factors and vascularity, when peripheral blood mononuclear cells (PBMCs) are exposed to sera of critically ill patients compared to healthy ill controls 10 .Second, increased bone loss is associated with low BMD, fragility fractures, and associated morbidity and mortality in non-critically ill populations 1 .There is evidence of accelerated bone loss 7,11,12,21 , and an increased risk of fragility fractures 14 in critically ill populations.
Third, available antiresorptive agents safely prevent bone loss, fracture, and subsequent mortality in noncritically ill populations [22][23][24][25] .Zoledronic acid is a parenterally available, annual dose, potent bisphosphonate.It is analogous in molecular structure to pyrophosphate and suppresses bone resorption by entering osteoclasts and binding and inhibiting the enzyme farnesyl pyrophosphate synthase, resulting in disruption of osteoclast attachment to bone surface.Zoledronic acid is a first-line agent in the prevention and treatment of osteoporosis 25,26 .Denosumab is a fully human monoclonal antibody that specifically binds receptor activator of nuclear factorkappa B ligand (RANKL).RANKL is required for differentiation of osteoclast precursors to mature osteoclast, is abundantly expressed by osteoblasts, bone marrow stromal cells, and T and B-lymphocytes, and binds to RANK receptor on osteoclasts, stimulating activity.Denosumab inhibits the RANKL pathway differentiation of osteoclasts and bone resorption, reducing bone loss and preventing fracture 23,24,28 .
Finally, increased bone turnover is evident in the first days of critical illness 19 , justifying early intervention.This trial adds safety, and feasibility data to the limited evidence relating to administration of antiresorptive agents-zoledronic acid and denosumab-in patients with critical illness.The administration of these two antiresorptive medications in this study was associated with a pattern of suppression of bone resorption with no increase in bone formation, and adds to two previous small, single centre trials in similar populations.A randomised trial of administration of the short-acting bisphosphonate ibandronate in 20 chronically ventilated postmenopausal women, reported a significant reduction in serum CTX at day 6, with the effect disappearing by day 11 30 .In contrast, serum osteocalcin, a protein released by osteoclasts and important in bone mineralisation, increased similarly in both groups.A recent randomised controlled trial of early administration of denosumab in 14 ventilated women and men with severe intracerebral haemorrhage,  www.nature.com/scientificreports/ reported an 80% decrease in serum CTX over 4-weeks with denosumab, compared to a 56% increase with placebo 20 .Denosumab was associated with a significant decrease in serum osteocalcin compared to placebo, with no difference in the bone formation marker P1NP.The difference in parathyroid hormone, alkaline phosphatase, and phosphate observed between the groups over time is consistent with the activity of the antiresorptive agents.This could reflect a response to hypocalcaemia, or a more direct relationship with denosumab and the RANKL-osteoclast pathway 31 .Overall, these studies suggest antiresorptive agents administered in intensive care provide a significant but potentially short-lived effect on osteoclast activation and bone resorption, with a less clearly defined impact on osteoblast activation and bone formation.

Patients fulfilling inclusion
There is no high-quality evidence reporting the relationship between administration of antiresorptive agents in critically ill populations and interval change in vertebral and hip bone density as an outcome.While bone turnover markers are useful to assess short-term efficacy of antiresorptive agents, their value is dependent on the association with BMD and fragility fracture rate 32 .The current evidence in critical illness is limited to a retrospective propensity matched analysis reporting an association between prior bisphosphonate use and reduced change in vertebral BMD assessed by serial CT scans in ICU patients 21 , and a prospective observational study describing the association between antiresorptive agents administered in the year after critical illness and reduced loss of spine BMD in women, and femur BMD in men 33 .
The use of change in BMD after critical illness represents a logistic challenge for intensive care research, as assessment should occur at a minimum 1-year interval, due to the short-term precision error of measurement by dual energy x-ray absorptiometry 33 .This trial is the first randomised controlled trial in a critically ill patient cohort to attempt to measure change in BMD over 1-year.The interruption of BMD activity and cessation due to the COVID-19 pandemic, resulted in insufficient sample size to enable meaningful statistical comparison.
This trial reported no adverse events related to trial medications.While the sample size is small, the absence of severe hypocalcaemia, infection, or acute renal failure is reassuring.Assessment of safety and adverse events should be examined in a larger trial.

Strengths and limitations
This trial provides a clear, reproducible procedure for the safe administration of antiresorptive agents in a critically ill population and establishes a protocol for measuring both bone turnover markers and BMD.A major limitation was the inability to recruit the planned sample of 30 participants, limiting statistical analysis and the interpretation of these results.The COVID-19 pandemic made ongoing recruitment and follow-up in the Australian healthcare environment not feasible.In addition, the barriers, and facilitators to encourage inclusion, recruitment, and retention of women in clinical trials have been described in other settings 35,36 , and this issue has not been clearly examined in the critical care population.

Conclusions
This trial reports the administration of antiresorptive agents to older critically ill women was associated with favourable short-term changes in bone resorption markers and no adverse events.This supports the need for larger trials in the critical illness setting to define the efficacy, duration and degree of effect, safety of antiresorptive agents, and effect on bone mineral density and fracture over at least 1-year of follow-up.Barriers to enrolment should be identified and addressed.

Table 1 .
Demographic, clinical characteristics, baseline osteoporosis risk factors, biochemistry, interventions, and outcomes by study completion status.Data are shown as mean (± standard deviation), median [interquartile range] or number (%).BMI body mass index, APACHE acute physiology and chronic health evaluation; CRRT continuous renal replacement therapy, LOS length of stay.

Table 2 .
Change in bone resorption markers over 28-days.Data are shown as mean (± standard deviation).CTX collagen type 1 cross-linked c-telopeptide.