Phase 1b/3 Pharmacokinetics and Safety Study of Intravenous Posaconazole in Adult Asian Participants at High Risk for Invasive Fungal Infections.

INTRODUCTION: Antifungal prophylaxis in patients at high risk for invasive fungal infections (IFIs), such as those with acute myeloid leukemia or myelodysplastic syndromes, continues to be underused in Asia, despite the fact that it reduces IFI-related death and increases IFI-free survival. We characterized the pharmacokinetics (PK) and safety of the intravenous (IV) formulation of posaconazole in adult Asian participants at high risk for IFI.
METHODS: Participants received posaconazole IV 300 mg twice on day 1, posaconazole IV 300 mg once daily on days 2-10, and posaconazole IV 300 mg once daily or oral suspension 200 mg 3 times daily for up to 18 days for a maximum of 28 days. There were two PK sampling groups: intensive and sparse. Sparse trough PK sampling was collected from all participants on days 3, 6, 10, 15, 22, and 28/end of treatment. The intensive PK group had additional sampling performed over 24 h on day 10. Primary end points were steady state average concentration (Cavg,ss) and percentage of participants with Cavg,ss ≥ 500 ng/mL. Safety was assessed up to day 30/end of treatment.
RESULTS: Seventy participants with acute myelogenous leukemia were enrolled, 30 in the intensive PK group and 40 in the sparse PK group; 57 participants completed the study, 26 in the intensive PK group and 31 in the sparse PK group. On day 10, arithmetic mean Cavg,ss was 2986 ng/mL [coefficient of variation (%CV), 36%; range, 1409-5930 ng/mL]; 100% of participants in the intensive PK group (n/N = 27/27) had Cavg,ss ≥ 500 ng/mL. Arithmetic mean (%CV) Cmin was 2474 (50.4%) and 2466 ng/mL (42.4%) in the intensive and sparse PK groups on day 10, respectively. Safety was similar to that of previous posaconazole formulations.
CONCLUSION: In Asian participants at high risk for IFIs, IV posaconazole achieved the target exposure associated with efficacy that was previously established for supporting global registration of posaconazole for IV administration and was generally well tolerated. CLINICAL TRIAL REGISTRATION: ClinicalTrials.gov, NCT03336502.

Key Summary Points

Introduction

Until recently, there was little information regarding the prevalence of invasive fungal infection (IFI) in China, especially in the tropical and subtropical environments particularly suitable for fostering fungal growth [1]. Immunocompromised hosts, such as Asian patients with acute myelogenous leukemia (AML), have a relatively high incidence of IFIs, primarily caused by Candida, Aspergillus, Cryptococcus, Mucorales, and Pneumocystis species [1, 2]. Unfortunately, antifungal prophylaxis in patients at high risk continues to be underused in Asian countries, particularly China, despite the fact that it reduces IFI-related death and increases IFI-free survival [3, 4].

The broad-spectrum triazole antifungal posaconazole has potent antifungal activity [2]. Posaconazole inhibits the synthesis of ergosterol, which is the primary sterol in the fungal cell membrane [2]. The oral suspension formulation of posaconazole was approved in 2013 by the China Food and Drug Administration for prophylaxis of Aspergillus and Candida infections and has been shown to provide superior protection against IFI in Asian patients with AML, acute lymphocytic leukemia, and myelodysplastic syndromes (MDS) [4-6]. A tablet formulation of posaconazole was recently approved by the China Food and Drug Administration for the same indication.

Posaconazole was initially developed as an oral suspension; its bioavailability is dependent on dosage regimen and food intake, and it is recommended that it be administered with high-fat food to enhance absorption [7-9]. Time to reach maximum plasma concentration is 3–6 h, apparent clearance (CL) is 0.2–0.5 L/h/kg, half-life is 15–35 h, and apparent volume of distribution after oral administration is 7–25 L/kg [7-9]. Posaconazole is metabolized primarily in the liver, and 66% of it is excreted unchanged in feces [7]. The oral suspension is dosed 3 times a day and is administered with a high-fat meal to improve bioavailability [8, 9]. Achieving and maintaining plasma posaconazole concentrations required for effective antifungal prophylaxis may be difficult in high-risk patient populations typically prescribed posaconazole oral solution, given that they may have mucositis, diarrhea, or nausea [10-12]. The tablet formulation was developed to optimize bioavailability and to improve compliance because it is taken once a day after twice-daily dosing on day 1 and its pharmacokinetics (PK) are minimally impacted by food [13, 14].

An intravenous (IV) formulation of posaconazole was developed to maximize the bioavailability of posaconazole in patients at high risk who may not be able to take medicine orally. A multicenter (34 sites), worldwide phase 1b/3 study evaluated the PK and safety of IV posaconazole when given as antifungal prophylaxis to participants at high risk for IFI [15, 16]. To support registration of the IV formulation in China, we characterized the PK and safety profile of the IV formulation of posaconazole in Asian participants with AML or MDS at risk for IFI.

Methods

Study Design

This open-label, single-arm phase 1b study was conducted at seven sites in China (Merck protocol 5592-120; ClinicalTrials.gov, NCT03336502). All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee, and with the 1964 Helsinki Declaration and its later amendments or comparable ethical standards. Informed consent was obtained from all individual participants included in the study. The protocol was reviewed and approved by independent ethics committees at all participating study centers (Supplemental Table 1).

Table 1

Baseline characteristics

Characteristics	Intensive PK sampling groupn = 30	Sparse PK sampling groupn = 40	Total populationn = 70
Age, years, median (range)	38.0 (19–63)	46.5 (20–68)	42.0 (19–68)
Sex, n (%)
Male	16 (53.3)	20 (50.0)	36 (51.4)
Female	14 (46.7)	20 (50.0)	34 (48.6)
Weight, kg, median (range)	59.5 (43–80)	62.5 (43–84)	60.6 (43–84)
BMI, kg/m2, median (range)	21.5 (18–30)	22.9 (16–30)	22.6 (16–30)
Disease state, n (%)
Acute myelogenous leukemia	30 (100.0)	40 (100.0)	70 (100.0)

BMI body mass index, PK pharmacokinetics

Participants included Asian males and females aged ≥ 18 to ≤ 70 years with body mass index of ≥ 15 to ≤ 30 kg/m2 at screening. Females of childbearing potential were required to use two medically accepted forms of contraception throughout the study treatment period. Participants had a central line or a peripherally inserted central venous catheter already in place as standard of care for underlying disease, and were anticipated to develop (within 3–5 days) or had developed severe prolonged neutropenia (absolute neutrophil count < 500 cells/mm3) after receiving intensive induction or reinduction chemotherapy as a result of a new diagnosis or a first relapse of AML or after receiving myelosuppressive induction therapy for MDS in transformation to AML, other than chronic myelogenous leukemia in blast crisis. Participants were excluded if they had received systemic antifungal therapy within 30 days of entering the study, had a known or suspected IFI, or had received posaconazole within 10 days before study entry. Other exclusion criteria were history of type 1 hypersensitivity or idiosyncratic reactions to azoles, moderate or severe liver dysfunction (defined as aspartate aminotransferase or alanine aminotransferase levels > 3 × upper limit of normal and total bilirubin levels > 2 × upper limit of normal), active hepatitis, cirrhosis, hepatocellular carcinoma, or other viral hepatic disease, prolonged QTc interval (> 500 ms) by electrocardiography, Eastern Cooperative Oncology Group performance status > 2 before induction chemotherapy for underlying disease, creatinine clearance (measured or calculated) < 50 mL/min based on the Cockcroft–Gault equation, and known or suspected Gilbert’s syndrome.

Treatment

Participants received posaconazole IV 300 mg twice on day 1 (12 h apart), posaconazole IV 300 mg once daily on days 2–10, and posaconazole IV 300 mg once daily or 200 mg oral suspension 3 times daily for up to 18 days for a maximum of 28 days. For posaconazole IV administration, the dose was administered through a central line for approximately 90 min at the same time each day after day 1. Posaconazole oral suspension was administered with food or immediately (within 20 min) after eating under physician guidance based on local labeling. High-fat meals were recommended, if applicable, because previous studies showed that exposure to posaconazole oral suspension after a single dose was increased by approximately fourfold if it was taken with a high-fat meal rather than in a fasted state [8, 9].

Pharmacokinetics

There were two PK sampling groups: intensive and sparse. Participants were enrolled sequentially. The first 30 participants enrolled were allotted to the intensive PK group. The remaining 40 participants were placed in the sparse PK group. Most PK parameters were assessed from the plasma samples taken from the intensive PK group. The sparse PK group was included to constitute an adequate safety database for the formulation being studied, and the single PK parameter assessed (Cmin) was collected to confirm that posaconazole was at steady state. Sparse trough PK sampling was collected for all participants on days 3, 6, 10, 15, 22, and 28/end of treatment. In the intensive group, sampling was also performed over 24 h on day 10. The 24-h sampling time points included pre-dose, 1 h after start of infusion, immediately before the end of infusion, approximately 15 min after the end of infusion, and approximately 4, 8, 12, and 24 h after start of infusion. Primary end points were steady-state average concentration (Cavg,ss) and percentage of participants with Cavg,ss ≥ 500 ng/mL, based on previous exposure–response analyses and the observation that 500 ng/mL is the minimal inhibitory concentration required to inhibit the growth of 90% of organisms for most clinically relevant Aspergillus species [15, 17, 18]. Plasma concentrations and actual elapsed plasma sampling times relative to the time of dose were used to determine PK parameters for each treatment in each participant. Cavg,ss was defined as the area under the curve from time zero to 24 h (AUC0–24 h) divided by the dosing interval (24 h), and CL was calculated as AUC divided by dose for the intensive sampling subgroup. Other PK parameters, such as maximum concentration (Cmax), time to Cmax (Tmax), and AUC0–24 h, were determined for the intensive sampling subgroup. Minimum concentration (Cmin) was calculated for both sampling groups.

Safety and Efficacy

Safety was regularly assessed up to 30 days after the end of treatment. Clinical signs and symptoms of IFI were monitored for efficacy using possible, probable, or proven IFI criteria per European Organization for Research and Treatment of Cancer Mycoses Study Group (EORTC/MSG) 2008 criteria [19]. Survival was assessed from day 60 to day 70.

Statistical Analysis

PK parameters were derived using Phoenix WinNonlin Professional v.6.3 (Certara, Princeton, NJ, USA). AUC was calculated using the linear trapezoidal method for ascending concentrations and the log trapezoidal method for descending concentrations up to the last quantifiable plasma concentration (AUC0–last) or up to 24 h (AUC0–24 h). Descriptive statistics were generated for population demographics and safety. The safety population included all participants who received ≥ 1 dose of the posaconazole IV solution. The per protocol population included participants who complied with the study protocol, including exposure to treatment, availability of measurements, and absence of major protocol deviations. The PK population included all participants who met inclusion/exclusion criteria, complied with all protocol procedures, had no important protocol violations, and adhered to dosing and PK regimens through the day 10 steady-state evaluation.

Results

Between December 14, 2017, and November 23, 2018, 78 Asian participants were screened, of whom 8 did not meet the inclusion criteria of the study. Of the 70 enrolled in the study (36 males, 34 females), 30 were in the intensive PK sampling arm and 40 were in the sparse PK sampling arm (all subjects as treated). Fifty-seven participants (81.4%) completed the study, and 13 participants (18.6%) discontinued (Fig. 1). Among the discontinuations, three (4.3%) were due to death, one (1.4%) was due to physician decision, and nine (12.9%) were due to other reasons, including adverse events (AEs; discussed in detail in the safety and efficacy section). Baseline demographic characteristics were comparable between the intensive PK sampling and sparse PK sampling subgroups. Although participants with MDS were eligible for enrollment, all 70 participants had AML as the primary diagnosis at study entry. Detailed demographic data are presented in Table 1.

Fig. 1

Disposition of participants (all subjects as treated). aDiscontinued due to prohibited medications (n = 1) and adverse events (renal impairment and pyrexia; n = 1 each). bDiscontinued due to prohibited medications (n = 1) and adverse events (diarrhea, angina pectoris/diarrhea, embolism, ventricular tachycardia, and cardiac failure/respiratory failure; n = 1 each). PK pharmacokinetics

Fifty-eight participants (82.9%) completed 10 days of posaconazole IV treatment and 13 participants (18.6%) received 28 days of posaconazole IV solution/oral suspension treatment (Fig. 2). The mean duration of posaconazole therapy was 17.9 days. The mean duration of posaconazole IV treatment was 12.4 days.

Fig. 2

Distribution of treatment duration. Interval from beginning to end of treatment (all subjects as treated). A Participants who received posaconazole IV 300 mg plus posaconazole oral suspension 200 mg 3 times daily. B Participants who only received posaconazole IV 300 mg. The number of participants is noted below the time point on the x-axis. IV intravenous, PK pharmacokinetics

On day 10, all 27 participants in the intensive PK sampling group who underwent ≥ 10 days of treatment had Cavg,ss ≥ 500 ng/mL: 11 of 27 participants (40.7%) had Cavg,ss between 500 ng/mL and 2500 ng/mL, nine of 27 participants (33.3%) had Cavg,ss between 2500 ng/mL and 3650 ng/mL, and seven of 27 participants (25.9%) had Cavg,ss > 3650 ng/mL. In the intensive PK sampling group, the arithmetic mean [coefficient of variation (%CV)] of Cavg,ss was 2986 ng/mL (36.0%), with Cavg,ss ranging from 1409 to 5930 ng/mL (Fig. 3). Summary statistics for posaconazole PK parameters on day 10 in the intensive PK sampling subgroup are shown in Table 2.

Fig. 3

Arithmetic mean (± SD) plasma concentration (ng/mL) versus time profiles of posaconazole on day 10 in Asian participants receiving administration of posaconazole IV 300 mg twice daily on day 1 and then posaconazole IV 300 mg once daily until at least day 10 in the intensive PK sampling subgroup (n = 27; inset semi-log). IV intravenous, PK pharmacokinetics, SD stable disease

Table 2

Arithmetic mean (%CV) summary of posaconazole plasma PK parameters on day 10 in Asian participants administered posaconazole IV 300 mg twice daily on day 1 followed by posaconazole IV 300 mg once daily until at least day 10 (all PK-evaluable participants; intensive PK sampling subgroup; n = 27)

	Cavg,ss (ng/mL)	AUC0-24 h (h × ng/mL)	Cmax (ng/mL)	Cmin (ng/mL)	Tmax (h)	CL (mL/h)
Mean	2986	71,671	4612	2311	1.7	4768
%CV	36.0	36.0	26.5	48.4	13.9	37.9
Median	3011.3	72,270.9	4670.0	2150.0	1.7	4151.1
Range	1409.2–5530.4	33,820.5–132,730.2	2500.0–8480.0	812.0–4800.0	1.0–1.9	2260.2–8870.4
Geometric mean	2801.3	67,231.3	4465.8	2057.1	1.6	4462.2

AUC area under the curve from time zero to 24 h, C steady state average concentration, CL clearance, C maximum concentration, C minimum concentration, IV intravenous, %CV coefficient of variation, PK pharmacokinetics, T time to maximum concentration

Pre-dose Cmin in the intensive PK and the sparse PK groups were generally comparable (Fig. 4). Based on visual inspection of the graph, steady-state appeared to be achieved before day 10 in both subgroups. All participants had Cmin ≥ 500 ng/mL by day 10. On day 10, the arithmetic mean (%CV) and range of Cmin were 2474 ng/mL (50.4%) and 812–5400 ng/mL, respectively, in the intensive PK group, and 2466 ng/mL (42.4%) and 972–4470 ng/mL, respectively, in the sparse PK group. Variability in Cmin after day 10 in both subgroups was high because of the much smaller sample size and must be interpreted with caution.

Fig. 4

Arithmetic mean (± SD) plasma Cmin (pre-dose) posaconazole concentration (ng/mL) after administration of posaconazole IV 300 mg twice daily on day 1 and then posaconazole IV 300 mg once daily thereafter in Asian participants (all evaluable participants in the intensive PK and sparse PK sampling subgroups who received IV posaconazole throughout the study period; n indicated for each point). C minimum concentration, IV intravenous PK pharmacokinetics, SD stable disease

A comparison of posaconazole Cmin in participants who remained on posaconazole IV 300 mg once daily versus that for participants who switched to posaconazole 200 mg oral suspension 3 times daily is shown in Fig. 5. End-of-treatment Cmin in participants who remained on IV treatment overlapped, but was higher overall than in participants who switched to oral suspension.

Fig. 5

Individual posaconazole plasma Cmin (pre-dose) concentrations at the end of treatment in Asian participants after administration of posaconazole IV 300 mg twice daily on day 1 and then posaconazole IV 300 mg once daily, and either continued on IV administration or switched to posaconazole oral suspension 200 mg 3 times daily (all evaluable participants in the intensive PK and sparse PK sampling subgroups). C minimum concentration, IV intravenous, PK pharmacokinetics

Two participants (3%) were classified as having a possible IFI per EORTC/MSG 2008 criteria [19] during the study period. The posaconazole Cmin of each participant was > 500 ng/mL at 1210 ng/mL and 2790 ng/mL. One participant was a 22-year-old male with AML (primary diagnosis). He received posaconazole IV solution from day 1 to day 19. The result of galactomannan testing from day 2 was negative. On day 19, he was thought to have a possible IFI by computed tomography (CT), which showed bilateral pulmonary infection and bilateral pleura thickened. A routine blood examination taken on day 19 showed the following: white blood cell count, 5.75 × 109/L; hemoglobin level, 88 g/L; platelet count, 18 × 109/L; and absolute neutrophil count, 4.17 × 109/L. He was removed from study treatment after day 19 and received voriconazole as antifungal treatment. The second participant was a 63-year-old male with AML (primary diagnosis). He received IV posaconazole from day 1 to day 19. On day 19, he was thought to have a possible IFI by CT, which showed bilateral pulmonary infection and bilateral pleura thickened. The result of galactomannan testing from day 21 was negative. A routine blood examination showed the following: white blood cell count, 3.33 × 109/L; hemoglobin level, 85 g/L; platelet count, 27 × 109/L; and absolute neutrophil count, 0.78 × 109/L. He was removed from study treatment after day 19 and was treated with antifungal therapy with voriconazole and antibacterial therapy with moxifloxacin hydrochloride. On day 23, he left the hospital with a discharge diagnosis of AML (M5b), periproctitis, lung infection, and hypoalbuminemia. Both participants recovered, and neither was classified as having a probable or proven IFI.

All participants (100%) experienced ≥ 1 AE, and 41 participants (58.6%) experienced ≥ 1 drug-related AE (Table 3). Common drug-related AEs (reported in ≥ 5% participants) included hypokalemia (24.3%); increased blood bilirubin level (15.7%); increased alanine aminotransferase level, pyrexia, and nausea (12.9% each); vomiting (10.0%); constipation and rash (8.6% each); and increased aspartate aminotransferase level and diarrhea (7.1% each). Serious AEs were reported in 15 participants (21.4%), and only one event was judged as related to the study drug (grade 4 hypokalemia). The participant with the serious AE considered related to study drug was the 63-year-old male discontinued from the study because of a possible IFI.

Table 3

Drug-related adverse events

Adverse event n (%)	Total n = 70
Hypokalemia	17 (24.3)
Increased blood bilirubin level	11 (15.7)
Increased alanine aminotransferase level	9 (12.9)
Nausea	9 (12.9)
Pyrexia	9 (12.9)
Vomiting	7 (10.0)
Constipation	6 (8.6)
Rash	6 (8.6)
Diarrhea	5 (7.1)
Increased aspartate aminotransferase level	5 (7.1)
Hyperglycemia	3 (4.3)
Hypoalbuminemia	3 (4.3)
Increased weight	3 (4.3)
Decreased appetite	2 (2.9)
Hypocalcemia	2 (2.9)
Hypophosphatemia	2 (2.9)
Increased transaminases	2 (2.9)
Poor quality sleep	2 (2.9)
Abdominal distension	1 (1.4)
Abdominal pain	1 (1.4)
Abnormal hepatic function	1 (1.4)
Allergic dermatitis	1 (1.4)
Angina pectoris	1 (1.4)
Asthenia	1 (1.4)
Chest discomfort	1 (1.4)
Chest pain	1 (1.4)
Cough	1 (1.4)
Dermatitis	1 (1.4)
Dyskinesia	1 (1.4)
Eye pain	1 (1.4)
Hypertension	1 (1.4)
Infected dermatitis	1 (1.4)
Increased lacrimation	1 (1.4)
Increased brain natriuretic peptide	1 (1.4)
Increased gamma-glutamyl transferase level	1 (1.4)
Oropharyngeal pain	1 (1.4)
Palpitations	1 (1.4)
Paresthesia	1 (1.4)
Peripheral edema	1 (1.4)
Photophobia	1 (1.4)
Proteinuria	1 (1.4)
Pruritus	1 (1.4)
Renal impairment	1 (1.4)
Sinus tachycardia	1 (1.4)
Sense of oppression	1 (1.4)
Upper abdominal pain	1 (1.4)
Ventricular tachycardia	1 (1.4)
Visual hallucination	1 (1.4)

Study drug discontinuations because of drug-related AEs were reported for three of 70 participants (4.3%) and consisted of one grade 1 renal impairment, one grade 1 diarrhea and 2 angina pectoris (same participant), and one grade 3 ventricular tachycardia. All drug-related AEs resolved on discontinuation of the study drug. The renal impairment occurred in a 50-year-old female with AML and no relevant medical history who received posaconazole IV solution from day 1 to day 3; study medication was permanently discontinued because of this event. The diarrhea and angina pectoris AEs occurred in a 48-year-old female with AML and a relevant medical history of chest discomfort and abdominal discomfort. The study medication was permanently discontinued because of these events, and the participant was treated with vancomycin, potassium chloride, sodium glucuronic acid, calcium gluconate, montmorillonite powder, Bifidobacterium/Lactobacillus/Enterococcus triple probiotic, and dexamethasone. The third participant with an AE considered to be related to the study drug was a 61-year-old female with AML and a relevant medical history of hypertension who received posaconazole IV solution on days 1 and 2 and was diagnosed with grade 3 ventricular tachycardia on day 2. The study medication was permanently discontinued because of the event. The participant was treated with nifedipine, telmisartan, metoprolol, and amiodarone. All drug-related AEs resolved after posaconazole discontinuation.

Six participants died, three during study treatment and the safety follow-up period (within 30 days after the end of treatment) and three after the end of the safety follow-up period. All deaths were judged unlikely to be related to the study drug. Causes of death during study treatment and the safety follow-up period were pulmonary hypertension in a 64-year-old female with AML who received posaconazole IV on days 1–10 and posaconazole oral suspension on days 11–15, experienced a serious AE of pulmonary hypertension on day 15, and died on day 16; cardiac failure in a 61-year-old male with AML who received posaconazole IV on days 1–9, experienced a serious AE of cardiac failure [electrocardiography showed atrial flutter and brain natriuretic peptide level elevation at 1454 pg/mL (normal range 0–100.0 pg/mL)] on day 8, and died on day 9; and cerebral hemorrhage in a 39-year-old female with AML who received posaconazole IV on days 1–10 and posaconazole oral solution on days 11–28 and experienced a serious AE of cerebral hemorrhage on day 50 and died the same day. Causes of death after the end of the safety follow-up period were acute myocardial infarction in a 58-year-old male with AML who received posaconazole IV solution on days 1–17, discontinued study treatment at the investigator’s discretion on day 17 because of recovered neutrophil count (2.97 × 109/L), and died of acute myocardial infarction on day 61; intracranial hemorrhage in a 48-year-old male with AML who received posaconazole IV solution on days 1–8, experienced serious AEs of grade 4 heart failure and grade 4 respiratory failure on day 9, was permanently discontinued from the study drug on the same day, and died of intracranial hemorrhage on day 43; and a serious lung infection on day 2 in a 63-year-old female who received posaconazole IV solution on days 1–21 and posaconazole oral suspension on days 22–28. After completing the study treatment, she received non-study medication of posaconazole oral suspension from days 28–34 and from days 50–63. CT on day 61 indicated a fungal infection. Posaconazole oral suspension was stopped on day 63 and the participant received micafungin sodium as treatment for the fungal infection. On day 97, she died of the lung infection. Because this participant was under follow-up for the serious AE lung infection reported on day 2, and although she died after the survival assessment on days 60–70, the death is reported here for completeness.

Discussion

In this analysis of the posaconazole IV formulation in Asian participants at high risk for IFI, all evaluable study participants had Cavg,ss ≥ 500 ng/mL. This exposure has been associated with efficacy established for supporting global registration of posaconazole for IV administration [15]. An IV formulation of posaconazole expands treatment options for patients with IFI who may not be able to take or absorb the medication appropriately while experiencing mucositis, diarrhea, or nausea [12, 20]. The arithmetic Cmin of posaconazole on day 10 in the Asian participants was 2311 ng/mL, whereas it was 1297 ng/mL in 56 participants of the PK-evaluable population in the global registration study [15]. In addition, posaconazole exposures were increased by < 50% after a single IV dose of posaconazole 300 mg in healthy Asian participants. Cmin was 4130 ng/mL in healthy Asian participants [21] compared with 2840 ng/mL in healthy Western participants [22]. Although the dose-limiting toxicity of posaconazole in humans has not been observed to date, the upper end of target exposure is usually limited to ≤ 2500 ng/mL based on previous studies of oral prophylaxis and on the therapy for refractory IFI that characterized safety for the initial approval of posaconazole oral suspension [17, 23]; the upper end of target exposure is set at 3750 ng/mL by the European Medicines Agency [24].

Safety was similar to that observed with the suspension [25], the IV formulation [15], and the oral tablet registration study in Asian participants [13]. However, the AE profile of posaconazole IV solution in Asian participants had some differences from those observed in Western populations. In particular, the incidence of liver function abnormalities appears to be higher in Asian participants compared with the Western (global) population, whereas the incidences of diarrhea, pyrexia, and nausea are lower [15]. These differences in the AE profile were also seen with the tablet formulation in Asian participants [13].

The two participants who were classified as developing possible IFIs based on EORTC/MSG criteria for classification of IFIs [19] had Cmin values > 500 ng/mL at the time of diagnosis, although these data are too limited to infer any definitive conclusions and the study was not designed to assess efficacy. IFI rates for posaconazole prophylaxis in previous studies have ranged from 2% to 3% [13, 23, 26].

Limitations to this study include the lack of enrollment of participants with MDS, although IV posaconazole has previously been shown to have similar PK in non-Asian participants with hematologic malignancies [15], and the limitation of enrollment to ethnic Chinese to support registration of the IV posaconazole formulation in China.

Conclusion

In conclusion, the PK characteristics of the posaconazole IV formulation in Asian patients with hematologic malignancies are consistent with those reported in earlier studies in Western populations, providing an efficacious and well-tolerated prophylactic antifungal treatment option. The posaconazole IV formulation provides a needed treatment option for Asian patients at risk for IFI who are unable to tolerate oral therapy.

Below is the link to the electronic supplementary material.

Supplementary file1 (PDF 216 KB)

Why carry out this study?

Antifungal prophylaxis in patients at high risk for invasive fungal infection continues to be underused in China, despite the fact that it reduces invasive fungal infection–related death and increases invasive fungal infection–free survival.

Asian patients who are immunocompromised, such as those with acute myelogenous leukemia, have a relatively high incidence of invasive fungal infections, primarily caused by Candida, Aspergillus, Cryptococcus, Mucorales, and Pneumocystis species.

To support registration of the IV posaconazole formulation in China, we characterized its pharmacokinetics and safety in Asian participants with acute myelogenous leukemia or myelodysplastic syndromes at risk for invasive fungal infections.

What was learned from the study?

The pharmacokinetic characteristics of the posaconazole IV formulation in Asian participants with hematologic malignancies are consistent with those reported in earlier studies in Western populations.

The posaconazole IV formulation provides a needed treatment option for Asian participants at risk for invasive fungal infections who are unable to tolerate oral therapy.