Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT05796362 |
| Other study ID # |
2022p000272 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
Phase 1
|
| First received |
|
| Last updated |
|
| Start date |
April 2023 |
| Est. completion date |
December 2023 |
Study information
| Verified date |
March 2023 |
| Source |
Brigham and Women's Hospital |
| Contact |
Carlo Giovanni Traverso, MB BChir PhD |
| Phone |
617-732-7429 |
| Email |
ctraverso[@]bwh.harvard.edu |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
This is an exploratory study to describe the pharmacokinetics of the azithromycin oral and
rectal oleogel in humans compared to the reference oral drug to (Zithromax) assess the impact
of the novel formulation on bioavailability. The investigators will perform a randomized,
balanced, single dose, three-treatment, three-period, crossover oral bioavailability study
under fasted conditions to evaluate the safety and tolerability of azithromycin oleogel and
compare the bioavailability of the azithromycin oleogel to the reference drug.
Description:
Children have difficulties swallowing tablets including azithromycin (AZT) tablets. In low
socioeconomic countries, tablets are typically crushed, dispersed in water, and administered
as a suspension to the child. This practice introduces several points of failure, including
unpalatability leading to refusal of the drug and lack of clean water for resuspension. Thus,
there remains a critical need to develop dosage forms that do not require crushing and
suspension. The investigators have developed a formulation inspired by techniques recently
described in the field of molecular gastronomy that transform oils into gels, also known as
"oleogels". Oils have a prolonged history of use in the food industry, and a very
well-established safety profile. Plant-derived oils represent an attractive vehicle for drug
delivery. Many drugs have hydrophobic properties and therefore have a greater wettability and
solubility in oil in comparison to water. Ingestion of fats stimulates secretion of bile
salts and enzymes that enhance drug dissolution in the physiological fluids and drug
absorption. Furthermore, converting oils into gels allows for altering the mouth-feel and
texture of the dosage form, which affects patient acceptance.
The aim of this exploratory study is to determine azithromycin bioavailability of oral and
rectal oleogels in healthy volunteers as well as to make an initial safety evaluation of the
oleogels. The reference azithromycin tablet has a bioavailability of 38%, with an AUC of 4.3
mcg*hr/ml, Cmax 0.5 mcg/ml, and Tmax of 2.2 hours. The half-life is approximately 68 hours.
The safety profile of azithromycin has been well characterized and single doses of
azithromycin are well tolerated, with common reactions including diarrhea/loose stools,
nausea, abdominal pain, vomiting, dyspepsia, and vaginitis (all less than 10% of subjects in
studies).
The intersubject variability of the pharmacokinetics (PK) parameter estimates for the
azithromycin oleogel are derived from our preclinical studies of the azithromycin oleogel in
swine; the coefficient of variation for both the oral tablets, oral oleogels, and rectal
oleogels are between 30-40%. These estimates of intersubject variability informed our number
of subjects, (N=21), for this crossover study. Additional coefficient of variability
estimates for oral tablets were found in the literature and were approximately 30%.
Azithromycin is not approved for rectal administration. However, our own studies of the
rectal azithromycin oleogel in female Yorkshire swine at doses of 5 mg/kg (40-70 kg weight
range) found the following pharmacokinetic parameters: Cmax= 0.224 mcg/ml (CV 35%, n=4); AUC
1.680 mcg*h/ml (CV 30%, n=4). The animals were treated with azithromycin oleogel rectally.
After 24 h, tissue mucosal biopsies were collected from the rectum endoscopically under
anesthesia. Samples were fixed and stained with Hematoxylin and Eosin and analyzed by a
clinical pathologist. Overall, there was no evidence of activity, chronicity, or rectal
tissue toxicity in the colorectal mucosa of the rectum in our preclinical swine models,
either by gross observation or histologic examination (Table 2). This is in keeping with two
exploratory clinical trials of an azithromycin suppository, which did not report any
clinically observed or patient-reported safety concerns besides diarrhea at doses of
125-500mg or 1g of azithromycin suppository.
This is an exploratory study to describe the pharmacokinetics of the azithromycin oral and
rectal oleogel in humans compared to the reference oral drug to assess the impact of the
novel formulation on bioavailability. The investigators will perform a randomized, balanced,
single dose, three-treatment, three-period, crossover oral bioavailability study under fasted
conditions to evaluate the safety and tolerability of azithromycin oleogel and compare the
bioavailability of the azithromycin oleogel to the reference drug. The cross-over design will
minimize intersubject variability. Given azithromycin's coefficient of variability, which is
estimated to be 30% in humans for the reference drug and 30-40% for the oleogel in swine
experiments, the investigators estimate that 21 subjects will be sufficient. This number also
accounts for any potential subject dropouts. Due to the half-life of azithromycin being 68
hours, the investigators will give 17 days between drug administrations to allow for
sufficient wash-out of at least 5 half-lives of azithromycin. Subjects in the study will be
closely monitored for any signs of adverse reactions.
Subjects will be given 250mg of azithromycin in each formulation. The maximum recommended
dose of azithromycin in humans is 2g in the oral formulation (bioavailability = 38%;
effective dose = ~760 mg) or 500mg in the IV formulation. The maximum dose administered to
humans is 4g intravenously with the following pharmacokinetic measurements: Cmax 9.91 mcg/ml,
AUC 82 mcg*h/ml. At this high dose, side effects seen were most commonly nausea, vomiting,
and tinnitus which were mild. In subjects administered 2g intravenous azithromycin, 4 out of
6 developed neutropenia; however, this was not seen at 4g. Based on our non-clinical data in
swine with a dosage of 5 mg/kg and a weight range of 40-70 kg, the equivalent human dose
would be 4.06-4.89 mg/kg (approximately 305-367 mg for a 75 kg person). The maximum
azithromycin a subject would absorb is 250 mg, which is still lower than the 2g dose with 38%
bioavailability (~760mg).
Subjects will be screened for up to 28 days prior to first dose. Treatment Period 1 begins
with baseline when subjects are admitted to the study center the night before for a 10-hour
overnight fast prior to the first dose. After admission, subjects will undergo pre-study
evaluations. The subjects will be assigned a subject number before the first study-specific
procedure during baseline (e.g., blood sample). A randomization number will be assigned just
prior to dosing, after baseline evaluation results have established their continued study
eligibility.
After a 10-hour overnight fast, subject will receive a single dose of rectal oleogel test [X]
(250mg drug in about 15 ml of oleogel) with continued fast, oral oleogel test [T] (250mg drug
in about 15 ml of oleogel), or oral reference tablet [R] with 240 mL of water. For four hours
thereafter, subjects should remain in the fasting state and seated in the upright or
semi-recumbent position. Brief periods of ambulation are allowed for study-related activities
and use of the toilet. Blood samples will be obtained predose and over the next 72 hours.
Water will be permitted ad libitum except for one hour before and one hour after dosing.
Subjects will be served standardized meals according to a predefined schedule throughout the
study.
After approximately a 17-day period away from the study, subjects will return to the study
site for Treatment Period 2 and undergo assessments and blood collection similar to Treatment
Period 1. The treatment administered will be defined in the randomization schedule.
After approximately a 17-day period away from the study, subjects will return to the study
site for Treatment Period 3 and undergo assessments and blood collection similar to Treatment
Periods 1 and 2. The treatment administered will be defined in the randomization schedule.
The end-of-study (EOS) evaluation will be performed after completion of the final PK sample
following Treatment Period 3 or up to 7 days thereafter.
