Osteoporosis Clinical Trial
Official title:
"Determining the Maximum Tolerable Dose and Pharmacokinetic Parameters of Intravenous PTHrP(1-36)"
This is a single-blinded, one-treatment, combination dose escalation and pharmacokinetic study done in healthy volunteers. The investigators want to determine whether Parathyroid Hormone related Protein (1-36) [PTHrP(1-36)] shares anabolic properties with the only currently approved anabolic agent, parathyroid hormone(1-34) [PTH(1-34)], which stimulates both osteoblastic bone resorption and formation. In a previous study done by the investigators, postmenopausal osteoporotic women on estrogen received 6.56 mcg/kg PTHrP(1-36) subcutaneously for three months daily. They experiences a 4.7% increase in bone mineral density (BMD) of the lumbar spine when compared with those taking placebo. They also displayed an increase in serum osteocalcin, a marker of bone formation, with no change in several markers of bone resorption. It is believed that the rapid absorption and clearance of PTHrP(1-36) likely plays a central role in its anabolic effect In order to further assess absorption, we are combining both pharmacokinetic and dose escalation methods for studying intravenous PTHrP given via a one-time bolus injection. The purpose is to define the maximum safe dose and measure the pharmacokinetic parameters of a single intravenous dose of Parathyroid Hormone-related Protein (1-36)[PTHrP(1-36)]. The results will be useful in determining future treatment options for osteoporosis.
Osteoporosis is a growing health problem. The most commonly used treatment options are
anti-resorptive agents, which give a bone density increase of the lumbar spine in the 6-8%
range over a 3-5 year period. A 100 % increase in bone mass would be needed to restore bone
mass to peak, premenopausal levels. The ideal drug to treat osteoporosis would be a pure
skeletal anabolic agent; however, the only currently approved anabolic agent, parathyroid
hormone [PTH(1-34)] appears to only increase lumbar spine mass by 12-15% over a 2-3 year
period when given alone.
Parathyroid hormone-related protein, [PTHrP(1-36)], is a peptide secreted by almost all
normal tissues and cells that shares significant homology with Parathyroid Hormone (PTH);
and the investigators believe that it shares anabolic properties with PTH. In a previous
study, PTHrP(1-36) administered subcutaneously to postmenopausal women for two weeks
increased markers of bone formation (osteocalcin) while decreasing markers of osteoclastic
bone resorption. In a subsequent study, postmenopausal osteoporotic women on estrogen
received 6.56 mcg/kg PTHrP(1-36) subcutaneously for 3 months daily. They experienced a 4.7%
increase in bone mineral density (BMD) of the lumbar spine compared to those taking placebo.
The also displayed an increase in serum osteocalcin, a marker of bone formation, with no
change in several markers of bone resorption. As a result of both rat and human research
studies, the investigators feel the rapid absorption and clearance of PTHrP(1-36) likely
plays a central role in its anabolic effect in humans.
In order to further assess the absorption of PTHrP, the investigators are doing this
pharmacokinetic study using bolus intravenous PTHrP. It combines both pharmacokinetic and
dose escalation methods for studying intravenous PTHrP given via a one-time bolus injection.
Subcutaneous PTHrP has been shown to increase bone mass in previous studies done and would
be the preferred route for administration of PTHrP in the treatment of osteoporosis.
Comparing intravenous with subcutaneous PTHrP will yield much information about the
bioavailability of PTHrP in vivo.
This six hour study has been designed to achieve the goals of (1) determining what is the
maximum safe dose of PTHrP(1-36) that can be given intravenously as a one time bolus dose;
and (2) what is the pharmacokinetic profile of a one-time intravenous bolus dose of PTHrP. A
placebo group of 5 subjects will initially serve as a control. The investigators feel it is
important to begin with very small amounts of intravenous PTHrP and gradually increase the
dose for safety reasons. The initial single bolus intravenous dose to be tested is
intentionally low (4 micrograms). Subsequent doses of PTHrP will be gradually increased
using a standard dose escalation scale in groups of three subjects until a maximal dose of
400 mcg is reached or a dose limiting toxicity occurs at a dose lower than 400 mcg. The
maximum determined safely tolerated dose will then be administered to a total of 10 normal
healthy volunteers.
In all subjects at different dosing groups, frequent blood sampling within the first 20
minutes after IV administration of PTHrP will yield pharmacokinetic data about peak PTHrP
blood levels and time to peak level T(max). After research subjects receive an intravenous
bolus of PTHrP; blood samples will be collected for pharmacokinetic analysis of PTHrP at
intervals of 2 minutes for the first 20 minutes, than at 25, 30, 45 and 60 minutes, then
hourly for the next five hours. Measurement of calcium, creatinine, phosphorus, PTH, 1,25
Vitamin D and markers of bone metabolism will be obtained at baseline, and at hours one and
three. After the baseline urine sample is obtained, urine will be collected at two hour
intervals for calcium, creatinine, phosphorus, and markers of bone metabolism.
All subjects will be assigned in a single-blinded manner to receive either placebo or study
drug. Initial subjects will be assigned to receive placebo or the starting dose of PTHrP: 4
micrograms. all groups of subjects will receive of PTHrP or placebo via intravenous bolus
injection followed by a 3 ml normal saline solution flush over a 30-60 period. If subjects
in the initial groups do not experience any adverse effects, doses of intravenous PTHrP will
be increased in subsequent groups of three subjects each, and the doses for these groups
will be 10, 40, 75, 150, 250 and lastly, 400 micrograms. 400 micrograms is the highest
possible dose that will be given in this study. The dose that causes no dose-limiting
toxicities will be given to a total of 10 healthy subjects. Data from this dosing group will
be used to compare data from the investigator's previous pharmacokinetic and dose escalation
studies, including recently completed a double-blind, crossover pharmacokinetic study
comparing peak serum levels of PTH(1-34) and PTHrP(1-36) after a single subcutaneous
injection. Preliminary results from that study indicated that PTHrP peaks earlier than PTH
(6-15 minutes verses 45 minutes), despite the fact that the dose of PTHrP (~420 mcg) was 20
times greater than the dose of PTH (20 mcg).
This study will be performed in healthy young adults, ages 24-35 years. It is anticipated
that we will need to screen 100 subjects to achieve a maximum of 52 evaluable subjects, to
answer the questions posed by this study.
;
Endpoint Classification: Pharmacokinetics Study, Intervention Model: Single Group Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment
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