Effects of Tolvaptan in Healthy Adults
| Status: | Completed |
|---|---|
| Conditions: | Healthy Studies |
| Therapuetic Areas: | Other |
| Healthy: | No |
| Age Range: | 21 - 55 |
| Updated: | 4/2/2016 |
| Start Date: | November 2013 |
| End Date: | September 2015 |
| Contact: | JENNIFER TUAZON, MD |
| Email: | j-tuazon@northwestern.edu |
| Phone: | 312-926-4902 |
Variation in the Aquaretic Efficacy of Tolvaptan in Healthy Adults
Tolvaptan is one of new class of medications approved for treatment of low blood sodium
(hyponatremia). It works by interfering with the effect of the antidiuretic hormone,
vasopressin, thereby increasing urine output and decreasing body water. However, the
magnitude of these effects vary from person to person. Thus, the efficacy of tolvaptan is
less reliable than an infusion of a concentrated salt solution for emergency, short term
treatment of hyponatremia.
This study is designed to test 3 hypotheses about the variable efficacy of tolvaptan.
1. The variable effect on urine output is due to individual differences in blood
vasopressin which counteracts the effects of tolvaptan.
2. The differences in blood vasopressin are due to individual differences in the amount
secreted in response to a rise in blood sodium.
3. The variable effect on blood sodium is due mainly to the variable effect on urine
output and can be corrected by maintaining water intake below urine output.
The study has 2 parts and will be performed in 12 healthy adult males.
1. Six subjects will receive tolvaptan at a dose of 60 mg by mouth and six subjects will
receive tolvaptan at 30 mg by mouth. Blood and urine will be collected hourly for 6
hours and water will be ingested in prescribed amounts. For the next 16 hours, subjects
will drink at will and blood and urine will be collected 4 more times.
2. One week later, the same subjects will receive a concentrated salt solution (3% saline)
by vein for 6 hours. During this time, blood and urine will be collected hourly but
drinking will not be permitted. For the next 4 hours, subjects will be allowed to drink
at will while blood and urine are collected twice more.
The volume, concentration and creatinine content of each urine will be determined. Blood
will be analyzed for sodium, vasopressin and, in the first study, tolvaptan.
(hyponatremia). It works by interfering with the effect of the antidiuretic hormone,
vasopressin, thereby increasing urine output and decreasing body water. However, the
magnitude of these effects vary from person to person. Thus, the efficacy of tolvaptan is
less reliable than an infusion of a concentrated salt solution for emergency, short term
treatment of hyponatremia.
This study is designed to test 3 hypotheses about the variable efficacy of tolvaptan.
1. The variable effect on urine output is due to individual differences in blood
vasopressin which counteracts the effects of tolvaptan.
2. The differences in blood vasopressin are due to individual differences in the amount
secreted in response to a rise in blood sodium.
3. The variable effect on blood sodium is due mainly to the variable effect on urine
output and can be corrected by maintaining water intake below urine output.
The study has 2 parts and will be performed in 12 healthy adult males.
1. Six subjects will receive tolvaptan at a dose of 60 mg by mouth and six subjects will
receive tolvaptan at 30 mg by mouth. Blood and urine will be collected hourly for 6
hours and water will be ingested in prescribed amounts. For the next 16 hours, subjects
will drink at will and blood and urine will be collected 4 more times.
2. One week later, the same subjects will receive a concentrated salt solution (3% saline)
by vein for 6 hours. During this time, blood and urine will be collected hourly but
drinking will not be permitted. For the next 4 hours, subjects will be allowed to drink
at will while blood and urine are collected twice more.
The volume, concentration and creatinine content of each urine will be determined. Blood
will be analyzed for sodium, vasopressin and, in the first study, tolvaptan.
Subjects:12 healthy adult males, age 21-55,will be recruited via posters in medical center.
They must pass screening history & physical examination and abstain from ingestion of
grapefruit products for 3 days prior to study and from all caffeinated beverage for 24 hours
before study.
Procedures: Each subject will receive two different treatments one week apart. Each
time,they will fast overnight, present to the Northwestern University Clinical Research Unit
at Northwestern Memorial Hospital at about 0700 hours and be given a light breakfast. At
0900 hours, staff will collect a completely voided urine (U0)and venous blood sample of 20
mL (B0)then weigh subject to nearest 0.1 kg, record vital signs (pulse rate and blood
pressure), obtain a thirst score (rating from 1 to 10)and begin the treatment.
1. The treatment on the first admission will be tolvaptan. Six subjects will receive
tolvaptan at a dose of 60 mg by mouth and six subjects will receive tolvaptan at 30 mg
by mouth. Hourly for the next 6 hours (i.e. until 1500 hours), all the measurements and
samples obtained at baseline will be repeated as before. In addition, the subject will
drink a volume of water that is 5 mL/kg body weight lower than the volume of urine just
voided. This is expected to raise plasma sodium by about 7 millimoles/L in 6 hours. For
the next 16 hours, subjects will remain and be allowed to drink at will. In addition,
they will be served dinner at approximately 1700 hours and all the measures obtained at
baseline will be repeated again at 1700, 1900, 2300 and 0700 hours when subjects will
be discharged.
2. On the second admission one week later, the procedures will be identical to the first
admission with following exceptions: (a) instead of tolvaptan, at 0900 hours, subjects
will be started on an infusion of 3% saline at a rate of 0.033 mL/min/kg body weight.
This infusion will continue for 6 hours (i.e. until 1500 hours) and is expected to
raise plasma sodium about 7 millimoles/L), the same as the tolvaptan treatment;(b) the
volume of blood removed each time will be smaller (10 mL) since they will not be
assayed for tolvaptan; (c)subjects will not be permitted to drink during the infusion.
In addition, subjects will remain in the unit for only 4 more hours (until 1900 hours).
During this time, they will be permitted to drink at will, will be served dinner at
about 1700 hours and will have all baseline measurements repeated at 1700 and 1900
hours.
The data collected during these two tests will be obtained as follows:
1. weight in kg to the nearest 0.1 kg
2. thirst intensity as rated by the subject on a scale of 1 to 10.
3. pulse and blood pressure recumbent
4. urine volume to the nearest 5 mL
5. urine osmolarity by freezing point depression in Clinical Research Unit Core Laboratory
6. urine creatinine in clinical chemistry laboratory of Northwestern Memorial Hospital
7. blood placed on ice, centrifuged immediately at 4 C, plasma removed for:
1. osmolarity by freezing point depression in Clinical Research Unit Core Lab (STAT)
2. sodium by ion specific electrode in Northwestern Memorial Hospital chemistry
laboratory after sealed storage at 4 degrees C for 2-16 hours
3. vasopressin by radioimmunoassay in Clinical Research Unit Core Laboratory after
sealed storage at -4 C for approximately 6 months
4. tolvaptan (first study only) by reverse phase, high performance liquid
chromatography at ICON Labs (Dublin) after storage at -20 C for approximately 6
months.
DATA analysis and interpretation will be as follows:
1. To test the hypothesis that the variable effect of tolvaptan on urine concentration and
flow depends on the level of plasma vasopressin as well as plasma tolvaptan, the
relationship between the osmolarity of the first 9 urine collections after treatment to
the area under the curve (AUC) for plasma vasopressin, for plasma tolvaptan and for the
ratio of plasma tolvaptan/plasma vasopressin during the concurrent time periods will be
determined by regression analysis in each of the 12 subjects. The same analysis will be
performed using urine volume instead of urine osmolarity. Hypothesis 1 predicts that in
all subjects, the best correlation (r value)will be between urine osmolarity and the
ratio of tolvaptan/vasopressin. It also predicts that the slopes of every individual
regression line will be negative (i.e. the higher the ratio of tolvaptan to
vasopressin)the lower the urine osmolarity). However, the slopes may differ between
subjects owing to individual differences in the concentrating capacity of the kidneys.
2. To test the hypothesis that the individual differences in plasma vasopressin during
treatment are due to the inherent,genetically determined differences in the secretory
response to osmotic (sodium) stimuli that are known to exist in humans, the
relationship of plasma vasopressin to plasma sodium (or osmolarity)during the first 6
hours of treatment with tolvaptan or 3% saline will be determined separately by
regression analysis and compared. Based on previous findings, the correlation of plasma
vasopressin to plasma sodium (or osmolarity) should be very high (r>0.9) in every
subject during 3% saline infusion but the slopes will vary markedly between subjects.
The hypothesis predicts that these correlations and marked differences in slopes will
not differ after tolvaptan treatment. This prediction will be tested by regressing the
slope during tolvaptan against the slope in the same subject during 3% saline infusion
in all 12 subjects. If the hypothesis is correct, the correlation coefficient between
the individual slopes will be greater than 0.8 and the line describing the relation
will have a slope approximating 1 with an intercept near zero on both axes.
3. To test the hypothesis that the variable effect of tolvaptan on plasma sodium can be
reduced by continuously adjusting fluid intake to a level below urine output by a
constant amount (5 mL/kg each hour), the relation of plasma sodium to elapsed time over
the 6 hour period after tolvaptan and during saline infusion will be calculated
separately for each subject by regression analysis and compared. If the hypothesis is
correct, the correlation coefficients for the tolvaptan and saline treatments should be
uniformly high e.g. greater than 0.9 in all subject even though the slopes of the lines
describing these relationships may differ.
They must pass screening history & physical examination and abstain from ingestion of
grapefruit products for 3 days prior to study and from all caffeinated beverage for 24 hours
before study.
Procedures: Each subject will receive two different treatments one week apart. Each
time,they will fast overnight, present to the Northwestern University Clinical Research Unit
at Northwestern Memorial Hospital at about 0700 hours and be given a light breakfast. At
0900 hours, staff will collect a completely voided urine (U0)and venous blood sample of 20
mL (B0)then weigh subject to nearest 0.1 kg, record vital signs (pulse rate and blood
pressure), obtain a thirst score (rating from 1 to 10)and begin the treatment.
1. The treatment on the first admission will be tolvaptan. Six subjects will receive
tolvaptan at a dose of 60 mg by mouth and six subjects will receive tolvaptan at 30 mg
by mouth. Hourly for the next 6 hours (i.e. until 1500 hours), all the measurements and
samples obtained at baseline will be repeated as before. In addition, the subject will
drink a volume of water that is 5 mL/kg body weight lower than the volume of urine just
voided. This is expected to raise plasma sodium by about 7 millimoles/L in 6 hours. For
the next 16 hours, subjects will remain and be allowed to drink at will. In addition,
they will be served dinner at approximately 1700 hours and all the measures obtained at
baseline will be repeated again at 1700, 1900, 2300 and 0700 hours when subjects will
be discharged.
2. On the second admission one week later, the procedures will be identical to the first
admission with following exceptions: (a) instead of tolvaptan, at 0900 hours, subjects
will be started on an infusion of 3% saline at a rate of 0.033 mL/min/kg body weight.
This infusion will continue for 6 hours (i.e. until 1500 hours) and is expected to
raise plasma sodium about 7 millimoles/L), the same as the tolvaptan treatment;(b) the
volume of blood removed each time will be smaller (10 mL) since they will not be
assayed for tolvaptan; (c)subjects will not be permitted to drink during the infusion.
In addition, subjects will remain in the unit for only 4 more hours (until 1900 hours).
During this time, they will be permitted to drink at will, will be served dinner at
about 1700 hours and will have all baseline measurements repeated at 1700 and 1900
hours.
The data collected during these two tests will be obtained as follows:
1. weight in kg to the nearest 0.1 kg
2. thirst intensity as rated by the subject on a scale of 1 to 10.
3. pulse and blood pressure recumbent
4. urine volume to the nearest 5 mL
5. urine osmolarity by freezing point depression in Clinical Research Unit Core Laboratory
6. urine creatinine in clinical chemistry laboratory of Northwestern Memorial Hospital
7. blood placed on ice, centrifuged immediately at 4 C, plasma removed for:
1. osmolarity by freezing point depression in Clinical Research Unit Core Lab (STAT)
2. sodium by ion specific electrode in Northwestern Memorial Hospital chemistry
laboratory after sealed storage at 4 degrees C for 2-16 hours
3. vasopressin by radioimmunoassay in Clinical Research Unit Core Laboratory after
sealed storage at -4 C for approximately 6 months
4. tolvaptan (first study only) by reverse phase, high performance liquid
chromatography at ICON Labs (Dublin) after storage at -20 C for approximately 6
months.
DATA analysis and interpretation will be as follows:
1. To test the hypothesis that the variable effect of tolvaptan on urine concentration and
flow depends on the level of plasma vasopressin as well as plasma tolvaptan, the
relationship between the osmolarity of the first 9 urine collections after treatment to
the area under the curve (AUC) for plasma vasopressin, for plasma tolvaptan and for the
ratio of plasma tolvaptan/plasma vasopressin during the concurrent time periods will be
determined by regression analysis in each of the 12 subjects. The same analysis will be
performed using urine volume instead of urine osmolarity. Hypothesis 1 predicts that in
all subjects, the best correlation (r value)will be between urine osmolarity and the
ratio of tolvaptan/vasopressin. It also predicts that the slopes of every individual
regression line will be negative (i.e. the higher the ratio of tolvaptan to
vasopressin)the lower the urine osmolarity). However, the slopes may differ between
subjects owing to individual differences in the concentrating capacity of the kidneys.
2. To test the hypothesis that the individual differences in plasma vasopressin during
treatment are due to the inherent,genetically determined differences in the secretory
response to osmotic (sodium) stimuli that are known to exist in humans, the
relationship of plasma vasopressin to plasma sodium (or osmolarity)during the first 6
hours of treatment with tolvaptan or 3% saline will be determined separately by
regression analysis and compared. Based on previous findings, the correlation of plasma
vasopressin to plasma sodium (or osmolarity) should be very high (r>0.9) in every
subject during 3% saline infusion but the slopes will vary markedly between subjects.
The hypothesis predicts that these correlations and marked differences in slopes will
not differ after tolvaptan treatment. This prediction will be tested by regressing the
slope during tolvaptan against the slope in the same subject during 3% saline infusion
in all 12 subjects. If the hypothesis is correct, the correlation coefficient between
the individual slopes will be greater than 0.8 and the line describing the relation
will have a slope approximating 1 with an intercept near zero on both axes.
3. To test the hypothesis that the variable effect of tolvaptan on plasma sodium can be
reduced by continuously adjusting fluid intake to a level below urine output by a
constant amount (5 mL/kg each hour), the relation of plasma sodium to elapsed time over
the 6 hour period after tolvaptan and during saline infusion will be calculated
separately for each subject by regression analysis and compared. If the hypothesis is
correct, the correlation coefficients for the tolvaptan and saline treatments should be
uniformly high e.g. greater than 0.9 in all subject even though the slopes of the lines
describing these relationships may differ.
Inclusion Criteria:
- Males
- 21-55 years of age
- No major health problems or current medications
- Must be willing/able to avoid grapefruit products for 1 week prior to admission
Exclusion Criteria:
- Females
- Body weight > or < 15% of ideal
- Known allergy to tolvaptan
- Participation in another research study in previous 2 months
- Inability to sense thirst
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