Reproductive Aging and Obstructive Sleep Apnea
| Status: | Withdrawn |
|---|---|
| Conditions: | Insomnia Sleep Studies, Pulmonary |
| Therapuetic Areas: | Psychiatry / Psychology, Pulmonary / Respiratory Diseases |
| Healthy: | No |
| Age Range: | 30 - 70 |
| Updated: | 4/21/2016 |
| Start Date: | May 2013 |
| End Date: | August 2015 |
The purpose of this study is to identify the mechanism(s) by which OSA exacerbates the
age-linked decline in systemic testosterone concentrations by conducting a randomized order
sham-controlled crossover study that dynamically evaluates the entire hypothalamic-pituitary
testicular axis across a wide age range.
age-linked decline in systemic testosterone concentrations by conducting a randomized order
sham-controlled crossover study that dynamically evaluates the entire hypothalamic-pituitary
testicular axis across a wide age range.
- Hypothesis 1: Reduced hypothalamic gonadotropin-releasing hormone (GnRH) outflow in
older men underlies the reduced mass of luteinizing hormone (LH) pulses, and is further
reduced in men with untreated OSA. The investigator aim to test hypothalamic function
by examining the decrement of pulsatile LH secretion to a submaximally inhibitory dose
of a selective GnRH-receptor antagonist, ganirelix, in men with untreated (i.e. active)
and treated OSA. This decrement will be regressed on age, and a significant reduction
in slope with active OSA (vs treated OSA) indicates disease attenuation.
- Hypothesis 2: Untreated OSA further attenuates the age-related erosion of
testosterone's negative-feedback control of LH. The investigators aim to assess
pituitary function by quantitating LH secretion under enforced androgen deprivation, in
men with active and treated OSA. Slopes obtained by age regressions will be compared.
- Hypothesis 3: Impaired Leydig-cell steroidogenesis causes hypoandrogenemia in older
men, but the effect of untreated OSA in humans is entirely unknown. Hence the
investigators aim to assess testicular function by examining testosterone secretion
during experimentally controlled pulsatile i.v. infusion of recombinant human LH under
maximal GnRH-receptor blockade, in men with active and treated CPAP. Slopes will again
be compared.
Accordingly the immediate goal is to characterize all four of hypothalamic, pituitary,
testicular and feedback-dependent control of LH and testosterone secretion to determine
which primary mechanism(s) occur(s) and drive(s) alterations at the other loci, in any given
subject. To meet this challenge, the investigators will implement an innovative
comprehensive analytical platform, that correctly embodies time-lagged, dose-dependent and
nonlinear signaling among GnRH, LH and testosterone. To ensure the necessary age continuum,
volunteers whose ages span 30-70 years will be study with 3-4 men per decade of life (16 men
in total). To assess disease effects, the investigators will compare age regressions between
men with active OSA (on sham therapy) against these same men being treated with real CPAP,
and if feasible, with a convenient sample of 16 other individually age- and BMI- matched
(±2.5 years and ±2.5 kg/m2) normal controls that will be selected from a larger cohort of
100 men being identified in Rochester -Minnesota (MN). The within subject cross-over design
controls for possible known and unknown confounders, however BMI will be also restricted and
exclude men with diabetes mellitus (by HbA1c).
Study Subject Recruitment: 16 men with OSA will be recruited aged 30-70 years, using the
same entry criteria and age range utilized to generate our preliminary data 42.
Additionally, body mass index will be restricted to 30-35 kg/m2. Volunteers will be
recruited from clinics at University of California, Los Angeles (UCLA) -affiliated medical
centers at Harbor and Santa Monica and by advertisement.
Study Design: Randomized sham-controlled cross-over trial, each period of 3 months duration
and with one month washout. This design replicates a recently completed study. Another
comparable study recently completed in California (and elsewhere in the USA) involved 6
months sham treatment, and many of the 1105 adults recruited had severe OSA.
Dynamic Testing of the Male Gonadal Axis: Enrolled subjects undergo repetitive sampling of
peripheral blood (1.5 mL) every 10-min for 5 hr from 0800-1300 h [2 outpatient protocols],
for 15 hr overnight (2200 - 1300h) and for 22 hr overnight (1500 - 1300h). Polysomnography
(2200-0600h) is performed during the 2 inpatient visits. A terminal i.v. bolus injection of
GnRH (100 ng/kg) is given at 1100h during all 4 visits to calibrate endogenous GnRH
response. Ganirelix (or saline) is given at 2000h or 1500h: hypothalamic function is tested
by partial (submaximal) ganirelix blockade of endogenous GnRH. Oral medications (Δ) are
placebo except during pituitary testing when response of LH to androgen depletion is
enforced by ketoconazole (KTCZ) with adrenal rescue with dexamethasone (DEX). Here, KTCZ
(1000mg) and DEX (0.75mg) are given at 2000h, KTCZ (400mg) at 0800h and DEX (0.75mg) at
1300h. Testis function is assessed by testosterone response to a fixed exogenous LH
stimulus: 6 pulses of rh LH (18.75 IU each) every 2 hrs. from 2300h under maximal ganirelix
blockade of endogenous LH.
Statistical Analysis: The effect of age and disease on each mechanistic outcome will be
assessed by constructing a repeated measures mixed model which includes OSA (treated versus
untreated), age and the OSA*age interaction. The statistical significance of the interaction
term indicates whether the disease process (OSA) alters the age related decline in these
outcomes (i.e. assesses difference in the slopes under the two conditions). The
within-subject design should reduce variance and increase power. Assuming that a suitable
convenient control group can be assembled in Rochester MN, the investigators will
additionally construct between-subject mixed models where the disease effect will be
untreated OSA versus normal controls, and the treatment effect will compare treated OSA
versus normal controls. The former will affirm disease effects and the latter whether
treatment for 3 months with CPAP fully reverses deficits to normality.
Power Analysis: Preliminary data suggest that untreated OSA attenuates testosterone
feedback, resulting in impaired unleashing of LH pulse. Under ketoconazole castration, the
correlation between LH pulse frequency and age in normal men is -0.50. A sample size of 16
men has 80% power with two-tailed á=0.05 to detect an attenuation of this correlation by
1.00. By way of comparison, the investigators observed a one-third greater attenuation of
correlation of 1.35. Hence, power is adequate. This estimate is conservative since the
within-subject study design, which reduces variability, was not incorporated and the
ketoconazole-induced testosterone depletion paradigm to assess pituitary function should
further sharpen age regressions as the variability of each individual's blood testosterone
concentration is reduced. The latter has been verified in normal men, and should also be
true in men with OSA.
Outcomes: To appraise GnRH outflow (Aim 1), the response variable is the
ganirelix-suppressed (analytically reconstructed) basal LH secretion. To assess gonadotrope
responsiveness, the pertinent end point is the mass of LH secreted following the exogenous
GnRH stimulus. The degree of feedback unleashing is inferred by the degree of elevation of
LH pulse frequency elicited by androgen withdrawal (Aim 2). And, Leydig-cell sensitivity is
defined by analytical reconstruction of rate of testosterone secretion achieved in response
to the last two of six (pseudosteady-state) pulses of recombinant human LH (Aim 3).
Other Outcomes: GnRH outflow will be reconstructed and simultaneously calculate hypothalamic
and pituitary testosterone feedback, as previously described. These data can be analyzed by
mixed model as described in statistical analysis (before). Pulsatile LH secretion aligns
with slow wave sleep at the onset of puberty, implicating sleep architecture in the timing
of puberty. The investigators will perform the same analysis described, by comparing (by
Student's t-test) the proportion of LH pulses that occur during slow wave versus non-slow
wave sleep, normalized for the amount of time spent in each sleep stage. The final
additional outcome will be to examine total testosterone secretion overnight during the
control condition in the first phase of the study, separately and after combining with
findings from the original 18 men described in preliminary data.
Anticipated and Alternate Results: It is expected to be showed that OSA impairs testosterone
feedback (i.e. pituitary dysfunction), specifically that androgen depletion (Aim 2), will
increase LH pulse frequency and reduce basal LH secretion. Although It is postulated that
reduced basal LH secretion is due to attenuated testosterone feedback at the pituitary, an
unexpected but plausible alternate finding would be that altered GnRH outflow is responsible
- which It is assessed in Aim 1 by graded GnRH receptor blockade. Additionally, due to
recent analytical innovations, the investigators can also reconstruct hypothalamic versus
pituitary feedback effects of testosterone (Aim 2) whilst simultaneously assessing GnRH
outflow (Aim 1). This is particularly pertinent since preliminary data of brain permeant
versus brain impermeant androgen receptor blockade suggests specific brain effects. Specific
brain effects are plausible because the intermittent hypoxia of OSA is already known to
alter neurocognition. Another inexplicable finding is that the relative reduction in LH with
OSA seems to be greater than the corresponding fall in testosterone, which might suggest
relatively enhanced Leydig cell responsiveness. Indeed, intermittent hypoxia increases
testosterone production from primary rat Leydig cell cultures in response to human chorionic
gonadotropin (hCG), but the effect of OSA on testicular steroidogenesis in humans is not
known. Aim 3 will address this possibility for the first time using a physiological rh LH
probe. Testosterone secretion is expected to increase with CPAP. If it does not, in the
presence of preserved or enhanced Leydig cell responsiveness to rh LH (Aim 3), then this
would motivate a future longer duration study of CPAP.
Potential Problems and Alternate Strategies: the investigators do not anticipate recruitment
problems since our study requires enrolling a single individual each month for 16 months,
however recruitment could be broadened to the Westwood and other UCLA-affiliated clinics, if
needed. If the cross-over design proves problematic, then the investigators can convert to a
3 month parallel group study of 32 men without loss of power. The study includes a run-in
period wherein CPAP compliance will be monitored by direct CPAP machine download and
subjects excluded if non-compliant, since intensive endocrine testing is not performed until
after 3 months of established therapy. Our study is not dependent upon being able to include
a convenient control group where each control is within ±2.5 years and ±2.5 kg/m2 of each
case. Finding 16 controls from the 100 men aged 18-80 years, with BMI of 18-35 kg/m2 and
without significant illnesses (including diabetes mellitus) being identified should be
possible. If not, the investigators will loosen the matching criteria (by doubling intervals
to ±5.0 years or kg/m2), and simultaneously match 2 controls for every case. A further
problem might be if LH and testosterone assays are not aligned, however the investigators
will test this directly by assaying a single pooled sample from each individual (16 men in
total) for testosterone by tandem mass spectroscopy and for LH by immunoassay and against
external standards to ensure comparability.
older men underlies the reduced mass of luteinizing hormone (LH) pulses, and is further
reduced in men with untreated OSA. The investigator aim to test hypothalamic function
by examining the decrement of pulsatile LH secretion to a submaximally inhibitory dose
of a selective GnRH-receptor antagonist, ganirelix, in men with untreated (i.e. active)
and treated OSA. This decrement will be regressed on age, and a significant reduction
in slope with active OSA (vs treated OSA) indicates disease attenuation.
- Hypothesis 2: Untreated OSA further attenuates the age-related erosion of
testosterone's negative-feedback control of LH. The investigators aim to assess
pituitary function by quantitating LH secretion under enforced androgen deprivation, in
men with active and treated OSA. Slopes obtained by age regressions will be compared.
- Hypothesis 3: Impaired Leydig-cell steroidogenesis causes hypoandrogenemia in older
men, but the effect of untreated OSA in humans is entirely unknown. Hence the
investigators aim to assess testicular function by examining testosterone secretion
during experimentally controlled pulsatile i.v. infusion of recombinant human LH under
maximal GnRH-receptor blockade, in men with active and treated CPAP. Slopes will again
be compared.
Accordingly the immediate goal is to characterize all four of hypothalamic, pituitary,
testicular and feedback-dependent control of LH and testosterone secretion to determine
which primary mechanism(s) occur(s) and drive(s) alterations at the other loci, in any given
subject. To meet this challenge, the investigators will implement an innovative
comprehensive analytical platform, that correctly embodies time-lagged, dose-dependent and
nonlinear signaling among GnRH, LH and testosterone. To ensure the necessary age continuum,
volunteers whose ages span 30-70 years will be study with 3-4 men per decade of life (16 men
in total). To assess disease effects, the investigators will compare age regressions between
men with active OSA (on sham therapy) against these same men being treated with real CPAP,
and if feasible, with a convenient sample of 16 other individually age- and BMI- matched
(±2.5 years and ±2.5 kg/m2) normal controls that will be selected from a larger cohort of
100 men being identified in Rochester -Minnesota (MN). The within subject cross-over design
controls for possible known and unknown confounders, however BMI will be also restricted and
exclude men with diabetes mellitus (by HbA1c).
Study Subject Recruitment: 16 men with OSA will be recruited aged 30-70 years, using the
same entry criteria and age range utilized to generate our preliminary data 42.
Additionally, body mass index will be restricted to 30-35 kg/m2. Volunteers will be
recruited from clinics at University of California, Los Angeles (UCLA) -affiliated medical
centers at Harbor and Santa Monica and by advertisement.
Study Design: Randomized sham-controlled cross-over trial, each period of 3 months duration
and with one month washout. This design replicates a recently completed study. Another
comparable study recently completed in California (and elsewhere in the USA) involved 6
months sham treatment, and many of the 1105 adults recruited had severe OSA.
Dynamic Testing of the Male Gonadal Axis: Enrolled subjects undergo repetitive sampling of
peripheral blood (1.5 mL) every 10-min for 5 hr from 0800-1300 h [2 outpatient protocols],
for 15 hr overnight (2200 - 1300h) and for 22 hr overnight (1500 - 1300h). Polysomnography
(2200-0600h) is performed during the 2 inpatient visits. A terminal i.v. bolus injection of
GnRH (100 ng/kg) is given at 1100h during all 4 visits to calibrate endogenous GnRH
response. Ganirelix (or saline) is given at 2000h or 1500h: hypothalamic function is tested
by partial (submaximal) ganirelix blockade of endogenous GnRH. Oral medications (Δ) are
placebo except during pituitary testing when response of LH to androgen depletion is
enforced by ketoconazole (KTCZ) with adrenal rescue with dexamethasone (DEX). Here, KTCZ
(1000mg) and DEX (0.75mg) are given at 2000h, KTCZ (400mg) at 0800h and DEX (0.75mg) at
1300h. Testis function is assessed by testosterone response to a fixed exogenous LH
stimulus: 6 pulses of rh LH (18.75 IU each) every 2 hrs. from 2300h under maximal ganirelix
blockade of endogenous LH.
Statistical Analysis: The effect of age and disease on each mechanistic outcome will be
assessed by constructing a repeated measures mixed model which includes OSA (treated versus
untreated), age and the OSA*age interaction. The statistical significance of the interaction
term indicates whether the disease process (OSA) alters the age related decline in these
outcomes (i.e. assesses difference in the slopes under the two conditions). The
within-subject design should reduce variance and increase power. Assuming that a suitable
convenient control group can be assembled in Rochester MN, the investigators will
additionally construct between-subject mixed models where the disease effect will be
untreated OSA versus normal controls, and the treatment effect will compare treated OSA
versus normal controls. The former will affirm disease effects and the latter whether
treatment for 3 months with CPAP fully reverses deficits to normality.
Power Analysis: Preliminary data suggest that untreated OSA attenuates testosterone
feedback, resulting in impaired unleashing of LH pulse. Under ketoconazole castration, the
correlation between LH pulse frequency and age in normal men is -0.50. A sample size of 16
men has 80% power with two-tailed á=0.05 to detect an attenuation of this correlation by
1.00. By way of comparison, the investigators observed a one-third greater attenuation of
correlation of 1.35. Hence, power is adequate. This estimate is conservative since the
within-subject study design, which reduces variability, was not incorporated and the
ketoconazole-induced testosterone depletion paradigm to assess pituitary function should
further sharpen age regressions as the variability of each individual's blood testosterone
concentration is reduced. The latter has been verified in normal men, and should also be
true in men with OSA.
Outcomes: To appraise GnRH outflow (Aim 1), the response variable is the
ganirelix-suppressed (analytically reconstructed) basal LH secretion. To assess gonadotrope
responsiveness, the pertinent end point is the mass of LH secreted following the exogenous
GnRH stimulus. The degree of feedback unleashing is inferred by the degree of elevation of
LH pulse frequency elicited by androgen withdrawal (Aim 2). And, Leydig-cell sensitivity is
defined by analytical reconstruction of rate of testosterone secretion achieved in response
to the last two of six (pseudosteady-state) pulses of recombinant human LH (Aim 3).
Other Outcomes: GnRH outflow will be reconstructed and simultaneously calculate hypothalamic
and pituitary testosterone feedback, as previously described. These data can be analyzed by
mixed model as described in statistical analysis (before). Pulsatile LH secretion aligns
with slow wave sleep at the onset of puberty, implicating sleep architecture in the timing
of puberty. The investigators will perform the same analysis described, by comparing (by
Student's t-test) the proportion of LH pulses that occur during slow wave versus non-slow
wave sleep, normalized for the amount of time spent in each sleep stage. The final
additional outcome will be to examine total testosterone secretion overnight during the
control condition in the first phase of the study, separately and after combining with
findings from the original 18 men described in preliminary data.
Anticipated and Alternate Results: It is expected to be showed that OSA impairs testosterone
feedback (i.e. pituitary dysfunction), specifically that androgen depletion (Aim 2), will
increase LH pulse frequency and reduce basal LH secretion. Although It is postulated that
reduced basal LH secretion is due to attenuated testosterone feedback at the pituitary, an
unexpected but plausible alternate finding would be that altered GnRH outflow is responsible
- which It is assessed in Aim 1 by graded GnRH receptor blockade. Additionally, due to
recent analytical innovations, the investigators can also reconstruct hypothalamic versus
pituitary feedback effects of testosterone (Aim 2) whilst simultaneously assessing GnRH
outflow (Aim 1). This is particularly pertinent since preliminary data of brain permeant
versus brain impermeant androgen receptor blockade suggests specific brain effects. Specific
brain effects are plausible because the intermittent hypoxia of OSA is already known to
alter neurocognition. Another inexplicable finding is that the relative reduction in LH with
OSA seems to be greater than the corresponding fall in testosterone, which might suggest
relatively enhanced Leydig cell responsiveness. Indeed, intermittent hypoxia increases
testosterone production from primary rat Leydig cell cultures in response to human chorionic
gonadotropin (hCG), but the effect of OSA on testicular steroidogenesis in humans is not
known. Aim 3 will address this possibility for the first time using a physiological rh LH
probe. Testosterone secretion is expected to increase with CPAP. If it does not, in the
presence of preserved or enhanced Leydig cell responsiveness to rh LH (Aim 3), then this
would motivate a future longer duration study of CPAP.
Potential Problems and Alternate Strategies: the investigators do not anticipate recruitment
problems since our study requires enrolling a single individual each month for 16 months,
however recruitment could be broadened to the Westwood and other UCLA-affiliated clinics, if
needed. If the cross-over design proves problematic, then the investigators can convert to a
3 month parallel group study of 32 men without loss of power. The study includes a run-in
period wherein CPAP compliance will be monitored by direct CPAP machine download and
subjects excluded if non-compliant, since intensive endocrine testing is not performed until
after 3 months of established therapy. Our study is not dependent upon being able to include
a convenient control group where each control is within ±2.5 years and ±2.5 kg/m2 of each
case. Finding 16 controls from the 100 men aged 18-80 years, with BMI of 18-35 kg/m2 and
without significant illnesses (including diabetes mellitus) being identified should be
possible. If not, the investigators will loosen the matching criteria (by doubling intervals
to ±5.0 years or kg/m2), and simultaneously match 2 controls for every case. A further
problem might be if LH and testosterone assays are not aligned, however the investigators
will test this directly by assaying a single pooled sample from each individual (16 men in
total) for testosterone by tandem mass spectroscopy and for LH by immunoassay and against
external standards to ensure comparability.
Inclusion Criteria:
- Men aged 30-70 years
- Moderate to severe OSA defined as an apnea hypopnea index (AHI) ≥20 events/h and an
oxygen desaturation index 3% ≥15 events/h.
- BMI of 30-35 kg/m2.
- Stable weight over preceding 6 weeks
- Not previously successfully treated with CPAP
- Living in the community
Exclusion Criteria:
- Unable or unwilling to provide written Institutional Review Board (IRB) -approved
informed consent.
- Severe OSA requiring immediate CPAP treatment (severe OSA defined as AHI >80 events/h
or minimum oxygen saturation <85%
- Excessive sleepiness in relation to the subject's occupation which thereby increases
their associated risk in the physician's judgement (e.g. truck driver or transport
worker)
- Sleepiness-related automobile accident in previous 12 months
- Diabetes mellitus (historically or based on screening Hemoglobin A1c >6.5%)
- Patients with severe renal or hepatic impairment, in the judgement of the
investigator. This may include patients with evidence of active liver disease (levels
of aspartate aminotransferase (AST), alanine aminotransferase (ALT) and/or alkaline
phosphatase >2x the upper limit of the normal range (ULN) and patients with impaired
renal function as evidenced by a creatine value > 1.2x ULN.
- Any chronic medical conditions likely, in the judgment of the investigator, that
makes the patient unable to complete the study safely, or otherwise unsuitable for
the study or that may interfere with or influence study treatment.
- Blood donation in the previous 8 weeks.
- Shift workers or patients with an irregular sleep/wake routine.
- Recent transmeridian travel (>3 time zones in last 10 days).
- Use of psychoactive medications (within 5 biological half-lives of enrollment)
[acetaminophen, laxatives, antacids, thiazide diuretics, ACE inhibitor, and
ophthalmic or skin ointments are allowable]
- Recent or concurrent drug or alcohol abuse
- Psychiatric illness under treatment
- Anemia (hematocrit < 38%)
- Major organ-system disease (pulmonary, gastrointestinal, cardiac, hepatic, renal,
endocrine, metabolic or hematological)
- Acute or chronic inflammatory illness; AIDS and/or use of AIDS-related antiviral
medications; profound fatigue or significant personal stress
- Unoperated obstructive uropathy, recurrent prostatitis, indeterminate prostatic
nodularity, history or suspicion of cancer of the prostate gland or screening serum
prostatic specific antigen (PSA) concentration > 4 ng/mL
- Allergy to any proposed study medication
- Other endocrine abnormalities including hypothyroidism or adrenal failure; primary
gonadal disease as indicated by serum LH or follicle stimulating hormone (FSH)
concentration > 10 or > - IU/L, respectively, hyperprolactinemia indicated by
prolactin > 25 μg/L
- Administration of testosterone or anabolic steroids
- Concurrent participation in another research study
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