Testosterone Therapy and Bone Quality in Men With Diabetes and Hypogonadism

  • STATUS
    Recruiting
  • End date
    Sep 30, 2025
  • participants needed
    166
  • sponsor
    VA Office of Research and Development
Updated on 27 February 2022
diabetes
body mass index
androgens
fasting
testosterone
testosterone level
malnutrition
testosterone gel
sugars
androgen deficiency

Summary

Low testosterone and diabetes mellitus are each associated with increased risk for fractures. Men with diabetes mellitus are commonly found to have low testosterone as well. Testosterone has been shown to improve the bone health of patients with low testosterone but has not been tested in patients who also have diabetes mellitus in addition to low testosterone. To date, there is no treatment that is specifically recommended for bone disease among patients with diabetes. This study will evaluate the effect of testosterone on the bone health of male Veterans who have both diabetes and low testosterone, both of which are highly prevalent in this subset of the population.

Description

An existing mutual influence between testosterone (T) and glucose metabolism has been suggested by studies showing that men with low T have impaired glucose tolerance, while a significant number of men with type 2 diabetes mellitus (T2D) and obesity have low T. Thus, it is not surprising that as much as 64% of men with T2D were found to have low T. Hypogonadism and diabetes mellitus (DM) each is associated with increased risk for fractures. While hypogonadism is associated with increased bone turnover and bone loss. DM is associated with low bone turnover and normal or high bone mineral density (BMD) but paradoxically a high risk for fractures. The preliminary data showed that compared to non-diabetic hypogonadal men, men with both conditions have suppressed bone turnover, higher volumetric BMD (vBMD) and smaller bone size. As the effect of T on the male skeleton is mainly mediated by its conversion to estradiol (E2) by the enzyme aromatase, the possibility of further suppression of bone turnover with T therapy in these patients would be a concern. However, the investigators' initial data also showed that T therapy in men with both conditions resulted in increased in markers of bone turnover and bone size compared to the decrease in bone turnover and decrease in bone size in men with hypogonadism only, suggesting activation in bone remodeling and improvement in bone geometry in the former. Furthermore, the investigators also found a trend for increase in bone strength (by finite element analysis or FEA) in the limited number of men with both low T and T2D randomized to T compared to placebo. These findings only suggest but do not prove with certainty that T therapy would be beneficial to men with both low T and T2D. The central hypothesis of this study is that T therapy will result in improvement in bone quality in patients who have both hypogonadism and T2D. Thus, the specific aims of this proposal are: 1) to determine the effect of T therapy on bone strength as assessed by finite element analysis ( FEA) using high-resolution peripheral quantitative computer tomography (HR-pQCT), 2) to determine the effect of T therapy on markers of bone turnover, and 3) an exploratory aim, to evaluate the mechanism for improvement in bone quality from T therapy. The investigators hypothesize that because T stimulates osteoblastic proliferation and differentiation, the ensuing increase in osteoblast number will lead to an enhanced cross-talk between osteoblast and osteoclast resulting in activation of bone remodeling and replacement of old with new bone, hence, improvement in bone quality. In this study the investigators will enroll 166 men with T2D and hypogonadism and randomize them to either testosterone gel 1.62% or placebo for 12 months.

The following main outcomes will be evaluated: aim# 1) change in the primary endpoint which is FEA, by HRpQCT, #2) changes in C-telopeptide (CTX) a marker of bone resorption, and aim #3) changes in circulating osteoblast progenitor (COP). The investigators anticipate an increase in FEA at the tibia and radius suggesting improvement in bone strength, increase CTX and increase in circulating osteoblast progenitors. The investigators further anticipate an increase in other markers of bone turnover (both bone formation and resorption) and osteoclast precursors in men with hypogonadism and T2D randomized to T compared to placebo. Given the suppressed bone turnover at baseline in men with low T and T2D, the investigators hypothesize that the beneficial effect of T is its effect in activating bone remodeling ultimately resulting in improvement in bone quality.

Results from this study will provide information on the utility of T not only in improving quality of life but also in improving bone quality in hypogonadal men with T2D. Given the relationship between glucose metabolism and testosterone production, and the increasing number of male patients diagnosed with both hypogonadism and T2D, this study will benefit not only the significant number of male Veterans who have both conditions but also men in general.

Details
Condition Type 2 Diabetes Mellitus, Hypogonadism
Treatment Placebo, Testosterone gel 1.62%
Clinical Study IdentifierNCT03887936
SponsorVA Office of Research and Development
Last Modified on27 February 2022

Eligibility

Yes No Not Sure

Inclusion Criteria

Male veterans only
to 65 years old
With an average fasting morning T level from 2 measurements of <300 ng/dl taken at least a day apart
symptoms of hypogonadism as assessed using the androgen deficiency in aging male (ADAM) questionnaire
Participants should have
T2D
an A1C of <10.5 %
a fasting blood sugar of 180 mg/dl
body mass index (BMI) <35 kg/m2
with DM of 15 years duration or less to target men who have relatively less complications from long-term DM

Exclusion Criteria

history of prostate or breast cancer
history of testicular disease
untreated severe sleep apnea
ongoing illness that could prevent the subject from completing the study
a hematocrit of >50%
prostate-related findings as
a palpable prostate nodule on digital rectal exam (DRE)
serum PSA of 4.0 ng/ml
International Prostate Symptom Score (IPSS) >19 (severe)
on androgen therapy or selective androgen receptor modulators
on medications that affect bone metabolism such as
estrogen
selective estrogen receptor modulator as
raloxifene
aromatase inhibitors
GnRH analogs
glucocorticoids with prednisone equivalent of least 5 mg daily for 1 month
anabolic steroids
phenobarbital and Dilantin
use of bisphosphonates within two years of study entry, i.e
risedronate
alendronate
zoledronic acid
pamidronate
diseases that interfere with bone metabolism, as
hyperparathyroidism
untreated hyperthyroidism
osteomalacia
chronic liver disease
renal failure
hypercortisolism
malabsorption
immobilization
current alcohol use of > 3 drinks/day
those with a history of
deep vein thrombosis
pulmonary embolism
stroke or recent diagnosis of coronary artery disease
because of the potential of being randomized to placebo, subjects with osteoporosis or
spine
a BMD T-score by DXA of -2.5 in the lumbar spine, total femur or femoral neck
hip
and those with a history of fragility fractures
wrist
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