30 research outputs found
Efficacy and Safety of an Injectable Combination Hormonal Contraceptive for Men
CONTEXT:
The development of a safe and effective reversible method of male contraception is still an unmet need.
OBJECTIVE:
Evaluation of suppression of spermatogenesis and contraceptive protection by coadministered im injections of progestogen and testosterone.
DESIGN:
Prospective multicentre study.
SETTING:
Ten study centers.
PARTICIPANTS:
Healthy men, aged 18-45 years, and their 18- to 38-year-old female partners, both without known fertility problems.
INTERVENTION:
Intramuscular injections of 200-mg norethisterone enanthate combined with 1000-mg testosterone undecanoate, administered every 8 weeks.
MAIN OUTCOMES MEASURES:
Suppression of spermatogenesis by ejaculate analysis, contraceptive protection by pregnancy rate.
RESULTS:
Of the 320 participants, 95.9 of 100 continuing users (95% confidence interval [CI], 92.8-97.9) suppressed to a sperm concentration less than or equal to 1 million/mL within 24 weeks (Kaplan-Meier method). During the efficacy phase of up to 56 weeks, 4 pregnancies occurred among the partners of the 266 male participants, with the rate of 1.57 per 100 continuing users (95% CI, 0.59-4.14). The cumulative reversibility of suppression of spermatogenesis after 52 weeks of recovery was 94.8 per 100 continuing users (95% CI, 91.5-97.1). The most common adverse events were acne, injection site pain, increased libido, and mood disorders. Following the recommendation of an external safety review committee the recruitment and hormone injections were terminated early.
CONCLUSIONS:
The study regimen led to near-complete and reversible suppression of spermatogenesis. The contraceptive efficacy was relatively good compared with other reversible methods available for men. The frequencies of mild to moderate mood disorders were relatively high
Styrene maleic acid recovers proteins from mammalian cells and tissues while avoiding significant cell death.
Detection of protein biomarkers is an important tool for medical diagnostics, typically exploiting concentration of particular biomarkers or biomarker release from tissues. We sought to establish whether proteins not normally released by living cells can be extracted without harming cells, with a view to extending this into biomarker harvest for medical diagnosis and other applications. Styrene maleic acid (SMA) is a polymer that extracts nanodiscs of biological membranes (containing membrane proteins) from cells. Hitherto it has been used to harvest SMA-lipid-membrane protein particles (SMALP) for biochemical study, by destroying the living cellular specimen. In this study, we applied SMA at low concentration to human primary cardiovascular cells and rat vascular tissue, to 'biopsy' cell proteins while avoiding significant reductions in cell viability. SMA at 6.25 parts per million harvested proteins from cells and tissues without causing significant release of cytosolic dye (calcein) or reduction in cell viability at 24 and 72 hours post-SMA (MTT assay). A wide range of proteins were recovered (20-200 kDa) and a number identified by mass spectrometry: this confirmed protein recovery from plasma membrane, intracellular membranes and cell cytosol without associated cell death. These data demonstrate the feasibility of non-lethally sampling proteins from cells, greatly extending our sampling capability, which could yield new physiological and/or pathological biomarkers
Germ cell death and their removal during initial stages of testicular ischemia and cryptorchidism: A comparative analysis
1080-1087Germ cell death and their removal from
the seminiferous epithelium are common in the affected testis in conditions of unilateral
ischemia or cryptorchidism; the similarities and differences, however, have not
been studied between these two conditions. The present study was designed to
examine the severity of the effect on testicular germ cells during the initial
stages of both ischemia and
cryptorchidism, which have significant implications on the restoration of
fertility following surgical repair. Complete absence of spermatids was observed
following 12 hr of ischemia as compared to 7 days of cryptorchidism. Germ cell
removal in either case was in the direction of lumen to basement membrane
leaving only a single layer of cells by 24 hr of unilateral ischemia as
compared to 15 days of cryptorchidism. Levels of intratesticular testosterone was
found lower in cryptorchidism (7 days) but not in ischemia till 24 hrs. Giant
cells frequently observed in cryptorchid testis were absent in the ischemic seminiferous
epithelium. There was a gradual increase in the number of apoptotic and non-viable
cells; the latter was more than 95% by 24 hr of ischemia. In contrast,
approximately 85% testicular cells were nonviable till IS days of
cryptorchidism. The 1c peak representing the population of haploid cells was
significantly reduced in cryptorchidism (7 days), while the peak was completely
abolished by 24 hr of ischemia. Rise in the levels of oxidative stress in the
affected testis was observed identically during the initial stages. These
findings indicate that coupled with the rise in tissue oxidative stress, the
number of apoptotic /nonviable germ cells was alarmingly high (>80%) by IS
days of cryptochidism or 24 hr of ischemia. Restoration of complete
spermatogenesis following surgical repair may not be possible in such cases
because of these acute adverse effects
A quick guide to survey research
Many thanks for your interest in our article. We agree on the
issue of multimodal surveys and, certainly, for non-responders, a multimodal survey is a good tool. The other points
mentioned in your letter have already been covered in our
article. Finally, we do not agree on the issue of surveys being time consuming but not expensive. Somebody is paying
for the time
Protective role of cyclosporine in experimental unilateral blunt testicular trauma: evaluation by <SUP>31</SUP>P MR spectroscopy
Magnetic resonance (MR) imaging is a useful tool to study the anatomy of the testis while <SUP>31</SUP>P magnetic resonance spectroscopy (MRS) provides a non-invasive alternative method to demonstrate the metabolic status of testes. This study was designed to test whether the protective role of cyclosporine in experimental unilateral blunt testicular trauma (UBTT) could be assessed by <SUP>31</SUP>P MRS. Male Wistar rats ( n=30) aged 20 days were randomised into group I (sham surgery), group II (UBTT) and group III (UBTT and cyclosporine for 7 days). Contralateral testicles of 5 rats from each group was evaluated by <SUP>31</SUP>P MRS at 30 and 60 days of age and phosphomonoesters (PM), phosphodiesters (PD), and adenosine triphosphate (ATP) levels were measured. At 60 days of age the PM/ATP ratio was 0.32±0.08 in group I whereas it was 0.68±0.31 in the group II ( p < 0.05). Group III rats showed PM, PD and PM/ATP ratios similar to the controls. In conclusion, it is observed that UBTT causes contralateral testicular damage which could be prevented by short-term cyclosporine treatment and <SUP>31</SUP>P MRS is an excellent modality for such an evaluation
Differential response of testis and serum gonadotropins to testosterone in rats treated with a gonadotropin releasing hormone antagonist or estradiol 17 beta
Adult rats treated with a GnRH antagonist (Ac D2Nal1, D4Cl Phe2, DTrp3, DArg6, DAla10 GnRH; code: 103-289-10, National Institutes of Health, USA) for 5 weeks (250 micrograms/kg b.w) showed multiple degrees of impairment and atrophy of the genital organs concomitant with decreased serum levels of testosterone, LH and FSH. Inhibition of spermatogenesis was characterized by germ cell degeneration and overall decline in different cell numbers and in particular, spermatids of any kind were completely absent. Testosterone supplementation (60 micrograms/rat/day, sc) to GnRH antagonist treated rats, for the same period, significantly elevated the weights of the sex organs, and the serum levels of hormones. Spermatogenesis was improved both qualitatively and quantitatively; albeit failed to be restored back to control levels. Treatment with estradiol 17 beta (1 microgram/rat/day) for 5 weeks had insignificant effect on spermatogenesis but the weights of the genital organs (seminal vesicles by 19% and ventral prostate by 40%) and the levels of serum hormones (LH by 24%, FSH 22% and testosterone by 25%) were otherwise reduced. Administration of testosterone either alone or in combination with estradiol 17 beta had only a marginal effect on spermatogenesis or on other reproductive parameters. The results indicate a positive shift in the response of the testis and serum levels of gonadotropins to testosterone supplementation in rats treated with either GnRH antagonist or estradiol 17 beta
Synthesis and biological evaluation of l-acetyl-3-(2-acetoxy-3-substituted propyloximino) indol-2(3<i>H</i>)-ones
971-9751-Acetyl 3-oximino-indol-2
(3H)-one 2 on reaction with epichlorohydrin in acetone gave l-acetyl-3-(2,
3-epoxy propyloximino) indol-2(3H)-one 3, which, on subsequent reaction
with piperidine, pyrolidine, dicyclohexyl amine, diphenyl amine gave corresponding
Mannich base 4, which on acetylation furnishes 5a-e. All these
synthetic compounds 2, 3 and 5a-e are
screened for their
anti-microbial action, gross behavioral, toxicity, antagonism of tetrabenazine induced
ptosis, inhibition of pentobarbitone-induced narcosis and effect on blood
presure and respiration rate in suitable experimental models. Test compouds
2, 3
and 5a-e reduce MIC against B. substilis, E. coli, and C. albicans.Further,
these compounds inhibit tetrabenazine induced ptosis in mice, of which except
compound 2, all shows a ptosis score of 2 at the end of 150 and 210
min. In the test of inhibition of pentobarbitone induced narcosis all compounds
except compound 2 possess a significant decrease in sleeping time. All test
compounds inhibit the histamine-induced fall in blood pressure except compound 2.
Test compounds 5a-e have a negligible skeletal muscle contraction effect
when tested on frog's rectus abdominus muscl
Effect of STS-557 (17α-cyanomethyl 17β-hydroxy-estra-4, 9(10)-dien-3-one) on blood hormone levels, the testis, accessory sex organs and fertility of rats
Treatment with STS-557 (17α-cyanomethyl 17β-hydroxy-estra-4,9(10)-dien-3-one; 10 mg kg-1 daily s.c.) for 4 weeks induced atrophy of the seminiferous tubules in adult rats with a reduction in tubule diameter and in the number of round sperma-tids at stage VII. Elongated spermatids were not detected. Leydig cells were atrophied from the second week of treatment with a concomitant decrease in blood levels of testosterone. The blood levels of FSH and LH were reduced from the third week of treatment. The weight of the reproductive organs was reduced after STS-557 treatment. The treatment induced sterility in 50% of rats after 2 weeks of treatment but after 4 weeks none of the treated males mated. Normal fertility and normal levels of testosterone and FSH were restored after 6 weeks and LH after 4 weeks of withdrawal of treatment. All other parameters studied recovered to pretreatment levels 6 weeks after withdrawal of treatment. STS-557 could act on the pituitary-gonadal axis (reducing gonadotrophin secretion) as well as directly affecting the Leydig cells. The consequent reduction in the blood levels of testosterone in combination with reduced gonadotrophins was presumably responsible for the suppression of spermatogenesis