Clinical Trials Logo

Clinical Trial Details — Status: Not yet recruiting

Administrative data

NCT number NCT02719093
Other study ID # CHIRURGIAANDROLOGICA-1
Secondary ID
Status Not yet recruiting
Phase Phase 4
First received December 12, 2015
Last updated March 20, 2016
Start date July 2016
Est. completion date December 2017

Study information

Verified date March 2016
Source U.O. Chirurgia Andrologica
Contact Maurizio Carrino
Phone +393347967341
Email cris63@libero.it
Is FDA regulated No
Health authority Italy: Ministry of Health
Study type Interventional

Clinical Trial Summary

Two common SNPs are located in linkage disequilibrium in exon 10 of FSHR. The 2039 A>G variant is regularly analyzed to characterize the exon 10 haplotype. In the last years, it has been showed an influence of FSHR 2039 A>G on FSH levels, testicular volume, sperm concentration and the total sperm count. A recent Cochrane review showed a beneficial effect on live birth and pregnancy of gonadotrophin treatment for men with idiopathic male factor subfertility. Which FSHR polymorphism can benefit from FSH treatment is clinically very important, in particular for what regards nonidiopathic patients. In many andrological units, patients underwent adiuvant therapy with purified or recombinant FSH after varicocelectomy. FSH treatment in patients after varicocelectomy could improve spermatogenesis, but there aren't multicentric trials that confirm its validity. Usually, in our hospital only patients with a morphologic aspect of hypospermatogenesis underwent therapy with purified or recombinant FSH, because this therapy is not much useful in patient with Partial Sertoli-cell-only syndrome or maturation arrest. The purpose of our study is to correlate "non responder" patients who underwent FSH adiuvant therapy after varicocele surgery with a p.N680S FSHR polymorphism. Moreover the investigators suppose that "non responder" patients can beneficiate from a high-dose therapy with FSH. This is a prospective intervention study in which are recruited males with OligoAstenoTeratozoospermic (OAT) and varicocele. The partecipants will undergo subinguinal microsurgical varicocelectomy (Marmar technique) and needle aspiration testicular cytology (Foresta technique).


Description:

Two common SNPs (c.919 A>G, pT307A, rs 6165 and c.2039 A>G, p.N680S, rs6166) are located in linkage disequilibrium in exon 10 of FSHR. The 2039 A>G variant is regularly analyzed to characterize the exon 10 haplotype.

It is well known that follice-stimulating hormone (FSH) receptor (FSHR) polymorphism p.N680S mediates different responses to FSH in vitro, and this polymorphism is associated with the ovarian response in controlled ovarian hyperstimulation. In the last years, FSHR gene polymorphisms have been studied as potential risk factors for spermatogenetic failure. It is shown an influence of FSHR 2039 A>G on FSH levels and testicular volume. Trends of higher FSH and lower testicular volume were observed in G-allele carriers (Ala307/Ser680). Men homozygous for Thr307/Asn680 had a lower mean serum FSH concentration compared with men with other genotypes. In addition, sperm concentrations and the total sperm counts were higher and their testes volumes were larger. Another clinical study showed that the patients with heterozygous Thr/Ala + Asn/Ser combined genotype were 2.65 times more susceptible to infertility than the control group. It is also shown the higher sensitivity of the receptor in FSHR 2039 A>G AA homozygotes1-2. A recent Cochrane review showed a beneficial effect on live birth and pregnancy of gonadotrophin treatment for men with idiopathic male factor subfertility. These study suggest that the analysis of this gene represents a valid pharmacogenetic approach to the treatment of male infertility, confirming also the importance of strict criteria for the selection of patients to be treated with FSH. Which FSHR polymorphism can benefit from FSH treatment is clinically very important, in particular for what regards nonidiopathic patients. It is also relevant from a pharmacoeconomic point of view. In many andrological units, patients underwent adiuvant therapy with purified or recombinant FSH after varicocelectomy. FSH treatment in patients after varicocelectomy could improve spermatogenesis, but there aren't multicentric trials that confirm its validity. Usually, in our hospital only patients with a morphologic aspect of hypospermatogenesis underwent therapy with purified or recombinant FSH, because this therapy is not much useful in patient with Partial Sertoli-cell-only syndrome or maturation arrest. The purpose of our study is to correlate "non responder" patients who underwent FSH adiuvant therapy after varicocele surgery with a p.N680S FSHR polymorphism. Moreover the investigators suppose that "non responder" patients can beneficiate from a high-dose therapy with FSH.

This is a prospective intervention study in which are recruited males with OligoAstenoTeratozoospermic (OAT) and varicocele. The partecipants will undergo subinguinal microsurgical varicocelectomy (Marmar technique) and needle aspiration testicular cytology (Foresta technique). One-hundred patients with a morphologic aspect of hypospermatogenesis at testicular cytology will take recombinant follitropin alfa 150UI i.m. 3 times/week for at least three month. At 3th month the partecipants will have a semen analyses, without interrupting the treatment, and the FSHR gene polymorphism p.N680S characterization with PCR in high resolution melting HRM from DNA extracted by a simple blood sample. Patients who will have a significative increase in at least two parameters of semen, will be considered "responders" while patients in which semen parameters will not improve or worsen will be considered "non responders". "Responders" patients will interrupt their therapy and will have a new semen analyses at six month to verify the maintenance of their semen parameters after only three months of therapy. "Non responders" patients will take a daily dose of rFSH 150 UI for additional three months, because the investigators suppose that men with specific polymorphisms who don't response to therapy need an higher dose to stimulate spermatogenesis and to have a spontaneous pregnancy. At 6th month also these patients will have a new semen analyses in order to verify if there are some improvements in their spermatogenesis.


Recruitment information / eligibility

Status Not yet recruiting
Enrollment 100
Est. completion date December 2017
Est. primary completion date July 2017
Accepts healthy volunteers No
Gender Male
Age group 18 Years to 35 Years
Eligibility Inclusion Criteria:

- OligoAstenoTeratozoospemic patient: Spermatozoa < 15 x 106/ml, Motility < 32%, <4% normal forms

Exclusion Criteria:

- Medications and psychoactive or anabolic drugs in last six months.

- Alcohol abuse in last three months.

- Systemic disease(liver cirrhosis, renal failure or others).

- Exposure to pelvic radiation, cytotoxic agent or exposure to environmental toxins.

- Testicular dysgenesis, cryptorchidism or genetic abnormalities (karyotype, Y-chromosome deletions)

- No trauma, testicular torsion, previous orchitis, previous testicular tumors, surgery that can compromise vascularisation of the testes and lead to testicular atrophy, cryptorchidism or genitourinary infection in last one year.

Study Design

Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment


Related Conditions & MeSH terms


Intervention

Drug:
recombinant FSH
Subcutaneous injection

Locations

Country Name City State
n/a

Sponsors (2)

Lead Sponsor Collaborator
U.O. Chirurgia Andrologica Androcenter, Napoli, Italy

References & Publications (2)

Casarini L, Moriondo V, Marino M, Adversi F, Capodanno F, Grisolia C, La Marca A, La Sala GB, Simoni M. FSHR polymorphism p.N680S mediates different responses to FSH in vitro. Mol Cell Endocrinol. 2014 Aug 5;393(1-2):83-91. doi: 10.1016/j.mce.2014.06.013. — View Citation

Tüttelmann F, Laan M, Grigorova M, Punab M, Sõber S, Gromoll J. Combined effects of the variants FSHB -211G>T and FSHR 2039A>G on male reproductive parameters. J Clin Endocrinol Metab. 2012 Oct;97(10):3639-47. doi: 10.1210/jc.2012-1761. Epub 2012 Jul 12. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Total sperm count Response to therapy indicated by significant increase in sperm count (million/ejaculate) according to WHO Laboratory Manual for the Examination and Processing of Human Semen (5th edn.) After subinguinal microsurgical varicocelectomy and therapy with recombinant follitropin alfa 150UI i.m. 3 times/week for three months No
Primary Sperm concentration Response to therapy indicated by significant increase in sperm concentration (million/mL) according to WHO Laboratory Manual for the Examination and Processing of Human Semen (5th edn.) After subinguinal microsurgical varicocelectomy and therapy with recombinant follitropin alfa 150UI i.m. 3 times/week for three months No
Primary Total motility Response to therapy indicated by significant increase in total motility (%) according to WHO Laboratory Manual for the Examination and After subinguinal microsurgical varicocelectomy and therapy with recombinant follitropin alfa 150UI i.m. 3 times/week for three months No
Primary Progressive motility Response to therapy indicated by significant increase in progressive motility (%) according to WHO Laboratory Manual for the Examination and After subinguinal microsurgical varicocelectomy and therapy with recombinant follitropin alfa 150UI i.m. 3 times/week for three months No
Primary Sperm morphology (normal forms) Response to therapy indicated by significant increase in sperm morphology (normal forms) (%) according to WHO Laboratory Manual for the Examination and After subinguinal microsurgical varicocelectomy and therapy with recombinant follitropin alfa 150UI i.m. 3 times/week for three months No
Secondary Total sperm count Response to therapy indicated by significant increase in sperm count (million/ejaculate) according to WHO Laboratory Manual for the Examination and After a daily dose of rFSH 150 UI for additional three months in "non responders" patients to the first three months of therapy with recombinant follitropin alfa 150UI i.m. 3 times/week No
Secondary Sperm concentration Response to therapy indicated by significant increase in sperm concentration (million/mL) according to WHO Laboratory Manual for the Examination and After a daily dose of rFSH 150 UI for additional three months in "non responders" patients to the first three months of therapy with recombinant follitropin alfa 150UI i.m. 3 times/week No
Secondary Total motility Response to therapy indicated by significant increase in total motility (%) according to WHO Laboratory Manual for the Examination and After a daily dose of rFSH 150 UI for additional three months in "non responders" patients to the first three months of therapy with recombinant follitropin alfa 150UI i.m. 3 times/week No
Secondary Progressive motility Response to therapy indicated by significant increase in progressive motility (%) according to WHO Laboratory Manual for the Examination and After a daily dose of rFSH 150 UI for additional three months in "non responders" patients to the first three months of therapy with recombinant follitropin alfa 150UI i.m. 3 times/week No
Secondary Sperm morphology (normal forms) Response to therapy indicated by significant increase in sperm morphology (normal forms) (%) according to WHO Laboratory Manual for the Examination and After a daily dose of rFSH 150 UI for additional three months in "non responders" patients to the first three months of therapy with recombinant follitropin alfa 150UI i.m. 3 times/week No
See also
  Status Clinical Trial Phase
Active, not recruiting NCT04142112 - Randomized, Standard-Controlled, Study to Evaluate the Ohana IVF Sperm Preparation Kit, SPeRtility IVF Next Generation N/A
Recruiting NCT04955782 - Abstinence Period and Semen Quality
Recruiting NCT05506722 - Using of Testes Shocker in Improving the Spermatogenesis and Sperms Activity N/A
Not yet recruiting NCT03988361 - Selection of Non Apoptotic Human Sperm for in Vitro Fertilization by Using Magnetic Activated Cell Sorting (MACS)
Completed NCT03319654 - Impact of DNA Fragmentation in Sperm on Pregnancy Outcome After Intra-uterine Insemination in a Spontaneous Cycle N/A
Not yet recruiting NCT05597631 - G-IVF and Sperm Parameters N/A
Completed NCT05919186 - Effects of Antioxidant Supplementation of Culture Media on IVF Embryos N/A
Recruiting NCT03588949 - Role of Nutritional Support in Idiopathic Male Infertility N/A
Recruiting NCT03527043 - Impact of Escitalopram on Sperm DNA Fragmentation Phase 2
Completed NCT02932865 - Modern Analyses of the Semen in Evaluating Male Fertility and Treatment Options of Male Infertility
Completed NCT02310087 - Oral Astaxanthin and Semen Quality, Fertilization and Embryo Development in Assisted Reproduction Techniques Procedures N/A
Completed NCT00385346 - Expressive Writing in Male Infertility N/A
Completed NCT04509583 - The Role of Micro Nutrient Supplement in Improvement of the Sperm DNA Fragmentation N/A
Recruiting NCT04144244 - Comparison of the Effect of Microchip and Density Gradient Methods in Intrauterine Insemination Cycles N/A
Recruiting NCT04452305 - Spermatogonial Stem Cell (SSC) Transplant and Testicular Tissue Grafting N/A
Completed NCT05461079 - Sperm Phenotype and Differentially Methylated Regions
Recruiting NCT05205733 - Expanding Fertility Care to Poor and Low Resourced Settings Study N/A
Completed NCT03960229 - The Evaluation of the Effect of Microfluidic Sperm Sorting Chip 'Labs-on-a-chip' on IVF Success in Male Factor N/A
Not yet recruiting NCT06050031 - Level of DNA-fragmentation Before and After Antioxidant-based Therapies in Male Infertility
Not yet recruiting NCT03090438 - IVF Outcomes After Varicocele Repair N/A