Male Infertility Clinical Trial
Official title:
Relationship Between Nitric Oxide (NO) in Follicular Fluid and Sperm Fertilization Ability
Several studies indicate that Nitric Oxide (NO) plays an important role in the physiology of
the reproductive system in mammals. It has been shown that NO affects sperm motility, it
regulates the tyrosine phosphorylation of different sperm proteins, it enhances the sperm
binding ability to the zona pellucida and it modulates the acrosome reaction.
The enzyme responsible for NO synthesis, the Nitric Oxide Synthase (NOS), has also been
identified in the oocytes, cumulus and corona cells, as well as in the oviduct. For these
reasons, the NOS presence at the fertilization site could be a key element to determine the
success of this process. Therefore, carrying out in vitro studies to better understand NO's
role in the fertilization process, especially in human sperm capacitation, could improve the
outcome of the Assisted Reproductive Techniques (ARTs) due to an improvement both in the
diagnosis of infertility and in the prognosis of treatment success.
This study is carried out in collaboration with the Animal Physiology Department from the
Veterinary Faculty (University of Murcia, Spain) and it is funded by the European Commission
under the Horizon 2020 Programme.
Main Objective:
Determine changes in the NOS expression and protein nitrosylation in fertile and infertile
patients, when adding L-Arginine, the substrate for NO synthesis, to the sperm capacitation
medium in the presence/absence of human follicular fluid (hFF).
Secondary Objectives:
1. Investigate if the effects of hFF on sperm capacitation are associated to NO levels in
the fluid.
2. Identify the correlation between NO levels in hFF and the clinical outcomes from ARTs.
METHODOLOGY
A. Population The population included in the study will comprise both semen donors and
couples attending the clinic IVI Murcia for a treatment of assisted reproduction via
techniques of in vitro fertilization.
B. Inclusion / exclusion criteria Depending on the objectives, both the population and
inclusion and exclusion criteria may vary.
Inclusion criteria Main Objective
To examine the modifications in the NOS expression as well as the protein nitrosylation
in fertile and subfertile patients. For this purpose, the following groups will be
recruited:
- a group of fertile males, such as the semen donors attending the clinic IVI Murcia;
- a group of subfertile males composed of patients, who attend the clinic IVI Murcia
to undergo an in vitro fertilization treatment and who possess one altered
spermiogram parameter, according to the WHO (2010) guidelines.
In order to reach the Secondary Objectives, couples who undergo an IVF or ICSI treatment
will be included.
Exclusion criteria Will be excluded couples who undergo preimplantation genetic
diagnosis, were diagnosed with repetitive abortion (three or more consecutive abortions
before week 20) or implantation failure (lack of pregnancy after three embryo transfers
with good quality embryos in women under 36 years of age or after two embryo transfers
in women over 36 years of age), as well as women over 40 years of age.
C. Sample size:
Since reference values for NOS expression are not available and since the variability of
the distribution of progressive spermatozoa is high, it has been determined that to
detect a difference of 20% with respect to the mean in a bilateral test, with a level of
significance of 5% and 80% of statistical power, 41 semen samples per group will be
necessary. A period of 24 months is estimated to reach the number of seminal samples.
D. Experimental design and interventions Biomedical research study with control group
(fertile semen donors) and experimental group (subfertile males)
Interventions:
Semen samples: will be obtained by masturbation after 2-7 days of sexual abstinence. All
samples will be analyzed according to WHO guidelines (2010). To avoid unnecessary visits
for the men included in the study, the semen sample will be requested during one of
their visits to the clinic.
Spermatozoa will be capacitated in the presence and absence of hFF. In a first set of
experiments, the hFF will be supplemented with L-Arginine and the NOS inhibitor L-NAME.
In another set of experiments the same supplementations to the capacitation medium will
be examined, but without using hFF.
A series of techniques such as Western blot, in situ nitrosylation and Biotin Switch
Assay will be used to determine any changes in the NOS expression and protein
nitrosylation in spermatozoa. The Western blot technique will also be applied to
evaluate other capacitation markers such as the Protein Kinase A (PKA) activity,
tyrosine phosphorylation and tyrosine nitration. The same treatment will be performed on
all semen samples regardless of whether they come from patients or from semen donors. IN
NO CASE WILL THESE SEMEN SAMPLES BE USED TO PERFORM AN ASSISTED REPRODUCTION TREATMENT.
Human follicular fluid samples:
To study the correlation between the NO concentration in follicular fluid and the
success of the assisted reproduction treatment, the follicular fluid samples will be
obtained during the oocyte pick up procedure. After oocyte removal, these fluids are
normally eliminated, but in this case the fluids will be centrifuged for 10 minutes at
2000g and stored at -20°C until evaluation.
The NO concentration will be determined with the help of a commercially available
measurement system. NO is rapidly oxidized into two stable ions, namely nitrite and
nitrate, which can be assayed by using ions selective electrodes. These electrodes have
been miniaturized to be able to measure samples down to 30-40 µl with detection limits
down to the low µM range for both species.
The Western blot and protein nitrosylation assays will be performed inside the Animal
Physiology laboratory, at the University of Murcia (Faculty of Veterinary Medicine).
It should be noted that the only objective of analyzing the follicular fluid is to
investigate after the assisted reproduction treatment if there is any correlation
between the result of the treatment and the NO levels. Under no circumstances will
embryo transfer decisions be made based on the NO levels in the follicular fluid.
E. Collection of biological samples Sperm and follicular fluid samples will be evaluated
in the present study.
- Purpose of sample collection The samples collected in the present study will only
be used for the completion of the research project. To each biological sample a
code will be assigned, which will be independent from the NHC code (number of
clinical history) of the patients and will only be known by the research team. Dr.
Juan Carlos Martínez Soto will be responsible for the storage and safekeeping of
the biological samples.
- Method for sample collection The biological samples will only be obtained once the
patient has signed the corresponding informed consent. The seminal samples will be
obtained by masturbation after 2-7 days of sexual abstinence. To avoid unnecessary
displacements, the sample collection will take place during the visit of the
patient to the clinic.
The follicular fluid samples will be obtained on the day of the oocyte pick up procedure
performed for the in vitro fertilization treatment that the patients will follow. This
fluid, which is normally discarded, will be used only to determine NO values.
Obtaining this follicular fluid does not pose any additional risk or discomfort to those
caused by the reproduction treatment, since the surgical procedure of oocyte pick up is
used to obtain the follicular fluid.
- Method for sample identification The semen and follicular fluid samples will be
identified in a way which will allow to safeguard the identity of the participants.
- Sample conservation Both seminal and follicular fluid samples will be stored in
freezers in the laboratory of Andrology (IVI Murcia) at -80°C until further
processing, under the supervision of Dr Juan Carlos Martínez Soto. The samples sent
to the University of Murcia will be stored by Dr. Carmen Matás Parra. Both the
facilities of the University of Murcia and those of the IVI clinic have a
restricted access, therefore the samples will be always guarded. Upon completion of
the study (January 2019), the surplus samples will be destroyed following the usual
protocols of the clinic.
F. Database The data regarding sample analysis (follicular fluid and semen samples),
will be stored in Excel tables in the facilities of IVI Murcia. The data regarding the
results of the assisted reproduction treatments that have been followed by the patients
included in the study will be obtained from the IVI management system (SIVIS).
G. Study variables
Four classes of variables will be distinguished according to their relevance within the
study:
Primary Variable: NO levels.
Secondary Variables: NOS expression, rate of progressive sperm, pregnancy rate,
biochemical pregnancy, pregnancy evolution, implantation rate, ectopic pregnancy rate.
Control Variables: Tyrosine phosphorylation (optical density units), PKA (optical
density units), protein nitrosylation (optical density units), nitrates and nitrites
(micromolar units).
Descriptive variables: maternal age, paternal age, male etiology, female etiology, BMI,
smoking habit.
H. Data analysis
Descriptive analysis:
Statistical summary of the data collected in the study. Categorical data will be
presented in frequency tables and histograms. The continuous values will be summarized
with the mean, standard deviation and confidence interval, they will be represented by
graphs of quartiles or densities.
The exploratory analysis of the data will allow to assess the quality of the data and
the detection of anomalies.
Analysis of homogeneity:
The means and proportions of the descriptive variables (baseline and demographic) will
be compared to validate the degree of comparability of the study groups. S chi-square
test will be applied in the categorical variables and, assuming the data follow a normal
distribution, a T-test in the continuous variables. If the data does not follow a normal
distribution, a Mann-Whitney test would be applied.
In the case of finding descriptive variables distributed in a way that there are
statistical differences between the groups, they will be included in a regression model,
to control their interference in the main relation to be studied.
Comparison of NO expression:
To validate a hypothesis of correlation of proportions in the NO expression, a Fisher
test will be applied.
To evaluate the effect of other covariables that can modify the behavior of NO
expression, a logistic regression model will be defined.
As for the comparison of protein nitrosylation, a Student's t-test will be applied
assuming that the data follow a normal distribution. If the normality assumption will
not be met, verified by a Kolmogorov-Smirnof test, a non-parametric U-MannWhitney test
would be applied.
In the same way, a linear regression model will be defined that allows the evaluation of
the effect of other correlated variables.
Evaluation of seminal quality:
For the set of variables that make up the seminal quality, a t-Student test will be
applied assuming that the data follow a normal distribution. If the normality assumption
will not be met, verified by a Kolmogorov-Smirnof test, a non-parametric U-MannWhitney
test would be applied.
Evaluation of gestational outcomes:
For the set of variables that define the gestation results, a Fisher test will be
applied.
Workplan:
Development stages and distribution of the tasks of the entire research team, and the
assignments planned for the technical staff. Indicate in addition place / center of
realization of the project.
The design of the study, as well as the drafting of the project have been carried out by
Doctors Carmen Matás Parra and Juan Carlos Martínez Soto.
The team of gynecologists who make up the Unit of Reproductive Medicine at the IVI
Murcia clinic, Dr. Jose Landeras, María Nicolás, Laura Fernández and Martina Trabalón,
will be responsible for the inclusion of patients and semen donors in the study, as well
as the direct responsible for the assisted reproduction treatment performed on patients.
Such treatment includes: the choice of treatment to be performed, ovarian stimulation,
oocyte pick up procedure to collect oocytes and follicular fluid, as well as embryo
transfer.
The embryologists Marta Molla, David Gumbao, Julián Marcos, Beatriz Amorocho and Ana
Isabel Sanchez will be responsible for the process of oocyte fertilization in the
fertilization laboratory, as well as the selection of embryos to be transferred.
Florentin-Daniel Staicu, Carmen Matás Parra and Juan Carlos Martínez Soto will carry out
the analysis of both seminal and follicular fluid samples. These analyses will be
carried out both in the facilities of the IVI Murcia clinic and in the laboratories of
the University of Murcia.
Dr. Jorge Chavarro will conduct the epidemiological and biostatistical studies.
;
Status | Clinical Trial | Phase | |
---|---|---|---|
Recruiting |
NCT05503862 -
Home Semen Testing in Men Beginning Attempts to Conceive
|
N/A | |
Withdrawn |
NCT02839447 -
A Clinical Evaluation of Semen Quality Using the MiOXSYS™ System 2.0
|
||
Completed |
NCT00975117 -
Spermotrend in the Treatment of Male Infertility
|
Phase 3 | |
Completed |
NCT00756561 -
HOP-2A - Intratesticular Hormone Levels
|
N/A | |
Recruiting |
NCT04541459 -
Validation of New Devices Against Ambient Electromagnetic Radiation
|
Early Phase 1 | |
Completed |
NCT02889341 -
Valuation of Variable Dose of Docosahexanoic Acid for the Improvement of the Parameters of Male Fertility
|
N/A | |
Not yet recruiting |
NCT03167008 -
Vitamin D Level vs Semen Parameters
|
||
Completed |
NCT02268123 -
Correlating In Vitro Fertilization Outcomes After Euploid Blastocyst Transfer With Sperm DNA Fragmentation
|
||
Completed |
NCT01232465 -
Impact of Sperm DNA Integrity on In Vitro Cycles
|
N/A | |
Recruiting |
NCT00119925 -
'SPRING'-Study: "Subfertility Guidelines: Patient Related Implementation in the Netherlands Among Gynaecologists"
|
N/A | |
Completed |
NCT03552081 -
Tobacco and Sperm Genome: Effects of Smoking Cessation
|
N/A | |
Recruiting |
NCT05200663 -
Efficacy Comparison of Tamoxifen and Tamoxifen With Antioxidants on Semen Quality of Male With Idiopathic Infertility
|
Phase 2 | |
Completed |
NCT02025270 -
MSCs For Treatment of Azoospermic Patients
|
Phase 1/Phase 2 | |
Recruiting |
NCT06147700 -
Identifying Molecular Determinants of Infertility in Men (MODIFY)
|
||
Recruiting |
NCT06188936 -
Home Semen Analysis Tests as a Screening Tool for Fertility Patients
|
N/A | |
Recruiting |
NCT04200118 -
Epigenetic and Genetic Effects in Cancer Patients: Analysis Pre and After Treatment
|
||
Terminated |
NCT02605070 -
Pilot Study on the Effects of FSH Treatment on the Epigenetic Characteristics of Spermatozoa in Infertile Patients With Severe Oligozoospermia
|
Phase 3 | |
Completed |
NCT01407432 -
Impact of Folates in the Care of the Male Infertility
|
Phase 3 | |
Completed |
NCT00596739 -
A Study of the Pre- and Post-operative Semen Analyses and Reproductive Hormone Levels of Men Undergoing Weight-reduction Surgery
|
N/A | |
Completed |
NCT00315029 -
Patient-Centered Implementation Trial for Single Embryo Transfer
|
N/A |