Clinical Trials Logo

Clinical Trial Summary

This clinical study has been organised to investigate whether microfluidic technology may be considered as a new procedure for routine sperm preparation during assisted reproduction. This is a technique that is already used in other centres. The Microfluidic Sperm Sorting (MSS) technology reduces the time of sample preparation while selects a sperm population with better motility and less DNA fragmentation as compared to routine procedures. This med-ical device is already CE marked. Having the intention to implement this technology in our department, we conduct this study to investigate whether the use of MSS has at least the same impact, if not better, on fertilization and embryo quality as compared to standard sperm selection procedures.


Clinical Trial Description

To perform ICSI, the best spermatozoa are selected based on their motility. This is done using a standard procedure which is time-consuming and involves centrifugation steps known to induce sperm DNA damage. Just before ICSI, the selection of the sperm cell that will be injected into the egg is based on morphological assessment (at 400x inverted phase contrast microscopy). However, the spermatozoa with DNA damage cannot be identified using microscopic procedures and therefore cannot be excluded for ICSI. It was reported that the sperm cells with DNA damage have a negative impact on embryo development and are correlated with increased miscarriage rate. A more "close to nature" approach is now available due to the microfluidic sperm sorting (MSS) technology that is using FERTILE series devices (FERTILE and FERTILE PLUS, Koek EU, GmbH). The method is based on the principle of natural sperm selection in a passage through micro-barriers imitating natural environment of female reproductive system (fallopian tubes). This chemical-free technology does not require any pretreatment of the semen sample, while the sorted sperm shows high motility and low levels of DNA damage. At the day of pick up, the husband provides the semen sample. The sample obtained will be divided in 2 fractions: one fraction will be subject to Microfluidic technology (fraction 1) and the other fraction will represent the control (conventionally prepared sperm; fraction 2). This device was tested in our laboratory on diagnostic semen samples and proved to select the best sperm population when compared to the standard method. Due to the encouraging results, we intend to apply microfluidic as the routine procedure for sperm preparation in our department. This procedure will increase the chance of using sperm cells without DNA damage during ICSI and therefore we expect better embryological outcome. This clinical study has been organised to determine if the embryo quality on day 5 will be similar or better when using microfluidic technology compared to standard procedure. At the moment of ICSI, half of the eggs of good quality (mature) will be inseminated with sperm from fraction 1 and the other half with sperm from fraction 2. The decision of which fraction will be used to inject the first half of the oocytes is random and is based on a list generated by the computer. The retrieved oocytes will follow the normal lab procedure after injection: the embryos available on day 3 or day 5/6 that meet our criteria for transfer or cryopreservation will be used for transfer or cryopreservation, no matter from which fraction the sperm was used. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04997070
Study type Observational
Source CRG UZ Brussel
Contact
Status Completed
Phase
Start date May 16, 2022
Completion date March 1, 2024

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