Clinical Outcomes Following the Sperm Selection by Rheotaxis and Thermotaxis in In-Situ Hand-made Microfluidics of Fluidic Walls in the Same ICSI Plate: a Randomized Controlled Trial

CREA Medicina de la Reproducción SL1 site in 1 country50 target enrollmentJanuary 8, 2024

ConditionsIntracytoplasmic Sperm Injection Sperm Microfluidics

Overview

Phase: Not Applicable
Intervention: Not specified
Conditions: Intracytoplasmic Sperm Injection
Sponsor: CREA Medicina de la Reproducción SL
Enrollment: 50
Locations: 1
Primary Endpoint: Fertilization Rate (FR)
Status: Recruiting
Last Updated: 2 years ago

Overview Investigators Eligibility Criteria Outcomes Sites Similar Trials

Overview

Brief Summary

Microfluidics technologies are proving their capability to select suitable sperm for ICSI, especially those that take advantage of the rheotaxic properties of sperm migration. In contrast to other sperm preparation methods such as Wash-Swim-Up and Density- Gradients-Centrifugation (DGC), microfluidics disregards washing and centrifugation steps along the procedure. However, microfluidics devices are costly and likely to fail to select motile sperm in dispermic samples. The investigators have recently described a novel approach for sperm selection by In-Situ handmade rheotaxis microfluidics of fluidic walls in the same ICSI plate. This methodology integrates a swim-over based on horizontal migration with a positive rheotaxis zone. The present study aims to deliver an unbiased comparison between two sperm selection techniques: DGC and In-Situ handmade rheotaxis microfluidics of fluidic walls (isM).

Detailed Description

Microfluidics technologies stand as the latest sperm selection methodology for ICSI. Increasingly, publications show novel and ingenious microfluidics strategies to integrate sperm biomimicry during in vitro sperm selection while simplifying the IVF workflow. Microfluidics are time-efficient methods which reduce the risks associated with handling, gamete mix-up and ROS production. However, microfluidics devices are costly and likely to fail to select motile sperm in dispermic samples. Aiming to outline the application of microfluidics in ART, the investigators conceived a lab-on-a-chip approach for sperm selection by In-Situ rheotaxis handmade microfluidics of fluidic walls. This microfluidics system allows selecting sperm for ICSI in the same ICSI-dish. Thus, from a microvolume of the raw semen sample, only using microfluidics, disregarding centrifugation, washing, plasticware, other cells, products or materials, and using the same culture medium needed to prepare the rest of the ICSI plate. A previous proof-of-concept study showed that this methodology efficiently selected suitable sperm for ICSI. The investigators also demonstrated that the microfluidic protocol effectively separates at least 20 progressive spermatozoa in less than 15 minutes in a clean microdroplet, free of any remaining seminal plasma. A subsequent non-inferiority study showed that the microfluidic method performs as well as density gradient centrifugation to achieve ICSI outcomes such as fertilization and day-5 blastocyst formation rate, proving that In-Situ handmade rheotaxis microfluidics of fluidic walls are also effective in supporting pre-implantation embryonic development in vitro.

Registry

clinicaltrials.gov

Start Date

January 8, 2024

End Date

June 2024

Last Updated

2 years ago

Study Type

Observational

Sex

All

Investigators

Sponsor

CREA Medicina de la Reproducción SL

Responsible Party

Sponsor

Eligibility Criteria

Inclusion Criteria

•Patients undergoing ICSI
•Female age under 40 years old
•Number of mature oocytes (MII) upon oocyte retrieval ≥ 6
•Male age under 50 years old
•Total number of progressive sperm ≥ 1 million

Exclusion Criteria

•Patients with surgically retrieved sperm for ICSI
•Cases using cryopreserved oocytes
•Cases using cryopreserved sperm

Outcomes

Primary Outcomes

Fertilization Rate (FR)

Time Frame: 16 to 20 hours post-ICSI (day 1)

The proportion of two-pronuclei zygote divided by the total number of matured and microinjected oocytes (2pn/MII, %)

Day 5 usable blastocyst rate (D5UBR)

Time Frame: 108 to 113 hours post-ICSI (day 5)

The proportion of embryos classified as blastocysts at day 5 of development, which has been transferred and/or cryopreserved.

Blastocyst quality grade

Time Frame: 108 to 113 hours post-ICSI (day 5)

Blastocysts are categorized following the scale described by the Spanish Association of Reproduction Biology Studies (ASEBIR). The ASEBIR classification categorizes blastocysts based on their morphology into four groups: from A (highest, better outcome) to D (lowest, worse outcome).