Company: NIVFW
Filing Date: 2025-05-20
Form Type: F-1/A
Source: 0001213900-25-045737
Chunk: 129

Company: NewGenIvf Group Ltd
Filing Date: 2025-05-20
Form: F-1/A
Chunk 129
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 step of the cycle is to boost egg production through injecting synthetic hormones. Over about one week of ovarian stimulation, clients are monitored on a regular basis with blood test and transvaginal ultrasound. If follicles have reached at least 10 mm in size, an additional antagonist drug will be added into the daily injection schedule. This is used to prevent ovulation before ovum pickup time. After another few days of ovarian simulation, if follicle growth is consistent and majority of follicles are around 16 mm to 17 mm, the final injection of a human chorionic gonadotropin will be administered. The trigger injection is the final step of the stimulation process and is for the maturation of the eggs in the follicles before they are collected. The next major step is to retrieve the eggs with a minor surgical procedure called Trans Vaginal Follicle Aspiration conducted under anaesthesia. At the same time the male partner collects the sperms for fertilizing the eggs in the laboratory by a process known as intracytoplasmic sperm injection. The fertilized embryos are cultured in the laboratory for two to six days. Embryos that grow well are biopsied and tested by PGT to detect potential genetic diseases. The final step is to transfer the embryos into the uterus using a catheter. Within eight days after the embryo transfer, a blood test can be conducted to detect whether the implantation was successful. MicroSort Technology MicroSort technology is a preconception process developed by the Genetics and IVF Institute, Inc. that aims to improve the chances that the baby to be conceived will be of the desired gender and prevents certain gender-related hereditary diseases. Semen samples usually contain equal amounts of sperm carrying the Y chromosome (which will produce a boy), and sperm carrying the X chromosome (which will produce a girl). During the MicroSort process, the sperm sample is washed to remove seminal liquid and nonmotile cells. After the washing, the sample is stained with a special fluorescent material that attaches to the DNA contained in the sperm. The stained sperm cells are analyzed one by one by a flow cytometer, in which cells pass through a laser to make the stain attach to the DNA fluoresce. The sperm containing the X chromosome (which have more DNA and therefore more stain) will shine brighter than the sperm containing the Y chromosome. The flow cytometer uses a special software to identify X and Y chromosome sperm based on their fluorescence signature. The sperm carrying the chromosome that will produce the desired gender are separated from the