†These authors contributed equally.
Academic Editor: Johannes Ott
Background: micro-testicular sperm extraction (TESE) has been the
first choice for Nonobstructive azoospermia (NOA) patients for its higher sperm
retrieval rate under microscope, meanwhile, sperm or oocyte cryopreservation are
widely applied in in-vitro fertilization (IVF) treatment. But few researches have
systematically explored the effect of oocyte and sperm cryopreservation in one
study. Methods: we retrospectively collected and analyzed the data of
fertilization and pregnancy of patients who underwent micro-TESE using fresh or
vitrified-warmed gametes in our center to assess the effect of gametes
cryopreservation. Results: we compared the clinical results using fresh
or vitrified-warmed gametes in NOA patients after micro-TESE, respectively. We
found that the the rates of fertilization and good-quality embryo using fresh
gametes were 52.37
Nonobstructive azoospermia (NOA) refers to the complete absence of spermatozoa in ejaculate [1]. NOA accounts for 60% of azoospermia, which constitutes 10–15% of male infertility [2]. According to the etiology, NOA can be divided into 3 types: congenital, acquired and idiopathic [3]. Besides surgical sperm retrieval, few options are left for NOA patients.
Testicular sperm extraction (TESE) combined with intracytoplasmic sperm injection (ICSI) has been largely applied in NOA patients. Compared with conventional TESE (cTESE), micro-TESE has a higher sperm retrieval rate (SRR) and less tissue loss by the guide of microscope [4, 5]. It’s reported that the SRR of micro-TESE after a failed cTESE was 45.7% [6]. Traditionally, most patients with NOA were performed with ICSI using fresh sperm and oocytes to avoid gamete cryopreservation [7, 8]. But the practice is not always as good as we wish. Vitrified oocytes or sperm were often utilized in clinical practice. For example, the oocyte has to be cyropreserved at the oocyte retrieval day after a failed cTESE. Some cost-sensitive patients would like to process micro-TESE first in case of sperm retrieval failure. In these specific situations, gametes would be vitrified first and then used at last if micro-TESE performed successfully. Although many studies have suggested that the results of fertilization and pregnancy using vitrified-warmed gametes were similar with these using fresh gametes [9, 10, 11], the potential damage of the cryoprotectant and the freezing-thawing process were consistently concerned [12, 13, 14].
Many reports have investigated the effect of gametes cryopreservation on fertilization and pregnancy in micro-TESE. But all these reports analyzed the effect of sperm and oocyte cryopreservation separately [9, 15, 16]. To best of our knowledge, there is no research which systematically analyzes the effect of oocyte and sperm cryopreservation in one study. In this study, we analyzed the fertilization and pregnancy outcomes of micro-TESE patients using fresh or cryopreserved gametes to explore the effect of gamete cryopreservation on fertilization and pregnancy.
We retrospectively collected and analyzed the data of 124 patients that had undergone micro-TESE in our center. The diagnosis of azoospermia was based on the World Health Organization guidelines [17] and was further determined after three semen tests. Male or female patients with chronic diseases including diabetes, hypertension, ankylosing spondylitis, nephropathy, etc. were all excluded. Female infertility such as endometriosis, polycystic ovary syndrome (PCOS), anovulation were excluded in our study. All these 124 patients had conducted 127 oocyte retrieval cycles, in which 3 patients had both fresh and cryopreserved sperm cycles. The patients were evaluated and classified into three groups: Group A (n = 68), patients with fresh oocytes and sperm; Group B (n = 43), patients with fresh oocytes and vitrified sperm; Group C (n = 16), patients with vitrified oocytes and fresh sperm. Most patients in Group C had cryopreserved oocytes for sperm acquisition failure by cTESE. All cycles in each group conducted a single stimulation. All the male patients with NOA were conducted with a physical examination. Female partners finished hormone assessment, including follicle-stimulating hormone (FSH), luteinizing hormone (LH) and testosterone. Our study was approved by the ethics committee of Peking University Third Hospital, and informed consent was provided.
micro-TESE and sperm procession were performed just as Hong liang, Zhang et al. [9, 15] described before. Briefly, micro-TESE was performed under anesthesia, and the larger and white seminiferous tubules were identified and removed under the operating microscope (OPMI Vario, Carl Zeiss, Jena, Germany). The tubules were immediately placed into G-MOPS-plus buffer (Vitrolife, Goteborg, Sweden) and then excised. The spermatozoa were examined by a microscope (TS100, Nikon, Tokyo, Japan). When at least one normal spermatozoa was identified, the sperm extraction operation would be considered successful. The retrieved sperm were collected for fertilization or vitrification. The cryopreservation of sperm was strictly followed the protocol of the sperm cryopreservation kit (Vitrolife). When warming, the straws which sperm vitrified in were directly placed into a 37 °C incubator for 10 min. And then the sperm was centrifuged for 10 min at 300 g twice. After centrifugation, the testicular pellet was reserved for ICSI.
Oocytes were retrieved under the guidance of vaginal ultrasound 36 hours later
after human chorionic gonadotropin (HCG) administration. After 2 hours’
incubation, the cumulus cells were removed and MII oocytes were collected for
ICSI or vitrification. The oocyte vitrification and warming were performed with
the kit (Kitazato Biophama, Fuji, Japan). Warming was implemented 2 hours before
ICSI, and then the injected oocytes were maintained at 37 °C (6%
CO
Procedures of ICSI and embryo culture were just like described before [9, 15]. Only licensed and practiced embryologist could perform ICSI using sperms retrieved by micro-TESE. The number of transferred embryos was decided according to the embryo morphology and the patient’s pathography. For example, women after cesarean section would be only transferred with one embryo. Only good-quality embryo would be selected for transfer, and the definition of good-quality embryo was that the embryos consisted at least 5 blastomeres at Day 3. All the patients would be transferred with no more than two embryos to reduce the risk of multiple pregnancies.
All data were collected and analyzed by Statistical Package for Social Sciences
version 18 (IBM Corp., Armonk, NY, USA). The data were adjusted by SPSS 18. The
Chi-square or Fisher’s exact tests were used to assess the results of different
groups, and p
Totally, 127 cycles using sperm retrieved by micro-TESE were analyzed. Due to
the gametes whether or not cryopreserved, we divided these patients into three
groups. The characteristics of these patients were shown in Table 1, including
age, body mass index (BMI), duration of infertility and female serum hormonal
levels of FSH, LH, and T. No statistical difference was found among these three
groups (p
Characteristics | Group A | Group B | Group C | |
Age (year) | ||||
Male | 29.91 |
30.37 |
30.63 | |
Female | 28.16 |
29.19 |
30.56 | |
Duration of infertility (year) | 3.73 |
3.58 |
3.42 | |
BMI (kg/m |
||||
Male | 24.50 |
25.38 |
25.97 | |
female | 22.37 |
23.08 |
21.25 | |
FSH (mIU/mL) | 5.47 |
5.27 |
5.45 | |
LH (mIU/mL) | 3.25 |
2.56 |
3.26 | |
T (mIU/mL) | 0.79 |
0.80 |
0.70 | |
Date are presented as mean |
Results of Oocyte maturation and embryo development were shown in Table 2. The
fertilization rate of Group A was 52.37
Parameters | Group A | Group B | Group C |
cycles | 68 | 43 | 16 |
Oocytes (n) | 11.57 |
11.79 |
11.63 |
MII oocytes (n) | 9.62 |
9.58 |
8.69 |
Fertilization Rate (%) | 52.37 |
46.00 |
45.51 |
Transferred embryos (n) | 1.81 |
1.77 |
1.81 |
Good quality embryo rate (%) | 64.00 |
68.00 |
38.57 |
Date are presented as mean |
The outcomes of embryo transplantation were presented in Table 3. The live birth rate of Group A, Group B and Group C was 47.1%, 32.6% and 31.3% respectively, and Group A was higher than Group B and C. There was no statistic difference in clinical pregnancy rate and implantation rate among these groups.
Group A | Group B | Group C | |
cycles | 68 | 43 | 16 |
Clinical pregnancy rate (%, n/total) | 50.0 (34/68) | 39.5 (17/43) | 37.5 (6/16) |
Implantation rate (%, n/total) | 32.5 (40/123) | 32.9 (25/76) | 24.1 (7/29) |
Live birth rate (%, n/total) | 47.1 (32/68) |
32.6 (14/43) |
31.3 (5/16) |
Miscarriage rate (%, n/total) | 6.0 (2/34) | 17.6 (3/17) | 16.7 (1/6) |
Date are presented as mean |
micro-TESE has been strongly recommended to NOA patients for its higher sperm retrieval rates compared with conventional TESE, since its better identification of seminiferous tubules under microsope [18, 19]. It’s reported that the SRR of micro-TESE was about 40%–60% [20, 21], which indicated that almost half of the patients were failed after surgical treatment. In practice, oocyte and sperm cryopreservation have been applied in micro-TESE-ICSI treatment. Many reports have explored the effect of gamete cryopreservation on fertilization and pregnancy respectively, but no study has assessed that systematically in one study. To best of our knowledge, we for the first time analyzed the fertilization and pregnancy outcomes using cryopreserved sperm or oocytes after micro-TESE together and found that fresh gamete might get better clinical results than the cryopreserved.
Patient characteristics, such as age, BMI and hormone levels, showed no
difference among these three groups. We also collected and analyzed the results
of embryo development and pregnancy, and then observed similar oocyte maturation
and fertilization rate. But the rate of good-quality embryo using fresh or
vitrified sperm were above that using vitrified oocytes (64.00
Since the sample size of our research was relatively small, a larger sample size and multi-center prospective cohort study would be needed in future to illustrate the effect of gamete cryopreservation. We also ask for a long-term (even past-generation) follow-up plan to investigate the effect of gamete cryopreservation.
We collected and compared the fertilization and pregnancy results between fresh and vitrified gametes in NOA patients after micro-TESE-ISCI-ET treatments. The rates of good-quality embryo using fresh or vitrified sperm were above that using vitrified oocytes, but there was no statistic difference, and the fresh gamete had higher live birth rate than the vitrified. Fresh gamete showed better clinical outcomes. These results suggested that we should consider using fresh gamete for fertilization in micro-TESE-ICSI treatment for NOA patients if possible. A larger sample size and long-time follow-up study is needed in the future.
HJ and PL conceived and designed this study. XLR, SLL, and ML collected the date. YPW and DFL analyzed the date and drafted the article. All authors read and approved the final manuscript.
All subjects gave their informed consent for inclusion before they participated in the study. Our study was approved by the ethics committee of Peking University Third Hospital (No. 2020SZ-003), and informed consent was provided.
Not applicable.
This study was supported by the National Key Research and Development Program [2018YFC1002106], the National Natural Science Foundation of China for Young Scholars [81601275] and the Beijing Municipal Science & Technology Commission [Grant no. Z191100006619076].
The authors declare no conflict of interest.