The impact of the COVID-19 pandemic on gestational carriers.

Reproductive medicine has been significantly impacted by the coronavirus (COVID-19) pandemic, and this includes the gestational carrier (GC) process. The objectives of this commentary are to evaluate the impact of COVID-19 on the GC process, as well to communicate Shady Grove Fertility's considerations of and response to COVID-19 on the GC process to the larger assisted reproductive technology (ART) community. We also gathered conclusions drawn from available data on the impact of COVID-19 infection on maternal and neonatal morbidity and mortality as well as on counseling patients on vaccination. We compiled proposals to mitigate risk and to maximize safe evaluation and treatment for GCs during the ongoing pandemic. Over 2 years after the onset of the pandemic, the multiple resurgences of cases in the USA have necessitated nimble strategies to provide ongoing and safe reproductive care and have posed unique challenges to the GC process. With the prospect of the virus continuing to spread globally well into the future, as healthcare professionals of the ART community, we will need to ensure effective collaboration and communication as we provide care during the ongoing pandemic.

ON THE MOVE: THE IMPACT OF THE COVID-19 PANDEMIC ON MOVEMENT OF CRYOPRESERVED OOCYTES AND EMBRYOS

OBJECTIVE: COVID-19 has influenced family building, delayed fertility care, and affected people's decisions about where to live.We sought to understand differences in movement of cryopreserved reproductive tissue before and during the pandemic. MATERIALS AND METHODS: This was a retrospective cohort study of patients who transported tissue into or out of a single academic fertility center in New York City (NYC). Tissue transport was compared the year before (PRE, 4/1/2019-3/31/2020) and after (DUR, 4/1/2020-3/31/2021) the height of the COVID-19 pandemic in NYC, an epicenter. The primary outcome was the number of patients transporting tissue DUR compared to PRE. Secondary outcomes were the number of geographic changes, type of tissue, geographic origin/destination, and type of movement (in or out). Statistical analyses were performed using Kolmogorov-Smirnov, Wilcoxon Signed Rank Sum, Chi-Square, and Fisher's Exact tests with p<0.05 considered significant. RESULTS: A total of 367 tissue transports were included, with similar rates between cohorts (PRE 46.3% (170/367) vs DUR 53.7% (197/367), p=0.16). The median age at transport was the same (PRE 41 (range 29-54) vs DUR 41 (range 28-54) years, p=0.54). A similar amount of tissue was transported in (PRE 30.0% (51/170) vs DUR 35.0% (69/197)) and out (PRE 70.0% (119/170) vs DUR 65.0% (128/197), p=0.32). Patients were more likely to transport embryos pre-pandemic (37.6% (64/170) oocytes vs 61.8% (105/170) embryos, PRE) and oocytes during COVID-19 (51.8% (102/197) oocytes vs 44.2% (87/197) embryos, DUR) (p<0.01). A subgroup analysis excluding tissue moved for a gestational carrier or donor gametes found a similar number of transports were due to patient geographic relocation (PRE 50.0% (61/122) vs DUR 40.5% (60/148), p=0.12). Examination of geographic origin and destination of tissue PRE vs DUR produced no identifiable trends (p=0.38). Timing of tissue transport varied. The monthly transport rates were relatively even PRE (average 8% per month). However, during the pandemic, there were few transports in the beginning (April-May 2020, 0-1% per month) followed by a peak of transports in June-August 2020 (10-11% per month) and February-March 2021 (11-16% per month) (p<0.01). Transport activities were impacted by closure of clinics and courier service availability. CONCLUSIONS: The rate of cryopreserved tissue movement did not differ in the year before versus during the pandemic at our center, despite being in a COVID-19 epicenter, although transport activities were concentrated into fewer days. There was peak movement of tissue three months after the pandemic onset and roughly one year from the start of the pandemic. The type of tissue transported shifted to favor oocytes during the pandemic, warranting more investigation in how COVID-19 impacted family building activities. IMPACT STATEMENT: Despite the impact of COVID-19 on reproductive and place of living choices, the pandemic did not affect the amount of cryopreserved tissue that was relocated. However, insight into the increased movement of oocytes and potential impacts on warming outcomes or timelines is necessary.