Management of fertility preservation in prepubertal patients: 5 years’ experience at the Catholic University of Louvain

Wyns, Christine; Curaba, Mara; Petit, S.; Vanabelle, B.; Laurent, Pascale; Wese, J.-F.X.; Donnez, Jacques

doi:10.1093/humrep/deq387

Cited by 146 publications

(87 citation statements)

References 42 publications

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“…Therefore, fertility preservation should be included in the management of young males with cancer (Wyns et al, 2011). In pre-pubertal boys, no completely validated option is currently available for fertility preservation (Rives et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

“…In pre-pubertal boys, no completely validated option is currently available for fertility preservation (Rives et al, 2012). Freezing of testicular tissue or cell suspensions has been developed to cryopreserve pre-pubertal testes or SSCs respectively (Wyns et al, 2011). After thawing, SSCs must undergo a maturation process to restore the ability to produce spermatozoa.…”

Section: Introductionmentioning

confidence: 99%

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Assessment of the optimal vitrification protocol for pre-pubertal mice testes leading to successful in vitro production of flagellated spermatozoa

et al. 2015

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SUMMARYTesticular tissue cryopreservation offers the hope of preserved future fertility to pre-pubertal boys with cancer before exposition to gonadotoxic treatments. The objective of this study was to compare controlled slow freezing (CSF) with five vitrification techniques for cryopreservation of murine pre-pubertal testicular tissue and to evaluate the best protocol that could provide a successful completion of spermatogenesis after in vitro maturation. Testicular tissue from 24 mice at 6.5 days post-partum (dpp) was used to compare several vitrification protocols with one another, as well as with a CSF protocol. Toxicity test using additional 12 mice was performed for all cryopreservation solutions. Fresh tissue (FT) from six mice was used as a control. Once the optimal vitrification protocol was selected [the modified solid surface vitrification No. 1 (mSSV 1 )], testes from 18 mice were cultured in vitro for 30 days with (i) fresh, (ii) slow-frozen/thawed and (iii) vitrified/warmed tissues. Testes from six mice at 36.5 dpp were used as controls. At day 30 of in vitro culture, germ cells of the seminiferous tubules showed a high ability to proliferate and elongated spermatids were observed after both freezing techniques, confirming the successful completion of in vitro spermatogenesis. However, after mSSV 1 , the morphological alterations and the percentage of pyknotic seminiferous tubules were lower than CSF (4.67 AE 0.53 vs. 10.1 AE 1.12 and 22.7 AE 2.83% vs. 37.3 AE 4.24% respectively). Moreover, the number of flagellated spermatozoa produced per mg of tissue was higher for mSSV 1 than for CSF (35 AE 3 vs. 9 AE 4 cells), with amounts of secreted testosterone during the culture close to those of FT. The mSSV 1 protocol resulted in success rates better than CSF in maintaining testicular tissue structure, tubular morphology and tissue functions not solely for immediate frozen/thawed tissues but also after a long-term in vitro culture.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Assessment of the optimal vitrification protocol for pre-pubertal mice testes leading to successful in vitro production of flagellated spermatozoa

et al. 2015

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“…The potential of using SSCs to preserve and restore fertility in patients receiving gonadotoxic therapies has been extensively discussed (23)(24)(25)(26)(27)(28)(29)(30)(31)(32). In theory, testicular cells obtained via biopsy prior to cancer treatment could be cryopreserved and then retransplanted following clinical remission.…”

Section: Introductionmentioning

confidence: 99%

“…In theory, testicular cells obtained via biopsy prior to cancer treatment could be cryopreserved and then retransplanted following clinical remission. Several clinics around the world, including our own Fertility Preservation Program in Pittsburgh (http://www.mwrif.org/220), are now performing testicular biopsies on boys prior to the initiation of cancer therapy in hopes that this tissue can be used in the future to restore fertility (8,9,30,31). However, to make SSC transplantation a realistic clinical option for the prepubertal patient cohort, two major hurdles must be overcome.…”

Section: Introductionmentioning

confidence: 99%

Eliminating malignant contamination from therapeutic human spermatogonial stem cells

Dovey¹,

Valli²,

Hermann³

et al. 2013

J. Clin. Invest.

126

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Spermatogonial stem cell (SSC) transplantation has been shown to restore fertility in several species and may have application for treating some cases of male infertility (e.g., secondary to gonadotoxic therapy for cancer). To ensure safety of this fertility preservation strategy, methods are needed to isolate and enrich SSCs from human testis cell suspensions and also remove malignant contamination. We used flow cytometry to characterize cell surface antigen expression on human testicular cells and leukemic cells (MOLT-4 and TF-1a). We demonstrated via FACS that EpCAM is expressed by human spermatogonia but not MOLT-4 cells. In contrast, HLA-ABC and CD49e marked >95% of MOLT-4 cells but were not expressed on human spermatogonia. A multiparameter sort of MOLT-4-contaminated human testicular cell suspensions was performed to isolate EpCAM + /HLA-ABC -/CD49e -(putative spermatogonia) and EpCAM -/HLA-ABC + /CD49e + (putative MOLT-4) cell fractions. The EpCAM + /HLA-ABC -/CD49e -fraction was enriched for spermatogonial colonizing activity and did not form tumors following human-to-nude mouse xenotransplantation. The EpCAM -/HLA-ABC + / CD49e + fraction produced tumors following xenotransplantation. This approach could be generalized with slight modification to also remove contaminating TF-1a leukemia cells. Thus, FACS provides a method to isolate and enrich human spermatogonia and remove malignant contamination by exploiting differences in cell surface antigen expression.

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“…A study of 14 prepubertal boys undergoing testicular biopsy demonstrated positive post-operative outcomes as well as insight into parental factors influencing a decision to undergo harvesting [17]. Furthermore, a study of 52 prepubertal patients (mean age: 6.43±3.32 years) and 10 peripubertal patients (mean age: 14±1.23 years) reported no significant complications [50]. While our study was different in reporting the bundling with other medical procedures, our overall safety findings of male patients were in accordance with other studies.…”

Section: Commentmentioning

confidence: 97%

Evaluation of ovarian and testicular tissue cryopreservation in children undergoing gonadotoxic therapies

Babayev

Arslan

Kogan

et al. 2012

J Assist Reprod Genet

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Objective Ovarian and testicular tissue cryopreservation are the only fertility preservation options for sexually immature individuals. Because of their experimental nature, it is important to determine safety and possible bundling with other medicallyindicated procedures. Study design Prospective observational. Results Cryopreservation indications included cancer in 75 % of females and 50 % of males, while non-cancer indications included various hematological conditions. Similar numbers of females (12/28) and males (3/9) underwent prior chemotherapy. Females underwent laparoscopic (27/28) or robotic (1/28) approaches while incisional biopsy was used in males. Bundling of ovarian and testicular harvesting with other medicallyindicated procedures was performed in 42 % and 22 %, respectively. The operative time inclusive of bundled procedures was similar (1.6 ± 0.1 vs. 0.9 ± 0.3 h) but the discharge time was significantly longer for females than males (10.4±0.6 vs. 4.6±0.6 h, p<0.05) due to frequent bundling of medically-indicated procedures in females. All procedures were successfully completed without complications or significant blood loss. Conclusions Pediatric gonadal tissue cryopreservation can be combined with other medically-indicated procedures to minimize the potential inconvenience, additional anesthetic risks, and costs.Keywords Hematology/oncology . Children . Cryopreservation . Fertility preservationCapsule Ovarian and testicular cryopreservation is feasible alone or in combination with other procedures in children.S. Babayev and E. Arslan contributed equally to this work.

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Management of fertility preservation in prepubertal patients: 5 years’ experience at the Catholic University of Louvain

Cited by 146 publications

References 42 publications

Assessment of the optimal vitrification protocol for pre-pubertal mice testes leading to successful in vitro production of flagellated spermatozoa

Assessment of the optimal vitrification protocol for pre-pubertal mice testes leading to successful in vitro production of flagellated spermatozoa

Eliminating malignant contamination from therapeutic human spermatogonial stem cells

Evaluation of ovarian and testicular tissue cryopreservation in children undergoing gonadotoxic therapies

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