Injectable chitosan hydrogel effectively controls lesion growth in a venous malformation murine model - 07/11/24
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Highlights |
• | In a venous malformation xenograft mouse model, local injection of chitosan or 1% sodium tetradecyl sulfate chitosan gels effectively controls vascular malformation growth compared to untreated or 3% sodium tetradecyl sulfate foam groups. |
• | Vessel sizes are smaller with both chitosan formulations compared to untreated and saline groups. |
• | There is smaller vessel size within the 1% sodium tetradecyl sulfate chitosan group compared to 3% sodium tetradecyl sulfate foam. |
• | The quantification of vessels in direct contact with sodium tetradecyl sulfate chitosan shows a lower endothelial expression compared to 3% sodium tetradecyl sulfate foam. |
Abstract |
Purpose |
The purpose of this study was to evaluate the safety and efficacy of intralesional injection of chitosan hydrogel (CH) combined with sodium tetradecyl sulfate (STS) to sclerose and embolize venous malformations (VMs) by comparison with 3% STS foam and placebo in a mouse model.
Materials and methods |
Subcutaneous VMs were created by injecting HUVEC_TIE2-L914F cells, mixed with matrigel, into the back of athymic mice (Day [D] 0). After VM-like lesions were established at D10, 70 lesions were randomly assigned to one of six treatment groups (untreated, saline, 3% STS-foam, CH, 1% STS-CH, 3% STS-CH). For 3% STS-foam, the standard Tessari technique was performed. VMs were regularly evaluated every 2–3 days to measure lesion size until the time of collection at D30 (primary endpoint). At D30, VM lesions including the matrigel plugs were culled and evaluated by histological analysis to assess vessel size, chitosan distribution and endothelial expression. One-way analysis of variance (ANOVA) test was performed to compare quantitative variables with normal distribution, otherwise Kruskal-Wallis test followed by pairwise comparisons by a Wilcoxon rank sum test was performed.
Results |
All VMs were successfully punctured and injected. Six VMs injected with 3% STS-CH showed early skin ulceration with an extrusion of the matrigel plug and were excluded from final analysis. In the remaining 64 VMs, skin ulceration occurred on 26 plugs, resulting in the loss of three 3% STS-foam and one 1% STS-CH plugs. Both chitosan formulations effectively controlled growth of VMs by the end of follow-up compared to untreated or 3% STS-foam groups (P < 0.05). Vessel sizes were smaller with both CH formulations compared to untreated and saline groups (P < 0.05). Additionally, there were smaller vascular channels within the 1% STS-CH group compared to the 3% STS-foam group (P < 0.05).
Conclusion |
Chitosan's ability to control the growth of VMs suggests a promising therapeutic effect that outperforms the gold standard (STS-foam) on several variables.
Le texte complet de cet article est disponible en PDF.Keywords : Chitosan hydrogel, Mice, Sclerosis, Sodium tetradecyl sulfate, Vascular malformation
Abbreviations : CH, EC, HUVEC, IsoB4, STS, TIE2, UEA1, VM
Plan
Vol 105 - N° 11
P. 430-438 - novembre 2024 Retour au numéro
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