Informace o publikaci

Mikro-CT, biomechanické a histologické zhodnocení průběhu intervertebrální lumbální dézy na experimentálním praseti. Porovnání kostního štěpu versus nově vyvinutého biodegradabilního nanokompozitního implantátu.

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KRTIČKA Milan PLÁNKA Ladislav BILIK Andrej IRA Daniel NEKUDA Vladimír SEDLÁČEK Radek KAVKOVÁ M. BŘÍNEK A. GÖPFERT E. VOJTOVÁ Lucy

Rok publikování 2019
Druh Další prezentace na konferencích
Fakulta / Pracoviště MU

Lékařská fakulta

Citace
Popis Introduction: The use of lumbar fusion procedures in the USA and Europe has rapidly increased over the last decade and a large number of these procedures involve the use of bone grafts. Despite of technical progress of spinal surgery and operative materials the risk of vertebral fusion failure occurs in 5 – 35 % of cases. Autografting has been considered the gold standard for bone graft procedures. However, the harvesting from the iliac crest can be associated with short and long-term morbidity in up to 22 % of cases. Main goal of this experimental study was to compare newly developed hybrid biodegradable nanocomposit porous implant (HBNPI) against bone craft from iliac crest as a new and better alternative for lumbar interbody fusion. Material and methods: 24 male pigs 4 months old weighting around 40 Kg were included in our study. These pigs were divided into two study groups depending on fusion method. Group A – 12 pigs underwent lateral lumbal interbody fusion (L2/3) with implantation of iliac crest bonegraft. Group B - 12 pigs underwent lateral lumbal interbody fusion (L2/3) with newly developed HBNPI. Each group were divided into two subgroups from these 6 spines were harvested 8 weeks (subgroup A1, B1) and 6 spines 16 weeks (group A2, B2) after surgery. After sacrifice, the lumbar spines were taking out and micro-CT, biomechanical testing and histomorphological analysis in all groups were performed to evaluate a quality of intervertebral fusion. As controls (group N), 6 cadaveric intact lumbar spines underwent biomechanical, microCT and histological testing. Results: All 24 animals recovered from general anesthesia without unusual events. The operations lasted between 50-90 minutes (mean 70) in Group A and between 35-72 minutes (mean 43) in Group B. All of the pigs from group A could stand up and were mobile within 20 hours (range 7-20). When bone graft harvesting was not necessary (group B) this time was shortened, ranging from 1 – 1,5 hour. All pigs from Group A were limping on the first postoperative day. No limping animal was observed in group B. Total body weight of the pigs increased from 37 kg (range 36-40) at the start to 85 (range 80-89) at sacrifice. Biomechanics evaluation shows that extension flexural stiffness values are statistically significantly different between A2 (16 weeks post-implant) and A1 (8 weeks post- implant). Group A2 achieves higher values than Group A1, which is attributed to the adhesion of the implant to the surrounding vertebrae. Similarly, this also applies to groups B2 and B1. The flexural stiffness at group B2 extension is statistically significantly higher than the A2 group and also than the native N group. Biomechanical evaluation supports findings on microCT and histological specimens, where both adjacent vertebrae are completely fused in groups B2, unlike in group A2, where there is no or incomplete fusion. Conclusion: Newly developed HBNPI represents new possibility how to do intervertebral fusion, and simultaneous become chance how to improve and accelerate bone healing process against standard procedures.

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