Biosynthetic cellulose induces the formation of a neoduramater following pre-natal correction of meningomyelocele in fetal sheep

Oliveira, Rita de Cássia Sanchez e; Valente, Paulo Roberto; Abou-Jamra, Rogério C.; Araújo, A.; Saldiva, Paulo Hilário Nascimento; Pedreira, D. A. L.

doi:10.1590/s0102-86502007000300004

Cited by 47 publications

(24 citation statements)

References 24 publications

(35 reference statements)

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“…If there is insufficient dura for closure, a DuraGen® patch is used as a substitute; if it is not possible to obtain primary skin closure, relaxing incisions are made or an Alloderm® patch is used [15]. Pedreira and colleagues [40,41,42] describe a standardized two-layer fetoscopic closure, consisting of a subcutaneous cellulose patch which is covered by skin and acts as a scaffold for the dura, as extensively tested in animal models. The closure technique in the hands of Kohl's group evolved over time.…”

Section: Resultsmentioning

confidence: 99%

Fetoscopic versus Open Repair for Spina Bifida Aperta: A Systematic Review of Outcomes

Joyeux

Engels²,

Russo³

et al. 2016

Fetal Diagn Ther

161

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Objective: To compare outcomes of fetoscopic spina bifida aperta repair (FSBAR) with the results of the open approach (OSBAR) as in the Management Of Myelomeningocele Study (MOMS). Methods: This was a systematic comparison of reports on FSBAR with data from the MOMS (n = 78). Inclusion criteria were studies of spina bifida aperta patients who underwent FSBAR and were followed for ≥12 months. Primary outcome was perinatal mortality. Secondary outcomes included operative, maternal, fetal, neonatal and infant outcomes. Results: Out of 16 reports, we included 5 from 2 centers. Due to bias and heterogeneity, analysis was restricted to two overlapping case series (n = 51 and 71). In those, FSBAR was technically different from OSBAR, had comparable perinatal mortality (7.8 vs. 2.6%, p = 0.212) and shunt rate at 12 months (45 vs. 40%, p = 0.619), longer operation time (223 vs. 105 min, p < 0.001), higher preterm prelabor membrane rupture rate (84 vs. 46%, p < 0.001), earlier gestational age at birth (32.9 vs. 34.1 weeks, p = 0.03), higher postnatal reoperation rate (28 vs. 2.56%, p < 0.001) and absence of uterine thinning or dehiscence (0 vs. 36%, p < 0.001). Functional outcomes were not available. Conclusion: FSBAR utilizes a different neurosurgical technique, takes longer to complete, induces more prematurity, requires additional postnatal procedures, yet has a comparable shunt rate and is not associated with uterine thinning or dehiscence. Long-term functional data are awaited.

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Section: Resultsmentioning

confidence: 99%

Fetoscopic versus Open Repair for Spina Bifida Aperta: A Systematic Review of Outcomes

Joyeux

Engels²,

Russo³

et al. 2016

Fetal Diagn Ther

161

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“…With this objective, our group has developed a new, simple surgical technique to be applied for the endoscopic closure of the defect in an animal model. This technique was initially developed in the fetal rabbit [8,9] and subsequently applied in fetal sheep [10,11] .…”

Section: Introductionmentioning

confidence: 99%

“…In the present study, our aim was to develop a new endoscopic approach to apply the previously developed technique [8][9][10][11] to close a lumbar skin defect created in fetal sheep. To the best of our knowledge, this new technique has never been described before in the literature.…”

Section: Introductionmentioning

confidence: 99%

Gasless Fetoscopy: A New Approach to Endoscopic Closure of a Lumbar Skin Defect in Fetal Sheep

et al. 2008

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Objective: To develop a new endoscopic approach to the correction of a myelomeningocele-like defect in fetal sheep. Methods: The fetuses of 9 pregnant ewes, with an average gestational age of 115 days, were subjected to a 3.0 × 2.0 cm removal of the skin over the lumbar spine, performed through hysterotomy. The uterus was closed, and three 5-mm endoscopic cannulas, without valve mechanisms, were inserted. In the pilot phase (2 animals), we initially worked exclusively in the amniotic fluid space. In the study phase, we partially withdrew the fetus from the amniotic fluid to completely expose its back. By simply allowing air to enter the amniotic cavity (without gas injection), a working space was created using a uterine lift device. The skin around the defect was dissected, and a biosynthetic cellulose material was applied to cover the area. A continuous suture of the skin was performed to completely hide the material. Results: The combined air/fluid space allowed the skin to be successfully closed in 6 out of 7 cases in the study phase. All fetuses were alive at the end of the procedures. Time to complete the endoscopic part of the procedure fell from 3 to 1 h by the end of this series. Premature birth occurred in 2 of the 4 cases allowed to continue with the pregnancy. Conclusion: A new gasless fetoscopic surgery technique was developed as an alternative to current techniques used for fetal endoscopic surgery.

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“…To date, experimental studies of tissue engineering approaches to prenatal repair of MMC can be divided into 2 groups according to the goals of the investigators: (1) to prevent amniotic fluid-induced neural damage by providing coverage of the defect using scaffolds [31,32,33,34,35,36,37,38] and (2) to place a scaffold and/or cells between the neural tissue and the skin repair to prevent adhesion of the repair to the cord (tethering) and/or to provide neurotrophic factors or regenerate neural tissue [39,40,41,42,43,44]. …”

Section: Experimental Progress In Tissue Engineering For Fetal MMCmentioning

confidence: 99%

Tissue Engineering Strategies for Fetal Myelomeningocele Repair in Animal Models

2014

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Myelomeningocele (MMC), the most severe form of spina bifida, is a common and devastating malformation. Over two decades of experimental work in animal models have led to the development and clinical application of open fetal surgery for the repair of the MMC defect. This approach offers improved neurofunctional outcomes and is now a clinical option for the management of prenatally diagnosed MMC in selected patients. However, there are still opportunities for further improvement in the prenatal treatment of MMC. A less invasive approach would allow for an application earlier in gestation, with a reduction in maternal and fetal risks and the potential for reduced neurological injury. Tissue engineering offers a realistic and appealing alternative approach for the prenatal treatment of MMC. This review discusses the rationale for tissue engineering in MMC, addresses recent experimental progress and describes potential future directions.

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Biosynthetic cellulose induces the formation of a neoduramater following pre-natal correction of meningomyelocele in fetal sheep

Cited by 47 publications

References 24 publications

Fetoscopic versus Open Repair for Spina Bifida Aperta: A Systematic Review of Outcomes

Fetoscopic versus Open Repair for Spina Bifida Aperta: A Systematic Review of Outcomes

Gasless Fetoscopy: A New Approach to Endoscopic Closure of a Lumbar Skin Defect in Fetal Sheep

Tissue Engineering Strategies for Fetal Myelomeningocele Repair in Animal Models

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