Techniques and Innovations in Flap Engineering: A Review

Kouniavski, Elizaveta; Egozi, Dana; Wolf, Yoram

doi:10.1097/gox.0000000000004523

Cited by 4 publications

(6 citation statements)

References 39 publications

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“…In previously reported cases, TSS was treated by surgical excision of the enlarged thyroid gland. [1][2][3][4] However, in our case, bilateral thyroid enlargement was obvious in the patient and the blood-supplying arteries of the thyroid were also significantly enlarged. Hence, surgical removal of the thyroid would have caused hypothyroidism.…”

Section: Discussioncontrasting

confidence: 54%

“…1,2 There are very few reported cases of TSS, primarily caused by goiter, and cerebral angiogram showed an enlarged thyroid artery blood supply, which was possibly due to the development of goiter, leading to more blood flow to the thyroid and a decrease in intracranial blood flow. 2,3 In 2022, Harrison Humphries and colleagues reported the first case of TSS caused by active hyperthyroidism in a patient who did not have high levels of TSH or goiter, but had high levels of thyroid receptor antibodies that mimic the effects of TSH. 2,5 Our patient had a high TSH level, a large goiter, and obvious enlargement of the thyroid artery.…”

Section: Discussionmentioning

confidence: 99%

“…2,3 In 2022, Harrison Humphries and colleagues reported the first case of TSS caused by active hyperthyroidism in a patient who did not have high levels of TSH or goiter, but had high levels of thyroid receptor antibodies that mimic the effects of TSH. 2,5 Our patient had a high TSH level, a large goiter, and obvious enlargement of the thyroid artery. Therefore, we hypothesized that the patient's repeated cerebellar infarction and uncontrolled hyperthyroidism symptoms were due to TSS.…”

Section: Discussionmentioning

confidence: 99%

“…Flap prefabrication is a promising solution to this problem. 2 After the implantation of a vascular pedicle and a period of revascularization, prefabrication enables the conversion of a random flap into an axial flap. On the merits, this technique overcomes the restriction of classic anatomic vascular territories and allows plastic surgeons to produce more esthetically pleasing and personalized flaps as needed.…”

Section: Referencesmentioning

confidence: 99%

“…In clinical practice, it relies mainly on axial flaps,1 but their donor sites are scarce due to a lack of available known vascular pedicles, particularly in the head and neck. Flap prefabrication is a promising solution to this problem 2. After the implantation of a vascular pedicle and a period of revascularization, prefabrication enables the conversion of a random flap into an axial flap.…”

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confidence: 99%

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Prefabrication—a Vascularized Skin Flap Using an Arteriovenous LoopPrefabricated Flap With Arteriovenous Loop

Wang

et al. 2023

Journal of Craniofacial Surgery

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Background: Arteriovenous loops have a high potency to induce angiogenesis and are promising to solve the problem of scarce implanted pedicle sources and insufficient neovascularization in flap prefabrication. But there is a lack of large animal experiments to support their clinical application. Therefore, we aimed to explore the feasibility of prefabricating large flaps based on arteriovenous loops in pigs. Methods: Five minipigs were used. In the experimental group, a 10-cm-long ear vein graft was microanastomosed with the saphenous artery and vein to form an arteriovenous loop and implanted under the medial thigh flap. A month later, a 10×10 cm prefabricated flap pedicled with the arteriovenous loop was elevated and sutured in situ. In the control group, a 10×10 cm flap with no vascular pedicle was elevated completely and sutured in situ in the same position. The patency of the arteriovenous loop was evaluated by angiography 30 days after implantation, and the viability of flaps was assessed by macroscopic analysis 10 days after elevation. Three animals received arteriovenous loop flaps unilaterally and no-pedicle flaps unilaterally. Two animals received arteriovenous loop flaps bilaterally. Results: In the experimental group, no thrombi were exhibited in any arteriovenous loop. All 7 prefabricated flaps survived uneventfully. In the control group, 3 flaps were completely necrotic. Conclusion: The arteriovenous loops with long interpositional venous grafts can be used as vascular pedicles to prefabricated large area and well-vascularized flaps. This approach can greatly expand the application of flap prefabrication.

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Section: Discussioncontrasting

confidence: 54%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Referencesmentioning

confidence: 99%

mentioning

confidence: 99%

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Prefabrication—a Vascularized Skin Flap Using an Arteriovenous LoopPrefabricated Flap With Arteriovenous Loop

Wang

et al. 2023

Journal of Craniofacial Surgery

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Angiosome-Guided Perfusion Decellularization of Fasciocutaneous Flaps

Yang,

Bai,

Liu

et al. 2024

J Reconstr Microsurg

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Background Tissue engineering based on whole-organ perfusion decellularization has successfully generated small-animal organs, including the heart and limbs. Herein, we aimed to use angiosome-guided perfusion decellularization to generate an acellular fasciocutaneous flap matrix with an intact vascular network. Method Abdominal flaps of rats were harvested, and the vascular pedicle (iliac artery and vein) was dissected and injected with methylene blue to identify the angiosome region and determine the flap dimension for harvesting. To decellularize flaps, the iliac artery was perfused sequentially with 1% sodium dodecyl sulfate, deionized water, and 1% Triton-X100. Gross morphology, histology, and DNA quantity of flaps were then obtained. Flaps were also subjected to glycosaminoglycan and hydroxyproline content assays, as well as computer tomography angiography. Results Histological assessment indicated that cellular content was completely removed in all flap layers following 10-h perfusion in sodium dodecyl sulfate. DNA quantification confirmed 81% DNA removal. Based on biochemical assays, decellularized flaps had hydroxyproline content comparable with that of native flaps, although significantly fewer glycosaminoglycans (p = 0.0019). Histology and computed tomography angiography illustrated the integrity and perfusability of the vascular system. Conclusion The proposed angiosome-guided perfusion decellularization protocol could effectively remove cellular content from rat fasciocutaneous flaps and preserve the integrity of innate vascular networks.

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