Repairing Large(大修)研究综述
Repairing Large 大修 - Osteogenesis and angiogenesis acts as an essential role in repairing large tibial defects (LTDs). [1] Dermal substitutes are indispensable for repairing large full-thickness skin defects. [2] Objective To investigate the effectiveness of abdominal free flap carrying bilateral superficial circumflex iliac arteries for repairing large skin and soft tissue defects of foot and ankle. [3] Conclusion This case shows that free ALTP and DIEP flaps are ideal for repairing large skin area and soft tissue defects in bilateral lower limbs after trauma. [4] We compare the long-term efficacy of the cartilage–perichondrium modified over-underlay technique and transtympanic underlay alone technique using endoscopic myringoplasty without tympanomeatal flap elevating for repairing large chronic perforations. [5] Background High re-tear rates after repairing large-sized posterosuperior rotator cuff tears remain a significant concern which may affect the clinical outcome. [6] Although it is well known that repairing large or massive tears under tension may have an adverse effect on healing of the repaired tendons, only few studies have addressed this issue in medium-sized isolated supraspinatus full-thickness tear. [7] This study evaluated the adequacy of an alternative unilateral flap method called “ice cream-cone flap” in repairing large myelomeningocele defects. [8] These functionally debilitating injuries are conventionally treated with nonvascularized nerve grafting; however, this reconstructive modality produces moderate donor site morbidity and has limited efficacy for repairing large defects. [9] As the availability of autologous bone sources and commercial products is limited and surgical methods do not help in complete regeneration, it is necessary to develop alternative approaches for repairing large segmental bone defects. [10] This paper proposes an integrated approach for repairing larger sized nickel-aluminum bronze (NAB) components using a single robotic system. [11] Objective: To explore the clinical effects of free bilateral overlength anterolateral femoral perforator flaps in repairing large area soft tissue defects of limbs by series or parallel connection of blood vessels. [12] Botulinum toxin A (BTA) has proven a beneficial adjunct in repairing large ventral herniae. [13] The attention transfer network cross layer proposed in this paper can effectively reconstruct the more detailed coding feature map, and it can play an active guiding role in the coding process by using skip connection; the image inpainting network can generate content that is highly consistent with the structure and semantics of the real image when repairing large-area irregular defect areas, which is more in line with the human visual experience. [14] Although bone tissue possesses a well-known repair and regeneration capacity, these mechanisms are inefficient in repairing large size defects and bone grafts are often necessary. [15] 04Mg-2Ag degradable zinc alloy scaffold had excellent biocompatibility, and has significant antibacterial activity and fine osteogenic induction, which was an ideal bone substitute material for repairing large-scale bone defects. [16] To overcome these limitations, a completely scaffold-free Kenzan method for bio-3D printing was used to fabricate cartilage constructs feasible for repairing large chondral defects. [17] OBJECTIVE This study compared the long-term graft success rates and hearing outcomes of overlay-underlay and underly cartilage myringoplasty for repairing large perforations in Teenagers. [18] In conclusion, our findings exhibit a promising exosome-based strategy in repairing large bone defects through enhanced angiogenesis, which potentially regulated by the miR-21/NOTCH1/DLL4 signaling axis. [19] Conclusions Biological mesh fixed with suture and medical glue was safe and effective for repairing large hiatal hernias. [20]成骨和血管生成在修复大胫骨缺损 (LTDs) 中起着重要作用。 [1] 真皮替代品对于修复大的全层皮肤缺陷是必不可少的。 [2] 客观的 探讨携带双侧回旋髂浅动脉的腹部游离皮瓣修复足踝大面积皮肤软组织缺损的效果。 [3] 结论 该病例表明游离ALTP和DIEP皮瓣是修复双侧下肢创伤后大面积皮肤和软组织缺损的理想方法。 [4] 我们比较了软骨 - 软骨膜改良覆盖技术和仅经鼓室垫技术使用内窥镜鼓膜成形术修复大型慢性穿孔的长期疗效。 [5] 背景 修复大尺寸后上肩袖撕裂后的高再撕裂率仍然是可能影响临床结果的重要问题。 [6] 尽管众所周知,在张力下修复大面积或大面积撕裂可能对修复后肌腱的愈合产生不利影响,但只有少数研究在中型孤立的冈上肌全层撕裂中解决了这个问题。 [7] 本研究评估了一种称为“冰淇淋锥皮瓣”的替代单侧皮瓣方法在修复大脊髓脊膜膨出缺陷中的充分性。 [8] 这些功能性损伤通常采用非血管化神经移植治疗。然而,这种重建方式会产生中等的供体部位发病率,并且修复大缺陷的效果有限。 [9] 由于自体骨源和商业产品的可用性有限,并且手术方法无助于完全再生,因此有必要开发替代方法来修复大节段性骨缺损。 [10] 本文提出了一种使用单个机器人系统修复较大尺寸的镍铝青铜 (NAB) 组件的集成方法。 [11] 目的:探讨游离双侧超长股骨前外侧穿支皮瓣串联或并联血管修复肢体大面积软组织缺损的临床效果。 [12] 肉毒杆菌毒素 A (BTA) 已被证明是修复大腹疝的有益辅助剂。 [13] 本文提出的attention transfer network cross layer可以有效地重构出更详细的编码特征图,并且可以利用skip connection在编码过程中起到积极的引导作用;图像修复网络在修复大面积不规则缺陷区域时,可以生成与真实图像结构和语义高度一致的内容,更符合人类视觉体验。 [14] 尽管骨组织具有众所周知的修复和再生能力,但这些机制在修复大尺寸缺损方面效率低下,并且通常需要骨移植物。 [15] 04Mg-2Ag可降解锌合金支架具有优异的生物相容性,具有显着的抗菌活性和良好的成骨诱导作用,是修复大面积骨缺损的理想骨替代材料。 [16] 为了克服这些限制,用于生物 3D 打印的完全无支架 Kenzan 方法被用于制造可用于修复大软骨缺损的软骨结构。 [17] 客观的 本研究比较了覆盖垫层和下软骨鼓膜成形术修复青少年大穿孔的长期移植成功率和听力结果。 [18] 总之,我们的研究结果展示了一种有前途的基于外泌体的策略,通过增强血管生成来修复大骨缺损,这可能受 miR-21/NOTCH1/DLL4 信号轴的调节。 [19] 结论 缝合线和医用胶水固定的生物网片修复大裂孔疝安全有效。 [20]
repairing large skin
Objective To investigate the effectiveness of abdominal free flap carrying bilateral superficial circumflex iliac arteries for repairing large skin and soft tissue defects of foot and ankle. [1] Conclusion This case shows that free ALTP and DIEP flaps are ideal for repairing large skin area and soft tissue defects in bilateral lower limbs after trauma. [2]客观的 探讨携带双侧回旋髂浅动脉的腹部游离皮瓣修复足踝大面积皮肤软组织缺损的效果。 [1] 结论 该病例表明游离ALTP和DIEP皮瓣是修复双侧下肢创伤后大面积皮肤和软组织缺损的理想方法。 [2]