Abdominal Wall Expanding System. Intraoperative Abdominal Wall Expansion as a Technique to Repair Giant Incisional Hernia and Laparostoma. New and Long-Term Results From a Three-Center Feasibility Study

Eucker, Dietmar; Rüedi, Nadine; Luedtke, C; Stern, O.; Niebuhr, H.; Zerz, Andreas; Rosenberg, Robert D.

doi:10.1177/15533506211041477

Cited by 8 publications

(1 citation statement)

References 39 publications

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“…Currently, there are a range of recommended treatments for abdominal wall defects, such as tension-free mesh repair [ 7 ], abdominal wall tissue separation [ 8 ], flap reconstruction [ 9 ], abdominal wall expansion techniques [ 10 ], and temporary abdominal closure measures [ 11 , 12 ]. While these technologies can partially reconstruct, restore, or compensate for lost function, they also expose inherent weaknesses.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Functional Hydrogel for Repair of Abdominal Wall Defects: A Review

Liu,

Huang,

et al. 2024

Biomater Res

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The abdominal wall plays a crucial role in safeguarding the internal organs of the body, serving as an essential protective barrier. Defects in the abdominal wall are common due to surgery, infection, or trauma. Complex defects have limited self-healing capacity and require external intervention. Traditional treatments have drawbacks, and biomaterials have not fully achieved the desired outcomes. Hydrogel has emerged as a promising strategy that is extensively studied and applied in promoting tissue regeneration by filling or repairing damaged tissue due to its unique properties. This review summarizes the five prominent properties and advances in using hydrogels to enhance the healing and repair of abdominal wall defects: (a) good biocompatibility with host tissues that reduces adverse reactions and immune responses while supporting cell adhesion migration proliferation; (b) tunable mechanical properties matching those of the abdominal wall that adapt to normal movement deformations while reducing tissue stress, thereby influencing regulating cell behavior tissue regeneration; (c) drug carriers continuously delivering drugs and bioactive molecules to sites optimizing healing processes enhancing tissue regeneration; (d) promotion of cell interactions by simulating hydrated extracellular matrix environments, providing physical support, space, and cues for cell migration, adhesion, and proliferation; (e) easy manipulation and application in surgical procedures, allowing precise placement and close adhesion to the defective abdominal wall, providing mechanical support. Additionally, the advances of hydrogels for repairing defects in the abdominal wall are also mentioned. Finally, an overview is provided on the current obstacles and constraints faced by hydrogels, along with potential prospects in the repair of abdominal wall defects.

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