Efficacy of simvastatin in reducing postoperative adhesions after thyroidectomy: an experimental study

A Strong Adhesive Biological Hydrogel for Colon Leakage Repair and Abdominal Adhesion Prevention

Colon leakage is one of the most severe complications in abdominal trauma or surgery cases. It can lead to severe abdominal infection and abdominal adhesions, resulting in prolonged hospital stays and increased mortality. In this study, a photosensitive hydrogel is proposed, which can swiftly form a strong adhesion coating on the damaged colon after UV irradiation, to realize quick cure and suture-free repair of colon leakage. The newly developed biological gel consists of hyaluronic acid methacryloyl (HAMA) and hyaluronic acid o-nitroso benzaldehyde (HANB) in the optimal ratio of 3: 1, which exerts both the rapid photocuring properties of HAMA and the strong tissue adhesion properties of HANB. HAMA/HANB shows excellent adhesion stability on wet surfaces, presenting controllable mechanical properties, ductility, adhesion stability, and chemical stability; it also evades foreign body response, which relieves the degree of abdominal adhesion. The underlying mechanism for HAMA/HANB promoting wound healing in colon leakage involves the reconstruction of the colon barrier, as well as the regulation of the immune reaction and neovascularization. In all, HAMA/HANB is a promising alternative suture-free approach for repairing colon leakage; it has a reliable healing effect and is expected to be extended to clinical application for other organ injuries.

A New Cross-Linked Hyaluronic Acid Gel for Preventing Adhesion After Thyroid Surgery: An Animal Study

BACKGROUND

Revision of any neck surgeries is usually associated with increased rate of complications compared to the initial surgery due to adhesions. Especially, recurrent laryngeal nerve injury and hypoparathyroidism are most important postoperative complications of thyroid revision surgery. This study aimed to reveal anti-adhesive effects of cross-linked hyaluronic acid gel (NCHAG) in thyroid surgery.

MATERIALS AND METHODS

This study was performed in 16 adult male rats who underwent hemithyroidectomy in the right lobe and randomized into two experimental groups: Group I (control group) was given any substance and Group II (NCHA group) received NCHA spray into their perithyroidal area. The rats were sacrificed after three weeks of thyroidectomy for assessment.

RESULTS

Gross adhesions score (x̄ = 2.500) was significantly higher in Group I than Group II (x̄=1.750; P = 0.031). Group II showed significantly less fibrosis compared to the Group I (P = 0.002). The rate of inflammation was found to be significantly higher in group I (P = 0.008). Vascular proliferation was not different between two groups (p=0.083).

CONCLUSIONS

Our study showed that NCHA can reduce postoperative adhesion and might be effective in preventing fibrosis after the thyroidectomy. Although this study could not demonstrate that application of NCHA is able to reduce complication rate in revision neck surgery, it could be safely used after thyroidectomy and neck surgeries to prevent adhesions.

Viable cryopreserved umbilical tissue (vCUT) reduces post-operative adhesions in a rabbit abdominal adhesion model

Post-operative adhesions, a common complication of surgery, cause pain, impair organ functionality, and often require additional surgical interventions. Control of inflammation, protection of injured tissue, and rapid tissue repair are critical for adhesion prevention. Adhesion barriers are biomaterials used to prevent adhesions by physical separation of opposing injured tissues. Current adhesion barriers have poor anti-inflammatory and tissue regenerative properties. Umbilical cord tissue (UT), a part of the placenta, is inherently soft, conforming, biocompatible, and biodegradable, with antimicrobial, anti-inflammatory, and antifibrotic properties, making it an attractive alternative to currently available adhesion barriers. While use of fresh tissue is preferable, availability and short storage time limit its clinical use. A viable cryopreserved UT (vCUT) "point of care" allograft has recently become available. vCUT retains the extracellular matrix, growth factors, and native viable cells with the added advantage of a long shelf life at -80 °C. In this study, vCUT's anti-adhesion property was evaluated in a rabbit abdominal adhesion model. The cecum was abraded on two opposing sides, and vCUT was sutured to the abdominal wall on the treatment side; whereas the contralateral side of the abdomen served as an internal untreated control. Gross and histological evaluation was performed at 7, 28, and 67 days post-surgery. No adhesions were detectable on the vCUT treated side at all time points. Histological scores for adhesion, inflammation, and fibrosis were lower on the vCUT treated side as compared to the control side. In conclusion, the data supports the use of vCUT as an adhesion barrier in surgical procedures.