Effects of quercetin and surgicel for preventing adhesions after gynecological surgery: A rat uterine horn model

Quercetin inhibits mesothelial-mesenchymal transition and alleviates postoperative peritoneal adhesions by blocking the TGF-β1/PI3K/AKT pathway

ETHNOPHARMACOLOGICAL RELEVANCE

Carthami flos is a dried flower of the Asteraceae plant Carthamus tinctorius (L.). Danhong injection, composed of Carthami flos and Danshen can prevent the formation of postoperative peritoneal adhesions. Quercetin (QUE), an active compound of Carthami flos, has also been proved to prevent postoperative abdominal and uterine cavity adhesions. However, whether QUE is the key component in Carthami flos and the mechanism in preventing postoperative peritoneal adhesions has not been studied.

AIM OF THE STUDY

To predict whether QUE is the key molecule in Carthami flos and explore the effect and mechanism of QUE in preventing postoperative peritoneal adhesions.

MATERIALS AND METHODS

Drug composition and target analysis was used to predict the key component in Carthami flos. The method of cecum-sidewall abrasion was used to establish adhesion models, and the antiadhesion effect of QUE was evaluated with the adhesion scoring system. Network pharmacology was used to predict the targets and potential mechanism of QUE in preventing adhesion. The mechanism was further verified by immunofluorescence, Western blot, wound healing experiment, and molecular docking.

RESULTS

Quercetin was predicted to be the key to preventing postoperative peritoneal adhesions in Carthami flos. Animal experiments revealed that QUE effectively ameliorated adhesions and reduced the expression of mesothelial-mesenchymal transition (MMT) related markers and TGF-β1. Moreover, the TGF-β1/PI3K/AKT pathway was predicted via protein-protein interaction and Kyoto encyclopedia of Genes and Genomes enrichment analysis to play a crucial part in preventing adhesion by QUE. Furthermore, in vitro experiments and molecular docking demonstrated that QUE could block the TGF-β1/PI3K/AKT pathway through forming a stable combination with TβR-II, thereby inhibiting MMT and ameliorating peritoneal adhesion.

CONCLUSIONS

QUE can not only reduce postoperative TGF-β1 but also block the TGF-β1/PI3K/AKT pathway to inhibit MMT of mesothelial cells, and finally alleviate postoperative peritoneal adhesions. These findings may provide insights towards development of a safe and effective anti-adhesive drug for prevention of postoperative peritoneal adhesions.

Prevention of abdominal adhesion by a polycaprolactone/phospholipid hybrid film containing quercetin and silver nanoparticles

Aim: To develop quercetin-loaded poly(caprolactone) (PCL)/soybean phosphatidylcholine (PC) films coated with silver (Ag) to prevent the formation of postoperative adhesions (POA). Materials & methods: Films were prepared using the solvent casting method, coated with Ag, and underwent in vitro tests. In vivo studies were conducted employing an animal model of sidewall defect and cecum abrasion. Results: Films showed sustained release behavior of quercetin and Ag. Coating films with Ag improved their antimicrobial activity. In vivo studies confirmed superior antiadhesion properties of films compared with the control groups evaluated by gross observation, histochemical staining and immunohistochemistry analyses. Conclusion: Ag-Q-PCL-PC films are a potential candidate to prevent POA by acting as a sustained release delivery system and physical barrier.

Evaluation of the Hemostatic Efficacy of Two Powdered Topical Absorbable Hemostats Using a Porcine Liver Abrasion Model of Mild to Moderate Bleeding

INTRODUCTION

Topical hemostatic agents, used alone or in combination, have become common adjuncts to manage tissue and organ bleeding resulting from trauma and surgical procedures. Oxidized regenerated cellulose (ORC) is one of the most commonly used adjunctive hemostatic agents. The aim of the present study was to compare the hemostatic efficacy of a novel ORC-based product, SURGICEL® Powder Absorbable Hemostat (Surgicel-P) to that of HEMOBLAST™ Bellows (Hemoblast-B), a collagen-based combination powder.

METHODS

Using an established porcine liver abrasion model, we randomly tested Surgicel-P and Hemoblast-B in 60 experimental lesion sites (30 per product tested). Primary endpoints included hemostatic efficacy measured by absolute time to hemostasis (TTH) within 5 minutes. We also examined number of applications required to achieve hemostasis, and sustained hemostasis following saline irrigation of test sites that achieved hemostasis.

RESULTS

Surgicel-P demonstrated significantly higher hemostatic efficacy and lower TTH (p < 0.01) than Hemoblast-B. Surgicel-P-treated lesion sites achieved hemostasis in 73.3% of cases following one product application vs. 3.3% of Hemoblast-B-treated sites. Of all sites that were assessed, hemostasis was achieved and sustained following irrigation at 93.3% of Surgicel-P-treated sites vs. 50.0% of Hemoblast-B-treated sites. The average number of Surgicel-P applications per site was 51% lower than the average number of applications used for Hemoblast-B.

CONCLUSION

Surgicel-P provided more effective and sustained hemostasis and faster TTH than Hemoblast-B. Surgicel-P represents a novel clinical alternative to provide adjunctive control of diffuse mild and moderate bleeding. Surgicel-P combines an ORC powder formulation and a delivery system in a device that is particularly useful for application on large surfaces and difficult-to-access anatomical locations where application of other forms of topical hemostats may be impractical.

The sticky business of adhesion prevention in minimally invasive gynecologic surgery

PURPOSE OF REVIEW

The negative impact of postoperative adhesions has long been recognized, but available options for prevention remain limited. Minimally invasive surgery is associated with decreased adhesion formation due to meticulous dissection with gentile tissue handling, improved hemostasis, and limiting exposure to reactive foreign material; however, there is conflicting evidence on the clinical significance of adhesion-related disease when compared to open surgery. Laparoscopic surgery does not guarantee the prevention of adhesions because longer operative times and high insufflation pressure can promote adhesion formation. Adhesion barriers have been available since the 1980s, but uptake among surgeons remains low and there is no clear evidence that they reduce clinically significant outcomes such as chronic pain or infertility. In this article, we review the ongoing magnitude of adhesion-related complications in gynecologic surgery, currently available interventions and new research toward more effective adhesion prevention.

RECENT FINDINGS

Recent literature provides updated epidemiologic data and estimates of healthcare costs associated with adhesion-related complications. There have been important advances in our understanding of normal peritoneal healing and the pathophysiology of adhesions. Adhesion barriers continue to be tested for safety and effectiveness and new agents have shown promise in clinical studies. Finally, there are many experimental studies of new materials and pharmacologic and biologic prevention agents.

SUMMARY

There is great interest in new adhesion prevention technologies, but new agents are unlikely to be available for clinical use for many years. High-quality effectiveness and outcomes-related research is still needed.

Off-pump hemostasis for left ventricular rupture after myocardial infarction with Hydrofit® and Surgicel®

Left ventricular free wall rupture (LVFWR) is a catastrophic complication of myocardial infarction. In these cases, cardiopulmonary bypass (CPB) should be performed for left ventricular repair, but can impact hemodynamic stability. An 87-year-old man presented with acute shock. He was diagnosed with LVFWR after myocardial infarction. We describe a simple, effective, and reproducible technique to achieve hemostasis at the LVFWR site during emergency operation using Hydrofit^® and Surgicel^® surgical hemostatic agents. We simply placed and manually pressed the Hydrofit^® and Surgicel^® composite on the bleeding site. This technique provides complete hemostasis without CPB establishment.