Management of post-surgical infection of onychocryptosis with topical application of hyaluronic acid versus antibacterial ointments

Introduction

The prevention and cure of postoperative infections has been a source of study over the years and is currently being studied. In this bibliographic review, a comparison between the different products used for the prevention and treatment of postsurgical infections has been procured, likewise, being able to determine which would be the best option for the treatment of post-surgical infections. In this bibliographic review we focus on Onychocryptosis because it is an emerging problem today. Many surgeries are performed to fix this condition, which increases the risk of infections.

Material

databases, including PubMed and Cochrane Library, as well as websites of international organizations, were searched up to January 2021. The search included studies and trials in humans on the use of hyaluronic acid and antibacterial ointments in various conditions or diseases.

Results

18 articles were analyzed individually, which included randomized studies of Hyaluronic Acid, various antibiotics and honey, and variables used topically. 3 articles were also selected to explain onychocryptosis and postoperative infections.

Conclusion

Despite being able to determine which antibiotic would be the best, and whether hyaluronic acid can be used for the prevention and/or cure of post-surgical infections, this review emphasizes that there is still a need for more specific studies on its use of these variables, both in post-surgical infections in general and in post-surgical onychocryptosis infections.

Hyaluronan in skin wound healing: therapeutic applications

Hyaluronan is a vital constituent in effective skin wound healing. This polysaccharide is ubiquitous throughout the human body and has functional significance for tissue repair and remodelling. The importance of hyaluronan in the proliferative phase of healing is diverse, impacting on cell migration, proliferation, modification of the inflammatory response and on angiogenesis. As such, it holds therapeutic potential for a variety of clinical applications that range from facilitating effective wound healing to burns management and scarring. This overview of the multifaceted roles of hyaluronan considers its current applications to clinical practice in plastic surgery as well as the latest advances in research.

[Hyaluronan as a key for accelerated wound healing in human 3D full thickness skin models]

BACKGROUND

Wound healing can be divided into three phases: (1) exsudation phase, (2) granulation phase, (3) regeneration phase. In particular, the epithelization phase is of great importance in order to quickly reconstitute the natural skin barrier. The aim of the present study was to determine the reepithelization kinetics of untreated and 0.5% sodium hyaluronate (NHA) treated human 3D full thickness skin models.

MATERIALS AND METHODS

The test protocol consisted of topically applying 10 µl of the test substance 0.5% NHA twice a day. Evaluation of reepithelialization kinetics was carried out from days 2-6. Determination of the influence on immune response was performed based on quantification of IL-1α and IL-10.

RESULTS

Application of 0.5% NHA twice a day enhanced the reepithelialization speed at all time points (p < 0.001). This observation is accompanied by a reduced expression of IL-10 paralleled by an elevated expression of IL-1α on days 2-4 (p < 0.001).

DISCUSSION

The treatment of human skin models with NHA resulted in a significantly increased reepithelization velocity of wounded tissue and consequently promoted faster wound closure, compared to untreated controls. It can be assumed that the downregulation of IL-10 caused the IL1-α mediated increased immune response which finally leads to accelerated wound healing. Follow-up studies will reveal if the faster wound healing and the modulation of the immune response through the application of NHA is valid in vivo.

Effectiveness of a Short-Term Treatment of Oxygen-Ozone Therapy into Healing in a Posttraumatic Wound

Introduction. A number of studies suggest that oxygen-ozone therapy may have a role in the treatment of chronic, nonhealing, or ischemic wounds for its disinfectant and antibacterial properties. Nonhealing wounds are a significant cause of morbidity. Here we present a case of subcutaneous oxygen-ozone therapy used to treat a nonhealing postoperative wound in a young man during a period of 5 weeks. Case Presentation. A 46-year-old man had a motorcycle accident and underwent amputation of the right tibia and fibula. At the discharge he came to our attention to start rehabilitation treatment. At that time the wound was ulcerated but it was afebrile with no signs of inflammation and negativity to blood tests. At 2 months from the trauma despite appropriate treatment and dressing, the wound was slowly improving and the patient complained of pain. For this reason in addition to standard dressing he underwent oxygen-ozone therapy. After 5 weeks of treatment the wound had healed. Conclusion. In patients with nonhealing wounds, oxygen-ozone therapy could be helpful in speeding the healing and reducing the pain thanks to its disinfectant property and by the increase of endogenous oxygen free radicals' scavenging properties. Compared to standard dressing and other treatments reported in the literature it showed a shorter time of action.

The role of hyaluronan in wound healing

The polysaccharide hyaluronan (HA) (synonyms - hyaluronic acid, hyaluronate) is a versatile, polymorphic, glycosoaminoglycan with vast biological functions. HA is found throughout the body, primarily residing in skin, thus playing an important role in wound healing. Research regarding HA's function has changed over the years, primarily focussing on a particular aspect or function. The contribution of HA in each stage of normal wound healing as well as its clinical wound dressing applications will be examined.

Wound healing through synergy of hyaluronan and an iodine complex

Hyaluronan, a glycosaminoglycan (GAG), is a polysaccharide found in many locations in the human body, such as eye, skin and soft tissue. It is also found in other mammals and bacteria. As a component of the extracellular matrix, its role in wound repair, among others, is that of providing a temporary structure to support new tissue formation. Harnessing the therapeutic action of hyaluronan into a topical application of proven clinical benefit has proved challenging. A new development in hyaluronan technology, comprising sodium hyaluronate and iodine complex, offers a novel approach in exploiting the benefits of hyaluronan and delivering real clinical benefits for a wide range of wound types.