Academic literature on the topic 'Exuberant granulation tissue'

Background. Upper airway granulomas are commonly encountered benign masses and are a result of pronounced tissue reactivity to localized respiratory mucosal trauma. The mechanism of injury to respiratory epithelium is most commonly iatrogenic and associated with intubation or indwelling tracheostomy. Case Report. A 40-year-old obese female with a history of multiple intubations, poorly controlled diabetes mellitus type II, and history of tracheal stenosis presented with sudden onset respiratory distress requiring intubation at an outside hospital. Direct laryngoscopy revealed a rapidly forming transglottic tissue mass, measuring 5.0 × 2.2 × 0.8 cm. The following case represents an unusual exception to our experience with granulomas given its rapidity of onset and migration of tissue around the endotracheal tube. Discussion. Laryngeal erythema and granulation formation are expected postintubation findings in most patients; however, the large size of granuloma tissue and rapid onset of symptoms in this case make it remarkable. Our patient had multiple risk factors for postintubation stenosis: female sex, poorly controlled diabetes, hypertension, obesity, and multiple prior intubations for periods lasting longer than forty-eight hours. Conclusion. Our case highlights a rare laryngeal finding of a large granulation tissue mass causing sudden onset airway obstruction.

Abstract Over-granulation or exuberant granulation tissue is a common problem encountered in the care of chronic wounds, especially that of diabetic foot ulcers. There are several potential options for the treatment of this challenging problem. Some have an immediate short term effect but may have a longer term unfavourable effect, for example, silver nitrate application and surgical excision, which may delay wound healing by reverting the wound back to the inflammatory phase of healing. Other products, such as foams and silver dressings may offer some effect in short term, but their long term effects are questionable. The more recent research supports Haelan cream and tape as an efficacious and cost effective treatment for over-granulation in a variety of wound types. The future of treating over-granulation may lie with surgical lasers, since lasers can not only remove over-granulation tissue but will also cauterise small blood vessels and are very selective, leaving healing cells alone while removing excess and unhealthy tissue. Recently Drs Lain and Carrington have demonstrated the utility of imiquimod, an immune-modulator with anti-angiogenic properties, in the treatment exuberant granulation tissue, in a patient with long standing diabetic foot ulcer, resistant to other forms of therapy. We adapted a modified version of their protocol in the management of a similar patient in our hospital and achieved a good result in lesser time than the former.

The study of wound healing and its treatment is extremely important in veterinary medicine due to the high frequency of wounds and the difficulty in treating wounds by second intention. Thus, the objective of this study was to evaluate the use of a nanofiber membrane made of biodegradable polymers as a method of wound treatment in dogs. This study comprised two dogs with bite wounds. Debridement and cleaning was performed followed by the application of the membrane. In one dog, the wound was in the left proximal calcaneal region with clinical signs of infection, necrotic tissue, and muscle and the gastrocnemius tendon were exposed. The wound displayed rapid formation of granulation tissue which became excessive, so it was necessary to debride several times. However, with the suspension of the use of the membrane, formation of this tissue was not observed, and the wound evolved to epithelialization and fast contraction. In the second dog, there was a deep wound on the medial aspect of the proximal right hind limb, with clinical signs of infection, with muscle exposure. Once the membrane was placed, granulation tissue formed, and the membrane was used until the level of this tissue reached the skin. The wound underwent rapid epithelialization and contraction, without developing exuberant granulation tissue. Efficient wound repair was observed and the dogs exhibited greater comfort during application and use of the membrane. More studies should be conducted in dogs focusing on the application of this membrane until the appearance of healthy granulation tissue, as continued use seems to stimulate the formation of exuberant granulation tissue.

La guérison des plaies cutanées appendiculaires chez le cheval, à la différence de celle des plaies corporelles, se complique régulièrement. Un retard de cicatrisation s’y observe et un tissu de granulation exubérant tend à s’y développer, le tout menant à une cicatrice pathologique hypertrophiée. La pathogénie exacte du tissu de granulation exubérant chez le cheval demeure inconnue à ce jour. Une hypoxie tissulaire pourrait favoriser son développement tout comme elle semble contribuer au développement de cicatrices cutanées pathologiques similaires observées chez l’Homme. L’objectif de cette étude était d’évaluer la perfusion vasculaire et la disponibilité locale en oxygène de plaies cutanées appendiculaires et corporelles en cours de cicatrisation normale et pathologique chez le cheval, à l’aide de la thermographie infrarouge et de la spectroscopie par réflectance dans le proche infrarouge. Six juments âgées de 3 à 4 ans ont été utilisées. Trois plaies cutanées ont été créées à l’aspect dorso-latéral du canon des membres thoraciques (plaies appendiculaires), et sur la paroi costale de l’un des hémithorax (plaies corporelles). Chez chaque jument, un canon a été aléatoirement bandé dans le but d’induire la formation de tissu de granulation exubérant dans les plaies s’y trouvant, tel que rapporté. La perfusion vasculaire et la disponibilité locale en oxygène ont été évaluées séquentiellement par thermographie infrarouge et spectroscopie par réflectance dans le proche infrarouge pour chaque plaie de chaque site (thorax; membre bandé; membre non bandé) au cours du processus de cicatrisation cutanée. Un modèle linéaire à doubles mesures répétées associé à une correction séquentielle de Bonferroni a révélé des différences significatives de perfusion vasculaire et de disponibilité locale en oxygène entre les plaies appendiculaires et corporelles. Ainsi la perfusion vasculaire et la disponibilité locale en oxygène étaient significativement plus élevées dans les plaies corporelles (P<0.05) et la perfusion vasculaire était significativement plus élevée dans les plaies appendiculaires non bandées que dans celles bandées (P<0.05). Nous avons récemment rapporté une plus grande occlusion de la micro-vascularisation au niveau des plaies appendiculaires chez le cheval. Nous rapportons maintenant que la perfusion vasculaire et la disponibilité locale en oxygène sont significativement inférieures dans les plaies appendiculaires, en particulier lorsqu’un tissu de granulation exubérant s’y développe. Compilés, ces résultats sous-tendent l’hypothèse que les plaies appendiculaires souffrent d’une altération de la perfusion vasculaire à l’origine possible d’une hypoxie tissulaire qui pourrait favoriser une cicatrisation cutanée anormale, telle la formation d’un tissu de granulation exubérant.
Cutaneous wound healing in horse limbs is often perturbed by the development of exuberant granulation tissue while body wounds tend to repair uneventfully. A delay in healing is usually observed in horse limb wounds, which tend to develop exuberant granulation tissue and excessive scarring. The events leading to exuberant granulation tissue formation in horses are not fully elucidated. Tissue hypoxia has been proposed as a major contributing factor as it appears to contribute to the development of similar abnormal skin scarring in human. The objective of this study was to investigate skin blood flow and tissue oxygen availability in normal / abnormal healing of full-thickness wounds created on the horse limb and body, using infrared thermography and near infrared reflectance spectroscopy. Six healthy, 3- to 4-year-old mares were used for the experiment. Three full-thickness cutaneous wounds were surgically created on the dorso-lateral surface of each metacarpal area (limb wounds) and on the lateral thoracic wall (body wounds). One randomly chosen distal forelimb was then left to heal by second intention without bandage, while the contralateral limb was bandaged postoperatively to induce the formation of exuberant granulation tissue and lead to excessive scarring. Thermal and spectroscopic data were collected from both anatomic sites (limb without bandage, bandaged limb, thoracic wall) at specific times following wounding. Mean changes in skin blood flow and tissue oxygen availability at specific wound sites over time were compared by use of repeated measures ANOVA with anatomical location and wound management as within-subject factors. A priori contrasts, submitted to Bonferroni sequential correction, were then used to compare pre-selected individual means. The statistical analysis revealed that there were significant differences in skin blood flow and tissue oxygen availability within wounds. Skin blood flow and tissue oxygen availability were significantly increased within body over limb wounds (P<0.05). Skin blood flow was significantly increased within unbandaged limb over bandaged limb wounds (P<0.05). We have recently reported a greater occlusion of microvessels in limb wounds in horses. We report here that skin blood flow and tissue oxygen availability are significantly inferior in limb wounds in horses, especially when exuberant granulation develops. Taken together, these results suggest that equine limb wounds may suffer from altered vascular perfusion and tissue hypoxia, which could favor abnormal skin healing and exuberant granulation tissue development.