Pharmacological Effects of Carvacrol in In vitro Studies: A Review.

Carvacrol has a high therapeutic potential, with in vitro studies showing promising results in different cellular models using a variety of methodological designs. Therefore, the objective of this study was to conduct a systematic review to analyze the pharmacological effects of carvacrol in in vitro studies. A comprehensive search of the literature was made using four databases: Science Direct, Scopus, MEDLINE-PubMed, and Web of Science using different combinations of the following keywords: carvacrol, drug therapy, therapeutic uses, in vitro study. The search of the databases was for studies conducted in the period up to and including September 2016. A total of 3,269 studies were initially identified, with only 31 meeting the inclusion criteria. The included studies contained a variety of in vitro models able to determine the properties of Carvacrol. The following properties of Carvacrol were identified: antimicrobial (7 studies), bactericidal (4), bactericidal and antifungal (1), antiinflammatory (4), anticancer (4), mutagenic (4), antioxidant (3), antifungal (3), antidepressant (1), as a modulator of nerve impulses (1) and an immunological modulator (1). The In vitro studies with Carvacrol included in this review showed a diversity of models and confirmed the therapeutic potential of this product in relation to several diseases.

Natural and synthetic products used for the treatment of smoke inhalation: a patent review.

INTRODUCTION: Inhalation injury is the leading cause of death in burn patients and is usually caused by the uninhibited absorption of smoke, which has an extremely toxic effect on the respiratory system. The physiopathology of inhalation injury covers multiple factors and the injured respiratory system may present deterioration in a few hours. Areas covered: In this present review, we analyzed patents based on both natural and synthetic products developed for the treatment of smoke inhalation. We found 14 patents in Espacenet, 25 in WIPO and none in the USPTO data search. Expert opinion: Several previous reports on treatments used for smoke inhalation are discussed. Although there are a number of research based products for this injury, there has been no review of the patents dealing with treatments for smoke inhalation. The development of novel natural or synthetic products are discussed in detail in the review.

Inflammatory Mediators and Oxidative Stress in Animals Subjected to Smoke Inhalation: A Systematic Review.

BACKGROUND: The inhalation injury is usually initiated by uninhibited absorption of smoke, favoring the release of cytokines and other lipid mediators from inflammatory cells in lung airways and parenchyma. OBJECTIVES: To systematically review, examine, and synthesize the main inflammatory mediators analyzed in published studies in animals subjected to smoke inhalation, as well as oxidative stress. SEARCH STRATEGY: A comprehensive literature search was conducted through MEDLINE-PubMed, Web of Science, and Scopus. SELECTION CRITERIA: Studies with animals subjected to lung damage from smoke inhalation that evaluated the presence and the action of inflammatory mediators and oxidative stress. RESULTS: A total of 1332 studies were initially identified, with only 31 meeting the inclusion criteria. The inflammatory mediators and oxidative stress markers studied and presented in the articles described herein were varied; however, the most cited ones were tumor necrosis factor-alpha (6), IL-8 and IL-6 (both studied in five articles), IL-1ß and nuclear factor kappa ß (both studied in 4 articles), malondialdehyde (11 studies), and myeloperoxidase (7). It is worth noting that most studies evaluated more than one inflammatory mediator and oxidative stress marker. CONCLUSION: Based on this review, we could observe that the main inflammatory mediators and oxidative stress markers analyzed were TNF-α, IL-8, IL-6, IL-1ß, nuclear factor kappa ß, MDA, and MPO. However, it is necessary to increase the rigor of study design and data, in order to have studies that are more homogeneous and with appropriate methodological quality.

Products with Natural Components to Heal Dermal Burns: A Patent Review.

BACKGROUND: Burns are a global public health problem, and non-fatal burn injuries are a leading cause of morbidity. The scale of the problem has led researchers to seek to develop new prod- ucts (both synthetic and natural) for use in the treatment of burn lesions. OBJECTIVE: The aim of this study was to examine all patents in databases between 2010 and 2015 related to natural prod- ucts for the treatment of burn-related wounds that targeted tissue repair and healing. METHOD: The search term "burn" and the code A61K36/00 (plant and other natural derivatives used in medicinal prepara- tions) from the international classification of patents were used to identify treatments. RESULTS: The search was performed in the WIPO, ESPACENET and USPTO databases. The highest number of patent ap- plications was found in the WIPO data base (617), followed by ESPACENET(23) and USPTO(6). The USA and China were the countries with the most patent applications, and 2008 was the year that had the highest number of applications. Patent applications written in Spanish, English and Portuguese and that were published between 2010 and 2015 were se- lected. 559 patent applications in other languages, and 63 that did not result in the creation of new products between 2010 and 2015 were excluded and the remaining 13 patents application were selected for full reading of the text. CONCLUSION: Through this study we were able to identify and summarize the new active natural compounds that can be used in the treatment of burns, both in terms of tissue recovery and analgesia.