Unveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.) Benth Var. Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing Properties

-Introduction: This article proposes a comprehensive systematic review to analyze the potential of Clitoria guianensis as an anti-inflammatory and wound healing agent. The emphasis on diversifying research methods aims to deepen understanding of its medicinal properties, especially in the context of anti-inflammatory and wound healing activities. The plant, belonging to the genus Clitoria and native to Brazil, is recognized for its aphrodisiac properties and is used as a sexual stimulant, tonic, and energizer. Studies highlight the presence of bioactive compounds, such as isoflavones, which contribute to its medicinal properties. Methodology: The study was based on the Systematic Literature Review Protocol (SLRP), establishing a framework for comprehensively reviewing scientific literature. The objective was to identify the medicinal properties of C. guianensis in Brazil, focusing on its potential anti-inflammatory and wound healing properties. Results: The results of this scientific review aim to substantiate the consideration of C. guianensis as a potentially beneficial plant in tissue regeneration processes.


Introduction a) Contextualization of Clitoria guianensis in Brazil
he Clitoria guianensis, commonly referred to as Vergateza, stands out as a medicinal plant with a significant presence in the Brazilian territory.Belonging to the Fabaceae family, this endemic species is distinguished by its remarkable medicinal properties, being recognized over time as an anti-inflammatory, wound-healing, and aphrodisiac agent.In the scientific realm, the chemical composition and biological activities of this plant have been meticulously explored, revealing a particular focus on the presence of flavonoids and their antioxidant potential, as evidenced by (C.L. Cunha et al., 2020a).
The study conducted by Cunha et al. (2020) proposed a comprehensive analysis of C. guianensis, revealing the significant presence of flavonoids in its structure.These substances, as indicated by the results, play a crucial role in the anti-inflammatory and woundhealing properties attributed to the plant (Soares et al., 2020).
Additionally, C. guianensis is employed in the preparation of Vergateza tea, decoctions, and infusions made from the roots and leaves (Vila Verde et al., 2003).Recognized for its sexual stimulating, tonic, and energizing effects, Vergateza tea emerges as an alternative in addressing stress, in addition to contributing to the enhancement of physical and mental performance (Vila Verde et al., 2003).
Scientific research focused on analyzing the potential of Clitoria guianensis as an anti-inflammatory and wound-healing agent reflects the commitment to determining its effectiveness in the Brazilian context.These studies constitute valuable contributions to the understanding and promotion of the use of this plant in traditional and phytotherapeutic medicine in Brazil (Soares et al., 2020(Soares et al., , 2020)).
In summary, C. guianensis exhibits antiinflammatory and wound-healing properties, emerging as a relevant entity in the Brazilian phytotherapeutic scenario, further corroborating its role as a fundamental ingredient in the preparation of Vergateza tea, an infusion with aphrodisiac and medicinal attributes (C.L. Cunha et al., 2020a;Soares et al., 2020;Vila Verde et al., 2003).

b) Research Justification
The research is justified by the study of Clitoria guianensis, a medicinal plant identified in Brazil.Although there are numerous ethnofarmacological activities associated with it, these claims lack validation in laboratory or clinical tests.C. guianensis is widely used by riverside populations, indigenous communities, and quilombola communities in the Cerrado biome in the state of Tocantins, being indicated as an antiinflammatory and healing agent.The research aims to explore scientific studies and available evidence to determine the effectiveness of these medicinal properties of C. guianensis in the current Brazilian context in the literature.Additionally, the plant is known for its aphrodisiac properties, being used as a sexual stimulant, tonic, and energizer.
C. guianensis is a plant of the genus Clitoria, native to Brazil; studies demonstrate the presence of bioactive compounds, such as isoflavones, which may contribute to its medicinal properties (Soares et al., 2020).The plant is used in the form of tea, infusion, or decoction, known for its antioxidant properties, potential to alleviate respiratory symptoms, and possible diuretic action (Vila Verde et al., 2003).
However, it is important to note that pregnant or lactating women should consult a healthcare professional before using Vergateza tea (Vila Verde et al., 2003).
Certainly, the proposed research aims to deepen the understanding of the potential of C. guianensis as an anti-inflammatory and healing agent, seeking to contribute to the knowledge and rational use of this medicinal plant in the Brazilian context.To achieve this goal, the Systematic Literature Review Protocol (SLRP) will be adopted, establishing the structure for conducting a comprehensive literature review.The main focus will be to identify the medicinal properties of the genus and species of Clitoria guianensis, with special attention to its anti-inflammatory and healing potential.This systematic approach will enable the collection, analysis, and synthesis of available scientific evidence, thus contributing to the advancement of knowledge in this specific area of phytotherapy.

II. Medicinal Properties of Clitoria Guianensis a) Chemical composition
The chemical composition of Clitoria guianensis includes various bioactive compounds, such as flavonoids and isoflavones (C.L. Cunha et al., 2020a).Studies demonstrate the presence of these compounds in the plant, which contribute to its medicinal properties, such as antioxidant, anti-inflammatory, and wound healing activity (Soares et al., 2020).The presence of flavonoids and isoflavones in C. guianensis is relevant because these compounds are associated with medicinal properties, such as antioxidant and antiinflammatory action (M.M. F. da Cunha, 2022; Jorge & Moraes, 2022; Moraes et al., 2022).Furthermore, the plant is known for its aphrodisiac properties, being used as a sexual stimulant, tonic, and energizer (Vila Verde et al., 2003).Therefore, the chemical composition of C. guianensis contributes to its medicinal properties and justifies the interest in exploring its therapeutic potential.

b) Medicinal use History in Brazil
The history of medicinal plant use in Brazil is intrinsically linked to the traditions of indigenous communities that inhabited the territory before the arrival of European colonizers.Additionally, local traditional populations, such as riverside dwellers and quilombolas, descendants of enslaved peoples, stand out.Over time, these communities acquired traditional knowledge about medicinal plants empirically, transmitting this legacy from generation to generation (Fagundes et al., 2017;Oliveira, 2008; G. D. Ribeiro, 2009;Silva, 2007;Vila Verde et al., 2003).
Indigenous communities, as original holders of this knowledge, developed vast knowledge about the therapeutic properties of various plants, utilizing natural resources available to treat a wide range of ailments.Similarly, quilombolas, representing traditional populations descended from enslaved peoples, significantly contributed to the preservation and transmission of this ancestral knowledge (Fagundes et al., 2017;Oliveira, 2008; G. D. Ribeiro, 2009;Silva, 2007;Vila Verde et al., 2003).
Riverside dwellers, in turn, are communities living in areas near rivers and streams, often directly dependent on these water resources for their daily activities.These riverside populations also absorbed traditional knowledge about medicinal plants, adapting it to their context and incorporating it into healthcare practices (Fagundes et al., 2017;Oliveira, 2008; G. D. Ribeiro, 2009;Silva, 2007;Vila Verde et al., 2003).This ancestral legacy not only shaped Brazilian phytotherapy but also influenced the cultural practices Global Journal of Human Social Science -Year 2024

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of these communities, establishing the foundations for a holistic approach to health, where the connection between humans and nature plays a central role (Fagundes et al., 2017;Oliveira, 2008;RIBEIRO, 2010;Silva, 2007;Vila Verde et al., 2003).
With colonization, there was an exchange of medicinal knowledge between indigenous peoples and European colonizers.Many native plants began to be recorded in the early Brazilian pharmacopoeias, and gradually incorporated into therapeutic practices of the time.The syncretism between indigenous and European traditions contributed to the diversity of the repertoire of medicinal plants used in the country, marking a phase of transition and adaptation in the context of health (Fagundes et al., 2017;Oliveira, 2008; G. D. Ribeiro, 2009;Silva, 2007;Vila Verde et al., 2003).
Throughout the colonial period, healing practices based on medicinal plants were intrinsically linked to indigenous traditions but were also impacted by the arrival of European medical and pharmaceutical knowledge (Agra et al., 2007(Agra et al., , 2008;;Mattos et al., 2018).However, with the growing industrialization and the rise of Western medicine, there was a decline in the use of medicinal plants in favor of synthetic drugs.This scenario persisted for much of the 20th century (Fagundes et al., 2017;Oliveira, 2008; G. D. Ribeiro, 2009;Silva, 2007;Vila Verde et al., 2003).
In recent decades, we have witnessed a resurgence of interest in medicinal plants in Brazil.The recognition of rich local biodiversity and the rediscovery of therapeutic benefits associated with these plants have driven scientific research and clinical practices (Agra et al., 2007(Agra et al., , 2008;;Mattos et al., 2018).Currently, phytotherapy is seen as a complementary practice in the health field, integrating traditional and modern approaches to promote the preservation of ancestral knowledge and environmental sustainability.This movement aims to balance the achievements of contemporary medicine with respect for ancient traditions, valuing the diversity and effectiveness of Brazilian medicinal plants (Fagundes et al., 2017;Oliveira, 2008; G. D. Ribeiro, 2009;Vila Verde et al., 2003).

c) Medicinal use History of Clitoria guianensis
The history of the medicinal use of Clitoria guianensis, commonly known as Vergateza, dates back to traditional practices of Brazilian folk medicine, where it is employed for a variety of therapeutic purposes.The plant is often consumed in the form of tea, infusion, or decoction, standing out for its medicinal properties, which include sexual stimulant action, tonic and energizing effects, diuretic and purgative properties, as well as its effectiveness against conditions such as cystitis, urethritis, and wound healing (R. V. Ribeiro et al., 2017;Vila Verde et al., 2003).
Ethnobotanical studies reveal that the Mossâmedes community, located in Goiás, utilizes C. guianensis as a sexual stimulant and to treat cases of impotence, thus demonstrating its relevant role in local folk medicine (Escher, 2019;Mattos et al., 2018;Vila Verde et al., 2003).
In the study conducted by Cunha et al. (2020), an analysis of the chemical composition of the plant was carried out, employing the roots as the object of study.This analysis revealed the presence of several bioactive compounds, such as: Many of these mentioned compounds have been described and identified in various legumes, as documented in scientific literature.These components play a significant role in studies investigating the antioxidant, anti-inflammatory, and wound healing activities of plant extracts, as evidenced by scientific research (CUNHA, 2022;RAHEJA et al., 2018;SARFRAZ et al., 2020;YU et al., 2019).This convergence between traditional knowledge and scientific understanding reinforces the importance and validity of using this plant in medicinal practice, highlighting its significant potential in the Brazilian phytotherapy scenario (R. V. Ribeiro et al., 2017).Primary health care plays a crucial role in the implementation of RENISUS, as it is at this level that promotion, prevention, treatment, and rehabilitation are carried out, forming the basis of the healthcare system.By incorporating phytotherapy into primary care, the aim is to offer diverse and accessible therapeutic options, meeting the needs of the community.This approach aligns with the principles of comprehensiveness, equity, and resolution advocated by SUS, promoting a holistic and culturally sensitive approach to healthcare (Macedo, 2016;Mattos et al., 2018;RENISUS, 2021).
The updating of the RENISUS list reflects the commitment to incorporating new scientific evidence and monitoring the dynamics of population health demands.Additionally, it fosters research and national production of phytotherapeutics, contributing to the autonomy and sustainability of the Brazilian healthcare system.Thus, RENISUS emerges as an important regulatory instrument, strengthening the integration of phytotherapy into primary health care and promoting more comprehensive and inclusive therapeutic approaches (Macedo, 2016;Mattos et al., 2018;RENISUS, 2021).
The Unified Health System (SUS) in Brazil adopts a comprehensive approach to health promotion, including the incorporation of a diversified list of medicinal plants in its therapeutic protocols.This initiative reflects not only the rich tradition of phytotherapy in Brazilian culture, but also the pursuit of accessible therapeutic alternatives culturally aligned with the population.The SUS list of medicinal plants is the result of careful technical selection, involving healthcare experts, phytotherapists, and botanists, and is constantly updated to reflect scientific advances and traditional practices (Macedo, 2016;RENISUS, 2021).
The elaboration of the list follows rigorous standards, considering not only the clinical efficacy of the plants but also safety criteria, potential drug interactions, and environmental sustainability.This approach ensures that the medicinal plants recommended by SUS meet high standards of quality and safety, providing reliable therapeutic options for healthcare professionals and patients (Mattos et al., 2018;RENISUS, 2021).

National List of Medicinal Plants of Interest to the Unified Health System.
The National List of Medicinal Plants of Interest to the Unified Health System (RENISUS) is a Brazilian regulatory instrument aimed at establishing parameters for access, cultivation, production, and use of medicinal plants and phytotherapeutics within the context of the Unified Health System (SUS).This document represents a strategic initiative to integrate phytotherapy into primary health care, recognizing the therapeutic potential of plants as an effective and low-cost alternative for certain health conditions (Macedo, 2016;Mattos et al., 2018;RENISUS, 2021).
RENISUS comprises a list of medicinal plants considered of interest to SUS, encompassing species with recognized therapeutic properties supported by scientific evidence.This list includes 71 plant species that serve as a reference for healthcare professionals in the prescription and utilization of phytotherapeutics within the scope of primary care.The inclusion of a plant in RENISUS is based on technical criteria involving the demonstration of its efficacy, safety, and quality, ensuring the integrity of phytotherapeutic treatments offered to the population (Macedo, 2016;Mattos et al., 2018;RENISUS, 2021).
Primary health care plays a crucial role in the implementation of RENISUS, as it is at this level that promotion, prevention, treatment, and rehabilitation are carried out, forming the basis of the healthcare system.By incorporating phytotherapy into primary care, the aim is to offer diverse and accessible therapeutic options, meeting the needs of the community.This approach aligns with the principles of comprehensiveness, equity, and resolution advocated by SUS, promoting a holistic and culturally sensitive approach to healthcare (Macedo, 2016;Mattos et al., 2018;RENISUS, 2021).
The updating of the RENISUS list reflects the commitment to incorporating new scientific evidence and monitoring the dynamics of population health demands.Additionally, it fosters research and national production of phytotherapeutics, contributing to the autonomy and sustainability of the Brazilian healthcare system.Thus, RENISUS emerges as an important regulatory instrument, strengthening the integration of Global Journal of Human Social Science -Year 2024
The Unified Health System (SUS) in Brazil adopts a comprehensive approach to health promotion, including the incorporation of a diversified list of medicinal plants in its therapeutic protocols.This initiative reflects not only the rich tradition of phytotherapy in Brazilian culture, but also the pursuit of accessible therapeutic alternatives culturally aligned with the population.The SUS list of medicinal plants is the result of careful technical selection, involving healthcare experts, phytotherapists, and botanists, and is constantly updated to reflect scientific advances and traditional practices (Macedo, 2016;RENISUS, 2021).
The elaboration of the list follows rigorous standards, considering not only the clinical efficacy of the plants but also safety criteria, potential drug interactions, and environmental sustainability.This approach ensures that the medicinal plants recommended by SUS meet high standards of quality and safety, providing reliable therapeutic options for healthcare professionals and patients (Mattos et al., 2018;RENISUS, 2021).
In addition to practical application, the SUS list of medicinal plants drives scientific research, encouraging studies on bioactive compounds, mechanisms of action, and potential clinical applications of medicinal plants.This integration between clinical practice and research contributes to enriching scientific knowledge about the therapeutic properties of plants in Brazil and strengthens the scientific basis underlying phytotherapy (RENISUS, 2021).
The inclusion of phytotherapy in SUS reflects a holistic view of health, recognizing the importance of diverse therapeutic approaches.This strategy aims not only to treat diseases but also to promote prevention and well-being, aligning with the principles of comprehensiveness and universality that guide SUS.The list of medicinal plants, therefore, plays a fundamental role in diversifying and enriching the therapeutic range offered by the Brazilian public healthcare system, meeting the varied and specific needs of the population, and allowing for the integration of new plant species as per laboratory and clinical studies.(Macedo, 2016;Mattos et al., 2018;RENISUS, 2021).

e) Preparation and Administration Methods
The

III. Natural Anti-Inflammatory a) Mechanisms of anti-inflammatory action
The anti-inflammatory process in the body is characterized by the mitigation of the inflammatory response, resulting from increased production of prostaglandins, which play the role of pro-inflammatory mediators.One of the primary mechanisms to achieve this goal is the inhibition of the cyclooxygenase (COX) pathway, which instigates prostaglandin synthesis.This inflammatory phenomenon can be defined as a state in which the body finds itself when there is a conjunction of physiological, biochemical, and immunological alterations in response to harmful stimuli.
The mechanisms of anti-inflammatory action refer to the biological processes in which agents, such as drugs or natural compounds, exert effects aiming to reduce the inflammatory response.One of these predominant mechanisms consists of inhibiting the COX pathway, responsible for inducing prostaglandin synthesis, pro-inflammatory mediators.Nonsteroidal anti-inflammatory drugs (NSAIDs), for example, act by selectively inhibiting COX, thereby decreasing prostaglandin production and consequently mitigating the inflammatory response associated with phenomena Global Journal of Human Social Science -Year 2024

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such as pain and edema.This therapeutic approach proves essential for managing clinical conditions where inflammation is a relevant component (Batlouni, 2010;Mendes et al., 2012).
Another mechanism of anti-inflammatory action involves the modulation of pro-inflammatory cytokines, such as tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1beta) (Batra et al., 2018;Inácio, 2023).Agents that inhibit the production or action of these cytokines have demonstrated efficacy in attenuating inflammation.Biological drugs, such as TNF inhibitors, exemplify this approach by specifically blocking this inflammatory pathway.
Furthermore, some anti-inflammatory compounds act by inhibiting phospholipase A 2 , an enzyme involved in the release of arachidonic acid, a precursor of prostaglandins.By blocking this step, the availability of substrate for the synthesis of proinflammatory mediators is reduced (Mendes et al., 2012).
Antioxidant mechanisms also play an important role in the anti-inflammatory action.Substances with antioxidant properties, such as vitamins C and E, as well as polyphenolic compounds present in plants, neutralize free radicals, reducing oxidative stress associated with chronic inflammation (Alves et al., 2010;Batlouni, 2010).
Finally, modulation of the immune response, especially the regulation of inflammatory cells such as macrophages, is another mechanism of antiinflammatory action (Batra et al., 2018).Compounds that regulate the activation and function of these cells play a crucial role in modulating the inflammatory response, contributing to the effective resolution of the inflammatory process.

b) Relevance in the Medical Context
Understanding the mechanisms of antiinflammatory action is of paramount importance in the medical context, as inflammation is associated with a variety of pathological and chronic conditions.The ability to modulate these mechanisms has led to significant advances in the development of effective therapies for inflammatory diseases such as rheumatoid arthritis, inflammatory bowel disease, and autoimmune conditions (Batra et  Furthermore, the relevance of anti-inflammatory mechanisms is evident in acute situations such as traumatic injuries or infections, where the inflammatory response is a fundamental part of the body's defense.Agents that modulate inflammation without excessively suppressing the immune response become valuable tools for optimizing healing, reducing tissue damage, and improving clinical prognosis (Freitas et al., 2019;Inácio, 2023).
In the context of preventive medicine, understanding and applying anti-inflammatory strategies are fundamental to address risk factors related to diet, lifestyle, and aging that contribute to chronic inflammation.This integrated approach not only improves quality of life but also has the potential to prevent the development of chronic diseases associated with inflammation (Alves et al., 2010;Freitas et al., 2019).
In summary, understanding the mechanisms of anti-inflammatory action plays a crucial role in advancing medical practice, directly influencing therapeutic and preventive approaches in a variety of clinical conditions.The ongoing development of therapies targeting these mechanisms promises to positively impact the management of inflammatory diseases, providing significant benefits to patients and public health overall (Alves et al., 2010;Freitas et al., 2019;Inácio, 2023).
Furthermore, the relevance of anti-inflammatory mechanisms is evident in acute situations such as traumatic injuries or infections, where the inflammatory response is a fundamental part of the organism's defense.Agents that modulate inflammation without excessively suppressing the immune response become valuable tools for optimizing healing, reducing tissue damage, and improving clinical prognosis (Freitas et al., 2019;Inácio, 2023).
In the context of preventive medicine, comprehending and applying anti-inflammatory strategies is essential for addressing risk factors related to diet, lifestyle, and aging that contribute to chronic inflammation.This integrated approach not only enhances quality of life but also has the potential to prevent the development of chronic diseases associated with inflammation (Alves et al., 2010;Freitas et al., 2019).
In summary, understanding the mechanisms of anti-inflammatory action plays a crucial role in advancing medical practice, directly influencing therapeutic and preventive approaches in a variety of clinical conditions.The ongoing development of therapies targeting these mechanisms promises to positively impact the management of inflammatory diseases, providing significant benefits to patients and public health overall (Alves et  ( ) H IV. Tissue Healing and Regeneration

a) Influence of Clitoria guianensis on Healing
The influence of Clitoria guianensis on tissue healing and regeneration is of interest due to the presence of bioactive compounds that may play a significant role in these processes.Among the compounds identified in the roots of C. guianensis, an isoflavonoid called pratensein

V. Scientific Studies and Empirical Evidence a) In Vitro and In Vivo Studies
A thorough analysis of the scientific literature has revealed a significant amount of in vitro and in vivo studies related to the Clitoria genus.However, there is a notable scarcity of specific studies on Clitoria guianensis and its bioactive compounds, especially regarding their anti-inflammatory and wound-healing activities.These in vitro studies often directly explore the influence of these compounds on cell cultures, while in vivo studies focus on examining the effects of these substances on whole organisms.
Nevertheless, it is imperative to emphasize the lack of specific studies dedicated to Clitoria guianensis, demanding a more focused approach to the antiinflammatory and wound-healing properties of this species.The scarcity of specific evidence underscores the pressing need for additional research to fill this knowledge gap and provide a more comprehensive understanding of the therapeutic potential of this plant in the context of tissue regeneration.

b) Results and Relevant Conclusions for this Review
The results of this scientific review aim to establish a solid foundation for considering Clitoria guianensis as a potentially beneficial plant in tissue regeneration contexts.Although the research does not specifically address the role of C. guianensis in wound healing, it is possible to infer that these plants may have similar effects on healing and tissue regeneration processes due to their anti-inflammatory properties and ability to modulate the immune response, considering the phytochemicals discovered in this specimen.However, further research is imperative to determine the exact role of C. guianensis in these processes.
Thus, this systematic review meets the demand for a more comprehensive understanding of the biological activities of C. guianensis through scientific studies and empirical evidence, providing a detailed overview of the therapeutic potential of this plant and its bioactive compounds.The urgency of conducting further studies involving the specimen in different contexts, including In vitro, In vivo, and in silico approaches, is emphasized.
This emphasis on diversifying research methods aims to deepen knowledge of the properties of C. guianensis, especially regarding its anti-inflammatory and wound healing activities.The inclusion of In vitro studies allows for a more detailed analysis of the underlying molecular mechanisms, while In vivo studies will contribute to a more integrated understanding of effects on whole organisms.Additionally, conducting in silico studies through computational modeling can provide valuable insights into its ecological interactions and therapeutic potential in real-world conditions.
By emphasizing the importance of continuity and expansion of these investigations, the goal is not only to fill existing knowledge gaps but also to establish a solid foundation for future clinical applications and the development of therapies based on different extracts and compounds identified in C. guianensis for therapeutic purposes.

Methodology
This study was based on the development and organization of protocols for systematic reviews of the scientific literature, as described below a) Systematic Literature Review Protocol (SLRP) The Systematic Literature Review Protocol (SLRP) establishes the framework for conducting a comprehensive literature review aimed at identifying the medicinal properties of the genus and species Clitoria guianensis in Brazil, with a focus on its anti-inflammatory and wound healing potential.
The steps followed included the identification and selection of relevant databases, such as PubMed, JSTOR, Scielo, Google Scholar, and Lilacs.Subsequently, search strategies were developed using terms related to keywords such as Clitoria guianensis (Aubl.)Benth var.Guianensis, Anti-inflammatory, Wound healing, Clitoria ternatea, Medicinal, and Brazil.
Studies were selected based on predefined inclusion and exclusion criteria.Following selection, the quality of included studies will be assessed using appropriate tools.
Subsequently, the results of the included studies were synthesized and analyzed to identify emerging trends and patterns.Analyses were conducted to quantify the association between the variables of interest.

Example:
This Systematic Literature Review Protocol (SLRP) presents the framework for conducting the literature review stage on the comprehensive evidence regarding the medicinal properties of the genus and species Clitoria guianensis: A Systematic Analysis of its Anti-inflammatory and Wound Healing Potential.Each member plays a specific role in the project, contributing their skills and knowledge to achieve the proposed objectives.The authors are responsible for the conception and development of the work, while the reviewers are tasked with evaluating and enhancing its content.The supervisors provide guidance and oversight to the project (article), ensuring its quality and compliance with academic standards.Additionally, the translator is tasked with ensuring the accessibility of the work to an international audience, if necessary.

c) Search Strategy i. Research Question or Main Inquiry
Example: What are the published articles presenting anti-inflammatory and wound healing activities with the Clitoria guianensis specimen?

Clitoria guianensis
Comprehensive evidence on the anti-inflammatory and wound healing potential with the specimen Clitoria guianensis.

Intervention
Review and separation of studies demonstrating the type and effectiveness of techniques proving the anti-inflammatory and wound healing potential with the specimen Clitoria guianensis.

Control
Articles demonstrating effective results of the anti-inflammatory and wound healing activity using different extracts of the specimen Clitoria guianensis.

Outcome
Statistics of articles that may contribute or be considered independent of dates, with effective contribution to the applicability of techniques focusing on studies with the specimen Clitoria guianensis.

Application Context
Grounding the potential pharmacological and clinical anti-inflammatory and wound healing activities of the specimen Clitoria guianensis.Databases related to control articles will be mandatory included.Different sources from the web may also be included provided they meet the requirements for this Systematic Review.a.The searching process begins with the definition of keywords; b.The second step involves the insertion of a keyword string into search routines for each database; c.Specialist software for Systematic Review will be used for initial storage (Article Population); d.Sampling will occur through the application of pre-defined Inclusion and Exclusion criteria, as well as through sub-processes of qualitative filtering of the material in the Article Population repository.
• The article qualification sub-process will involve differentiation by assigning different weights to articles that include: • After qualification, an abstract analysis will be performed to assess the relevance of the work, selecting those accepted for a complete reading.The rest will be rejected.Thus, the analysis of (I) Inclusion and (E) Exclusion criteria will be repeated for each analyzed work.

a. Definition of Accepted Study Categories in RSLI
This study delineates the primary article categories to be selected during the execution of the systematic review:

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Based on the keywords, search strings will be constructed and submitted to major databases.The identified articles will be listed, and their titles, abstracts, and keywords will be reviewed for suitability against the inclusion and exclusion criteria.Articles meeting the protocol's criteria will be selected, while those not meeting the criteria will be excluded.

b. Extraction of information
Once the primary studies have been selected, the extraction of relevant information commences.In this section of the protocol, qualification criteria are applied and sampling results occur through the selection of articles according to the regulations.The process continues until the objective of analyzing the abstract and conclusions of each study is achieved.
It is suggested that a second person or even the supervisor be involved in this phase for better research direction.Utilizing selection options for extraction according to the topics listed below, to qualify extraction criteria.
Type: Pick on the list; Pick on Many; Text (Open text field).

d) Publication Selection Process
Initially, the adapted Search Strings are executed in each of the databases.From the list of returned studies, the results will be exported in BibTeX format for importation into the auxiliary tool, in this case, Rayyan.ai.
During the selection phase, the analysis of each title of each study will be conducted, discarding those

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that are clearly unrelated to the search strategy or do not meet the Inclusion Criteria, Quality Criteria, or are related to the defined Exclusion Criteria.Studies excluded at this stage are stored and will not proceed to the subsequent phases.The list of selected works is subjected to the Extraction phase.In this second step, the abstract and conclusions of each study are analyzed.Based on this reading, the Inclusion, Exclusion, and Quality criteria are reassessed.The result is the complete list of studies.
In this stage, the researcher reads the studies assigned to them in full, evaluates the quality of the studies, and extracts basic study characterization data, as well as specific data related to research questions, updating comment fields and attaching the complete work files.
Once the data extraction is completed, the subsequent steps correspond to the analysis, interpretation, and documentation of the results, with the drafting of a review article presenting the results, methods, and techniques adopted from the Systematic Literature Review, which was utilized for the production of the scientific article. IV.

Results
For the identification of articles on the subject, a search was conducted in the CAPES Periodicals database.The entire screening process is depicted in the flowchart in Figure 1.
Scientific reports discussing studies involving the specimen Clitoria guianensis involved searching for terms listed in Table 1, following the generic search strings outlined in Table 2. Thus, the following filters were applied during the search process: applied filters: year: 1905-2024, availability: open access, article type: articles, subject: Clitoria guianensis, languages: Portuguese, English, and Spanish, results per year: 1905-2023.
Following the consultation of the databases and the implementation of the search strategy, duplicated studies across different databases were identified using the Rayyan software.
The inclusion criteria for articles were: Original research articles, with an emphasis on identifying the medicinal properties of the genus and species of Clitoria guianensis in Brazil, particularly concerning its antiinflammatory and wound healing potential.Thus, article categories encompassing experiments, clinical trials, or case reports, distributed across various research areas, were considered.This broad approach allowed for the inclusion of studies pre-installed and installed in Portuguese, English, and Spanish, aligning with the specific scope of this systematic review.
Excluded articles were grouped into the following categories: Duplicates, irrelevant, review articles, and other publication formats (such as announcements, short communications, perspectives, letters), as well as articles in other languages.
Upon initial analysis, as shown in the flowchart in Figure 1, a total of 206 records were identified in the previously chosen databases, with an additional 5 manually added articles, totaling 211 reports.In the first exclusion phase, 16 duplicates were removed, leaving 197 reports at the end of this identification stage.Following the removal of duplicate articles, exclusion criteria were applied, as shown in Table 4.With the application of exclusion criteria to the remaining 197 reports, 189 reports were excluded in the second exclusion phase, leaving 8 original research articles.In the third exclusion phase, upon reviewing the remaining 6 reports, 3 reports were eliminated, resulting in the inclusion of 5 original articles in the synthesis of this work, wherein these articles report on the use of the Clitoria guianensis (Aubl.)Benth var.specimen in their research.
Unveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.)Benth Var.Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing Properties The flowchart outlines the process of identification, selection, and inclusion of reports, presenting a concise and organized overview.It commences with the identification across selected databases, including PubMed, JSTOR, Scielo, CAPES Journals, Google Scholar, and LILACS, totaling 206 records.Subsequently, five articles are manually added, totaling 211 reports.
In the first stage of exclusion, 14 duplicates are removed, resulting in 197 reports.Subsequently, exclusion criteria are applied, eliminating 189 reports in the second exclusion, leaving eight reports.In the third exclusion, two reports are removed, resulting in six original research articles.
These six reports undergo scrutiny, and since none are excluded, all are included in the final synthesis.The flow concludes with the presentation of six original articles related to Clitoria guianensis.This simplified visual representation provides a clear and efficient understanding of the process of screening and inclusion of reports in the final synthesis.Table 3 of this synthesis offers a comprehensive compilation of articles related to the study of Clitoria guianensis, specifically addressing various aspects related to the plant.Among these articles, the research by Cruz et al., 2023, stands out for its in-depth analysis of the diastereoisomers (2S) and (2R)-naringenin-6-C-β-D-glucopyranoside, isolated for the first time from Clitoria guianensis, using density functional theory.
The study by Boaes et al., 2019, also deserves attention for investigating the identification of new natural products from the cultivation of the endophytic fungus Diaporthe sp., isolated from Clitoria guianensis.This work highlighted the plant-microorganism interaction, emphasizing the biotechnological potential of the species.It is noteworthy that, even without a direct focus on the plant itself, the study emphasizes the importance of the plant-microorganism interaction in the production of bioactive compounds.
These works significantly contribute to the understanding of Clitoria guianensis, offering valuable insights both in the realm of chemistry, through the

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exploration of specific compounds, and in the biotechnological perspective, by demonstrating the relevance of the relationship between the plant and its associated microorganisms in the production of bioactive substances.This integrated approach demonstrates the complexity and multifaceted potential of Clitoria guianensis as a subject of scientific study.When observing studies providing a broader perspective, the relevance of in vitro research is highlighted, comprising 288.24%, indicating a significant emphasis on this modality.The significant number of articles included in the synthesis (17.65%) demonstrates the growing importance and the need for more original studies with the C. guianensis specimen in scientific investigations.
Regarding keywords, the results indicate a predominance of in vitro studies, followed by in vivo and in silico research.This inclination suggests an emphasis on exploring the effects of C. guianensis at the cellular level, especially in cultures.This underscores the future Global Journal of Human Social Science -Year 2024

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need for in vivo investigations, such as in human and animal cell cultures, and in vitro studies, covering microbiology, fungi, bacteria, and yeasts.This approach is crucial for validating and translating such findings into clinical practice.
In summary, the diversity of methodological approaches reflects the complexity of the medicinal properties of C. guianensis, providing a solid foundation for future research and emphasizing the importance of an integrated approach that combines in vivo, in vitro, and in silico data.
V. This systematic analysis provides a comprehensive and critical insight into the medicinal properties of C. guianensis, contributing to understanding its anti-inflammatory and wound healing potential, as well as for future research in this context.

Discussion
The detailed analysis of data from studies on the medicinal properties of C. guianensis reveals a diversified and comprehensive approach regarding its potential as a drug, considering the phytochemicals present and their pharmacological actions as documented in the scientific literature.The variety of methodologies, such as in vivo, in vitro, and in silico, highlights the complexity and scope of scientific research involving this plant.
In the realm of in vivo studies, the significant contributions of Cruz et al. (2023) 2020), both contributing 2.94%, provide an in-depth analysis of the various extracts and organs of the C. guianensis plant.These studies offer insights into the potential effects of the plant, establishing a theoretical basis for future investigations in human cells, animals, fungi, and bacteria.These approaches provide more controlled and specific evaluations, playing a crucial role in understanding the potential medicinal benefits of C. guianensis.
Marques et al.'s (2019) analyses highlight important approaches for understanding interactions, behavior, and reproduction of the specimen in vegetation hollows and plant cell cultures.This methodology proves fundamental in the efficient planning of future studies.Cruz et al. (2023) conducted a theoretical and experimental investigation of diastereoisomers of a specific substance extracted from the C. guianensis plant.The main objective was to deepen the understanding of the chemical and structural properties of these compounds, with an emphasis on stereochemistry and glycosylation.This study did not focus on analyzing the biological activity of the diastereoisomers, but rather on the analysis of their molecular structure and characteristics that may influence chemical aspects.The theoretical approach enabled predictive analysis, while experiments provided concrete data, resulting in a more comprehensive and integrated understanding of the diastereoisomers in question.
The Observing the studies, the relevance of in vitro research is evident, representing 288.24%, with no cell studies, only one microbiological study with fungus.This indicates a significant emphasis on this modality, reflecting the growing importance of Clitoria guianensis in scientific investigations for other tests.
Regarding keywords, the predominance of in vitro studies, followed by in vivo and in silico, suggests a trend of exploring the effects of C. guianensis at the cellular level, with the need for in vivo research highlighted to validate and translate these findings into clinical practice.
In summary, the diversity of methodological approaches reflects the complexity of the medicinal properties of C. guianensis, providing a solid foundation for future investigations.This integrated approach, combining in vivo, in vitro, and in silico data, is essential for a comprehensive understanding of the antiinflammatory and wound healing potential of this plant in clinical practice.

Conclusion
The present review has explored and discussed comprehensive evidence regarding the potential antiinflammatory and wound-healing properties of the medicinal properties of Clitoria guianensis, as per the literature of the compounds identified in studies with the specimen and the findings thereof.Six articles addressing studies involving the specimen C. guianensis were identified and selected, utilizing the Rayyan tool as a methodological support.
In recapitulating the relevant findings of this systematic analysis, the diversity of approaches is highlighted, ranging from phytochemical reports to studies on toxicity, cultivation, and in silico, in vitro, and in vivo analyses.The presence of bioactive compounds in the roots of Clitoria guianensis (Aubl.)Benth var.The practical implications for the clinical area reveal the chemical richness and therapeutic potential of C. guianensis, especially in antioxidant and allelochemical activities.The moderate toxicity evidenced in some studies signals the need for caution, while the inhibitory efficacy of the DPPH radical suggests a possible role as an anti-inflammatory agent.
For future research, a more in-depth investigation of the identified compounds is recommended, exploring their mechanisms of action and potential synergies.The critical analysis highlights the importance of clinical studies validating in vitro and in vivo findings, contributing to an effective translation of these results into clinical practice.Thus, this systematic study establishes a solid foundation for subsequent research on the anti-inflammatory and wound-healing potential of the medicinal properties of C. guianensis, promoting significant advances in the understanding and therapeutic application of this plant in the context of medicine.
Unveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.)Benth Var.Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing PropertiesGlobal Journal of Human Social Science - (a) Experiments (b) Clinical Trials (c) Case Reports Unveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.)Benth Var.Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing Properties Global Journal of Human Social Science -Year 2024 Unveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.)Benth Var.Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing PropertiesGlobal Journal of Human Social Science -Year 2024

Figure 1 :
Figure 1: Flowchart for identification and selection of articles Source: Authors (2023)Unveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.)Benth Var.Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing PropertiesGlobal Journal of Human Social Science -Year 2024

Figure 2 :
Figure 2: Frequency of reports according to systematic selection.The articles selected and in the systematic literature review of this study, as demonstrated in Figure 2, present data analysis revealing a diversified distribution of studies on the Clitoria genus, including studies on the C. guianensis specimen, encompassing in vivo, in vitro, and in silico methodologies.Regarding in vivo studies, De Sousa et al. (2023) contribute 8.82% and 2.94% respectively, underscoring the importance of investigations involving the plant's interaction directly with living organisms.Marques et al. (2019) also explore in vivo aspects, addressing the cultivation of C. guianensis in different substrates, providing a practical perspective on its medicinal potential.In the in vitro context, Cunha et al. (2020b) and De Sousa et al. (2023) each present a contribution of 11.76%, while Boaes et al. (2019) and Soares et al. (2020) contribute 2.94% each.These studies offer a more detailed understanding of the effects of C. guianensis at the microbiological level, enabling more controlled and specific evaluations, leaving a future gap of necessary studies with human and animal cells.The in silico analyses, conducted by Cruz et al. (2023) and Marques et al. (2019), represent 2.94% and 11.76%, respectively.The in silico approach is fundamental for understanding molecular interactions and predicting possible effects before conducting in vivo and in vitro experiments.When observing studies providing a broader perspective, the relevance of in vitro research is highlighted, comprising 288.24%, indicating a significant emphasis on this modality.The significant number of articles included in the synthesis (17.65%) demonstrates the growing importance and the need for more original studies with the C. guianensis specimen in scientific investigations.Regarding keywords, the results indicate a predominance of in vitro studies, followed by in vivo and in silico research.This inclination suggests an emphasis on exploring the effects of C. guianensis at the cellular level, especially in cultures.This underscores the future Guianensis (Fabaceae) was investigated, resulting in the isolation of various compounds, including the isoflavone called pratensein-7-O-β-D-rutinoside, biochanin A-7-Oβ-D-rutinoside, 6-deoxyclitoriacetal 11-O-β-Dglucopyranoside, 6-deoxyclitoriacetal, (2S)-naringenin-6-C-β-D-glucopyranoside, (2R)-naringenin-6-C-β-Dglucopyranoside, taquioside, and coaburaside.The structures of these compounds were confirmed through various analytical techniques, including specific rotation ([α]D), circular dichroism (CD), ultraviolet (UV), infrared (IR), 1D and 2D nuclear magnetic resonance (NMR), and mass spectrometry (MS).
(Antonio et al., 2013;BRASIL, 2012;Góis et al., 2016;lants and phytotherapeutics in Brazilian Primary Health Care (PHC) Integrative and Complementary Practices (ICP) encompass various techniques, such as usage in the form of teas, infusions, Phytotherapy stands as one of the cornerstones of ICP, and medicinal plants and phytotherapy leverage the active principles present in different parts of plants, such as leaves, flowers, roots, barks, and seeds, which harbor pharmacological effects in the organism, capable of acting on diverse systems and organs (BRASIL, 2012; Novaes, 2013; Práticas Integrativas e Complementares em Saúde, 2022; Tesser et al., 2018).However, it is paramount to utilize medicinal plants and phytotherapy judiciously and under professional guidance, owing to the potential for interactions with other medications or foods, allergic reactions, or undesired side effects (BRASIL, 2012; Mattos et al., 2018; Novaes, 2013; Práticas Integrativas e Complementares em Saúde, 2022; Vida Saudável 2023 -Práticas Integrativas e Complementares (PIC) | Secretaria de Estado de Saúde de Minas Gerais, [s.d.]; Tesser et al., 2018).The National Policy on Integrative and Complementary Practices (NPICP) within the Unified Health System (SUS) encompasses guidelines and strategies for the integration of medicinal plants and phytotherapy into primary health care, aiming to ensure safe access and rational use of these practices(Antonio et al., 2013;BRASIL, 2012;Góis et al., 2016; National Policy on Integrative and Complementary Practices in SUS celebrates 17 years, 2023; Integrative and Complementary Practices in Health, 2022; National Program of Medicinal Plants and Phytotherapeutics, 2009; Healthy Living 2023 -Integrative and Complementary Practices (ICP) | Minas Gerais State Health Department, [n.d.]).

Table 1 :
Responsible Team

Table 2 :
Description of Research Criteria

Table 3 :
Research Questions

Table 5 :
Quality criteria of retrieved studies.

Table 6 :
Quality form fields Identification of at least one of the techniques as in vivo, in vitro, or in silico with specimens of Clitoria guianensisYes, No

Table 7 :
Extraction Criteria Fields

Table 3 :
Listing of articles included in the synthesisUnveiling the Therapeutic Potential of Clitoria Guianensis (Aubl.)Benth Var.Guianensis: A Comprehensive Review of its AntiInflammatory and Wound Healing Properties Source: Authors (2023).

Table 3
presents a listing of articles included in the synthesis for investigating the medicinal properties of C. guianensis, focusing on the systematic analysis of its anti-inflammatory and wound healing potential.The study encompassed searches across different databases, notably SCIELO, LILACS, and Google Scholar, with special attention to identifying techniques such as in vivo, in vitro, or in silico involving specimens of C. guianensis.The selected articles address various aspects, from novel phytochemical reports to studies on cultivation and toxicity, providing a comprehensive overview of the plant's medicinal properties.The first article (Cunha et al., 2020b) highlights the notable toxicity evidenced in the extract, suggesting bioactive compounds of considerable potency, while also identifying isoflavones in the Clitorea genus for the first time.The second study (De Sousa et al., 2023) identifies 25 substances, including Ouratea spectabilis and Kaempferitrin for C. guianensis, demonstrating moderate toxicity against Artemia salina, while the third (Marques et al., 2019) solely addresses the cultivation of the plant in different substrates.The remaining articles explore in silico, in vitro, and in vivo aspects.Cruz et al.'s (2023) study utilizes density functional theory to analyze diastereoisomers, while Boaes et al. (2019) aim to identify new compounds from the cultivation of microorganisms associated with Clitoria guianensis, highlighting the extensive biosynthetic capacity of fungi.Soares et al. (2020), on the other hand, investigate phytochemical and antioxidant properties, demonstrating the inhibitory efficacy of the DPPH radical.
and De Sousa et al. (2023), with 8.82% and 2.94% respectively, underscore the importance of investigations directly addressing the interaction of C. guianensis in living organisms.Although Cruz et al.'s (2023) study is not directly related to in vivo experiments, its findings provide a solid foundation that may stimulate and guide further investigations into Clitoria guianensis in this context.Thus, despite not focusing on in vivo studies, Cruz et al.'s (2023) work opens valuable perspectives for a broader and deeper understanding of the properties and potential effects of the plant on living organisms, expanding the horizon for future research.Marques et al.'s (2019) study, exploring the cultivation of the plant in different substrates, adds valuable practical perspectives to the in vivo context.In the realm of in vitro studies, research conducted by Cunha et al. (2020b) and De Sousa et al. (2023), each contributing 11.76%, along with Boaes et al. (2019) and Soares et al. ( importance ofCruz et al.'s (2023)work lies in its valuable contribution to advancing research in crucial insights for identifying therapeutic targets, drug development, or potential medical applications.Furthermore, it is noteworthy that the research may have significant implications for the valorization and sustainable exploitation of natural resources, such as the medicinal properties of C. guianensis, although specific biological activity was not the central focus of the study.