MARTINEZ ARENAS, JESSICA ISABEL

MARTINEZ ARENAS, JESSICA ISABEL

Preferred name

MARTINEZ ARENAS, JESSICA ISABEL

Main Affiliation

Facultad de Medicina Clínica Alemana Universidad del Desarrollo

Email

jemartinez@udd.cl

ORCID

0000-0001-8854-3103

Scopus Author ID

55757778952

Research Output

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Now showing 1 - 10 of 15

Publication

Aloe vera peel-derived nanovesicles display anti-inflammatory properties and prevent myofibroblast differentiation

2024 , RAMIREZ PRADA, ORLANDO JOSUÉ , Florencia Pomareda , OLIVARES, MARIA BELEN , HUANG, YA LIN , Gabriela Zavala , Javiera Carrasco-Rojas , Simón Alvarez , Camila Leiva-Sabadini , Valeria Hidalgo , Pablo Romo , SANCHEZ JIMÉNEZ, MATÍAS IGNACIO , Ayleen Vargas , Sebastian Aguayo , SCHUH, CHRISTINA , MARTINEZ ARENAS, JESSICA ISABEL

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Publication

Nosema ceranae an emergent pathogen of Apis mellifera in Chile

2012 , MARTINEZ ARENAS, JESSICA ISABEL , Germán Leal , Paulette Conget

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Publication

Photochemically induced fluorescence coupled to second-order multivariate calibration as analytical tool for determining imidacloprid in honeybees

2017 , Yanara Jeria , Aliosha Bazaes , María E. Báez , Jeannette Espinoza , Jessica Martínez , Edwar Fuentes

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Publication

Evaluation of the generation of reactive oxygen species and antibacterial activity of honey as a function of its phenolic and mineral composition

2023 , Ximena Faúndez , María E. Báez , Jessica Martínez , María C. Zúñiga-López , Jeannette Espinoza , Edwar Fuentes

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Publication

Relationship among the minor constituents, antibacterial activity and geographical origin of honey: A multifactor perspective

2020 , Gonzalo Cebrero , Oscar Sanhueza , Matías Pezoa , María E. Báez , MARTINEZ ARENAS, JESSICA ISABEL , Mauricio Báez , Edwar Fuentes

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Publication

Correlation between the concentration and morphology of copper microparticles and their biocidal effect on paper sheets

2020 , P. Contreras , A. Amenabar , V. Apablaza , MARTINEZ ARENAS, JESSICA ISABEL , R. Lavín , SILVA GONZALEZ, NATALY ROXANA

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Publication

Fast and easy synthesis of silver, copper, and bimetallic nanoparticles on cellulose paper assisted by ultrasound

2023 , Rodrigo Araya-Hermosilla , MARTINEZ ARENAS, JESSICA ISABEL , César Zúñiga Loyola , Sara Ramírez , Sebastián Salazar , Charles S. Henry , Roberto Lavín , SILVA GONZALEZ, NATALY ROXANA

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Publication

Matrix solid-phase dispersion associated to gas chromatography for the assessment in honey bee of a group of pesticides of concern in the apicultural field

2018 , Arantza Balsebre , María E. Báez , Jessica Martínez , Edwar Fuentes

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Publication

Immune-related gene expression in honey bee larva (Apis mellifera) exposed to plant extracts from Humulus lupulus with antimicrobial activity against Paenibacillus larvae

2021 , Pablo Giménez-Martínez , Fabian Zuñiga , Celina Junges , Matias Maggi , Sandra Fuselli , MARTINEZ ARENAS, JESSICA ISABEL

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Publication

Nanomaterials Based on Honey and Propolis for Wound Healing—A Mini-Review

2022 , Limberg Jaldin-Crespo , SILVA GONZALEZ, NATALY ROXANA , MARTINEZ ARENAS, JESSICA ISABEL

Wound healing is a public health concern worldwide, particularly in chronic wounds due to delayed healing and susceptibility to bacterial infection. Nanomaterials are widely used in wound healing treatments due to their unique properties associated with their size and very large surface-area-to-volume ratio compared to the same material in bulk. The properties of nanomaterials can be expanded and improved upon with the addition of honey and propolis, due to the presence of bioactive molecules such as polyphenols, flavonoids, peptides, and enzymes. These bionanomaterials can act at different stages of wound healing and through different mechanisms, including anti-inflammatory, antimicrobial, antioxidant, collagen synthesis stimulation, cell proliferation, and angiogenic effects. Biomaterials, at the nanoscale, show new alternatives for wound therapy, allowing for targeted and continuous delivery of beekeeping products at the injection site, thus avoiding possible systemic adverse effects. Here, we summarize the most recent therapies for wound healing based on bionanomaterials assisted by honey and propolis, with a focus on in vitro and in vivo studies. We highlight the type, composition (honey, propolis, and polymeric scaffolds), biological, physicochemical/mechanical properties, potential applications and patents related of the last eight years. Furthermore, we discuss the challenges, advantages, disadvantages and stability of different bionanomaterials related to their clinical translation and insight into the investigation and development of new treatments for wound healing.

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MARTINEZ ARENAS, JESSICA ISABEL

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Aloe vera peel-derived nanovesicles display anti-inflammatory properties and prevent myofibroblast differentiation

Nosema ceranae an emergent pathogen of Apis mellifera in Chile

Photochemically induced fluorescence coupled to second-order multivariate calibration as analytical tool for determining imidacloprid in honeybees

Evaluation of the generation of reactive oxygen species and antibacterial activity of honey as a function of its phenolic and mineral composition

Relationship among the minor constituents, antibacterial activity and geographical origin of honey: A multifactor perspective

Correlation between the concentration and morphology of copper microparticles and their biocidal effect on paper sheets

Fast and easy synthesis of silver, copper, and bimetallic nanoparticles on cellulose paper assisted by ultrasound

Matrix solid-phase dispersion associated to gas chromatography for the assessment in honey bee of a group of pesticides of concern in the apicultural field

Immune-related gene expression in honey bee larva (Apis mellifera) exposed to plant extracts from Humulus lupulus with antimicrobial activity against Paenibacillus larvae

Nanomaterials Based on Honey and Propolis for Wound Healing—A Mini-Review

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MARTINEZ ARENAS, JESSICA ISABEL

Research Output

Filters

Author

Organization

Has files

Type

Settings

Sort By

Results per page

Aloe vera peel-derived nanovesicles display anti-inflammatory properties and prevent myofibroblast differentiation

Nosema ceranae an emergent pathogen of Apis mellifera in Chile

Photochemically induced fluorescence coupled to second-order multivariate calibration as analytical tool for determining imidacloprid in honeybees

Evaluation of the generation of reactive oxygen species and antibacterial activity of honey as a function of its phenolic and mineral composition

Relationship among the minor constituents, antibacterial activity and geographical origin of honey: A multifactor perspective

Correlation between the concentration and morphology of copper microparticles and their biocidal effect on paper sheets

Fast and easy synthesis of silver, copper, and bimetallic nanoparticles on cellulose paper assisted by ultrasound

Matrix solid-phase dispersion associated to gas chromatography for the assessment in honey bee of a group of pesticides of concern in the apicultural field

Immune-related gene expression in honey bee larva (Apis mellifera) exposed to plant extracts from Humulus lupulus with antimicrobial activity against Paenibacillus larvae

Nanomaterials Based on Honey and Propolis for Wound Healing—A Mini-Review

Sede Santiago

Sede Concepción