6 results on '"Gómez-Huertas, Carmen"'
Search Results
2. Ocular Surface Microbiota in Naïve Keratoconus: A Multicenter Validation Study
- Author
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Universidad de Sevilla. Departamento de Física de la Materia Condensada, Rocha de Lossada, Carlos, Mazzotta, Cosimo, Gabrielli, Federico, Papa, Filomena Tiziana, Gómez Huertas, Carmen, García López, Celia, Urbinati, Facundo, Rachwani-Anil, Rahul, García Lorente, María, Sánchez González, José María, Rechichi, Miguel, Rubegni, Giovanni, Borroni, Davide, Universidad de Sevilla. Departamento de Física de la Materia Condensada, Rocha de Lossada, Carlos, Mazzotta, Cosimo, Gabrielli, Federico, Papa, Filomena Tiziana, Gómez Huertas, Carmen, García López, Celia, Urbinati, Facundo, Rachwani-Anil, Rahul, García Lorente, María, Sánchez González, José María, Rechichi, Miguel, Rubegni, Giovanni, and Borroni, Davide
- Abstract
In the field of Ophthalmology, the mNGS 16S rRNA sequencing method of studying the microbiota and ocular microbiome is gaining more and more weight in the scientific community. This study aims to characterize the ocular microbiota of patients diagnosed with keratoconus who have not undergone any prior surgical treatment using the mNGS 16S rRNA sequencing method. Samples of naïve keratoconus patients were collected with an eNAT with 1 mL of Liquid Amies Medium (Copan Brescia, Italy), and DNA was extracted and analyzed with 16S NGS. The microbiota analysis showed a relative abundance of microorganisms at the phylum level in each sample collected from 38 patients with KC and 167 healthy controls. A comparison between healthy control and keratoconus samples identified two genera unique to keratoconus, Pelomonas and Ralstonia. Our findings suggest that alterations in the microbiota may play a role in the complex scenario of KC development.
- Published
- 2023
3. Opioids and Ocular Surface Pathology: A Literature Review of New Treatments Horizons
- Author
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Universidad de Sevilla. Departamento de Física de la Materia Condensada, García López, Celia, Gómez Huertas, Carmen, Sánchez González, José María, Borroni, Davide, Rodríguez-Calvo-de-Mora, Marina, Romano, Vito, Rachwani Anil, Rahul, Ramos López, Juan-Francisco, Ortiz Pérez, Santiago, Rocha de Lossada, Carlos, Universidad de Sevilla. Departamento de Física de la Materia Condensada, García López, Celia, Gómez Huertas, Carmen, Sánchez González, José María, Borroni, Davide, Rodríguez-Calvo-de-Mora, Marina, Romano, Vito, Rachwani Anil, Rahul, Ramos López, Juan-Francisco, Ortiz Pérez, Santiago, and Rocha de Lossada, Carlos
- Abstract
This review discusses the role of opioids in the corneal surface and the different pathways and therapeutic methods of management. A literature review was performed using PubMed database. For the database search, the main searching words “opioid” and “topical opioid treatment” were used with the descriptors “cornea”, “ocular surface”, “neuropathic corneal pain”, “corneal sensitivity” and “naltrexone”; original scientific articles and reviews were included to achieve the purpose of the review. The endogenous opioid system has relevant functions in the organism, and in daily use, opioids are used as painkillers. However, these drugs may be employed for other indications as opioid pathways have a wide spectrum. The corneal surface for topical treatment is easily accessible, hence sparing the side effects of systemic opioids. Instillation of opioid antagonist substances, such as naltrexone, increases corneal healing rates and stimulates the division of corneal epithelium cells without deleterious effects. The natural modulation of endogenous opioids controls different forms of pain, including inflammatory and neuropathic pain, both in the ocular surface and in the central nervous system. There are diverse methods in controlling pain using opioids, especially in refractory forms. This review attempts to collect the literature about corneal surface and opioid pathways to provide an overview image and a possible direction of the news treatments.
- Published
- 2022
4. Exploring the Healthy Eye Microbiota Niche in a Multicenter Study
- Author
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Universidad de Sevilla. Departamento de Cirugía, Borroni, Davide, Paytuví-Gallart, Andreu, Sanseverino, Walter, Gómez-Huertas, Carmen, Bonci, Paola, Romano, Vito, Rocha de Lossada, Carlos, Universidad de Sevilla. Departamento de Cirugía, Borroni, Davide, Paytuví-Gallart, Andreu, Sanseverino, Walter, Gómez-Huertas, Carmen, Bonci, Paola, Romano, Vito, and Rocha de Lossada, Carlos
- Abstract
Purpose: This study aims to explore and characterize healthy eye microbiota. Methods: Healthy subjects older than 18 years were selected for this descriptive cross-sectional study. Samples were collected with an eSwab with 1 mL of Liquid Amies Medium (Copan Brescia, Italy). Following DNA extraction, libraries preparation, and amplification, PCR products were purified and end repaired for barcode ligation. Libraries were pooled to a final concentration of 26 pM. Template preparation was performed with Ion Chef according to Ion 510, Ion 520, and Ion 530 Kit-Chef protocol. Sequencing of the amplicon libraries was carried out on a 520 or 530 chip using the Ion Torrent S5 system (Thermo Fisher; Waltham, MA, USA). Raw reads were analyzed with GAIA (v 2.02). Results: Healthy eye microbiota is a low-diversity microbiome. The vast majority of the 137 analyzed samples were highly enriched with Staphylococcus, whereas only in a few of them, other genera such as Bacillus, Pseudomonas, and Corynebacterium predominate. We found an average of 88 genera with an average Shannon index of 0.65. Conclusion: We identified nine different ECSTs. A better understanding of healthy eye microbiota has the potential to improve disease diagnosis and personalized regimens to promote health.
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- 2022
5. Opioids and Ocular Surface Pathology: A Literature Review of New Treatments Horizons
- Author
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García-López, Celia, primary, Gómez-Huertas, Carmen, additional, Sánchez-González, José-María, additional, Borroni, Davide, additional, Rodríguez-Calvo-de-Mora, Marina, additional, Romano, Vito, additional, Rachwani-Anil, Rahul, additional, Ramos-López, Juan-Francisco, additional, Ortiz-Pérez, Santiago, additional, and Rocha-de-Lossada, Carlos, additional
- Published
- 2022
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6. Exploring the Healthy Eye Microbiota Niche in a Multicenter Study.
- Author
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Borroni, Davide, Paytuví-Gallart, Andreu, Sanseverino, Walter, Gómez-Huertas, Carmen, Bonci, Paola, Romano, Vito, Giannaccare, Giuseppe, Rechichi, Miguel, Meduri, Alessandro, Oliverio, Giovanni William, and Rocha-de-Lossada, Carlos
- Subjects
BACILLUS (Bacteria) ,CORYNEBACTERIUM ,DIAGNOSIS ,EYE - Abstract
Purpose: This study aims to explore and characterize healthy eye microbiota. Methods: Healthy subjects older than 18 years were selected for this descriptive cross-sectional study. Samples were collected with an eSwab with 1 mL of Liquid Amies Medium (Copan Brescia, Italy). Following DNA extraction, libraries preparation, and amplification, PCR products were purified and end-repaired for barcode ligation. Libraries were pooled to a final concentration of 26 pM. Template preparation was performed with Ion Chef according to Ion 510, Ion 520, and Ion 530 Kit-Chef protocol. Sequencing of the amplicon libraries was carried out on a 520 or 530 chip using the Ion Torrent S5 system (Thermo Fisher; Waltham, MA, USA). Raw reads were analyzed with GAIA (v 2.02). Results: Healthy eye microbiota is a low-diversity microbiome. The vast majority of the 137 analyzed samples were highly enriched with Staphylococcus, whereas only in a few of them, other genera such as Bacillus, Pseudomonas, and Corynebacterium predominate. We found an average of 88 genera with an average Shannon index of 0.65. Conclusion: We identified nine different ECSTs. A better understanding of healthy eye microbiota has the potential to improve disease diagnosis and personalized regimens to promote health. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
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