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Research projects
Content with Investigacion .
- Título: Desvelando la genómica de las bacterias anaerobias procedentes de bacteriemias
Referencia Proyecto: PID202-1127477OB-I00-MPY 302/22.
Entidad financiador: Agencia Estatal de Investigación.
Fechas de ejecución: 2023-2026
Financiación 108.900 €.
Investigadora principal: Sylvia Valdezate
- Título: Plataformas MALDI-TOF/CMI SENSITITRETM Personal Técnico Apoyo
Referencia: PTA2019-016623-I.
Entidad Financiadora: Agencia Estatal de Investigación.
Fechas ejecución 12/2020-11/2023
Investigadora principal: Sylvia Valdezate
- Título: Elementos genéticos móviles protagonistas en la evolución de los serotipos pandémicos M1 y M89 de Streptococcus pyogenes en el síndrome del shock tóxico y otras infecciones invasivas
Referencia: (MPY 377/18).
Entidad financiadora: Instituto de Salud Carlos III. Agencia Estatal de Investigación en Salud Intramural (AESI).
Fechas de ejecución: 11/2018-12/2022.
Financiación: 40.000 €.
Investigadoras principales: Pilar Villalón. Co-IP Sylvia Valdezate.
- Título: Plataformas genéticas y su influencia en la resistencia a co-trimoxazol, macrólidos y tetraciclina en Nocardia spp.
Referencia: MPY 1278/15
Entidad financiadora: Instituto de Salud Carlos III. Agencia Estatal de Investigación en Salud Intramural (AESI).
Fechas de ejecución: 2015-2017.
Financiación: 88.141,8 €.
Investigadora principal: Sylvia Valdezate
- Título: Filogenia y caracterización de mecanismos moleculares de resistencia en Nocardia spp.
Referencia: MPY 1446/11
Entidad financiadora: Instituto de Salud Carlos III. Fondo de Investigación Sanitaria (AES). ()
Fechas de ejecución: 04/2012-10/2015
Financiación: 115.457 €.
Investigadora principal: Sylvia Valdezate.
- Título: Iberian network of laboratories of biological alert. Accreditation of methods for detection highly pathogenic agents (IB-BIOALERTNET).
Entidad financiadora: COMISIÓN EUROPEA HOME/2012/ISEC/AG/CBRN/4000003810. (Instituto de Salud Carlos III (VISAVET, IVIA, INSA, INIAV))
Referencia: SAFI 1132/13-7.
Fecha de ejecución: 2013-2015.
Financiación: 699.175 €.
Tipo de participación: Miembro del equipo investigador.
- Título: EQUATOX Project Establishment of Quality Assurances for theDetection of Biological Toxins of potential Bioterrorism risk.
Entidad financiadora y convocatoria: Seven Framework Programme for Research FP7-SECURITY. (Robert Koch-Institut Berlin Alemania).
Referencia: SEC-2011.5.4-1.
Fechas de ejecución: 2012-2014.
Publications
Diagnostic Performance of the HCV Core Antigen Test To Identify Hepatitis C in HIV-Infected Patients: a Systematic Review and Meta-Analysis
4. Sepúlveda-Crespo D; Treviño-Nakoura A; Bellon JM; Jiménez-Sousa MA; Ryan P; Martínez I; Fernández-Rodríguez A (AC); Resino S. (7/8). 2022. Diagnostic Performance of the HCV Core Antigen Test To Identify Hepatitis C in HIV-Infected Patients: a Systematic Review and Meta-Analysis.Journal of clinical microbiology. pp.e0133122. ISSN 0095-1137.
DOIMetabolic Profiling at COVID-19 Onset Shows Disease Severity and Sex-Specific Dysregulation
6. Ceballos FC; Virseda-Berdices A; Resino S; et al; Jiménez-Sousa MÁ (AC). (19/19). 2022. Metabolic Profiling at COVID-19 Onset Shows Disease Severity and Sex-Specific Dysregulation.Frontiers in immunology. 13, pp.925558. WOS (78)
DOINovel genes and sex differences in COVID-19 severity
7. Cruz R; Almeida SD; Heredia ML; et al; Fernández-Rodríguez A; Carracedo Á. (51/168). 2022. Novel genes and sex differences in COVID-19 severity. Human molecular genetics. ISSN 0964-6906.
DOIDifferent HCV Exposure Drives Specific miRNA Profile in PBMCs of HIV Patients
8. Valle-Millares D; Brochado-Kith O; Martín-Carbonero L; et al; Fernández-Rodríguez A (AC). (22/22). 2021. Different HCV exposure drives specific miRNA profile in PBMCs of HIV patients Biomedicines. MDPI. 9-11, pp.1627.
DOIAre Reduced Levels of Coagulation Proteins Upon Admission Linked to COVID-19 Severity and Mortality?
9. Ceballos F; Ryan P; Blancas R; et al; Fernández-Rodríguez A (AC); Jiménez-Sousa MA. (19/20). 2021. Are Reduced Levels of Coagulation Proteins Upon Admission Linked to COVID-19 Severity and Mortality? Frontiers in Medicine. Frontiers. 8-718053.
DOITelomere Length Increase in HIV/HCV-Coinfected Patients with Cirrhosis after HCV Eradication with Direct-Acting Antivirals
12 . Molina-Carrión S; Brochado-Kith, Oscar; González-García J; et al; Angeles Jimenez-Sousa, Maria. (16/16). 2020. Telomere length increase in HIV/HCV-coinfected patients with cirrhosis after HCV eradication with direct acting antivirals. JOURNAL OF CLINICAL MEDICINE. MDPI. ISSN 2077-0383.
DOIMicroRNA Profile of HCV Spontaneous Clarified Individuals, Denotes Previous HCV Infection
15. Brochado-Kith, Oscar; Gomez-Sanz, Alicia; Real LM; et al; Fernandez-Rodriguez, Amanda (AC). (16/16). 2019. MicroRNA Profile of HCV Spontaneous Clarified Individuals, Denotes Previous HCV Infection JOURNAL OF CLINICAL MEDICINE. MDPI. 7. ISSN 2077-0383.
DOIPersistent Immunity against SARS-CoV-2 in Individuals with Oncohematological Diseases Who Underwent Autologous or Allogeneic Stem Cell Transplantation after Vaccination
Persistent Immunity against SARS-CoV-2 in Individuals with Oncohematological Diseases Who Underwent Autologous or Allogeneic Stem Cell Transplantation after Vaccination. Rodríguez-Mora S, Pérez-Lamas L, Solera Sainero M, Torres M, Sánchez-Menéndez C, Corona M, Mateos E, Casado-Fernández G, Alcamí J, García-Pérez J, Pérez-Olmeda M, Murciano-Antón A, López-Jiménez J, García-Gutiérrez V, Coiras M (AC). Cancers 2023, 15(8), 2344. doi: 10.3390/cancers15082344. PMID: 37190272.
PUBMED DOIAdditional Information
Induction of allograft tolerance remains a goal to be achieved in organ transplantation. Most therapeutic strategies focus on inhibition of the adaptive immune system, but recent data demonstrate that allogeneic recognition of myeloid cells initiates transplant rejection. Therapies targeting myeloid cells “in vivo” represent a potential target to induce immunological tolerance, but remain clinically unexplored.
Our laboratory uses a revolutionary nanoimmunotherapy of high-density lipoprotein (HDL) nanoparticles loaded with rapamycin (mTORi-HDL) that prevents epigenetic modifications associated with trained immunity, a recently discovered functional state of macrophages. Using an experimental mouse transplant model, our results demonstrate that the administration of this immunotherapy with mTORi-HDL prevents the immune response and promotes tolerance to the transplanted organ.
Our laboratory shows a multidisciplinary research approach articulated in three different objectives to evaluate the clinical relevance and therapeutic effects of immunotherapy in preparation for a clinical trial in organ transplantation. The general objectives will be aimed at confirming the identification of trained immunity as a biomarker and analytical value to predict the risk of rejection in transplant patients under three conditions: prolonged periods of ischemic reperfusion (IRI) (objective 1), allosensitization (objective 2) and infection (objective 3).
Induction of allograft tolerance remains a goal to be achieved in organ transplantation. Most therapeutic strategies focus on inhibition of the adaptive immune system, but recent data demonstrate that allogeneic recognition of myeloid cells initiates transplant rejection. Therapies targeting myeloid cells “in vivo” represent a potential target to induce immunological tolerance, but remain clinically unexplored.
Our laboratory uses a revolutionary nanoimmunotherapy of high-density lipoprotein (HDL) nanoparticles loaded with rapamycin (mTORi-HDL) that prevents epigenetic modifications associated with trained immunity, a recently discovered functional state of macrophages. Using an experimental mouse transplant model, our results demonstrate that the administration of this immunotherapy with mTORi-HDL prevents the immune response and promotes tolerance to the transplanted organ.
Our laboratory shows a multidisciplinary research approach articulated in three different objectives to evaluate the clinical relevance and therapeutic effects of immunotherapy in preparation for a clinical trial in organ transplantation. The general objectives will be aimed at confirming the identification of trained immunity as a biomarker and analytical value to predict the risk of rejection in transplant patients under three conditions: prolonged periods of ischemic reperfusion (IRI) (objective 1), allosensitization (objective 2) and infection (objective 3).