Person:
Triviño Casado, Alberto

First Name

Alberto

Last Name

Triviño Casado

Affiliation

Universidad Complutense de Madrid

Faculty / Institute

Medicina

Department

Inmunología, Oftalmología y ORL

Area

Oftalmología

Identifiers

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Now showing 1 - 10 of 27

Macular Thickness as a Potential Biomarker of Mild Alzheimer's Disease
(Elsevier / American Academy of Ophthalmology, 2014-03-18) García Martín, Elena Salobrar; Rojas López, Blanca; Ramírez Sebastián, Ana Isabel; Hoz Montañana, Rosa de; Salazar Corral, Juan José; Yubero Pancorbo, Raquel; Gil, Pedro; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel
Although several postmortem findings in the retina of patients with Alzheimer's disease (AD) are available, new biomarkers for early diagnosis and follow-up of AD are still lacking. It has been postulated that the defects in the retinal nerve fiber layer (RNFL) may be the earliest sign of AD, even before damage to the hippocampal region that affects memory. This fact may reflect retinal neuronal-ganglion cell death and axonal loss in the optic nerve in addition to aging.
Macroglial and retinal changes in hypercholesterolemic rabbits after normalization of cholesterol levels
(Elsevier, 2006-09-26) Ramírez Sebastián, Ana Isabel; Salazar Corral, Juan José; Hoz Montañana, María Rosa de; Rojas López, María Blanca; Ruiz, Emilio; Tejerina Sánchez, Teresa; Ramirez Sebastian, Jose Manuel; Triviño Casado, Alberto
This study evaluates hypercholesterolemic rabbits, examining the retinal changes in Müller cells and astrocytes as well as their variations after a period of normal blood-cholesterol values induced by a standard diet. New Zealand rabbits were divided into three groups: G0, fed a standard diet; G1A, fed a 0.5% cholesterol-enriched diet for 8 months; and G1B, fed as G1A followed by standard diet for 6 months. Eyes were processed for transmission electron microscopy and immunohistochemistry (GFAP). While G1B resembled G0 more than did G1A, they shared alterations with G1A: a) as in G1A, Müller cells were GFAP+, filled spaces left by axonal degeneration, formed glial scars and their nuclei were displaced to the nerve-fibre layer. The area occupied by the astrocytes associated with the nerve-fibre bundles (AANFB) and by perivascular astrocytes (PVA) in G1A and G1B was significantly lower than in controls. However, no significant differences in PVA were found between G1A and G1B. In G1B, type I PVA was absent and replaced by hypertrophic type II cells; b) Bruch's membrane (BM) was thinner in G1B than in G1A; c) the retinal pigment epithelium (RPE) cytoplasm contained fewer lipids in G1B than in G1A; d) in G1A and G1B choriocapillaris and retinal vessel showed alterations with respect to G0; e) cell death and axonal degeneration in the retina were similar in G1A and G1B. The substitution of a hyperlipemic diet by a standard one normalizes blood-lipid levels. However, the persistence of damage at retinal vessels and BM-RPE could trigger chronic ischemia.
Retinal Molecular Changes Are Associated with Neuroinflammation and Loss of RGCs in an Experimental Model of Glaucoma
(MDPI, 2021-02-19) Fernández Arrabal, José A.; Salazar Corral, Juan José; Hoz Montañana, María Rosa de; Marco López, Eva María; Martín Sánchez, Beatriz; Flores Salguero, Elena; García Martín, Elena Salobrar; López Cuenca, Inés; Barrios Sabador, Vicente; Avilés Trigueros, Marcelino; Valiente Soriano, Francisco Javier; Miralles de Imperial-Ollero, Juan A.; Vidal Sanz, Manuel; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel; López Gallardo, Meritxell; Ramírez Sebastián, Ana Isabel
Signaling mediated by cytokines and chemokines is involved in glaucoma-associated neuroinflammation and in the damage of retinal ganglion cells (RGCs). Using multiplexed immunoassay and immunohistochemical techniques in a glaucoma mouse model at different time points after ocular hypertension (OHT), we analyzed (i) the expression of pro-inflammatory cytokines, anti-inflammatory cytokines, BDNF, VEGF, and fractalkine; and (ii) the number of Brn3a+ RGCs. In OHT eyes, there was an upregulation of (i) IFN-γ at days 3, 5, and 15; (ii) IL-4 at days 1, 3, 5, and 7 and IL-10 at days 3 and 5 (coinciding with downregulation of IL1-β at days 1, 5, and 7); (iii) IL-6 at days 1, 3, and 5; (iv) fractalkine and VEGF at day 1; and (v) BDNF at days 1, 3, 7, and 15. In contralateral eyes, there were (i) an upregulation of IL-1β at days 1 and 3 and a downregulation at day 7, coinciding with the downregulation of IL4 at days 3 and 5 and the upregulation at day 7; (ii) an upregulation of IL-6 at days 1, 5, and 7 and a downregulation at 15 days; (iii) an upregulation of IL-10 at days 3 and 7; and (iv) an upregulation of IL-17 at day 15. In OHT eyes, there was a reduction in the Brn3a+ RGCs number at days 3, 5, 7, and 15. OHT changes cytokine levels in both OHT and contralateral eyes at different time points after OHT induction, confirming the immune system involvement in glaucomatous neurodegeneration.
Bilateral early activation of retinal microglial cells in a mouse model of unilateral laser-induced experimental ocular hypertension
(Elsevier, 2018-06) Hoz Montañana, Rosa de; Ramírez Sebastián, Ana Isabel; González Martín, Rosa; Ajoy, Daniel; Rojas López, Blanca; García Martín, Elena Salobrar; Valiente Soriano, Francisco Javier; Avilés Trigueros, Marcelino; Villegas Pérez, María Paz; Vidal Sanz, Manuel; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel; Salazar Corral, Juan José
The immune system plays an important role in glaucomatous neurodegeneration. Retinal microglial reactivation associated with ganglion cell loss could reportedly contribute to the glaucoma progression. Recently we have described signs of microglia activation both in contralateral and ocular hypertension (OHT) eyes involving all retinal layers 15 days after OHT laser induction in mice. However, no works available have analyzed the microglial activation at earliest time points after OHT induction (24 h) in this experimental model. Thus, we seek to describe and quantify signs of microglia activation and differences depending on the retinal layer, 24 h after unilateral laser-induced OHT. Two groups of adult Swiss mice were used: age-matched control (naïve) and lasered. In the lasered animals, OHT eyes as well as contralateral eyes were analyzed. Retinal whole-mounts were immunostained with antibodies against Iba-1 and MHC-II. We quantified the number of microglial cells in the photoreceptor layer (OS), outer plexiform layer (OPL), and inner plexiform layer (IPL); the number of microglial vertical processes connecting the OPL and OS; the area of the retina occupied by Iba-1+ cells (Iba1-RA) in the nerve fiber layer-ganglion cell layer (NFL-GCL), the total arbor area of microglial cells in the OPL and IPL and; Iba-1+ cell body area in the OPL, IPL and NFL-GCL. In contralateral and OHT eyes the morphological features of Iba-1+ cell activation were: migration, enlargement of the cell body, higher degree of branching and reorientation of the processes, radial disposition of the soma and processes toward adjacent microglial plexuses, and presence of amoeboid cells acting as macrophages. These signs were more pronounced in OHT eyes. Most of Iba-1+ cells did not express MHC-II; rather, only dendritic and rounded cells expressed it. In comparison with naïve eyes, in OHT eyes and contralateral eyes no significant differences were found in the microglial cell number; but there was a significant increase in Iba1-RA. The total arbor area of microglial cells was significantly decreased in: i) OHT eyes with respect contralateral eyes and naïve-eyes in IPL; ii) OHT eyes with respect to naïve eyes in OPL. The number of microglial vertical processes connecting the OPL and OS were significantly increased in contralateral eyes compared with naïve-eyes and OHT eyes. In OPL, IPL and NFL-GCL, the cell body area of Iba-1+ cells was significantly greater in OHT eyes than in naïve and contralateral eyes, and greater in contralateral eyes than in naïve eyes. A non-proliferative microglial reactivation was detected both in contralateral eyes and in OHT eyes in an early time after unilateral laser-induced OHT (24 h). This fast microglial activation, which involves the contralateral eye, could be mediated by the immune system.
Situs inversus del nervio óptico. A propósito de un caso
(Viguera Editores S.L., 2017-06-01) López Cuenca, Inés; Hoz Montañana, Rosa de; García Martín, Elena Salobrar; Rojas López, Blanca; Ramírez Sebastián, Ana Isabel; Salazar Corral, Juan José; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel
Introducción. El situs inversus del nervio óptico es una anomalía congénita caracterizada por la emergencia de los vasos de la retina en dirección nasal en lugar de temporal. Es causado por una anómala inserción del tallo óptico en la vesícula óptica que da lugar a la variación de disposición de la cabeza del nervio óptico. No es una condición aislada y suele aparecer junto con el síndrome del disco inclinado y en pacientes con miopía. Se caracteriza por la presencia de un cono de atrofia inferior, defectos en el campo visual temporal, defectos de refracción y ambliopía. Caso clínico. Mujer de 22 años, que acude a revisión oftalmológica por presentar fuertes cefaleas frontales acompañadas de halos y pérdida de nitidez en la visión. Tras un examen optométrico y oftalmológico se llega al juicio clínico de que padece un cuadro compatible con esta anomalía anatómica congénita. Conclusiones. El situs inversus del nervio óptico es una condición rara que puede aparecer aislada o acompañada de otras patologías. La aplicación de la campimetría y de nuevas técnicas diagnósticas, como la tomografía de coherencia óptica, facilita el diagnóstico diferencial de esta situación. No se conoce su prevalencia, pues no se encuentra en el registro de las enfermedades raras. Además, el escaso número de pacientes estudiados y la exigua bibliografía existente sobre esta anomalía no permiten conocer si los defectos causados progresan en el tiempo, por lo que sería importante realizar un seguimiento oftalmológico de los pacientes con situs inversus del nervio óptico.
Retinal Macroglial Responses in Health and Disease
(Hindawi Publishing Corporation, 2016-04-14) Hoz Montañana, Rosa de; Rojas López, María Blanca; Ramírez Sebastián, Ana Isabel; Salazar Corral, Juan José; Gallego Collado, Beatriz Isabel; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel
Due to their permanent and close proximity to neurons, glial cells perform essential tasks for the normal physiology of the retina. Astrocytes andM¨uller cells (retinal macroglia) provide physical support to neurons and supplement them with several metabolites and growth factors.Macroglia are involved in maintaining the homeostasis of extracellular ions and neurotransmitters, are essential for information processing in neural circuits, participate in retinal glucose metabolism and in removing metabolic waste products, regulate local blood flow, induce the blood-retinal barrier (BRB), play fundamental roles in local immune response, and protect neurons from oxidative damage. In response to polyetiological insults, glia cells react with a process called reactive gliosis, seeking to maintain retinal homeostasis. When malfunctioning, macroglial cells can become primary pathogenic elements. A reactive gliosis has been described in different retinal pathologies, including age-related macular degeneration (AMD), diabetes, glaucoma, retinal detachment, or retinitis pigmentosa. A better understanding of the dual, neuroprotective, or cytotoxic effect of macroglial involvement in retinal pathologies would help in treating the physiopathology of these diseases.The extensive participation of the macroglia in retinal diseases points to these cells as innovative targets for new drug therapies.
Anatomy of the Human Optic Nerve: Structure and Function
(IntechOpen, 2018-11) Salazar Corral, Juan José; Ramírez Sebastián, Ana Isabel; Hoz Montañana, María Rosa, de; García Martín, Elena Salobrar; Rojas, Pilar; Fernández Arrabal, José A.; López Cuenca, Inés; Rojas López, Blanca; Triviño Casado, Alberto; Ramírez Sebastián, José Manuel; Ferreri, Felicia M.
The optic nerve (ON) is constituted by the axons of the retinal ganglion cells (RGCs). These axons are distributed in an organized pattern from the soma of the RGC to the lateral geniculated nucleus (where most of the neurons synapse). The key points of the ON are the optic nerve head and chiasm. This chapter will include a detailed and updated review of the ON different parts: RGC axons, glial cells, connective tissue of the lamina cribrosa and the septum and the blood vessels derivate from the central retina artery and from the ciliary system. There will be an up-to-date description about the superficial nerve fibre layer, including their organization, and about prelaminar, laminar and retrolaminar regions, emphasizing the axoplasmic flow, glial barriers, biomechanics of the lamina cribrosa and the role of the macro- and microglia in their working.
Analysis of Retinal Peripapillary Segmentation in Early Alzheimer’s Disease Patients
(Hindawi Publising Corp., 2015-06-08) García Martín, Elena Salobrar; Hoyas, Irene; Leal, Mercedes; Hoz Montañana, María Rosa de; Rojas López, María Blanca; Ramírez Sebastián, Ana Isabel; Salazar Corral, Juan José; Yubero Pancorbo, Raquel; Gil, Pedro; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel
Decreased thickness of the retinal nerve fiber layer (RNFL) may reflect retinal neuronal-ganglion cell death. A decrease in the RNFL has been demonstrated in Alzheimer’s disease (AD) in addition to aging by optical coherence tomography (OCT). Twenty-three mild-AD patients and 28 age-matched control subjects with mean Mini-Mental State Examination 23.3 and 28.2, respectively, with no ocular disease or systemic disorders affecting vision, were considered for study. OCT peripapillary and macular segmentation thickness were examined in the right eye of each patient. Compared to controls, eyes of patients with mild-AD patients showed no statistical difference in peripapillary RNFL thickness (P>0.05); however, sectors 2, 3, 4, 8, 9, and 11 of the papilla showed thinning, while in sectors 1, 5, 6, 7, and 10 there was thickening. Total macular volume and RNFL thickness of the fovea in all four inner quadrants and in the outer temporal quadrants proved to be significantly decreased (P<0.01). Despite the fact that peripapillary RNFL thickness did not statistically differ in comparison to control eyes, the increase in peripapillary thickness in our mild-AD patients could correspond to an early neurodegeneration stage and may entail the existence of an inflammatory process that could lead to progressive peripapillary fiber damage.
Ophthalmologic Psychophysical Tests Support OCT Findings in Mild Alzheimer's Disease
(HINDAWI PUBLISHING CORPORATION, 2015-05-20) García Martín, Elena Salobrar; Hoz Montañana, María Rosa de; Rojas López, María Blanca; Ramírez Sebastián, Ana Isabel; Salazar Corral, Juan José; Yubero Pancorbo, Raquel; Gil Gregorio, Pedro; Triviño Casado, Alberto; Ramirez Sebastian, Jose Manuel
Purpose. To analyze in mild Alzheimer's disease (MAD) patients, GDS-4 (Reisberg Scale), whether or not some psychophysical tests (PTs) support OCT macular findings in the same group of MAD patients reported previously. Methods. Twenty-three MAD patients and 28 age-matched control subjects with mean Mini Mental State Examination of 23.3 and 28.2, respectively, with no ocular disease or systemic disorders affecting vision were included. Best-corrected visual acuity (VA), contrast sensitivity (CS) (3, 6, 12, and 18 cpds), color perception (CP), and perception digital test (PDT) were tested in one eye of each patient. Results. In comparison with the controls, MAD patients presented (i) a significant decrease in VA, PDT, and CS for all spatial frequencies analyzed, especially the higher ones, and (ii) a significant increase in unspecific errors on the blue axis (P < 0.05 in all instances). In MAD patients, a wide a ROC curve was plotted in all PTs. Conclusions. In MAD, CS, VA, and the tritan axis in CP were impaired. The PTs with the greatest predictive value are the higher spatial frequencies in CS and tritan unspecific errors in CP. PT abnormalities are consistent with the structural findings reported in the same MAD patients using OCT.
Microglial changes in the early aging stage in a healthy retina and an experimental glaucoma model
(Elsevier, 2020) Ramírez Sebastián, Ana Isabel; Fernández Albarral, José Antonio; Hoz Montañana, Rosa de; López Cuenca, Inés; García Martín, Elena Salobrar; Rojas Lozano, Pilar; Valiente Soriano, Francisco Javier; Avilés Trigueros, Marcelino; Villegas Pérez, María Paz; Vidal Sanz, Manuel; Triviño Casado, Alberto; Salazar Corral, Juan José; Ramirez Sebastian, Jose Manuel; Bagetta, Giacinto; Nucci, Carlo
Glaucoma is an age-related neurodegenerative disease that begins at the onset of aging. In this disease, there is an involvement of the immune system and therefore of the microglia. The purpose of this study is to evaluate the microglial activation using a mouse model of ocular hypertension (OHT) at the onset of aging. For this purpose, we used both naive and ocular hypertensives of 15-month-old mice (early stage of aging). In the latter, we analyzed the OHT eyes and the eyes contralateral to them to compare them with their aged controls. In the eyes of aged naive, aged OHT and aged contralateral eyes, microglial changes were observed compared to the young mice, including: (i) aged naive vs young naive: An increased soma size and vertical processes; (ii) aged OHT eyes vs young OHT eyes: A decrease in the area of the retina occupied by Iba-1 cells and in vertical processes; and (iii) aged contralateral vs young contralateral: A decrease in the soma size and arbor area and an increase in the number of microglia in the outer segment layer. Aged OHT eyes and the eyes contralateral to them showed an up-regulation of the CD68 expression in the branched microglia and a down-regulation in the MHCII and P2RY12 expression with respect to the eyes of young OHT mice. Conclusion: in the early phase of aging, morphological microglial changes along with changes in the expression of MHCII, CD68 and P2RY12, in both naive and OHT mice. These changes appear in aged OHT eyes and the eyes contralateral to them eyes.