Karakteristike glave očnog živca i peripapilarnih retinalnih nervnih vlakana kod pacijenata sa glaukomom / Characteristics of optic nerve head and peripapillar retinal nerve fibres in patients with glaucoma

Miljković Aleksandar

20 March 2015

<p>Cilj ovog istraživanja bio je da se utvrdi razlika u debljini sloja retinalnih nervnih vlakana (RNFL) i parametara glave očnog živca kod pacijenata sa preperimetrijskim glaukomom i pacijenata sa glaukomom otvorenog ugla (POAG) u odnosu na zdravu populaciju, kao i da se utvrdi razlika u debljini RNFL i parametara glave očnog živca kod pacijenata sa POAG u odnosu na stepen progresije bolesti. Materijal i metode: U ovu kliničku, analitičku i opservacionu, po tipu &bdquo;slučaj-kontrola&ldquo; studiju, bilo je uključeno 120 pacijenata. Na osnovu kliničkog nalaza formirane su četiri grupe. Prva grupa (grupa zdravih): 30 pacijenata bez glaucoma i drugih očnih bolesti. Druga grupa (grupa sa početnim POAG): 30 pacijenata sa POAG, sa karakterističnim o&scaron;tećenjem glave očnog živca i RNFL, kod kojih je srednja vrednost devijacije standardizovane automatske perimetrije MD&lt;-6dB (prema Hodap klasifkaciji) sa karakterističnim glaukomskim ispadima u vidnom polju. Treća grupa (grupa sa srednje uznapredovalim POAG): 30 pacijenata sa POAG, kod kojih je srednja vrednost devijacije standardizovane automatske perimetrije MD od -6dB do -12dB (prema Hodap klasifkaciji). Četvrta grupa (grupa sa preperimetrijskim glaukom): 30 pacijenata sa promenama na glavi očnog živca karakterističnim za glaukomsku neuropatiju, kod kojih ne postoje funkcionalni ispadi tj. standardna automatizovana perimetrija pokazuje normalne vrednosti MD parametara (od -2 dB do +2dB). Kod svih pacijenata bio je urađen kompletan oftalmolo&scaron;ki pregled, kompjuterizovano vidno polje i optička koherentna tomografija peripapilarne regije RNFL i glave očnog živca (na aparatu Stratus OCT 3000, Carl Zeiss Meditec). Rezultati su pokazali da je debljina RNFL-a kod pacijenata sa početnim POAG manja u odnosu na zdravu populaciju. Najveće sniženje debljine RNFL je u sektorima 1,6,7 i 8h. Jedino u sektoru 4h i 9h ne dolazi do smanjenja debljine RNFL-a. Najveće smanjenje debljine RNFL je u gornjem i donjem kvadrantu, te oni imaju visoku specifičnost za diskriminaciju između zdravih i pacijenata sa početnim POAG. Parametri glave očnog živca: volumen ekskavacije, vertikalni C/D, horizontalni C/D i ukupni C/D odnos kod pacijenata sa početnim POAG povećani su u odnosu na zdravu populaciju. Parametri glave očnog živca: povr&scaron;ina neuroretinalnog oboda i volumen neuroretinalnog oboda, kod pacijenata sa početnim POAG smanjeni su u odnosu na zdravu populaciju. Debljina RNFL kod pacijenata sa srednje uznapredovalim POAG smanjena je i u odnosu na pacijente sa početnim POAG i u odnosu na zdravu populaciju (59,69&plusmn;10,63 &mu;m vs 73,44&plusmn;12,16&mu;m vs 105,57&plusmn;11,34 &mu;m). Parametri glave očnog živca prate ove promene. Ukupna povr&scaron;ina glave očnog živca se statistički značajno ne menja između zdravih osoba, pacijenata sa početnim i srednje uznapredovalim glaukomom otvorenog ugla i kod pacijenata sa preperimetrijskim glaukomom, te ovaj parametar ne determini&scaron;e glaukomsku bolest. Postojanje i napredovanje glaukoma kod pacijenata dovodi do istanjenja&nbsp; peripapilarnog RNFL &scaron;to je praćeno povećanjem ekskavacije glave očnog živca. Sa smanjenjem MD vrednosti dolazi do sledstvenih promena većine parametara. Postoji pozitivna korelacija između uznapredovalosti galukoma i srednje vrednosti debljine RNFL. Promena ove vrednosti najbolje pokazuje da dolazi do progresije POAG. Parametri glave očnog živca koji najbolje oslikavaju progresiju glaukoma su: ukupni C/D, vertikalni C/D i horizontalni C/D odnos. Debljina RNFL-a kod pacijenata sa preperimetrijskim glaukomom je značajno manja u od nosu na zdravu populaciju (83,65&plusmn;9,24&mu;m vs 105,57&plusmn;11,34&mu;m). To se posebno izražava u gornjem kvadrantu, dok u temporalnom kvadrantu ne dolazi do promena. Parametar S zajedno sa srednjom vrednosti debljine RNFL predstavljaju najbolje pokazatelje nastajanja preperimetrijskog glaukoma. Sektor 1h je sektor sa visokom specifično&scaron;ću za diskriminaciju izmeĎu zdravih i pacijenata sa preperimetrijskim glaukomom. Parametri glave očnog živca: volumen ekskavacije, vertikalni C/D, horizontalni C/D i srednji C/D odnos, kod pacijenata sa preperimetrijskim glaukomom statistički su značajno povećavani i u odnosu na zdravu populaciju. Parametri glave očnog živca: povr&scaron;ina neuroretinalnog oboda i volumen neuroretinalnog oboda, kod pacijenata sa preperimetrijskim glaukomom statistički su značajno manji u odnosu na zdravu populaciju. Najbolji prediktori nastanka i napredovanja glaukomske bolesti su sledeći parametri: AvgThic, debljina RNFL po kvadrantima-S,I,N; parametric debljine RNFL: Smax, Savg, Iavg; kao i parametri PNO: RimArea, RimVol, DiscArea, CupAear, C/DHorRat, C/DVertRat, C/DAreaRat. ROC kriva je pokazala da su sledeću parametri lo&scaron;i marker za progresiju bolesti: debljine RNFL kavdranta T, Imax i upVol. Zaključak: Određivanje parametara glave očnog živca i debljine peripapilarnih RNFL kod pacijenata sa glaukomom, optičkom koherentnom tomografijom, predstavlja metodu koja izdvaja pacijente sa preperimetrijskim glaukomom od zdrave populacije. Ono posebno ukazuje na sektore, kvadrante i parametre koji su najosetljiviji na glaukomsku noksu i koji prvi postaju patolo&scaron;ki pri nastanku glaukoma. Takođe, ukazuje i na razliku između pojedinih stepena glaukomske bolesti. Na ovaj način se omogućuje sigurna i rana dijagnoza glaukoma, njegovo pravovremeno lečenje i bolja prognoza kod pacijenata sa POAG.</p> / <p>Aim: The aim of this study was to determine the difference in thickness of retinal nerve fibre layer (RNFL) and parameters of optic nerve head in patients with preperimetric glaucoma and in patients with open angle glaucoma (POAG) in comparison to healthy population, as well as to determine the difference in thickness of RNFL and parameters of optic nerve head in patients with POAG according to progression of the disease. Material and methods: This clinical study was analytical and opservational, &bdquo;case-control&ldquo; type of study. 120 patients were included. On the basis of clinical finding 4 groups were formed. First group (healthy): 30 patients without glaucoma and with no other ocular disease. Second group (group of patients with mild POAG): 30 patients with POAG, with characteristical optic nerve head and RNFL damage, in whom the value of standard deviation of standardised automatic perimetry is MD&lt;-6dB (according to Hodap classification) with typical glaucomatous visual field defects. Third group (group of patients with moderate POAG): 30 patients with POAG in whom the mean value of standard deviation of standardised automatic perimetry, MD is from -6dB to -12dB (according to Hodap classification). Fourth group (group of patients with preperimetric glaucoma): 30 patients with changes of optic nerve head that are typical of glaucomatous neuropathy in whom there are no functional changes and with normal values of MD parameters of standardised automatic perimetry. In all patients complete ophthalmological examination, complete visual field and optic coherent tomography of peripapillar region of RNFL and optic nerve head (using Stratus OCT 3000, Carl Zeiss Meditec) were performed.The results showed that thickness of RNFL in patients with mild POAG is lesser than in healthy subjects. The greatest decrease in RNFL thickness is in sectors 1,6,7 and 8h. Only in sectors 4h and 9h there is no decrease in RNFL thickness. The greatest decrease in RNFL thickness is in upper and lower quadrant, so they are highly specific in determination between healthy subjects and patients with mild POAG. Parameters of optic nerve head such as: excavation volume, vertical C/D, horisontal C/D and total C/D ratio in patients with mild POAG are higher comparing to healthy population. Parameters of optic nerve head such as: neuroretinal rim area and neuroretinal rim volume in patients with mild POAG are lower than in healthy population. RNFL thickness in patients with moderate POAG is lesser than in patients with mild POAG, as well as in healthy subjects. Optic nerve head parameters follow these changes. Total optic nerve head area does not change in healthy subjects, in patients with mild and moderate open angle glaucoma and in patients with preperimetric glaucoma, so this parameter does not determine glaucomatous disease. The existence and progression of glaucoma in patients leads to thinning of peripapillar RNFL which is followed by increase of excavation of optic nerve head. With decrease of MD value there are consecutive changes in most parameters. There is positive correlation between progression of glaucoma and average thickness of RNFL. The change of this value shows the best if there is progression of POAG. Paremeters of optic nerve head that are the best determinants of progression of glaucoma are: total C/D, vertical C/D and horisontal C/D ratio. Thickness of RNFL in patients with preperimetric glaucoma is significantly lesser than in healthy subjects. It is particularly seen in upper quadrant, while in temporal quadrant there are no changes. Parameter S together with mean value of RNFL thickness is the best parameter of appearance of preperimetric glaucoma. Sector 1h is the sector that is highly specific in discrimination between healthy subjects and patients with preperimetric glaucoma. Optic nerve head parameters such as: volume of excavation, vertical C/D, horizontal C/D and C/D mean ratio in patients with preperimetric glaucoma are statistically significantly higher than in healthy population. Optic nerve head parameters such as: neuroretinal rim area and neuroretinal rim volume in patients with preperimetric glaucoma are statistically significantly lower than in healthy population. The best predictors of appearance and progression of glaucomatous disease are: AvgThic, RNFL thickness in quadrants: S,I,N; RNFL:Smax, Savg, Iavg; as well as PNO: RimArea, RimVol, DiscArea, CupAear, C/DHorRat, C/DVertRat, C/DAreaRat. ROC curve has shown that the following parameters are bad markers for progression of the disease: RNFL thickness in quadrant T, Imax and CupVol. Conclusion: Determination of parameters of optic nerve head and peripapillar RNFL in patients with glaucoma using optical coherent tomography represents the method that distinguishes the patients with preperimetric glaucoma from healthy subjects. It particularly points the sectors, quadrants and parameters that are the most sensitive to glaucomatous disease and that first become pathological when disease appears. It also indicates the difference between certain levels of glaucomatous disease. In this way safe and early diagnosis of glaucoma is provided, as well as adequate therapy and better prognosis in patients with POAG.</p>

Développement de systèmes de microscopie par cohérence optique pour l'imagerie de la peau / Development of optical coherence microscopy systems for skin imaging

Ogien, Jonas

30 November 2017

La microscopie par cohérence optique (OCM) est une technique d'imagerie tomographique basée sur l'interférométrie en lumière blanche permettant d'imager les milieux biologiques à l'échelle microscopique. L'OCM est une méthode particulièrement adaptée à l'imagerie dermatologique, en particulier pour le diagnostic du cancer de la peau, car elle permet d'obtenir des images similaires aux images histologiques sans nécessiter d'effectuer de biopsie.Ces travaux de thèse portent sur le développement de la microscopie par cohérence optique pour l'imagerie de la peau, dans le but de fournir au dermatologue un outil d'imagerie compact, adapté à l'imagerie dermatologique in vivo, et permettant d'obtenir des images à la fois structurelles et fonctionnelles.Un dispositif de microscopie par cohérence optique plein champ (FF-OCM) compact, à éclairage par LED blanche, a tout d'abord été développé, permettant d'obtenir des images tomographiques à très haute résolution (0.7 μm × 1.8 μm) jusqu’à ∼200 μm de profondeur dans la peau. En utilisant une LED de haute puissance, des images de peau in vivo ont pu être obtenues.A partir de ce dispositif de FF-OCM, des méthodes d'imagerie fonctionnelle permettant de cartographier les écoulements sanguins (angiographie) ont été mises en oeuvre. Quatre méthodes, basées sur une analyse du signal interférométrique (temporelle ou fréquentielle), d'images de phase ou d'images d'amplitude ont permis d'imager de l'intralipide s'écoulant dans un modèle de capillaire sanguin.L'imagerie fonctionnelle polarimétrique a aussi été explorée en FF-OCM. Une optimisation du contraste des images polarimétriques a été obtenue en modifiant les composants polarisants d'un montage conventionnel de FF-OCM polarimétrique en fonction de l'échantillon imagé. Cette méthode a été testée sur un échantillon polarisant simple.Finalement, une nouvelle méthode d'OCM, la microscopie par cohérence optique confocale à éclairage « ligne » (LC-OCM) a été étudiée, dans le but de développer un système permettant d'imager la peau in vivo, avec une plus grande profondeur de pénétration dans les tissus que la FF-OCM. Ce système, combinant un filtrage interférométrique et un filtrage confocal, a permis d'obtenir des images de peau in vivo en coupe verticale et en coupe en face, avec une résolution spatiale similaire à celle de la FF-OCM, mais à une profondeur supérieure atteignant 300 μm. / Optical coherence microscopy (OCM) is a technique for tomographic imaging based on white light interferometry, making it possible to image biological media with micrometer-scale spatial resolution. OCM is particularly well-suited to dermatological imaging, especially skin cancer diagnosis, since it provides images that are similar to histological images without the need for biopsy.This PhD thesis focuses on the development of OCM for skin imaging, with the aim of providing a compact, in vivo imaging tool for the dermatologist, capable of acquiring structural and functional images of the skin.A compact, full-field OCM (FF-OCM) system illuminated by a white LED was first developed, making it possible to obtain tomographic images at an ultra-high resolution (0.7 μm × 1.8 μm), up to ∼200 μm in depth within the skin. Using a high power LED, in vivo skin images could be obtained.Using this FF-OCM setup, functional imaging methods for blood flow mapping (angiography) were implemented. Four methods, based on temporal or frequency analysis of the interferometric signal, phase images or amplitude images, have been shown to be able to image intralipid flow within a model blood capillary.Functional polarimetric imaging has also been explored in FF-OCM. Contrast optimization in polarimetric images has been obtained by modifying the polarizing components of the conventional polarization sensitive FF-OCM setup depending on the sample to be imaged. This method has been tested on a simple polarizing sample.Finally, a new OCM method, line-field confocal OCM (LC-OCM), has been studied. The goal here was to develop a system capable of imaging the skin in vivo, with a tissue penetration depth greater than what is possible for FF-OCM. This system, which combines interferometric filtering and confocal filtering, makes it possible to obtain in vivo skin images in vertical and en face slices, with a spatial resolution similar to that of FF-OCM, but with a greater penetration depth of 300 μm.

Imagerie médicale et biologique

Tomographie par cohérence optique

Microscopie tridimensionnelle

Microscopie interférométrique

Medical and biological imaging

Optical coherence tomography

Three-Dimensional microscopy

Interference microscopy

535.47

535.2

570.282

Characterization of Two Vernier-Tuned Distributed Bragg Reflector (VT-DBR) Lasers Used in Swept Source Optical Coherence Tomography (SS-OCT)

Bergdoll, Greg M

01 June 2015

Insight Photonic Solutions Inc. has continued to develop their patented VT-DBR laser design; these wavelength tunable lasers promise marked image-quality and acquisition time improvements in SS-OCT applications. To be well suited for SS-OCT, tunable lasers must be capable of producing a highly linear wavelength sweep across a tuning range well-matched to the medium being imaged; many different tunable lasers used in SS-OCT are compared to identify the optimal solution. This work electrically and spectrally characterizes two completely new all-semiconductor VT-DBR designs to compare, as well. The Neptune VT-DBR, an O-band laser, operates around the 1310 nm range and is a robust solution for many OCT applications. The VTL-2 is the first 1060 nm VT-DBR laser to be demonstrated. It offers improved penetration through water over earlier designs which operate at longer wavelengths (e.g. - 1550 nm and 1310 nm), making it an optimal solution for the relatively deep imaging requirements of the human eye; the non-invasive nature of OCT makes it the ideal imaging technology for ophthalmology. Each laser has five semiconductor P-N junction segments that collectively enable precise akinetic wavelength-tuning (i.e. - the tuning mechanism has no moving parts). In an SS-OCT system utilizing one of these laser packages, the segments are synchronously driven with high speed current signals that achieve the desired wavelength, power, and sweep pattern of the optical output. To validate the laser’s fast tuning response time necessary for its use in SS-OCT, a circuit model of each tuning section is created; each laser section is modeled as a diode with a significant lead inductance. The dynamic resistance, effective capacitance, and lead inductance of this model are measured as a function of bias current and the response time corresponding to each bias condition is determined. Tuning maps, spectral linewidths, and side-mode suppression ratio (SMSR) measurements important to SS-OCT performance are also collected. Measured response times vary from 700 ps to 2 ns for the Neptune and 1.2 to 2.3 ns for the VTL-2. Linewidth measurements range from 9 MHz to 124 MHz for the Neptune and 300 kHz to 2 MHz for the VTL-2. SMSR measurements greater than 38 dB and 40 dB were observed for the Neptune and VTL-2, respectively. Collectively, these results implicate the VT-DBR lasers as ideal tunable sources for use in SS-OCT applications.

semiconductor-laser

vernier

Bragg-reflector

optical coherence tomography (OCT)

dynamic-resistance

reflectometry.

Bioimaging and Biomedical Optics

Biomedical

Electromagnetics and Photonics

Analysis of Weighted Fraction of Length for Interfacial Gap in Cervical Composite Restorations as a Function of the Number of B-Scans of OCT Volume Scans

Schneider, Hartmut, Meißner, Tobias, Rüger, Claudia, Haak, Rainer

26 April 2023

In dental research, the morphometric assessment of restorations is a challenge. This also applies to the assessment of the length of interfacial adhesive defects in composite restorations as a measure of tooth-restoration bond failure. The determined mean fractions of interfacial gap length on enamel and dentin interfaces deviate from the true means (N → ∞), depending on the number (Ni) of object layers assessed. Cervical composite restorations were imaged with spectral domain optical coherence tomography (SD-OCT). The mean fractions of interfacial gap length on enamel and dentin were determined for an increasing number of OCT cross-sectional images (B-scans) per restoration and were graphically displayed as a function of the number of B-scans. As the number of B-scans increased, the calculated object means approached a range of ±2.5%. This analysis is appropriate for displaying the relationship between the determined mean fraction of interfacial gap length at the enamel/dentin-restoration interface and the number of B-scans.

info:eu-repo/classification/ddc/600

ddc:600

Visual Performance of Scleral and Soft Contact Lenses in Normal Eyes

Nixon, Alex D.

09 July 2014

No description available.

Biomedical Research

Medicine

Ophthalmology

Optics

Scleral contact lens

higher-order aberrations

contact lens

wavefront aberrations

settling

epithelial staining

epithelial bullae

vision performance

optical coherence tomography

OCT

AUTOMATED MACHINE LEARNING BASED ANALYSIS OF INTRAVASCULAR OPTICAL COHERENCE TOMOGRAPHY IMAGES

Shalev, Ronny Y.

31 May 2016

No description available.

Medical Imaging

Computer Science

Artificial Intelligence

OPTICAL IMAGING OF EMBRYONIC CARDIAC CONDUCTION

Ma, Pei

13 September 2016

No description available.

Biomedical Engineering

Real-time adaptive-optics optical coherence tomography (AOOCT) image reconstruction on a GPU

Shafer, Brandon Andrew

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Adaptive-optics optical coherence tomography (AOOCT) is a technology that has been rapidly advancing in recent years and offers amazing capabilities in scanning the human eye in vivo. In order to bring the ultra-high resolution capabilities to clinical use, however, newer technology needs to be used in the image reconstruction process. General purpose computation on graphics processing units is one such way that this computationally intensive reconstruction can be performed in a desktop computer in real-time. This work shows the process of AOOCT image reconstruction, the basics of how to use NVIDIA's CUDA to write parallel code, and a new AOOCT image reconstruction technology implemented using NVIDIA's CUDA. The results of this work demonstrate that image reconstruction can be done in real-time with high accuracy using a GPU.

Adaptive-optics

GPU

Parallel Processing

OCT

Optical Coherence Tomography

Image Reconstruction

Optics, Adaptive -- Research -- Analysis

Imaging systems in medicine

Holography in medicine

Coherence (Optics)

Image processing

Image reconstruction

Real-time programming

Eye -- Tomography

Retina -- Tomography

Graphics processing units -- Programming

Étude comparative de l'anatomie des plaies de greffe de cornée par tomographie de cohérence optique (OCT)

Alvarez Ferré, Luis

05 1900

Cette thèse porte sur l’étude de l’anatomie de la cornée après 3 techniques de greffe soient, la greffe totale traditionnelle (GTT) et des techniques de greffe lamellaire postérieur (GLP) telles que la greffe lamellaire endothéliale profonde (DLEK) et la greffe endothélium/membrane de Descemet (EDMG) pour le traitement des maladies de l’endothélium, telles que la dystrophie de Fuchs et de la kératopathie de l’aphaque et du pseudophaque. Dans ce contexte, cette thèse contribue également à démontrer l’utilité de la tomographie de cohérence optique (OCT) pour l’étude de l’anatomie des plaies chirurgicales la cornée post transplantation. Au cours de ce travail nous avons étudié l'anatomie de la DLEK, avant et 1, 6, 12 et 24 mois après la chirurgie. Nous avons utilisé le Stratus OCT (Version 3, Carl Zeiss, Meditec Inc.) pour documenter l’anatomie de la plaie. L'acquisition et la manipulation des images du Stratus OCT, instrument qui à été conçu originalement pour l’étude de la rétine et du nerf optique, ont été adaptées pour l'analyse du segment antérieur de l’oeil. Des images cornéennes centrales verticales et horizontales, ainsi que 4 mesures radiaires perpendiculaires à la plaie à 12, 3, 6 et 9 heures ont été obtenues. Les paramètres suivants ont été étudiés: (1) Les espaces (gap) entre les rebords du disque donneur et ceux du receveur, (2) les dénivelés de surface postérieure (step) entre le les rebords du disque donneur et ceux du receveur, (3) la compression tissulaire, (4) le décollement du greffon, 6) les élévations de la surface antérieure de la cornée et 7) la pachymétrie centrale de la cornée. Les mesures d’épaisseur totale de la cornée ont été comparées et corrélées avec celles obtenues avec un pachymètre à ultra-sons. Des mesures d’acuité visuelle, de réfraction manifeste et de topographie ont aussi été acquises afin d’évaluer les résultats fonctionnels. Enfin, nous avons comparé les données de DLEK à celles obtenues de l’EDMG et de la GTT, afin de caractériser les plaies et de cerner les avantages et inconvénients relatifs à chaque technique chirurgicale. Nos résultats anatomiques ont montré des différences importantes entre les trois techniques chirurgicales. Certains des paramètres étudiés, comme le sep et le gap, ont été plus prononcés dans la GTT que dans la DLEK et complètement absents dans l’EDMG. D’autres, comme la compression tissulaire et le décollement du greffon n’ont été observés que dans la DLEK. Ceci laisse entrevoir que la distorsion de la plaie varie proportionnellement à la profondeur de la découpe stromale du receveur, à partir de la face postérieure de la cornée. Moins la découpe s’avance vers la face antérieure (comme dans l’EDMG), moins elle affecte l’intégrité anatomique de la cornée, le pire cas étant la découpe totale comme dans la GTT. Cependant, tous les paramètres d’apposition postérieure sous-optimale et d’élévation de la surface antérieure (ce dernier observé uniquement dans la GTT) finissent par diminuer avec le temps, évoluant à des degrés variables vers un profil topographique plus semblable à celui d’une cornée normale. Ce processus paraît plus long et plus incomplet dans les cas de GTT à cause du type de plaie, de la présence de sutures et de la durée de la cicatrisation. Les valeurs moyennes d’épaisseur centrale se sont normalisées après la chirurgie. De plus, ces valeurs moyennes obtenues par OCT étaient fortement corrélées à celles obtenues par la pachymétrie à ultra-sons et nous n’avons remarqué aucune différence significative entre les valeurs moyennes des deux techniques de mesure. L’OCT s’est avéré un outil utile pour l’étude de l’anatomie microscopique des plaies chirurgicales. Les résultats d’acuité visuelle, de réfraction et de topographie des techniques de GLP ont montré qu’il existe une récupération visuelle rapide et sans changements significatifs de l’astigmatisme, contrairement à la GTT avec et sans suture. La GLP a permis une meilleure conservation de la morphologie de la cornée, et par conséquence des meilleurs résultats fonctionnels que la greffe de pleine épaisseur. Ceci nous permet d’avancer que la GLP pourrait être la technique chirurgicale à adopter comme traitement pour les maladies de l’endothélium cornéen. / This thesis aims to study the anatomy of the corneal wound following 3 techniques of corneal graft: traditional penetrating keratoplasy (PK) and two techniques of posterior lamellar keratoplasy (PLK) which are deep lamellar endothelial keratoplasy (DLEK) and Endothelial-Descemet’s Membrane Graft (EDMG) for the treatment of the endothelial corneal diseases, such as Fuch’s dystrophy and aphakic and pseudopakic bullous keratopathy. In this context, this thesis also contributes to show the utility of the time domain optical coherence tomography (TD-OCT) for studying the anatomy of surgical wounds after corneal transplantation. In this work we studied the anatomy of DLEK, before and 1,6,12 and 24 months after surgery. We used the Stratus OCT. (Version 3, Carl Zeiss, Meditec Inc.) to document the anatomy of the wound. The acquisition and the handling of the images of the Stratus OCT, an instrument originally designed for the study of the retina and the optic nerve, were adapted to analyse the anterior segment of the eye. Vertical and horizontal central images of the cornea, in addition to 4 radial measurements perpendicular to the wound at 12, 3, 6 and 9 hours were obtained. The following parameters were studied: (1) the gap between the edges of the donor disc and those of the recipient, (2) posterior surface mismatch (step) between the edges of the disc donor and those of the recipient, (3) tissue compression, (4) graft detachment, 6) elevations of the anterior corneal surface and 7) the central pachymetry of the cornea. Measurements of the total thickness were compared and correlated with those obtained with an ultrasound pachymeter. Measurements of visual acuity, manifest refraction and topography were also acquired in order to evaluate the functional results. Lastly, we compared the data of DLEK with those obtained from the EDMG and the PK, in order to characterize the wounds and to highlight the advantages and disadvantages relative to each surgical technique.Our anatomical results showed important differences between the three surgical techniques. Some of the studied parameters, like the step and the gap, were more pronounced in PK than in DLEK and completely absent in the EDMG group. Others, like tissue compression and graft detachment were observed only in the DLEK group. This let us predict that the distortion of the wound varies proportionally with the depth of recipient posterior stromal dissection. The less dissection towards the anterior surface (as in EDMG), the less it affects the anatomical integrity of the cornea, the worst case being full thickness trephination as in PK. However, all the parameters of sub-optimal posterior surface apposition and anterior surface elevation (this last only observed in PK) ended up decreasing with time, evolving with variable degrees to a topographic profile more similar to that of a normal cornea. This process appears longer and more incomplete in the cases of PK because of the type of wound, the presence of sutures and the longer healing period. The mean values of central thickness were normal after surgery. Moreover, these mean values obtained by OCT. were strongly correlated with those obtained by ultrasound pachymetry and we did not notice any significant difference between the mean values of the two measurement techniques. OCT proved to be a useful tool for the study of the microscopic anatomy of the corneal surgical wounds. The results of vision, refraction and topography of the techniques of posterior lamellar grafts showed that there was a fast visual recovery and without significant changes in astigmatism, contrary to PK with and without sutures. Posterior lamellar grafts allowed a better conservation of the morphology of the cornea, and consequently better functional results than PK. This enabled us to conclude that posterior lamellar corneal grafts could be the surgical technique of choice for the treatment of corneal endothelial diseases.

Cornée

Dystrophie de Fuchs

Tomographie de cohérence optique

Greffe endothéliale

Greffe totale traditionelle

Cornea

Fuch's dystrophy

Endothelial graft

Penetrating keratoplasty

Optical coherence tomography

Correlação entre as espessuras da mácula e da camada de fibras nervosas da retina, medidas pelas tomografias de coerência óptica de dominio Fourier e de domínio do tempo, e a perimetria automatizada na atrofia em banda do nervo óptico / Correlation between macular and retinal nerve fiber layer Fourier domain and time domain optical coherence tomography measurements and visual field loss in band atrophy of the optic nerve

Cunha, Luciana Virginia Ferreira Costa

18 April 2011

OBJETIVO: Investigar a correlação entre as espessuras da mácula e da camada de fibras nervosas da retina (CFNR), medidas pelas tomografias de coerência óptica de domínio Fourier (FD - OCT) e de domínio do tempo (TD - OCT) e a perda de sensibilidade no campo visual (CV) em pacientes com atrofia em banda do nervo óptico. Comparar a habilidade diagnóstica dos dois instrumentos. MÉTODOS: 36 olhos de 36 pacientes com perda de CV permanente por compressão do quiasma óptico e 36 controles normais foram submetidos ao exame de CV pela perimetria automatizada padrão (Humphrey Field Analyzer TM; Carl Zeiss Meditec, Dublin, CA), ao FD - OCT (3 D OCT-1000TM Topcon Corp., Tokyo, Japan) e ao TD - OCT (StratusTM ;Carl Zeiss Meditec Inc, Dublin, California, USA). Foram comparados os protocolos análogos de ambos os equipamentos para avaliação da espessura macular.Foi realizado a divisão macular em quatro quadrantes e em metades, sendo calculado a média da espessura macular global, a média da espessura dos quadrantes e a média da espessura das metades maculares. A média global e setorial da medida da espessura da CFNR peripapilar também foi analisada. A perda de sensibilidade no CV foi inicialmente avaliada pelo defeito temporal médio. O CV foi ainda dividido em 6 setores de acordo com a distribuição da CFNR e em 16 pontos centrais para a realização da correlação estrutura-função entre os parâmetros medidos pelo FD - OCT e a perda de sensibilidade no CV em decibéis e 1/Lambert. Foi calculado o coeficiente de correlação de Sperman e a análise de regressão linear. As áreas sobre a curva ROC e valores fixos de sensibilidade e especificidade foram calculados para cada parâmetro estudado. RESULTADOS: As medidas da espessura macular e da CFNR pelo FD - OCT e TD - OCT foram capazes de discriminar olhos com atrofia em banda do nervo óptico dos controles normais. A espessura global e setorial dos parâmetros maculares e da CFNR mostraram diferenças significativas (p<0,001) entre os doentes e os controles e os dois aparelhos tiveram desempenho semelhante na discriminação entre pacientes e controles. Em ambos existiram correlações significativas entre a perda de sensibilidade do CV e as medidas da espessura macular e da CFNR. As medidas de espessura nos quadrantes e nas metades nasais da macula, avaliadas pelo FD - OCT tiveram os melhores desempenhos nas correlações com os defeitos de CV, sendo o parâmetro com a melhor correlação, a medida do quadrante infero-nasal da mácula e a perda de sensibilidade do CV central do quadrante temporal superior central (r = 0.78, R2 = 61%, p<0,001). CONCLUSÕES: A espessura macular e a espessura da CFNR medidas pelo FD - OCT e pelo TD - OCT se correlacionaram topograficamente com a perda de sensibilidade no CV de pacientes com hemianopsia temporal por compressäo quiasmática. A correlação entre os quadrantes maculares e a perda de sensibilidade no CV, foram melhores do que aquelas entre o CV e as medidas da CFNR, principalmente nas medidas realizadas pelo FD - OCT. Este estudo demonstrou a importância clínica das medidas maculares na correlação estrutura-função e na quantificaçäo do dano neural em pacientes com compressão quiasmática, podendo ser útil na monitorização destes pacientes / PURPOSE: To investigate the relationship between fourier-domain optical coherence tomography (FD - OCT) measured macular and retinal nerve fiber layer thickness (RNFL) and visual field sensitivity loss on standard automated perimetry in eyes with permanent temporal hemianopia from chiasmal compression and compare the ability of FD - OCT and time-domain optical coherence tomography (TD - OCT) to detect axonal loss in eyes with band atrophy of the optic nerve. METHODS: One eye of each of 36 patients with permanent temporal visual field defects and 36 age- and sex-matched healthy subjects. Subjects underwent standard automated perimetry and macular and RNFL thickness measurements with FD - OCT (3 D OCT-1000® Topcon Corp., Tokyo, Japan) and TD - OCT (Stratus; Carl Zeiss Meditec Inc, Dublin, California, USA). Macular thickness measurements as a global average, divided in four quadrants and in two halves as well as average and sectoral RNFL thickness around the optic disc were calculated. Visual field sensitivity loss was evaluated by the temporal mean defect; as deviations from normal in six sectors of the visual field and in 16 central visual field test points. Relationship between visual field sensitivity loss in decibel and 1/Lambert units and optical coherence tomography measurements were evaluated using Spearman correlation coefficients and by linear regression analysis. Receiver operating characteristic curves and sensitivities at fixed specificities were calculated for each parameter. RESULTS: Global and sectoral macular and RNFL thickness parameters showed a significant difference in eyes with band atrophy compared with controls. The strongest correlations were seen between visual field sensitivity loss and quadrantic or hemianopic nasal macular thickness measurements than with sectoral retinal nerve fiber layer thickness measurements. The highest correlation was observed between the inferonasal quadrant macular thickness and the visual field sensitivity loss in the superior temporal central visual field quadrant (r = 0.78, R2 = 61%, p <0.001). CONCLUSION: Both RNFL thickness and macular thickness FD - OCT and TD - OCT measurements were related topographically with visual field sensitivity loss in patients with temporal hemianopia from chiasmal compression and there is a stronger relationship in quadrantic macular compared to RNFL thickness measurements with FD - OCT. Macular thickness measurements could potentially be used to quantify neuronal loss in patients with chiasmal compression and could prove clinically useful for detection of damage and for monitoring these patients

Band atrophy of optical nerve/diagnostic

Fibas nervosas da etina/patologia

Optic chiasm/pathology

Optical coherence tomography/methods

Perimetria computadorizada/métodos

Quiasma optico/patologia

Retinal nerve fiber layer/pathology

Visual field/methods