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Current surgical and non-surgical treatment options for patients diagnosed with keratoconusChen, Constance 30 January 2023 (has links)
Keratoconus is an eye disease that manifests as progressive thinning and steepening of the cornea. While there is no singular cause for keratoconus, both genetic and environmental factors have been proposed to influence the onset and progression. This review aims to explore the pathogenesis, identification, classification, and treatment of this corneal disease. Since early detection is essential in treatment success, various imaging methods have been developed to analyze multiple aspects of the corneal surface. Keratoconus can be identified with a reflection based system, elevation based system, as well as a combination of the two. Once diagnosed, the Belin ABCD classification can be used to monitor the stage of keratoconus and treat it accordingly. Current treatment options prioritize halting disease progression with corneal crosslinking before considering visual rehabilitation. Individuals with mild keratoconus can improve vision with non-surgical options such as spectacles and contact lenses. As the disease progresses, patients may need surgical intervention such as intrastromal corneal ring segments or photorefractive keratectomy (PRK). In advanced keratoconus cases, the cornea may need to be replaced with partial or full-thickness keratoplasty. The goal of this review is to evaluate the more current treatment options that have become available today.
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Subjective Verticality Is Disrupted by Astigmatic Visual Distortion in Older PeopleElliott, David, Black, A.A., Wood, J.M. 25 April 2020 (has links)
Yes / PURPOSE:
There is little research evidence to explain why older adults have more problems adapting to new spectacles incorporating astigmatic changes than younger adults. We tested the hypothesis that astigmatic lenses oriented obliquely would lead to errors in verticality perception that are greater for older than younger adults.
METHODS:
Participants included 12 young (mean ± SD age 25.1 ± 5.0 years) and 12 older (70.2 ± 6.3 years) adults with normal vision. Verticality perception was assessed using a computer-based subjective visual vertical (SVV) task, under static and dynamic (in the presence of a moving peripheral distractor) conditions and when viewing targets through the near refractive correction (control condition), and two forms of astigmatic lenses oriented in the vertical, horizontal, and oblique meridians.
RESULTS:
The older group demonstrated much greater dynamic SVV errors (e.g., 3.4° for the control condition) than the younger group (1.2°, P = 0.002), larger errors with vertical and horizontal astigmatic lenses (older group 4.1°and 5.2° for toric and magnifier lenses vs. younger group 1.2° and 1.4°, respectively, P < 0.001), and a larger influence of the oblique astigmatic lenses (older group 5.6° vs. younger group 2.1°, P<0.001).
CONCLUSIONS:
Astigmatic lenses produced little or no errors in SVV in young adults, but large static and dynamic SVV errors in older adults. This indicates a greater reliance on visual input with increased age for SVV, and helps explain why oblique astigmatic refractive corrections can cause dizziness in older patients and why they report greater difficulties adapting to new spectacles with astigmatic changes.
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Development of a program for toric intraocular lens calculation considering posterior corneal astigmatism, incision-induced posterior corneal astigmatism, and effective lens position.Eom, Youngsub, Ryu, Dongok, Kim, Dae Wook, Yang, Seul Ki, Song, Jong Suk, Kim, Sug-Whan, Kim, Hyo Myung 10 1900 (has links)
Background: To evaluate the toric intraocular lens (IOL) calculation considering posterior corneal astigmatism, incision-induced posterior corneal astigmatism, and effective lens position (ELP). Methods Two thousand samples of corneal parameters with keratometric astigmatism >= 1.0 D were obtained using boot-strap methods. The probability distributions for incision-induced keratometric and posterior corneal astigmatisms, as well as ELP were estimated from the literature review. The predicted residual astigmatism error using method D with an IOL add power calculator (IAPC) was compared with those derived using methods A, B, and C through Monte-Carlo simulation. Method A considered the keratometric astigmatism and incision-induced keratometric astigmatism, method B considered posterior corneal astigmatism in addition to the A method, method C considered incision-induced posterior corneal astigmatism in addition to the B method, and method D considered ELP in addition to the C method. To verify the IAPC used in this study, the predicted toric IOL cylinder power and its axis using the IAPC were compared with ray-tracing simulation results. Results The median magnitude of the predicted residual astigmatism error using method D (0.25 diopters [D]) was smaller than that derived using methods A (0.42 D), B (0.38 D), and C (0.28 D) respectively. Linear regression analysis indicated that the predicted toric IOL cylinder power and its axis had excellent goodness-of-fit between the IAPC and ray-tracing simulation. Conclusions The IAPC is a simple but accurate method for predicting the toric IOL cylinder power and its axis considering posterior corneal astigmatism, incision-induced posterior corneal astigmatism, and ELP.
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Desenvolvimento de um instrumento computadorizado para medida da curvatura da cornea durante o ato cirúrgico. / Development of an computerized instrument for measurement of the curvature of the cornea during surgery.Carvalho, Luis Alberto Vieira de 26 November 1996 (has links)
Neste trabalho foi desenvolvido um novo instrumento para monitoramento computadorizado da curvatura da região central anterior da córnea humana durante cirurgias refrativas. Através da projeção de um anel iluminado na córnea, imagens dos reflexos são digitalizadas e processadas. Algoritmos baseados em técnicas de visão computacional e geometria óptica determinam a curvatura da região central (4mm), com alta precisão e desempenho. Mapas coloridos com códigos de cor em dioptrias (proporcionais ao inverso do raio da curvatura) são gerados para auxiliar o oftalmologista cirurgião no diagnóstico. / We have developed a new instrument for computer-aided monitoring of the central region of the anterior portion of the human cornea during refractive surgeries. By projecting a circular iluminated object on the cornea, reflected images are captured by a CCD, digitezed and processed. Algorithms based on computer vision technics and optical geometry compute the curvature of a 3 to 4 mm region, with righ precision and performance. Color-coded maps based on diopters (proportional to the inverse of the radius of curvature) are generated for ease of diagnose.
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Desenvolvimento de um instrumento computadorizado para medida da curvatura da cornea durante o ato cirúrgico. / Development of an computerized instrument for measurement of the curvature of the cornea during surgery.Luis Alberto Vieira de Carvalho 26 November 1996 (has links)
Neste trabalho foi desenvolvido um novo instrumento para monitoramento computadorizado da curvatura da região central anterior da córnea humana durante cirurgias refrativas. Através da projeção de um anel iluminado na córnea, imagens dos reflexos são digitalizadas e processadas. Algoritmos baseados em técnicas de visão computacional e geometria óptica determinam a curvatura da região central (4mm), com alta precisão e desempenho. Mapas coloridos com códigos de cor em dioptrias (proporcionais ao inverso do raio da curvatura) são gerados para auxiliar o oftalmologista cirurgião no diagnóstico. / We have developed a new instrument for computer-aided monitoring of the central region of the anterior portion of the human cornea during refractive surgeries. By projecting a circular iluminated object on the cornea, reflected images are captured by a CCD, digitezed and processed. Algorithms based on computer vision technics and optical geometry compute the curvature of a 3 to 4 mm region, with righ precision and performance. Color-coded maps based on diopters (proportional to the inverse of the radius of curvature) are generated for ease of diagnose.
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Analysis and correction of corneal astigmatism in modern pseudophakiaHamer, Catriona Ann January 2016 (has links)
Toric intraocular lenses (IOLs) are designed to reduce spectacle dependency by correcting corneal astigmatism at the time of surgery. However, these IOLs are reliant on the accurate prediction of post-operative corneal astigmatism through reliable ocular biometry and the accurate calculation of surgically induced astigmatism. In the thesis the repeatability of assessing corneal curvature was assessed using six commercially available keratometers. The results question the validity of corneal biometry and infer that much of the apparent change in corneal shape usually associated with surgically induced astigmatism may be due to measurement error. The use of the oblique cross cylinder formulae for the calculation of post-operative corneal curvature was also investigated. This formula is incorporated into all commercially available toric IOL calculators and is utilised in every toric IOL implantation. The results from this thesis indicate that the formula is not applicable to the human cornea and that the use of the calculator does not increase the effectivity of the toric correction. Furthermore, the thesis queries the assumption that post-operative corneal astigmatism is directly proportional to post-operative refractive error. The disparity between both the magnitude and axis of astigmatism measured by keratometry and manifest refraction in a pseudophakic population was investigated. The axis measurements in particular showed very poor agreement; far outside an acceptable level of misalignment, significantly decreasing the effective correction provided if the lens was aligned with the keratometry readings. Inclusion of the posterior corneal curvature and thickness, along with a smaller chord length may lead to a more accurate assessment of corneal power. Despite the difficulty in providing an effective toric IOL correction, it was found that the correction of corneal astigmatism at the time of cataract surgery might decrease the risks of falls. Uncorrected astigmatism and cataract both cause a reduction in stability when stepping oven an obstacle, which is one of the most common causes of trips and falls in the elderly population.
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Mean curvature mapping: application in laser refractive surgeryTang, Maolong 12 October 2004 (has links)
No description available.
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Mode Matching sensing in Frequency Dependent Squeezing Source for Advanced Virgo plusGrimaldi, Andrea 07 February 2023 (has links)
Since the first detection of a Gravitational Wave, the LIGO-Virgo Collaboration has worked to improve the sensitivity of their detectors. This continuous effort paid off in the last scientific run, in which the collaboration detected an average of one gravitational wave per week and collected 74 candidates in less than one year. This result was also possible due to the Frequency Independent Squeezing (FIS) implementation, which improved the Virgo detection range for the coalescence between two Binary Neutron Start (BNS) of 5-8\%. However, this incredible result was dramatically limited by different technical issues, among which the most dangerous was the mismatch between the squeezed vacuum beam and the resonance mode of the cavities. The mismatch can be modelled as a simple optical loss in the first approximation. If the beam shape of squeezed vacuum does not match the resonance mode, part of its amplitude is lost and replaced with the incoherent vacuum. However, this modelisation is valid only in simple setups, e.g. if we study the effect inside a single resonance cavity or the transmission of a mode cleaner. In the case of a more complicated system, such as a gravitational wave interferometer, the squeezed vacuum amplitude rejected by the mismatch still travels inside the optical setup. This component accumulates an extra defined by the characteristics of the mismatch, and it can recouple into the main beam reducing the effect of the quantum noise reduction technique.
This issue will become more critical in the implementation of the Frequency Dependent Squeezing. This technique is an upgrade of the Frequency Independent Squeezing one. The new setup will increase the complexity of the squeezed beam path. The characterisation of this degradation mechanism requires a dedicated wavefront sensing technique. In fact, the simpler approach based on studying the resonance peak of the cavity is not enough. This method can only estimate the total amount of the optical loss generated by the mismatch, but it cannot characterise the phase shift generated by the decoupling. Without this information is impossible to estimate how the mismatched squeezed vacuum is recoupled into the main beam, and this limits the possibility to foreseen the degradation of the Quantum Noise Reduction technique. For this reason, the Padova-Trento Group studied different techniques for characterising Mode Matching. In particular, we proposed implementing the Mode Converter technique developed by Syracuse University. This technique can fully characterise the mismatch of a spherical beam, and it can be the first approach to monitoring the mismatch. However, this method is not enough for the Frequency Dependent Squeezer source since it cannot detect the mismatch generated by the astigmatism of the incoming beam. In fact, the Frequency Dependent Squeezer Source case uses off-axis reflective telescopes to reduce the power losses generated by transmissive optics. This setup used curved mirrors that induce small astigmatic aberrations as a function of the beam incident angle. These aberrations are present by design, and the standard Mode Converter Technique will not detect them. To overcome this issue, I proposed an upgrade of the Mode Converter technique, which can extend the detection to this kind of aberration.
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Visual Optics: AstigmatismCox, Michael J. January 2010 (has links)
No
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Dizziness, but not falls rate, improves after routine cataract surgery: the role of refractive and spectacle changesSupuk, Elvira, Alderson, Alison J., Davey, Christopher J., Green, Clare, Litvin, Norman, Scally, Andy J., Elliott, David 09 November 2015 (has links)
Yes / Purpose
To determine whether dizziness and falls rates change due to routine cataract surgery and to determine the influence of spectacle type and refractive factors.
Methods
Self-reported dizziness and falls were determined in 287 patients (mean age of 76.5 ± 6.3 years, 55% females) before and after routine cataract surgery for the first (81, 28%), second (109, 38%) and both eyes (97, 34%). Dizziness was determined using the short-form of the Dizziness Handicap Inventory. Six-month falls rates were determined using self-reported retrospective data.
Results
The number of patients with dizziness reduced significantly after cataract surgery (52% vs 38%; χ2 = 19.14, p < 0.001), but the reduction in the number of patients who fell in the 6-months post surgery was not significant (23% vs 20%; χ2 = 0.87, p = 0.35). Dizziness improved after first eye surgery (49% vs 33%, p = 0.01) and surgery on both eyes (58% vs 35%, p < 0.001), but not after second eye surgery (52% vs 45%, p = 0.68). Multivariate logistic regression analyses found significant links between post-operative falls and change in spectacle type (increased risk if switched into multifocal spectacles). Post-operative dizziness was associated with changes in best eye visual acuity and changes in oblique astigmatic correction.
Conclusions
Dizziness is significantly reduced by first (or both) eye cataract surgery and this is linked with improvements in best eye visual acuity, although changes in oblique astigmatic correction increased dizziness. The lack of improvement in falls rate may be associated with switching into multifocal spectacle wear after surgery. / This work was supported by The Dunhill Medical Trust(grant number SA14/0711).
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