Your search keyword '"Fabrice Manns"' showing total 4 results

1. Magnifications of single and dual element accommodative intraocular lenses: paraxial optics analysis

Author

Fabrice Manns, Arthur Ho, and Jit B. Ale

Subjects

Physics, Refractive error, business.industry, medicine.medical_treatment, Aniseikonia, Magnification, Intraocular lens, medicine.disease, Sensory Systems, Amplitude of accommodation, law.invention, Lens (optics), Ophthalmology, Optics, law, medicine, Optometry, business, Accommodation, Dioptre

Abstract

Purpose: Using an analytical approach of paraxial optics, we evaluated the magnification of a model eye implanted with single-element (1E) and dual-element (2E) translating-optics accommodative intraocular lenses (AIOL) with an objective of understanding key control parameters relevant to their design. Potential clinical implications of the results arising from pseudophakic accommodation were also considered. Methods: Lateral and angular magnifications in a pseudophakic model eye were analyzed using the matrix method of paraxial optics. The effects of key control parameters such as direction (forward or backward) and distance (0 to 2 mm) of translation, power combinations of the 2E-AIOL elements (front element power range +20.0 D to +40.0 D), and amplitudes of accommodation (0 to 4 D) were tested. Relative magnification, defined as the ratio of the retinal image size of the accommodated eye to that of unaccommodated phakic (rLM1) or pseudophakic (rLM2) model eyes, was computed to determine how retinal image size changes with pseudophakic accommodation. Results: Both lateral and angular magnifications increased with increased power of the front element in 2E-AIOL and amplitude of accommodation. For a 2E-AIOL with front element power of +35 D, rLM1 and rLM2 increased by 17.0% and 16.3%, respectively, per millimetre of forward translation of the element, compared to the magnification at distance focus (unaccommodated). These changes correspond to a change of 9.4% and 6.5% per dioptre of accommodation, respectively. Angular magnification also increased with pseudophakic accommodation. 1E-AIOLs produced consistently less magnification than 2E-AIOLs. Relative retinal image size decreased at a rate of 0.25% with each dioptre of accommodation in the phakic model eye. The position of the image space nodal point shifted away from the retina (towards the cornea) with both phakic and pseudophakic accommodation. Conclusion: Power of the mobile element, and amount and direction of the translation (or the achieved accommodative amplitude) are important parameters in determining the magnifications of the AIOLs. The results highlight the need for caution in the prescribing of AIOL. Aniso-accommodation or interocular differences in AIOL designs (or relative to the natural lens of the contralateral eye) may introduce dynamic aniseikonia and consequent impaired binocular vision. Nevertheless, some designs, offering greater increases in magnification on accommodation, may provide enhanced near vision depending on patient needs.

Published

2010

2. Development of stereotactically guided laser interstitial thermotherapy of breast cancer: In situ measurement and analysis of the temperature field in ex vivo and in vivo adipose tissue

Author

Xochitl Gonzalez-Cirre, David B. Denham, Jean-Marie A. Parel, David S. Robinson, Peter J. Milne, and Fabrice Manns

Subjects

Pathology, medicine.medical_specialty, Optical fiber, Materials science, medicine.diagnostic_test, Dermatology, Laser, law.invention, law, In vivo, Nd:YAG laser, Biopsy, medicine, Mammography, Surgery, Irradiation, Ex vivo, Biomedical engineering

Abstract

Background and Objective The size (0.5–1.0 cm) of early nonpalpable breast tumors currently detected by mammography and confirmed by stereotactic core biopsy is of the order of the penetration depth of near infrared photons in breast tissue. In principle, stereotactically biopsied tumors, therefore, could be safely and efficiently treated with laser thermotherapy. The aim of the current study is to confirm the controlled heating produced by clinically relevant power levels delivered with an interstitial laser fiber optic probe adapted for use with stereotactic mammography and biopsy procedures. Study Design/Materials and Methods Temperature increases and the resultant thermal field produced by the irradiation of ex vivo (porcine and human) and in vivo (porcine) tissue models appropriate to the treatment of human breast tissue by using cw Nd:YAG laser radiation delivered with a interstitial fiber optic probe with a quartz diffusing tip, were recorded with an array of fifteen 23-gauge needle thermocouple probes connected to a laboratory computer-based data acquisition system. Results By using a stepwise decreasing power cycle to avoid tissue charring, acceptably symmetric thermal fields of repeatable volumetric dimensions were obtained. Reproducible thermal gradients and predictable tissue necrosis without carbonization could be induced in a 3-cm-diameter region around the fiber probe during a single treatment lasting only 3 minutes. The time-dependences of the temperature rise of the thermocouples surrounding the LITT probe were quantitatively modeled with simple linear functions during the applied laser heating cycles. Conclusion Analysis of our experimental results show that reproducible, symmetric and predictable volumetric temperature increases in time can be reliably produced by interstitial laser thermotherapy. Lasers Surg. Med. 26:67–75, 2000. © 2000 Wiley-Liss, Inc.

Published

2000

3. In Situ temperature measurements with thermocouple probes during laser interstitial thermotherapy (LITT): Quantification and correction of a measurement artifact

Author

David B. Denham, Jean-Marie A. Parel, David S. Robinson, Peter J. Milne, Xochitl Gonzalez-Cirre, and Fabrice Manns

Subjects

Artifact (error), Materials science, business.industry, Time constant, Dermatology, Radiation, Laser, Temperature measurement, law.invention, Optics, law, Thermocouple, Surgery, Irradiation, Absorption (electromagnetic radiation), business

Abstract

Background and Objective: The purpose of this work was to quantify the magnitude of an artifact induced by stainless steel thermocouple probes in temperature measurements made in situ during experimental laser interstitial thermo-therapy (LITT). A procedure for correction of this observational error is outlined. Study Design/Materials and Methods: A CW Nd:YAG laser system emitting 20W for 25–30 s delivered through a fiber-optic probe was used to create localized heating. The temperature field around the fiber-optic probe during laser irradiation was measured every 0.3 s in air, water, 0.4% intralipid solution, and fatty cadaver pig tissue, with a field of up to fifteen needle thermocouple probes. Results Direct absorption of Nd:YAG laser radiation by the thermocouple probes induced an overestimation of the temperature, ranging from 1.8°C to 118.6°C in air, 2.2°C to 9.9°C in water, 0.7°C to 4.7°C in intralipid and 0.3°C to 17.9°C in porcine tissue after irradiation at 20W for 30 s and depending on the thermocouple location. The artifact in porcine tissue was removed by applying exponential and linear fits to the measured temperature curves. Conclusion Light absorption by thermocouple probes can induce a significant artifact in the measurement of laser-induced temperature increases. When the time constant of the thermocouple effect is much smaller than the thermal relaxation time of the surrounding tissue, the artifact can be accurately quantified. During LITT experiments where temperature differences of a few degrees are significant, the thermocouple artifact must be removed in order to be able accurately to predict the treatment outcome. Lasers Surg. Med. 23:94–103, 1998. © 1998 Wiley-Liss, Inc.

Published

1998

4. Ablation rate of PMMA and human cornea with a frequency-quintupled Nd:YAG laser (213 nm)

Author

Qiushi Ren, Jin H. Shen, Per G. Söderberg, Franz Fankhauser, David B. Denham, Fabrice Manns, Karen M. Joos, and Jean-Marie A. Parel

Subjects

Materials science, Excimer laser, business.industry, medicine.medical_treatment, Perforation (oil well), technology, industry, and agriculture, macromolecular substances, Dermatology, equipment and supplies, Ablation, Laser, eye diseases, Photorefractive keratectomy, law.invention, Optics, medicine.anatomical_structure, law, Solid-state laser, Nd:YAG laser, Cornea, medicine, Surgery, sense organs, business

Abstract

Background and Objective As an alternative to the standard excimer laser used for PRK, we investigated the ablation rate at 213 nm of PMMA, and human corneas under controlled hydration. Study Design/Materials and Methods The output of a frequency-quintupled Nd:YAG laser (213 nm) was transformed into a quasi-Gaussian beam. PMMA and corneal lenticules maintained under controlled hydration were ablated until perforation was detected. Results The ablation rate of PMMA and cornea at 213 nm were similar to that at 193 nm when radiant exposure was below 200 mJ/cm2 and increased gradually between one and two times faster than that at 193 nm when radiant exposure was > 200 mJ/cm2. Conclusions PMMA and cornea ablation at 213 nm are similar to that at 193 nm and are different from that at 248 nm. The difference between PMMA and cornea ablation rates should be considered when using PMMA to test ablated diopter and smoothness for photorefractive surgery. Lasers Surg. Med. 21:179–185, 1997. © 1997 Wiley-Liss, Inc.

Published

1997