Your search keyword '"Melles G"' showing total 6 results

1. Two cases of bilateral, stromal ring opacity of the cornea.

Author

Caroline PJ and Melles GR

Subjects

Adult, Aged, Female, Humans, Male, Visual Acuity, Corneal Opacity diagnosis, Corneal Stroma pathology

Published

2001

2. A quick surgical technique for deep, anterior lamellar keratoplasty using visco-dissection.

Author

Melles GR, Remeijer L, Geerards AJ, and Beekhuis WH

Subjects

Adult, Corneal Dystrophies, Hereditary pathology, Descemet Membrane injuries, Descemet Membrane surgery, Eye Banks, Female, Humans, Intraoperative Complications prevention & control, Keratoconus pathology, Keratoplasty, Penetrating, Male, Middle Aged, Rupture prevention & control, Tissue Donors, Visual Acuity, Corneal Dystrophies, Hereditary surgery, Corneal Stroma transplantation, Corneal Transplantation methods, Keratoconus surgery

Abstract

Purpose: To describe a new surgical technique for deep, anterior lamellar keratoplasty using a viscoelastic for dissection of Descemet's membrane (DM) from the posterior stroma., Methods: Through a paracentesis, aqueous was exchanged by air to visualize the posterior corneal surface-i.e., the air-to-endothelium interface. Using the interface as a reference plane, a 30 gauge needle was inserted into the cornea to just anterior to DM. Viscoelastic was injected to separate DM from the posterior stroma, and a recipient, anterior lamella was excised. A full-thickness donor button was sutured into the recipient bed, after stripping its DM., Results: In 25 eye bank eyes, the procedure could be completed in 20 eyes; in 5 eyes, DM ruptured during visco-dissection. With light microscopy, dissection depth was located at the level of DM. In two patient eyes the procedure could be completed. In a third patient eye DM ruptured during visco-dissection, and the procedure was converted into a penetrating keratoplasty., Conclusion: Using visco-dissection, a lamellar keratoplasty can be performed quickly, with the donor-to-recipient interface just above the recipient DM, i.e., with a nearly perfect anatomical replacement of all corneal stroma. There is substantial risk of rupture or microperforation of DM during surgery.

Published

2000

3. A technique to visualize corneal incision and lamellar dissection depth during surgery.

Author

Melles GR, Rietveld FJ, Beekhuis WH, and Binder PS

Subjects

Air, Animals, Anterior Chamber anatomy & histology, In Vitro Techniques, Swine, Cornea anatomy & histology, Cornea surgery, Keratotomy, Radial methods, Sutures

Abstract

Purpose: To describe a surgical technique to visualize the depth of corneal incisions and lamellar stromal dissections during surgery., Methods: In porcine cadaver eyes, the aqueous was exchanged by air. Thus an air-to-endothelium interface (i.e., a useful optical surface) was created at the posterior corneal surface. The air-to-endothelium interface was used as a reference plane to visualize the corneal thickness and the relative depth of corneal incisions and dissections. Freehand peripheral corneal incisions, tangential keratotomy incisions, and lamellar stromal dissections were made at an intended corneal depth of 60, 80, and 99%. Light microscopy was used to measure the relative depth of the incisions and dissections., Results: Achieved depth for peripheral corneal incisions averaged 65.2+/-5.3%, 78.8+/-5.1%, and 93.4+/-6.0%, respectively (p<0.05); and for tangential keratotomy incisions, 68.2+/-7.3%, 83.2+/-4.4%, and 95.8+/-3.6%, respectively (p<0.05). Achieved depth for lamellar stromal dissections averaged 58.3+/-9.4%, 81.1+/-3.4%, and 94.4+/-1.5%, respectively (p<0.05). Microperforations occurred with three incisions made at 99% intended depth., Conclusion: During surgery, the depth of incisions and lamellar dissections relative to the corneal thickness can be visualized by filling the anterior chamber with air (i.e., by creating an optical interface at the posterior corneal surface).

Published

1999

4. A surgical technique for posterior lamellar keratoplasty.

Author

Melles GR, Eggink FA, Lander F, Pels E, Rietveld FJ, Beekhuis WH, and Binder PS

Subjects

Animals, Astigmatism etiology, Astigmatism pathology, Cadaver, Cats, Cornea cytology, Corneal Transplantation adverse effects, Feasibility Studies, Follow-Up Studies, Graft Rejection etiology, Graft Rejection pathology, Haplorhini, Humans, Postoperative Complications etiology, Postoperative Complications pathology, Tissue Donors, Wound Healing, Cornea surgery, Corneal Transplantation methods

Abstract

Purpose: To design a surgical technique for transplantation of posterior corneal tissue, while leaving the recipient anterior cornea intact., Methods: In human cadaver eyes, and in a cat and monkey model, recipient eyes had an 8.0-mm limbal incision made with a diamond blade set to 50% of central pachymetry. A stromal pocket was created across the cornea, and a 6.0-mm diameter posterior lamellar disc was excised. A donor posterior disc was implanted into the recipient opening, and the limbal incision was sutured. The procedure was evaluated with keratometry, biomicroscopy, endothelial (supra)vital staining, and light microscopy., Results: In human cadaver eyes, post-operative astigmatism averaged 1.2 D (SD, +/- 0.6 D). Posterior transplants showed an intact endothelial cell layer with 1.0% (SD, +/- 1.2%) of cell death. In the animals, six (75%) eyes had clear transplants 2 weeks after surgery; one of these eyes later developed an allograft rejection. Two (25%) eyes showed corneal decompensation, because of inverted implantation of the donor disc. Microscopy showed minimal scarring at the donor-to-host interface and a normal wound-healing response at the posterior stromal wound edges., Conclusion: In experimental models, posterior lamellar keratoplasty can be performed through a limbal incision and a mid-stromal pocket. The procedure may be a potential alternative in the surgical management of corneal endothelial disorders.

Published

1998

5. Depth predictability of stromal pockets in the posterior cornea.

Author

Melles GR, ten Hoope GW, Rietveld FJ, Beekhuis WH, and Binder PS

Subjects

Corneal Stroma pathology, Humans, Corneal Stroma surgery, Ophthalmologic Surgical Procedures, Suture Techniques

Abstract

Purpose: To evaluate the predictability of the depth of stromal pockets made in the posterior cornea for the excision of anterior or posterior lamellar corneal buttons with a planned thickness., Methods: Stromal corneal pocket dissections were created in human eye bank eyes by making a peripheral arcuate keratotomy incision at 60, 80, or 95% of central pachymetry and creating a pocket from the bottom of the incision across the cornea. Pocket depth was measured by pachymetry immediately after surgery and by light microscopy., Results: Mean achieved central pocket depth differed by 0.03+/-0.03 mm from the intended depth. Variation in depth across the pocket decreased from 0.07+/-0.02 mm for pockets made at 60% of the intended depth to 0.05+/-0.01 mm for pockets made at 80% depth, and 0.04+/-0.02 mm for pockets made at 95% depth (p < 0.01). Pachymetric and histological measurements of relative pocket depth averaged 64+/-9% and 73+/-7%, respectively, for pockets made at 60% of the intended depth, 82+/-7% and 86+/-3% for pockets made at 80% depth, and 91+/-7% and 92+/-3% for pockets made at 95% depth. The difference between pachymetric and histological relative pocket depth measurements decreased with deeper pocket depth (p < 0.01)., Conclusions: In the posterior cornea, stromal pockets can be created to within 30 microm from the intended depth. Variation in depth throughout the pocket decreases with deeper pocket depth. Pachymetry is a reliable method to check the achieved pocket depth during surgery; the accuracy of pachymetry readings improves with deeper pocket depth.

Published

1998

6. Effect of blade configuration, knife action, and intraocular pressure on keratotomy incision depth and shape.

Author

Melles GR, Wijdh RH, Cost B, Beekhuis WH, Binder PS, van Rij G, and Groot K

Subjects

Aged, Aged, 80 and over, Humans, Keratotomy, Radial instrumentation, Middle Aged, Myopia surgery, Ophthalmology instrumentation, Surgical Instruments, Cornea pathology, Intraocular Pressure, Keratotomy, Radial methods

Abstract

For the same diamond blade extension, uphill (centripetal) radial keratotomy incision direction achieves greater depth and consequently greater refractive effect than downhill (centrifugal) incisions. To determine which factors may account for this difference, two uphill and two downhill incisions were made with a double-edged diamond blade set to 90% central pachometry in 26 human donor eyes at 15 or 60 mm Hg. Uphill incisions made with the perpendicular blade had greater mean incision depth than downhill incisions made with the oblique blade at 15 mm Hg (83.6 +/- 3.9% and 68.2 +/- 5.2%) (p < 0.0005) and at 60 mm Hg (86.3 +/- 3.1% and 79.7 +/- 1.7%) (p < 0.0005). Uphill and downhill incisions both made with the perpendicular blade had equal depth (85.4 +/- 4.9% and 83.7 +/- 3.5%) (p > 0.1). The perpendicular blade edge created a straight, and the oblique edge an S- or J-shaped, histological incision configuration. Corneal profile pictures taken during each incision showed the knife to tilt opposite of the incision direction and to move at a constant angle to the limbal plane, producing a smaller optical clear zone (OCZ) in the posterior stroma than intended with uphill incisions. Greater refractive effect with uphill incisions may be explained by the perpendicular blade being more effective in incising corneal lamellae, and the creation of a smaller posterior OCZ. Intraocular pressure variations during surgery may affect achieved incision depth of downhill, but not of uphill, incisions.

Published

1993