Single-Pass Dissection of Ultrathin Organ-Cultured Endothelial Lamellae Using an Innovative Microkeratome System

Mor M. Dickman; P.J. Kruit; Frank J. H. M. van den Biggelaar; T.T.J.M. Berendschot; R.M. Nuijts

doi:10.1097/ico.0000000000000678

Single-Pass Dissection of Ultrathin Organ-Cultured Endothelial Lamellae Using an Innovative Microkeratome System

Mor M. Dickman^*, P.J. Kruit, Frank J. H. M. van den Biggelaar, T.T.J.M. Berendschot, R.M. Nuijts

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

PURPOSE: To determine the feasibility, dissection accuracy, and endothelial viability of ultrathin endothelial lamellae harvested from organ-cultured corneas using a single-pass with an innovative motor-driven linear microkeratome system. METHODS: Forty-eight (n = 48) paired organ-cultured human corneas were randomly assigned to dissection (study eyes, n = 24) with fellow eyes serving as the control (fellow eyes, n = 24). After organ culture and deswelling in a medium containing 6% dextran, endothelial lamellae with a target thickness </=100 mum were dissected using a motor-driven linear microkeratome system (SLc, Gebauer, Neuhausen, Germany) equipped with 400-mum (n = 4), 450-mum (n = 10), 500-mum (n = 5), or 550-mum (n = 5) heads. Central corneal thickness (CCT) and posterior and anterior lamellar thicknesses were measured using ultrasound pachymetry (Pachette 3; DGH Technology Inc, PA) and anterior segment optical coherence tomography (Casia SS-1000; Tomey, Nagoya, Japan). Endothelial viability [endothelial cell density (ECD)] was measured using trypan vital staining. RESULTS: CCT measured 595 +/- 66 mum (n = 48) on arrival, 846 +/- 131 mum (n = 48) after organ culture, and 565 +/- 58 mum (n = 48) after deturgescence. CCT did not differ between study and control eyes. Posterior lamellar thickness measured 88 +/- 18 mum (n = 24) immediately after dissection, 126 +/- 30 mum (n = 24) 1 hour after dissection, and 131 +/- 41 mum (n = 24) 2.3 +/- 0.6 days after dissection. ECD measured 2637 +/- 264 cells per square millimeter (n = 48) on arrival, 2524 +/- 232 cells per square millimeter (n = 48) after organ culture, 2493 +/- 253 cells per square millimeter (n = 48) after dissection, and 2311 +/- 218 cells per square millimeter (n = 48) 2.3 +/- 0.6 days after dissection. ECD did not differ between study and control eyes at all time points. CONCLUSIONS: Single-pass motor-driven linear microkeratome dissection provides an accurate and safe alternative for harvesting ultrathin endothelial lamellae from organ-cultured donor corneas.

Original language	English
Pages (from-to)	100-104
Number of pages	5
Journal	Cornea
Volume	35
Issue number	1
DOIs	https://doi.org/10.1097/ico.0000000000000678
Publication status	Published - 1 Jan 2016

Keywords

PRECUT TISSUE
CORNEAL ENDOTHELIUM
DONOR TISSUE
KERATOPLASTY
GRAFTS
PRESERVATION
THICKNESS

Access to Document

10.1097/ico.0000000000000678

Cite this

@article{39eb617a0ecf4be494f513fd5e1cf931,

title = "Single-Pass Dissection of Ultrathin Organ-Cultured Endothelial Lamellae Using an Innovative Microkeratome System",

abstract = "PURPOSE: To determine the feasibility, dissection accuracy, and endothelial viability of ultrathin endothelial lamellae harvested from organ-cultured corneas using a single-pass with an innovative motor-driven linear microkeratome system. METHODS: Forty-eight (n = 48) paired organ-cultured human corneas were randomly assigned to dissection (study eyes, n = 24) with fellow eyes serving as the control (fellow eyes, n = 24). After organ culture and deswelling in a medium containing 6% dextran, endothelial lamellae with a target thickness </=100 mum were dissected using a motor-driven linear microkeratome system (SLc, Gebauer, Neuhausen, Germany) equipped with 400-mum (n = 4), 450-mum (n = 10), 500-mum (n = 5), or 550-mum (n = 5) heads. Central corneal thickness (CCT) and posterior and anterior lamellar thicknesses were measured using ultrasound pachymetry (Pachette 3; DGH Technology Inc, PA) and anterior segment optical coherence tomography (Casia SS-1000; Tomey, Nagoya, Japan). Endothelial viability [endothelial cell density (ECD)] was measured using trypan vital staining. RESULTS: CCT measured 595 +/- 66 mum (n = 48) on arrival, 846 +/- 131 mum (n = 48) after organ culture, and 565 +/- 58 mum (n = 48) after deturgescence. CCT did not differ between study and control eyes. Posterior lamellar thickness measured 88 +/- 18 mum (n = 24) immediately after dissection, 126 +/- 30 mum (n = 24) 1 hour after dissection, and 131 +/- 41 mum (n = 24) 2.3 +/- 0.6 days after dissection. ECD measured 2637 +/- 264 cells per square millimeter (n = 48) on arrival, 2524 +/- 232 cells per square millimeter (n = 48) after organ culture, 2493 +/- 253 cells per square millimeter (n = 48) after dissection, and 2311 +/- 218 cells per square millimeter (n = 48) 2.3 +/- 0.6 days after dissection. ECD did not differ between study and control eyes at all time points. CONCLUSIONS: Single-pass motor-driven linear microkeratome dissection provides an accurate and safe alternative for harvesting ultrathin endothelial lamellae from organ-cultured donor corneas.",

keywords = "PRECUT TISSUE, CORNEAL ENDOTHELIUM, DONOR TISSUE, KERATOPLASTY, GRAFTS, PRESERVATION, THICKNESS",

author = "Dickman, {Mor M.} and P.J. Kruit and {van den Biggelaar}, {Frank J. H. M.} and T.T.J.M. Berendschot and R.M. Nuijts",

year = "2016",

month = jan,

day = "1",

doi = "10.1097/ico.0000000000000678",

language = "English",

volume = "35",

pages = "100--104",

journal = "Cornea",

issn = "0277-3740",

publisher = "LIPPINCOTT WILLIAMS & WILKINS",

number = "1",

}

TY - JOUR

T1 - Single-Pass Dissection of Ultrathin Organ-Cultured Endothelial Lamellae Using an Innovative Microkeratome System

AU - Dickman, Mor M.

AU - Kruit, P.J.

AU - van den Biggelaar, Frank J. H. M.

AU - Berendschot, T.T.J.M.

AU - Nuijts, R.M.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - PURPOSE: To determine the feasibility, dissection accuracy, and endothelial viability of ultrathin endothelial lamellae harvested from organ-cultured corneas using a single-pass with an innovative motor-driven linear microkeratome system. METHODS: Forty-eight (n = 48) paired organ-cultured human corneas were randomly assigned to dissection (study eyes, n = 24) with fellow eyes serving as the control (fellow eyes, n = 24). After organ culture and deswelling in a medium containing 6% dextran, endothelial lamellae with a target thickness </=100 mum were dissected using a motor-driven linear microkeratome system (SLc, Gebauer, Neuhausen, Germany) equipped with 400-mum (n = 4), 450-mum (n = 10), 500-mum (n = 5), or 550-mum (n = 5) heads. Central corneal thickness (CCT) and posterior and anterior lamellar thicknesses were measured using ultrasound pachymetry (Pachette 3; DGH Technology Inc, PA) and anterior segment optical coherence tomography (Casia SS-1000; Tomey, Nagoya, Japan). Endothelial viability [endothelial cell density (ECD)] was measured using trypan vital staining. RESULTS: CCT measured 595 +/- 66 mum (n = 48) on arrival, 846 +/- 131 mum (n = 48) after organ culture, and 565 +/- 58 mum (n = 48) after deturgescence. CCT did not differ between study and control eyes. Posterior lamellar thickness measured 88 +/- 18 mum (n = 24) immediately after dissection, 126 +/- 30 mum (n = 24) 1 hour after dissection, and 131 +/- 41 mum (n = 24) 2.3 +/- 0.6 days after dissection. ECD measured 2637 +/- 264 cells per square millimeter (n = 48) on arrival, 2524 +/- 232 cells per square millimeter (n = 48) after organ culture, 2493 +/- 253 cells per square millimeter (n = 48) after dissection, and 2311 +/- 218 cells per square millimeter (n = 48) 2.3 +/- 0.6 days after dissection. ECD did not differ between study and control eyes at all time points. CONCLUSIONS: Single-pass motor-driven linear microkeratome dissection provides an accurate and safe alternative for harvesting ultrathin endothelial lamellae from organ-cultured donor corneas.

AB - PURPOSE: To determine the feasibility, dissection accuracy, and endothelial viability of ultrathin endothelial lamellae harvested from organ-cultured corneas using a single-pass with an innovative motor-driven linear microkeratome system. METHODS: Forty-eight (n = 48) paired organ-cultured human corneas were randomly assigned to dissection (study eyes, n = 24) with fellow eyes serving as the control (fellow eyes, n = 24). After organ culture and deswelling in a medium containing 6% dextran, endothelial lamellae with a target thickness </=100 mum were dissected using a motor-driven linear microkeratome system (SLc, Gebauer, Neuhausen, Germany) equipped with 400-mum (n = 4), 450-mum (n = 10), 500-mum (n = 5), or 550-mum (n = 5) heads. Central corneal thickness (CCT) and posterior and anterior lamellar thicknesses were measured using ultrasound pachymetry (Pachette 3; DGH Technology Inc, PA) and anterior segment optical coherence tomography (Casia SS-1000; Tomey, Nagoya, Japan). Endothelial viability [endothelial cell density (ECD)] was measured using trypan vital staining. RESULTS: CCT measured 595 +/- 66 mum (n = 48) on arrival, 846 +/- 131 mum (n = 48) after organ culture, and 565 +/- 58 mum (n = 48) after deturgescence. CCT did not differ between study and control eyes. Posterior lamellar thickness measured 88 +/- 18 mum (n = 24) immediately after dissection, 126 +/- 30 mum (n = 24) 1 hour after dissection, and 131 +/- 41 mum (n = 24) 2.3 +/- 0.6 days after dissection. ECD measured 2637 +/- 264 cells per square millimeter (n = 48) on arrival, 2524 +/- 232 cells per square millimeter (n = 48) after organ culture, 2493 +/- 253 cells per square millimeter (n = 48) after dissection, and 2311 +/- 218 cells per square millimeter (n = 48) 2.3 +/- 0.6 days after dissection. ECD did not differ between study and control eyes at all time points. CONCLUSIONS: Single-pass motor-driven linear microkeratome dissection provides an accurate and safe alternative for harvesting ultrathin endothelial lamellae from organ-cultured donor corneas.

KW - PRECUT TISSUE

KW - CORNEAL ENDOTHELIUM

KW - DONOR TISSUE

KW - KERATOPLASTY

KW - GRAFTS

KW - PRESERVATION

KW - THICKNESS

U2 - 10.1097/ico.0000000000000678

DO - 10.1097/ico.0000000000000678

M3 - Article

SN - 0277-3740

VL - 35

SP - 100

EP - 104

JO - Cornea

JF - Cornea

IS - 1

ER -