Kilovoltage stereotactic radiosurgery for age-related macular degeneration: Assessment of optic nerve dose and patient effective dose

Justin Hanlon; Choonsik Lee; Erik Chell; Michael Gertner; Steven Hansen; Roger W. Howell; Wesley E. Bolch

doi:10.1118/1.3168554

Kilovoltage stereotactic radiosurgery for age-related macular degeneration: Assessment of optic nerve dose and patient effective dose

Justin Hanlon, Choonsik Lee, Erik Chell, Michael Gertner, Steven Hansen, Roger W. Howell, Wesley E. Bolch

New Jersey Medical School (NJMS), Radiology

Rutgers, The State University

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

36 Scopus citations

Abstract

Age-related macular degeneration (AMD) is a leading cause for vision loss for people over the age of 65 in the United States and a major health problem worldwide. Research for new treatments of the wet form of the disease using kilovoltage stereotactic radiosurgery is currently underway at Oraya Therapeutics, Inc. In the present study, the authors extend their previous computational stylized model of a single treated eye [Med. Phys. 35, 51515160 (2008)] to include full NURBS-based reference head phantoms of the adult male and female using anatomical data from ICRP Publication 89. The treatment was subsequently modeled in MCNPX 2.5 using a 1×1×1 mm³ voxelized version of the NURBS models. These models incorporated several organs of interest including the brain, thyroid, salivary glands, cranium, mandible, and cervical vertebrae. A higher resolution eye section at 0.5×0. 5×0.5 mm³ voxel resolution was extracted from the head phantoms to model smaller eye structures including the macula target, cornea, lens, vitreous humor, sclera/retina layer, and optic nerve. Due to lack of literature data on optic nerve pathways, a CT imaging study was undertaken to quantify the anatomical position of the optic nerve. The average absorbed doses to the organs of interest were below generally accepted thresholds for radiation safety. The estimated effective dose was 0.28 mSv which is comparable to diagnostic procedures such as a head radiograph and a factor of 10 lower than a head CT scan.

Original language	American English
Pages (from-to)	3671-3681
Number of pages	11
Journal	Medical Physics
Volume	36
Issue number	8
DOIs	https://doi.org/10.1118/1.3168554
State	Published - 2009

ASJC Scopus subject areas

Biophysics
Radiology Nuclear Medicine and imaging

Keywords

Age-related macular degeneration
Dose volume histogram
Effective dose
Eye model
Head model
Monte Carlo method
Optic nerve quantification
Stereotactic radiosurgery

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10.1118/1.3168554

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@article{2f58ef3f6a3047d4b3428f5b21473676,

title = "Kilovoltage stereotactic radiosurgery for age-related macular degeneration: Assessment of optic nerve dose and patient effective dose",

abstract = "Age-related macular degeneration (AMD) is a leading cause for vision loss for people over the age of 65 in the United States and a major health problem worldwide. Research for new treatments of the wet form of the disease using kilovoltage stereotactic radiosurgery is currently underway at Oraya Therapeutics, Inc. In the present study, the authors extend their previous computational stylized model of a single treated eye [Med. Phys. 35, 51515160 (2008)] to include full NURBS-based reference head phantoms of the adult male and female using anatomical data from ICRP Publication 89. The treatment was subsequently modeled in MCNPX 2.5 using a 1×1×1 mm3 voxelized version of the NURBS models. These models incorporated several organs of interest including the brain, thyroid, salivary glands, cranium, mandible, and cervical vertebrae. A higher resolution eye section at 0.5×0. 5×0.5 mm3 voxel resolution was extracted from the head phantoms to model smaller eye structures including the macula target, cornea, lens, vitreous humor, sclera/retina layer, and optic nerve. Due to lack of literature data on optic nerve pathways, a CT imaging study was undertaken to quantify the anatomical position of the optic nerve. The average absorbed doses to the organs of interest were below generally accepted thresholds for radiation safety. The estimated effective dose was 0.28 mSv which is comparable to diagnostic procedures such as a head radiograph and a factor of 10 lower than a head CT scan.",

keywords = "Age-related macular degeneration, Dose volume histogram, Effective dose, Eye model, Head model, Monte Carlo method, Optic nerve quantification, Stereotactic radiosurgery",

author = "Justin Hanlon and Choonsik Lee and Erik Chell and Michael Gertner and Steven Hansen and Howell, {Roger W.} and Bolch, {Wesley E.}",

note = "Funding Information: The authors wish to thank Michael Firpo of Oraya Therapeutics, Inc. for providing valuable comments on the manuscript prior to submission. The authors additionally acknowledge the work of Mark Arnoldussen, Ph.D., for providing imaging data related to the macular offset from the geometric axis. This work was supported by Oraya Therapeutics, Inc.",

year = "2009",

doi = "10.1118/1.3168554",

language = "American English",

volume = "36",

pages = "3671--3681",

journal = "Medical Physics",

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T2 - Assessment of optic nerve dose and patient effective dose

AU - Hanlon, Justin

AU - Lee, Choonsik

AU - Chell, Erik

AU - Gertner, Michael

AU - Hansen, Steven

AU - Howell, Roger W.

AU - Bolch, Wesley E.

N1 - Funding Information: The authors wish to thank Michael Firpo of Oraya Therapeutics, Inc. for providing valuable comments on the manuscript prior to submission. The authors additionally acknowledge the work of Mark Arnoldussen, Ph.D., for providing imaging data related to the macular offset from the geometric axis. This work was supported by Oraya Therapeutics, Inc.

PY - 2009

Y1 - 2009

N2 - Age-related macular degeneration (AMD) is a leading cause for vision loss for people over the age of 65 in the United States and a major health problem worldwide. Research for new treatments of the wet form of the disease using kilovoltage stereotactic radiosurgery is currently underway at Oraya Therapeutics, Inc. In the present study, the authors extend their previous computational stylized model of a single treated eye [Med. Phys. 35, 51515160 (2008)] to include full NURBS-based reference head phantoms of the adult male and female using anatomical data from ICRP Publication 89. The treatment was subsequently modeled in MCNPX 2.5 using a 1×1×1 mm3 voxelized version of the NURBS models. These models incorporated several organs of interest including the brain, thyroid, salivary glands, cranium, mandible, and cervical vertebrae. A higher resolution eye section at 0.5×0. 5×0.5 mm3 voxel resolution was extracted from the head phantoms to model smaller eye structures including the macula target, cornea, lens, vitreous humor, sclera/retina layer, and optic nerve. Due to lack of literature data on optic nerve pathways, a CT imaging study was undertaken to quantify the anatomical position of the optic nerve. The average absorbed doses to the organs of interest were below generally accepted thresholds for radiation safety. The estimated effective dose was 0.28 mSv which is comparable to diagnostic procedures such as a head radiograph and a factor of 10 lower than a head CT scan.

AB - Age-related macular degeneration (AMD) is a leading cause for vision loss for people over the age of 65 in the United States and a major health problem worldwide. Research for new treatments of the wet form of the disease using kilovoltage stereotactic radiosurgery is currently underway at Oraya Therapeutics, Inc. In the present study, the authors extend their previous computational stylized model of a single treated eye [Med. Phys. 35, 51515160 (2008)] to include full NURBS-based reference head phantoms of the adult male and female using anatomical data from ICRP Publication 89. The treatment was subsequently modeled in MCNPX 2.5 using a 1×1×1 mm3 voxelized version of the NURBS models. These models incorporated several organs of interest including the brain, thyroid, salivary glands, cranium, mandible, and cervical vertebrae. A higher resolution eye section at 0.5×0. 5×0.5 mm3 voxel resolution was extracted from the head phantoms to model smaller eye structures including the macula target, cornea, lens, vitreous humor, sclera/retina layer, and optic nerve. Due to lack of literature data on optic nerve pathways, a CT imaging study was undertaken to quantify the anatomical position of the optic nerve. The average absorbed doses to the organs of interest were below generally accepted thresholds for radiation safety. The estimated effective dose was 0.28 mSv which is comparable to diagnostic procedures such as a head radiograph and a factor of 10 lower than a head CT scan.

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KW - Dose volume histogram

KW - Effective dose

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KW - Head model

KW - Monte Carlo method

KW - Optic nerve quantification

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Kilovoltage stereotactic radiosurgery for age-related macular degeneration: Assessment of optic nerve dose and patient effective dose

Abstract

ASJC Scopus subject areas

Keywords

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