Biomedical Engineering Reference
In-Depth Information
100. Johnson TV, Fan S, Toris CB (2008)
Rebound tonometry in conscious,
conditioned mice avoids the acute and pro-
found effects of anesthesia on intraocular
pressure. J Ocul Pharmacol Ther 24:175-185
101. Lobler M, Rehmer A, Guthoff R et al (2011)
Suitability and calibration of a rebound
tonometer to measure IOP in rabbit and pig
eyes. Vet Ophthalmol 14:66-68
102. McLellan GJ, Kemmerling JP, Kiland JA
(2013) Validation of the TonoVet(R)
rebound tonometer in normal and glaucoma-
tous cats. Vet Ophthalmol 16:111-118
103. Rusanen E, Florin M, Hassig M et al (2010)
Evaluation of a rebound tonometer (Tono-
vet) in clinically normal cat eyes. Vet Ophthal-
mol 13:31-36
104. Paques M, Guyomard JL, Simonutti M et al
(2007) Panretinal, high-resolution color pho-
tography of
113. Kommonen B, Koskinen L (1984) Fluores-
cein angiography of the canine ocular fundus
in ketamine-xylazine anesthesia. Acta Vet
Scand 25:346-351
114. Narfstrom K (1985) Progressive retinal atro-
phy in the Abyssinian cat. Clinical character-
istics. Invest Ophthalmol Vis Sci 26:193-200
115. Gasthuys F, Pollet L, Simoens P et al (1990)
Anaesthesia for fluorescein angiography of the
ocular fundus in the miniature pig. Vet Res
Commun 14:393-402
116. Hyvarinen L, Flower RW (1980) Indocyanine
green
fluorescence
angiography.
Acta
Ophthalmol 58:528-538
117. Flower RW (1973) Injection technique for
indocyanine green and sodium fluorescein
dye angiography of the eye. Investig Ophthal-
mol 12:881-895
118. Ekesten B, Komaromy AM, Ofri R, et al.
(2013) Guidelines for clinical electroretinog-
raphy in the dog: 2012 update. Doc Ophthal-
mol 2013 Jun 1 Epub
119. Marmor MF, Fulton AB, Holder GE et al
(2009) ISCEV standard for full-field clinical
electroretinography (2008 update). Doc
Ophthalmol 118:69-77
120. Fujimoto JG, Pitris C, Boppart SA et al
(2000) Optical coherence tomography: an
emerging technology for biomedical imaging
and optical biopsy. Neoplasia 2:9-25
121. Gabriele ML, Wollstein G, Ishikawa H et al
(2011) Optical coherence tomography: his-
tory, current status, and laboratory work.
Investig Ophthalmol Vis Sci 52:2425-2436
122. McLellan GJ, Rasmussen CA (2012) Optical
coherence tomography for the evaluation of
retinal and optic nerve morphology in animal
subjects:
the mouse fundus.
Investig
Ophthalmol Vis Sci 48:2769-2774
105. Guyomard JL, Rosolen SG, Paques M et al
(2008) A low-cost and simple imaging tech-
nique of the anterior and posterior segments:
eye fundus, ciliary bodies, iridocorneal angle.
Investig Ophthalmol Vis Sci 49:5168-5174
106. Link D, Strohmaier C, Seifert BU et al (2011)
Novel non-contact retina camera for the rat
and its application to dynamic retinal vessel
analysis. Biomed Opt Express 2:3094-3108
107. Hernandez V, Albini T, Lee W et al (2012) A
portable, contact animal fundus imaging sys-
tem based on Rol's GRIN lenses. Vet
Ophthalmol 15:141-144
108. DiLoreto D Jr, Grover DA, del Cerro C et al
(1994) A new procedure for fundus photog-
raphy and fluorescein angiography in small
laboratory
animal
eyes. Curr Eye Res
practical
considerations.
Vet
13:157-161
109. Satoh T, Yamaguchi K (2000) Ocular fundus
abnormalities detected by fluorescein and
indocyanine green angiography in the Royal
College of Surgeons dystrophic rat. Exp Anim
49:275-280
110. Herren JI, Kunzelman KS, Vocelka C et al
(1998) Angiographic and histological evalua-
tion of porcine retinal vascular damage and
protection with perfluorocarbons after mas-
sive air embolism. Stroke 29:2396-2403
111. Gelatt KN, Henderson JD, Steffen GR
(1976) Fluorescein angiography of the nor-
mal and diseased ocular fundi of the labora-
tory dog. J Am Vet Med Assoc 169:9
112. Ninomiya H, Kuno H, Inagaki S (2005) Vas-
cular changes associated with chorioretinal
and optic nerve colobomas in rats (Crj: CD
(SD), IGS). Vet Ophthalmol 8:319-323
Ophthalmol 15(Suppl 2):13-28
123. Fischer MD, Huber G, Beck SC et al (2009)
Noninvasive, in vivo assessment of mouse ret-
inal structure using optical coherence tomog-
raphy. PLoS One 4:e7507
124. Huber G, Beck SC, Grimm C et al (2009)
Spectral domain optical coherence tomogra-
phy in mouse models of retinal degeneration.
Investig Ophthalmol Vis Sci 50:5888-5895
125. Kim KH, Puoris'haag M, Maguluri GN et al
(2008) Monitoring mouse retinal degenera-
tion with high-resolution spectral-domain
optical
coherence
tomography.
J Vis
8:17.1-17.11
126. Li Q, Timmers AM, Hunter K et al (2001)
Noninvasive imaging by optical coherence
tomography to monitor retinal degeneration
in the mouse. Investig Ophthalmol Vis Sci
42:2981-2989
