LANGUAGES
DISTRIBUTORS
OEM
SERVICES FOR COMPANIES
CLINICAL STUDIES AND REFERENCES
DRY EYE
PRODUCTS
COMPANY
DEM100
DESCRIPTION
REPORTS
VIDEO
TECHNICAL DATA
PRODUCT PICTURES
ATLAS
BROCHURE
ACCESSORIES
BIBLIOGRAPHY

Reports

SEVERAL REPORTS AVAILABLE
The ICP software is a dedicated platform for dry eye and allows, in addition to helping in the diagnosis and classification of diseases, to print and save various medical reports, offering the most professional and clinical solutions to patients.
For customer satisfaction, it is often advisable to provide technical documentation relating to the exams taken.
Thanks to the various press reports of the Sbm device, you will have the possibility to visually explain and simply demonstrate the pathology situation.
Furthermore, it's possible to explain how the pathology has changed over time.
COMPLETE REPORT
Complete report with all results and pictures used to explain to the patient any dry eye category.
TREATMENT REPORT
Patient oriented report explaining causes of pathology and recommended treatments.
FOLLOW UP REPORT
For each value it is possible to show the trend line before/during/after treatment.
BLINKING QUALITY
You have the possibility to save the results of Eye Blinking quality and quantity with the related graph.
MONOCULAR REPORT
To save and prind one only interesting examination.
BINOCULAR REPORT
To save in a single pdf the same eamination of both eyes.
<
>

Atlas

Accessories

MINI PC

Human Bibliography

1. Management and therapy of dry eye disease: report of the Management and Therapy Subcommittee of the International Dry Eye WorkShop (2007). Ocul Surf. 2007 Apr; 5(2): 163-78.
2. Paugh JR, Nguyen AL, Ketelson HA, Christensen MT, Meadows DL. Precorneal residence time of artificial tears measured in dry eye subjects. Optom Vis Sci. 2008 Aug;85(8):725-31.
3. Garrett Q, Simmons PA, Xu S, et al. Carboxymethylcellulose binds to human corneal epithelial cells and is a modulator of corneal epithelial wound healing. Invest Ophthalmol Vis Sci. 2007;48:1559-67.
4. Garrett Q, Xu S, Simmons PA, et al. Carboxymethyl cellulose stimulates rabbit corneal epithelial wound healing. Curr Eye Res. 2008 Jul;33(7):567-73.
5. Zheng LL, Myung D, Yu CQ, Ta CN. Comparative In vitro Cytotoxicity of Artificial Tears. JSM Ophthalmol 2015;3(1): 1026.
6. Diebold Y, Herreras JM, Callejo S, Argueso P, Calonge M. Carbomer- versus cellulose-based artificial-tear formulations: morphologic and toxicologic effects on a corneal cell line. Cornea. 1998 Jul;17(4):433-40.
7. Tong L, Petznick A, Lee S, Tan J. Choice of artificial tear formulation for patients withdry eye: where do we start? Cornea. 2012 Nov;31 Suppl 1:S32-6.
8. Berger JS, Head KR, Salmon TO. Comparison of two artificial tear formulations using aberrometry. Clin Exp Optom. 2009;92:206-211.
9. Ridder WH III, Lamotte JO, Ngo L, et al. Short-term effects of artificial tears on visual performance in normal subjects. Optom Vis Sci. 2005;82:370-377.
10. Baudouin C, et al. Role of hyperosmolarity in the pathogenesis and management of dry eye disease: proceedings of the OCEAN group meeting. Ocul Surf. 2013 Oct;11(4):246-58.
11. Hirata H, et al. Hyperosmolar Tears Induce Functional and Structural Alterations of Corneal Nerves: Electrophysiological and Anatomical Evidence Toward Neurotoxicity. Invest Ophthalmol Vis Sci. 2015 Dec;56(13):8125-40.
12. Mager WH, Siderius M. Novel insights into the osmotic stress response of yeast. FEMS Yeast Res. 2002 Aug;2(3):251-7.
13. Lievens C, Berdy G, Douglass D et al. Clinical Evaluation of a New Enhanced Viscosity Eye Drop for Moderate to Severe Dry Eye Disease: A Multicenter, Double-Masked, Randomized 30-Day Study. AAOptAnnual Meeting, Oct 7-10, 2015, New Orleans, LA, USA.
14. Miller KL, Walt JG, Mink DR, et al. Minimal clinically important difference for the ocular surface disease index. Arch Ophthalmol. 2010 Jan;128(1):94-101.
15. Roth H-W, Conway T, Hollander DA. Evaluation of carboxymethylcellulose 0.5%/ glycerin 0.9% and sodium hyaluronate 0.18% artificial tears in patients with mild to moderate dry eye. Clin Optom. 2011:3;73-78.
16. Deng R, et al. Osmoprotectants suppress the production and activity of matrix metalloproteinases induced by hyperosmolarity in primary human corneal epithelial cells. Mol Vis. 2014 Sep 12;20:1243-52.
17. Hua X, et al. Effects of L-carnitine, erythritol and betaine on pro-inflammatory markers in primary human corneal epithelial cells exposed to hyperosmotic stress. Curr Eye Res. 2015 Jul;40(7):657-67.
18. Hua X,et al. Protective Effects of L-Carnitine Against Oxidative Injury by Hyperosmolarity in Human Corneal Epithelial Cells. Invest Ophthalmol Vis Sci. 2015 Aug;56(9):5503-11. 19. P. A. Simmons, J.-E. Chang- Lin, Q. Chung, J. G. Vehige, D. Welty; Effect of Compatible Solutes on Transepithelial Electrical Resistance and Uptake in Primary Rabbit Corneal Epithelial Cell Layers Model. Invest. Ophthalmol. Vis. Sci. 2007;48(13):428.

COPYRIGHTS ALL RIGHTS RESERVED © 2021 SBM SISTEMI SRL