NORTHERN ILLINOIS UNIVERSITY INC
DESCRIPTION (provided by applicant): The major goal of this proposal is to standardize the technique such that oxygen can be accurately quantified throughout the eye. This involves each of the main compartments within the eye, namely, the aqueous, lens and vitreous. In the process of these studies we will determine the viscosity of the lens, which is essential to determining the diffusion of oxygen and nutrients in that tissue. Oxygen levels are not only crucial to the health of different ocular tissues, but also changes in the concentration of oxygen are involved in the etiology of diseases such as cataract or AMD. It is, therefore, important to study oxygen levels in various positions and structures within the eye under normal and disease conditions. To date, the primary method of measuring oxygen is the utilization of physical probes such as oxygen electrodes or optodes. These have the disadvantage of damaging the eye itself or of the probes becoming damaged while being inserted into the eye. In conjunction with Bruce Ishimoto of Ocumetrics, we have modified a Fluorotron Ocular Fluorometer such that it can now detect phosphorescence from an oxygen sensitive palladium porphyrin (eg. PdUp palladium uroporphyrin). This instrument is capable of scanning through the entire eye and detecting oxygen throughout that tissue in a continuous manner. Using this instrument, we propose the following specific aims: I) To evaluate, characterize and quantify phosphorescence from various ocular structures using the Fluorotron. In conjunction with these studies, we will determine the viscosity of the lens, which is important in the diffusion of nutrients and oxygen within the lens. II) To apply this to a rabbit model. Again the values will be compared to those obtained using an optode, which is a method that we have successfully used before (see appendix 2). III) After a vitrectomy the vitreous is replaced by various solutions that are at atmospheric oxygen. In the course of these studies we will investigate the putative chemical processes involved in the reduction of oxygen tension in the vitreous and the levels of those anti-oxidants in human vitreal samples. The development of this technique will greatly expand our knowledge of the diffusion of oxygen throughout the eye and its possible role in the etiology of disease. PUBLIC HEALTH RELEVANCE: Oxygen levels are not only crucial to the health of different ocular tissues, but changes in the concentration of oxygen are also involved in the etiology of diseases such as cataract or AMD. It is, therefore, important to study oxygen levels in various positions and structures within the eye under normal and disease conditions. To date, this has been done primarily by means of physical probes that can either damage the eye itself or that can undergo damage themselves while being inserted into the eye. We propose to develop a noninvasive technique that will allow accurate quantification of oxygen throughout the eye. The development of this technique will greatly expand our knowledge of the diffusion of oxygen throughout the eye and its possible role in the etiology of disease, which has considerable implications for public health. These studies will eventually lead to the development of methods to control oxygen levels within the eye.
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| AWARD OVERVIEW |
| Award Number |
1R15EY020995-01 |
Funding Agency |
Department of Health and Human Services |
| Total Award Amount |
$350,455 |
Project Location - City |
DeKalb |
| Award Date |
09/30/2010 |
Project Location - State |
IL |
| Project Status |
More than 50% Completed |
Project Location - Zip |
60115-2860
|
| Jobs Reported |
0.80 |
Congressional District |
16 |
| Project Location - Country |
US |
|
|
Recipient Information
(Grants)
| Recipient Information (Grants) |
|
Recipient Name
|
NORTHERN ILLINOIS UNIVERSITY INC |
| Recipient DUNS Number |
001745512
|
| Recipient Address |
LOWDEN HALL 201 |
| Recipient City |
DEKALB |
| Recipient State |
Illinois |
| Recipient Zip |
60115-3080 |
| Recipient Congressional District |
16 |
| Recipient Country |
USA |
Required to Report Top 5
Highly Compensated Officials |
No |
Projects and Jobs Information
| Projects and Jobs Information |
| Project Title |
QUANTIZATION OF OCULAR OXYGEN USING A MODIFIED FLUOROTRON |
| Project Status |
More than 50% Completed |
| Final Project Report Submitted |
No |
| Project Activities Description |
Eye Diseases, Blindness & Vision Impairments Research |
| Quarterly Activities/Project Description |
Developing a non-invasive technique to measure oxygen in the anterior segment of the eye
A non-invasive technique to measure the oxygen in the anterior segment of the eye is in the progress of development. In these studies rabbits were anesthetized with 1.0 ml ketamine (45mg/kg) and xylazine (5mg/kg). Then 50 ìl of 8 mM Pd-Uroporphyrin I (PdUroI) was injected into the vitreous body. A modified Fluorotron instrument was used to image and track PdUroI as it travels throughout the eye with time. In addition, the instrument measured the lifetime of the phosphorescence signal of PdUroI, which is directly related to the oxygen tension, throughout the anterior eye compartments. The most recent data indicate that PdUroI is able to move throughout the vitreous body and into the aqueous chamber. The oxygen tensions were also determined throughout the vitreous body and into the posterior end of the lens. They ranged from 17.6 mmHg to 22.4 mmHg in the vitreous and 9.0 mmHg in the lens posterior. In the future, the goal is to include oxygen tension measurements in the anterior lens, cornea, and aqueous chamber. Also the oxygen tensions in the anterior segment will be measured after a vitrectomy for comparison.
Measuring the viscosity of the lens is another study undertaken to better the understanding of oxygen transport. A fiber optic oxygen sensing probe (optode) has been developed to measure the viscosity of the whole lens. This technique has been successful in characterizing the viscosity of lenses from different species such as bovine and ovine. Recently, this technique has been applied to human lenses. Preliminary data show that the average viscosity of the human lens without any ocular diseases is 3.90±0.81 cp. More human samples will be needed in order to confirm the viscosity.
|
| Jobs Created |
0.80 |
| Description of Jobs Created |
Graduate Research Assistants;
Undergraduate Research Assistants |
Purchaser Information
(Grants)
| Purchaser Information |
| Contracting Office ID |
Not Reported |
| Contracting Office Name |
Not Available |
| Contracting Office Region |
Not Available |
| TAS Major Program |
75-0902 |
| Award Information |
| Award Date |
09/30/2010 |
| Award Number |
1R15EY020995-01 |
| Order Number |
|
| Award Type |
Grants |
| Funding Agency ID |
75 |
| Funding Agency Name |
Department of Health and Human Services |
| Funding Office Name |
Not Available |
| Awarding Agency ID |
75 |
| Awarding Agency Name |
Department of Health and Human Services |
| Amount of Award |
$350,455 |
| Funds Invoiced/Received |
$217,602 |
| Expenditure Amount |
$222,334 |
| Infrastructure Expenditure Amount |
$0 |
| Infrastructure Purpose and Rationale |
Not Reported |
| Infrastructure Point of Contact Name |
Not Reported |
| Infrastructure Point of Contact Email |
Not Reported |
| Infrastructure Point of Contact Phone |
Not Reported |
| Infrastructure Point of Contact Address |
Not Reported |
| Infrastructure Point of Contact City |
Not Reported |
| Infrastructure Point of Contact State |
Not Reported |
| Infrastructure Point of Contact Zip |
Not Reported |
Product or Service Information
(Grants)
| Product or Service Information |
| Primary Activity Code |
H02.11 |
| Activity Description |
Eye Diseases, Blindness & Vision Impairments Research |
| Sub-Awards Information |
| Sub-awards to Organizations |
0 |
| Sub-award Amounts to Organizations |
$0 |
| Sub-Awards to Individuals |
0 |
| Sub-Award Amounts to Individuals |
$0 |
| Number of Sub-awards less than $25,000/award |
0 |
| Amount of Sub-awards less than $25,000/award |
$0 |
| Number of payments to vendors greater than $25,000 |
0 |
| Total Amount of payments to vendors greater than $25,000/award |
$0 |
| Number of payments to vendors less than $25,000/award |
40 |
| Total Amount of payments to vendors less than $25,000/award |
$22,792 |
| Location Information |
| Latitude, Longitude |
41º 56' 7",
-88º 45' 56" |
| Congressional District |
16 |
| Address 1 |
|
| Address 2 |
|
| City |
DeKalb |
| County |
DeKalb |
| State |
IL |
| Zip |
60115-2860 |
|
|