Non-contact tonometer and method using ultrasonic beam

US 5,396,888 A
Filed: 02/07/1994
Issued: 03/14/1995
Est. Priority Date: 10/10/1991
Status: Expired due to Fees

First Claim

Patent Images

1. A non-contact tonometer for measuring the intraocular pressure of an eye, comprising:

means for generating a first ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye;

means for determining the intraocular pressure from the response of the eye resulting from the radiation pressure, including means for generating a second ultrasonic beam and projecting it onto the eye; and

means for measuring the distance to the eye from the reflection of the second ultrasonic beam by the eye.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A non-contact tonometer is described for measuring the intra-ocular pressure (IOP) of the eye. An ultrasonic power transducer directs an ultrasonic beam onto the eye and the force generated by the radiation pressure causes indentation or applanation which is detected by ultrasonic or optical means. An optical system provides an image of the eye with appropriate alignment beams injected through a beam splitter for positioning the device with respect to the eye. An additional ultrasonic beam may be used to measure the range to the eye. Another optical means is utilized to measure applanation or indentation; alternatively, an additional ultrasonic transducer and beam could be used. Operation of the device may be through continuous wave or pulsed excitation of the ultrasound. Feed-back control of the ultrasound power level is possible using an additional ultrasonic transducer for measuring the power levels to augment measurement accuracy.

Citations

12 Claims

1. A non-contact tonometer for measuring the intraocular pressure of an eye, comprising:
- means for generating a first ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye;
  
  means for determining the intraocular pressure from the response of the eye resulting from the radiation pressure, including means for generating a second ultrasonic beam and projecting it onto the eye; and
  
  means for measuring the distance to the eye from the reflection of the second ultrasonic beam by the eye.
- View Dependent Claims (2, 3)
- - 2. A non-contact tonometer according to claim 1, wherein the means for measuring the distance to the eye further comprises means for verifying that the distance between the tonometer and the eye is correct to allow measurement of the intraocular pressure to be made.
  - 3. A non-contact tonometer according to claim 2, further comprising means for measuring alignment of the first ultrasonic beam on the surface of the eye.

4. A non-contact tonometer for measuring intraocular pressure of an eye, comprising:
- means for generating an ultrasonic beam and projecting it continuously onto the eye to generate radiation pressure on the eye;
  
  means for determining the intraocular pressure from the response of the eye resulting from the radiation pressure, including;
  
  optical means for measuring indentation of the eye;
  
  means for measuring the continuous radiation pressure of the ultrasonic beam; and
  
  means for comparing the radiation pressure to the indentation of the eye caused by its continuous radiation pressure.

5. A non-contact tonometer for measuring the intraocular pressure of an eye, comprising:
- means for generating a first ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye;
  
  means for determining the intraocular pressure from the response of the eye resulting from the radiation pressure and comprising;
  
  means including a second ultrasonic beam for measuring the indentation of the eye;
  
  means for measuring the radiation pressure of the first ultrasonic beam; and
  
  means for comparing the radiation pressure to the indentation of the eye caused by the radiation pressure.

6. A non-contact tonometer for measuring the intraocular pressure of an eye, comprising:
- means for generating a ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye;
  
  means for determining the intraocular pressure from the response of the eye resulting from the radiation pressure, including;
  
  means including another ultrasonic beam for detecting applanation of the eye;
  
  means for increasing the radiation pressure of the ultrasonic beam until applanation of the eye occurs; and
  
  means for measuring the radiation pressure at which applanation of the eye occurs.

7. The method of measuring the intraocular pressure of an eye comprising:
- (a) generating a first ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye; and
  
  (b) determining the intraocular pressure from the response of the eye resulting from the radiation pressure by(b1) generating a second ultrasonic beam and projecting it onto the eye; and
  
  (b2) measuring the distance to the eye from the reflection of the second ultrasonic beam by the eye.
- View Dependent Claims (8, 9)
- - 8. The method of measuring the intraocular pressure of an eye according to claim 7, wherein the step of measuring the distance to the eye further comprises verifying that the distance to the eye is correct to allow measurement of the intraocular pressure to be made.
  - 9. The method of measuring the intraocular pressure of an eye according to claim 8, further comprising measuring alignment of the first ultrasonic beam on the surface of the eye.

10. A method of measuring the intraocular pressure of an eye comprising:
- generating an ultrasonic beam and projecting it continuously onto the eye to generate radiation pressure on the eye;
  
  determining the intraocular pressure from the response Of the eye resulting from the radiation pressure by optically measuring indentation of the eye;
  
  measuring the continuous radiation pressure of the ultrasonic beam; and
  
  comparing the radiation pressure to the indentation of the eye caused by the continuous radiation pressure.

11. The method of measuring the intraocular pressure of an eye, comprising:
- generating an ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye.;
  
  determining the intraocular pressure from the response of the eye resulting from the radiation pressure bymeasuring the indentation of the eye;
  
  measuring the radiation pressure of the ultrasonic beams; and
  
  comparing the radiation pressure to the indentation of the eye caused by the radiation pressure, whereinmeasuring the indentation of the eye includes providing another ultrasonic beam to perform such measurement.

12. The method of measuring the intraocular pressure of an eye:
- generating an ultrasonic beam and projecting it onto the eye to generate radiation pressure on the eye;
  
  determining the intraocular pressure from the response of the eye resulting from the radiation pressure byincreasing the radiation pressure of the ultrasonic beam until applanation of the eye occurs;
  
  supplying another ultrasonic beam to the eye for detecting the applanation thereof; and
  
  measuring the radiation pressure at which applanation of the eye is detected.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Massie Research Laboratories Incorporated
Original Assignee
Massie Research Laboratories Incorporated
Inventors
Massie, N. A., Maxfield, Bruce W.
Primary Examiner(s)
SHAY, RANDY CITRIN

Application Number

US08/192,784
Time in Patent Office

400 Days
Field of Search

128/645, 128/646, 128/647, 128/649, 128/652
US Class Current

600/405
CPC Class Codes

A61B 3/165   Non-contacting tonometers

A61B 8/10   Eye inspection

Y10S 977/929   Ultrasound contrast agent

Non-contact tonometer and method using ultrasonic beam

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

12 Claims

Specification

Solutions

Use Cases

Quick Links

Non-contact tonometer and method using ultrasonic beam

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

12 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links