Method and apparatus for determining bone mineral density
First Claim
1. In a system having a personal computer (PC) for executing programs and a scanner coupled to the PC for scanning images, a method for computing a bone mineral density value based on a digital image comprising the steps of:
- a) configuring the scanner to scan radiographs and to generate digital images based on the radiographs;
wherein the digital images are qualified for radiographic absorptiometry bone density analysis;
b) scanning a radiograph by utilizing the configured scanner to generate a qualified digital image; and
c) automatically generating a bone mineral density value based on the qualified digital image.
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Abstract
A method and apparatus for measuring bone density in a body part. The method and apparatus receive and process a digital image that includes at least one digit, a calibration wedge, and a target bone to compute the density of the target bone. Based on the digital image, a contour for the digit and the target bone are automatically extracted and displayed for the user. A user is then provided an opportunity to input information via an easy-to-use graphical user interface. The contour of the target bone is then automatically re-computed based on the user input. Then, the bone mineral density of the target bone is computed based on the re-computed contour of the target bone.
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Citations
20 Claims
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1. In a system having a personal computer (PC) for executing programs and a scanner coupled to the PC for scanning images, a method for computing a bone mineral density value based on a digital image comprising the steps of:
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a) configuring the scanner to scan radiographs and to generate digital images based on the radiographs;
wherein the digital images are qualified for radiographic absorptiometry bone density analysis;
b) scanning a radiograph by utilizing the configured scanner to generate a qualified digital image; and
c) automatically generating a bone mineral density value based on the qualified digital image. - View Dependent Claims (2, 3, 4, 5, 6)
a) setting the dimensions of the image to predetermined image dimensions;
b) setting the dimensions of the pixels to a predetermined pixel dimension;
c) setting the image type to a predetermined image type;
d) setting the dynamic range of gray-scale to a predetermined dynamic range; and
e) setting the gray-scale response to a predetermined gray-scale response.
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4. The method for computing bone mineral density of claim 3
wherein the step of setting the dimensions of the image to predetermined image dimensions includes the step of setting the dimensions of the image to the dimensions of 1024 pixels by 600 pixels; -
wherein the step of setting the dimensions of the pixels to a predetermined pixel dimension includes the step of setting the dimension of each pixel to a value in the range of 104 microns to 116 microns;
wherein the step of setting the image type to a predetermined image type includes the step of setting the image type to gray-scale;
wherein the step of setting the dynamic range of gray-scale to a predetermined dynamic range includes the step of setting the dynamic range of gray-scale to 12 bits; and
wherein each scanner type has a corresponding pre-defined look-up table that specifies at least one scanner setting for affecting the gray-scale response;
wherein the step of setting the gray-scale response includes determining the type of scanner and accessing a corresponding look-up table based on the scanner type, and setting at least one scanner setting to a value specified by the predetermined look-up table.
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5. The method for computing bone mineral density of claim 4 wherein setting at least one scanner setting to a value specified by the predetermined look-up table includes setting one of the brightness to zero,
the contrast to zero, the shadow to zero, the highlight to a value in the range of 200 to 256, the midtone to a value in the range of 1.4 to 1.6, and the gamma to a value in the range of 0.8 to 1.6. -
6. The method for computing a bone mineral density value of claim 1 wherein the system further includes scanner control software for controlling the scanner, the scanner control software having a plurality of configurable scanner parameters;
- and wherein the step of configuring the scanner to scan radiographs and to generate qualified digital images based on the radiographs includes automatically determining the type of scanner coupled to the PC; and
automatically setting at least one scanner parameter in the scanner control software to a pre-defined value based on the scanner type.
- and wherein the step of configuring the scanner to scan radiographs and to generate qualified digital images based on the radiographs includes automatically determining the type of scanner coupled to the PC; and
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7. An apparatus for determining bone density comprising:
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a scanner for scanning a radiograph and generating a digital image based on the radiograph, said digital image having at least one digit, said digit having a target bone, and a calibration wedge;
a personal computer (PC) coupled to the scanner for receiving the digital image and for executing programs; and
a bone analysis program when executing on the PC for receiving the digital image, automatically generating a digit contour, a calibration wedge contour, and a target bone contour from the digital image, and automatically displaying the digit contour, the contour of the calibration wedge, and the contour of the target bone for display. - View Dependent Claims (8, 9, 11, 12, 13)
a monitor coupled to the PC for displaying the digit contour, the contour of the calibration wedge, and the contour of the target bone for display.
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9. The apparatus for determining bone density of claim 7
wherein the bone analysis program generates a bone mineral density result based on the contour of the target bone, said apparatus further comprising: a printer coupled to the PC for printing the bone mineral density result.
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11. The apparatus of claim 7 further comprising
a first graphical user interface for receiving user input to refine the contour of the target bone and for dynamically re-calculating and re-displaying a new contour for the target bone based on the user input. -
12. The apparatus of claim 7 further comprising
a second graphical user interface for displaying a pop-up window upon selection by user, providing an upbutton and a down button for each bone edge, and dynamically re-calculating and re-displaying a new contour for the target bone based on the user input. -
13. The apparatus of claim 7 further comprising
an automatic bone extraction module for automatically extracting the contour of a target bone; - and
a bone mineral density module for receiving the contour of the target bone and, based thereon, for calculating a bone mineral density based on the contour of the target bone.
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10. An apparatus for determining bone density comprising:
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an x-ray source for generating x-rays;
a digital panel having an array of x-ray detectors for receiving the x-rays and generating a digital image of an object being imaged, said digital imagehaving a digit with a target bone and a calibration wedge;
a processor coupled to the scanner for receiving the digital image and for executing programs; and
a bone analysis program when executing on the processor for receiving the digital image, automatically extracting a digit contour, a calibration wedge contour, and a target bone contour from the digital image, and automatically displaying the digit contour, the contour of the calibration wedge, and the contour of the target bone.
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14. A method of determining a bone density measurement comprising:
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receiving an image having a target bone;
automatically calculating a contour of the target bone from the image; and
displaying the contour of the target bone. - View Dependent Claims (15, 16, 17, 18, 19, 20)
receiving user input;
based on the user input, automatically re-calculating the contour of the target bone; and
re-displaying the re-calculated contour of the target bone.
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16. The method of claim 15 wherein the step of receiving user input further includes:
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providing a first graphical user interface for prompting the user to input a first joint point and a second joint point; and
receiving the first joint point and the second joint point; and
wherein the step of automatically re-calculating the contour of the target bone includes the step of automatically re-calculating the contour of the target bone based on the first joint point and the second joint point.
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17. The method of claim 15 wherein the step of receiving user input further includes
providing a second graphical user interface for prompting the user to activate one of an top up button, a top down button, a bottom up button, and a bottom down button; - wherein each button has an associated button signal; and
receiving the activated button signal;
and wherein the step of automatically re-calculating the contour of the target bone includes the step of automatically re-calculating the contour of the target bone based on the activated button signal.
- wherein each button has an associated button signal; and
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18. The method of claim 14 further comprising:
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determining if the displayed contour meets predetermined standards;
if yes, determining the bone density measurement based on the target bone contour;
else prompting the user for input, automatically re-calculating the contour of the target bone based on the user input, and automatically displaying the recalculated contour; and
proceeding to the step of determining if the displayed contour meets predetermined standards.
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19. The method of claim 14 wherein the bone contour is a closed contour, said method further comprising the steps of:
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a) defining a contour based coordinate system;
b) dividing the bone contour into phases;
c) for each phase, accumulating all pixel values in the phase while subtracting those pixel values attributable to soft tissue to determine the mass of the bone; and
d) summing the mass of each phase to generate a total mass;
e) for each phase determining the volume of the phase;
f) summing the volume of each phase to generate a total volume g) dividing the total mass of the bone by the total volume of the bone to determine the bone mass density of the bone.
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20. The method of claim 19 further comprising:
a) rotating the bone contour after receiving the bone contour.
Specification