Ultrasonic densitometer device and method
First Claim
1. An apparatus for measuring the integrity of a bone within a human heel in vivo, comprising:
- a receptacle sized and shaped to receive the human heel;
at least two ultrasonic transducers located in said receptacle and positioned so that when the human heel is placed in said receptacle an acoustic signal may be launched along an axis from one ultrasonic transducer and received by another ultrasonic transducer after said signal has passed through the bone;
scanning means in communication with the at least two ultrasonic transducers for moving the axis along which the acoustic signal is launched among a plurality of scanned positioned with respect to the bone;
means for measuring the received acoustic signals at the plurality of scanned positions to determine corresponding member parameters related to the propagation of the acoustic signal through the bone at each scanned position;
means for relating the member parameters at each of the scanned positions to a bone integrity of the bone; and
means for displaying a visual representation of the bone integrity value.
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Abstract
An ultrasound densitometer is disclosed in which ultrasonic transducers are located spaced apart in a water bath into which the heel of a person may be inserted. The transit time of an ultrasonic pulse through the water and heel and the attenuation of the pulse may be measured to evaluate the physical properties of the bone in the heel. A central controller coordinates the ultrasonic measurement with the automatic filling and draining of the water bath to ensure hygienic and repeatable operation. The water may be preheated to reduce patient discomfort and to improve the reduced by preheating water in a separate pre-fill chamber during the previous scan. Gravity feed of the water reduces the complexity of the water handling and provides extremely quiet operation. A toe peg in the water bath, which fits between the patient'"'"'s toes, and a calf support help to reduce patient motion during the measuring.
54 Citations
7 Claims
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1. An apparatus for measuring the integrity of a bone within a human heel in vivo, comprising:
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a receptacle sized and shaped to receive the human heel; at least two ultrasonic transducers located in said receptacle and positioned so that when the human heel is placed in said receptacle an acoustic signal may be launched along an axis from one ultrasonic transducer and received by another ultrasonic transducer after said signal has passed through the bone; scanning means in communication with the at least two ultrasonic transducers for moving the axis along which the acoustic signal is launched among a plurality of scanned positioned with respect to the bone; means for measuring the received acoustic signals at the plurality of scanned positions to determine corresponding member parameters related to the propagation of the acoustic signal through the bone at each scanned position; means for relating the member parameters at each of the scanned positions to a bone integrity of the bone; and means for displaying a visual representation of the bone integrity value. - View Dependent Claims (2, 3)
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4. An apparatus for measuring the physical properties and integrity of a member in vivo, comprising:
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a transducer positioned adjacent to the member; means for transmitting an acoustic pulse incorporating a broad range of frequencies, to produce a member attenuated signal representing the attenuation of the acoustic signal by the member; digital converter means for sampling the member attenuated signal to produce a first digital composite waveform representing the member attenuated signal; analyzer means for numerically analyzing the first digital composite waveform to determine an attenuation for a plurality of frequency components; comparison means for comparing the attenuation of corresponding frequency components between the first digital composite waveform and a second digital composite waveform, the latter representing the attenuation of the acoustic pulse by a standard material of known acoustic properties to derive an attenuation as a function of frequency; means for relating the slope of the attenuation as a function of frequency to the physical properties and integrity of the member. - View Dependent Claims (5, 6, 7)
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Specification