Arrangement for and method of tele-examination of patients
First Claim
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1. An arrangement for tele-examination of patients as to their pulse and blood pressure, comprisingmeans for measuring pulse frequency;
- means for measuring blood pressure and including an inflatable sleeve to be placed onto a patient'"'"'s forearm;
a compressed gas source connectable with said sleeve;
means for pumping gas into said sleeve;
means for converting pulse beats into electrical impulses;
generating means connected with said blood pressure measuring means and receiving an electrical analogous signal from the latter so as to generate one impulse in response to each increase of gas pressure in said sleeve by one discrete value of pressure change;
controlling means for controlling pumping of gas into said sleeve so that the pumping is performed first in a first mode monotonously from atmospheric pressure to lower blood pressure at which first pulse beat takes place and impulses corresponding to the discrete values of pressure change are supplied, and then a second mode started by the impulse corresponding to the first pulse beat and in which pumping is performed from lower to upper blood pressure values and each pulse heat is used as a permitting signal for gas pressure increase in said sleeve by the one discrete value of pressure change, and when gas pressure in said sleeve reaches a value which is multiple of the discrete value of pressure change the pumping is interrupted, and at the same time in said second mode the impulses of pulses are supplied, so that the impulses in the second mode simultaneously carry information about time moments of pulse beats and gas pressure increase by the discrete value of pressure change in said sleeve;
communicating means for transmitting said impulses in said first mode and in said second mode; and
means for receiving the thus formed and transmitted impulses at a location spaced from a patient so that at said location a lower blood pressure can be determined as a product of the number of impulses in said first mode by the discrete value of pressure change, an upper blood pressure can be determined as a product of the number of impulses in both modes by the discrete value of pressure change, and time intervals between the impulses in the second mode determine time intervals between pulse beats.
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Accused Products
Abstract
A tele-examination of patients'"'"' pulse and blood pressure is performed by automatically measuring the pulse and blood pressure and transmitting electrical impulses of sound impulses corresponding thereto without time or frequency separation via communicating channel, such as a telephone.
215 Citations
5 Claims
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1. An arrangement for tele-examination of patients as to their pulse and blood pressure, comprising
means for measuring pulse frequency; -
means for measuring blood pressure and including an inflatable sleeve to be placed onto a patient'"'"'s forearm; a compressed gas source connectable with said sleeve; means for pumping gas into said sleeve; means for converting pulse beats into electrical impulses; generating means connected with said blood pressure measuring means and receiving an electrical analogous signal from the latter so as to generate one impulse in response to each increase of gas pressure in said sleeve by one discrete value of pressure change; controlling means for controlling pumping of gas into said sleeve so that the pumping is performed first in a first mode monotonously from atmospheric pressure to lower blood pressure at which first pulse beat takes place and impulses corresponding to the discrete values of pressure change are supplied, and then a second mode started by the impulse corresponding to the first pulse beat and in which pumping is performed from lower to upper blood pressure values and each pulse heat is used as a permitting signal for gas pressure increase in said sleeve by the one discrete value of pressure change, and when gas pressure in said sleeve reaches a value which is multiple of the discrete value of pressure change the pumping is interrupted, and at the same time in said second mode the impulses of pulses are supplied, so that the impulses in the second mode simultaneously carry information about time moments of pulse beats and gas pressure increase by the discrete value of pressure change in said sleeve; communicating means for transmitting said impulses in said first mode and in said second mode; and means for receiving the thus formed and transmitted impulses at a location spaced from a patient so that at said location a lower blood pressure can be determined as a product of the number of impulses in said first mode by the discrete value of pressure change, an upper blood pressure can be determined as a product of the number of impulses in both modes by the discrete value of pressure change, and time intervals between the impulses in the second mode determine time intervals between pulse beats. - View Dependent Claims (2, 3, 4)
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5. A method of tele-examination of patients as to their pulse and blood pressure, comprising the steps of
measuring a pulse frequency; -
measuring blood pressure by blood pressure measuring means including an inflatable sleeve to be placed onto a patient'"'"'s forearm; pumping gas from a compressed gas source into said sleeve; converting pulse beats into electrical impulses; receiving an electrical analogous signal from the blood pressure measuring means and generating one impulse in response to each increase of gas pressure in said sleeve by one discrete value of pressure change; controlling pumping of gas into the sleeve so that the pumping is performed first in a first mode monotonously from atmospheric pressure to lower blood pressure at which first pulse beat takes place and impulses of discrete values of pressure change are supplied, and then in a second mode started by the impulse corresponding to the first pulse beat and in which pumping is performed from lower to upper blood pressure values and each pulse beat is used as a permitting signal for gas pressure increase in the sleeve by the discrete value of pressure change, and when gas pressure in the sleeve reaches a value which is a multiple of the discrete value of pressure change the pumping is interrupted, and at the same time in the second mode the impulses of pulse are supplied; transmitting the impulses in the first mode and in the second mode by communicating means; receiving the thus formed and transmitted impulses by receiving means at a location spaced from a patient; and determining a lower blood pressure as a product of the number of impulses in the first mode by the discrete value of pressure change, a higher blood pressure as a product of the number of impulses in both modes by the discrete value of pressure change, and time intervals between pulse beats as time intervals between the impulses in the second mode.
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Specification