Automated hemodialysis control based upon patient blood pressure and heart rate
First Claim
1. A system for controlled patient hemodialysis comprisinghemodialysis means including means for establishing circulation of dialysate and patient blood across opposite sides of an ultrafiltration membrane, means for establishing a goal rate of extraction of fluids from the patient through said membrane and means for controlling concentration of sodium in said dialysate,means responsive to a cycle control signal for periodically reading patient blood pressure, means responsive to patient blood pressure for storing an initial blood pressure level at the onset of hemodialysis, and means responsive to deviation of patient blood pressure from said initial level by more than a first preselected deviation limit to provide a first alarm signal,means for continuously monitoring patient heart rate, means for storing an initial heart rate level at the onset of hemodialysis, and means for providing a second alarm signal when patient heart rate deviates from said initial heart rate level by more than a second preselected deviation limit, andmeans responsive to both said first and second alarm signals for automatically controlling said cycle control signal so as to increase the frequency of reading patient blood pressure in response to alarm deviation of patient heart rate or blood pressure or both.
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Abstract
A method and system for continuously monitoring patient heart rate and blood pressure during hemodialysis and for automatically controlling fluid extraction rate and/or dialysate sodium concentration in the event that blood pressure and/or heart rate indicate onset or impending onset of a patient hypotensive episode. A decrease in patient blood pressure below preselected systolic and/or diastolic low alarm limits automatically initiates a second mode of therapeutic intervention wherein sodium concentration in the dialysate is increased for a predetermined time duration. Upon detection of such low blood pressure alarm, or upon detection of an increase in patient heart rate above a preselected alarm limit, the extraction rate of fluids from the patient through the ultrafiltration membrane is reduced in a first mode of therapeutic intervention by reducing such fluid extraction rate to a minimum level. Blood pressure and heart rate are thereafter monitored during this second mode of intervention to return ultrafiltration flow rate to its desired or goal level as blood pressure and heart rate indicate return of patient vital signs toward their initial levels.
225 Citations
13 Claims
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1. A system for controlled patient hemodialysis comprising
hemodialysis means including means for establishing circulation of dialysate and patient blood across opposite sides of an ultrafiltration membrane, means for establishing a goal rate of extraction of fluids from the patient through said membrane and means for controlling concentration of sodium in said dialysate, means responsive to a cycle control signal for periodically reading patient blood pressure, means responsive to patient blood pressure for storing an initial blood pressure level at the onset of hemodialysis, and means responsive to deviation of patient blood pressure from said initial level by more than a first preselected deviation limit to provide a first alarm signal, means for continuously monitoring patient heart rate, means for storing an initial heart rate level at the onset of hemodialysis, and means for providing a second alarm signal when patient heart rate deviates from said initial heart rate level by more than a second preselected deviation limit, and means responsive to both said first and second alarm signals for automatically controlling said cycle control signal so as to increase the frequency of reading patient blood pressure in response to alarm deviation of patient heart rate or blood pressure or both.
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4. Apparatus for automatically controlling hemodialysis of a patient connected to a hemodialysis machine comprising
goal control means coupled to said machine for setting a fluid extraction goal in terms of a prescribed quantity of fluid to be extracted over a prescribed dialysis period and for establishing a fluid extraction goal rate at said machine to achieve said prescribed quantity over said prescribed period, blood pressure monitoring means for intermittently measuring patient blood pressure at a first preset frequency to provide intermittent pressure signals, means for comparing each of said intermittent pressure signals to preset pressure standards to detect deviation from said preset standards, means for continuously measuring patient heart rate and means for comparing measured patient heart rate to a preset heart rate standard, frequency control means coupled to said blood pressure monitoring means for automatically increasing frequency of intermittently measuring patient blood pressure to a second preset frequency greater than said first preset frequency when said intermittent pressure signals depart from said preset standards by more than a first predetermined amount and when measured patient heart rate departs from said heart rate standard by more than a second predetermined amount, means coupled to said hemodialysis machine and responsive to said comparing means for automatically reducing fluid extraction rate at said machine to a preset minimum level when said intermittent pressure signals depart from said preset standards by more than a third predetermined amount greater than said first amount, means coupled to said automatically-reducing means for establishing a new fluid extraction goal rate at said machine to achieve said prescribed quantity over said prescribed period, and means responsive to said comparing means and coupled to said machine for operating said machine at said new goal rate when said intermittent pressure signal departs from said preset standards by less than said third predetermined amount.
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9. An automated method for controlling hemodialysis of a patient connected to a hemodialysis machine comprising the steps of
(a) setting a fluid extraction goal at said machine in terms of a prescribed quantity of fluid to be extracted over a prescribed dialysis period and establishing an initial fluid extraction goal rate at said machine to achieve said prescribed quantity over said prescribed period, (b) intermittently measuring patient blood pressure at a first preset frequency to provide intermittent pressure signals, (c) comparing each of said intermittent pressure signals to a preset standard pressure to detect deviation from said preset standard pressure, (d) automatically increasing frequency of intermittently measuring patient blood pressure to a second preset frequency greater than said first preset frequency when said intermittent pressure signals depart from said preset standard pressure by more than a first predetermined amount, (e) continuously measuring patient heart rate, (f) comparing measured patient heart rate to a preset heart rate standard, (g) automatically increasing frequency of intermittently measuring patient blood pressure to said second preset frequency when measured patient heart rate departs from said heart rate standard by more than a third predetermined amount, (h) automatically reducing fluid extraction rate at said machine to a preset minimum level when said intermittent pressure signals depart from said preset standard pressure by more than a second predetermined amount greater than said first amount, (i) automatically establishing a new fluid extraction goal rate at said machine to achieve said prescribed quantity over said prescribed period, and thereafter (j) operating said machine at said new goal rate when said intermittent pressure signal departs from said preset standard pressure by less than said secend predetermined amount.
Specification