DRUG DISPENSING CONTROLLER AND MONITORING SYSTEM FOR A VENTILATOR

US 20170259017A1
Filed: 05/19/2017
Published: 09/14/2017
Est. Priority Date: 06/15/2007
Status: Active Grant

First Claim

Patent Images

1. (canceled)

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

An automated drug delivery and monitoring system for use on mechanically ventilated patients in the intensive care unit is presented. Medication in the form of respirable particles is transported through ventilator circuitry by a delivery unit. Multiple medications may be delivered into the gas flow of the ventilator, with each medication delivered in a defined dose for a frequency and interval as specified by an operator. The particles mixed into the gas flow of the ventilator are inhaled and ingested by the patent'"'"'s lungs.

Citations

21 Claims

1. (canceled)

2. A method for controlling medication dispensed to a ventilator circuit that extends between a mechanical ventilator and a patient, comprising:
- providing a gas conduit having axially opposing first and second ends, each end being in-line with and adapted to attach to spaced apart segments of tubing of the ventilator circuit to form part of the ventilation circuit;
  
  actuating an actuator to release medication from at least one pressurized metered dose inhaler (pMDI) canister held orthogonal to the gas conduit with a dispensing end of the pMDI canister held proximate the gas conduit in fluid communication with the ventilator circuit via the gas conduit to release medication from the dispensing end to the gas conduit then into the tubing of the ventilator circuit, where the actuation of the .actuator is timed so that medication from the at least one pMDI canister is released from the at least one pMDI canister during an inspiratory/inhale cycle with gas flow toward the patient;
  
  monitoring air pathway flow in the ventilator circuit using a controller in communication with the actuator;
  
  electronically evaluating patient effluent gases in the ventilation circuit;
  
  allowing an operator to adjust a defined dosage, delivery time and/or frequency of medication released by the at least one pMDI canister for the actuating; and
  
  displaying parameters including number of doses remaining for each of the at least one pMDI canister on a display in communication with the controller.
- View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 15, 16, 17)
- - 3. The method of claim 2, wherein the evaluating is carried out using a spectrometer in fluid communication with the gas conduit to obtain one or more of ultraviolet, optical and/or near-infrared spectra wherein the system evaluates the obtained spectra to determine particle size reflectance.
  - 4. The method of claim 3, wherein the evaluating is carried out using obtained spectra to determine deposition/detection.
  - 5. The method of claim 2, wherein the controller automatically increases or decreases a dosage frequency or dosage amount or both dosage frequency and amount for the at least one pMDI canister based on the patient.
  - 6. The method of claim 2, wherein actuator resides above the gas conduit in the housing, and wherein a delivery path from the dispensing end of the at least one pMDI canister is directly into an axially extending flow path that is in-line with of the gas conduit.
  - 7. The method of claim 2, wherein the at least one pMDI canister is a plurality of spaced apart pMDI canisters that are held by a housing, and wherein the actuating is carried out in response to the controller directing the at least one actuator to serially actuate the plurality of pMDI canisters.
  - 8. The method of claim 2, further comprising decrementing a count of a dosage counter in response to actuation of the actuator or a respective pMDI canister and electronically providing a number of doses remaining for the displaying.
  - 9. The method of claim 2, wherein the at least one pMDI canister is a plurality of pMDI canisters held in a housing that is in close proximity to the patient and the tubing of the ventilator circuit.
  - 10. The method of claim 2, further comprising:
    - monitoring gas flow resistance using a sensor in communication with the controller to determine a pressure and volume of gas flow through the gas conduit;
      
      determining patient airway resistance and/or a cycle time on reversal of gas flow to assess whether the patient has an impaired ability to intake medicament from the at least one pMDI canister through the lungs; and
      
      automatically increasing a dosage frequency or dosage amount or both dosage frequency and amount for the at least one pMDI canister when the controller determines that the patient has impaired ability.
  - 11. The method of claim 2, further comprising continuously detecting ventilator circuit conditions and/or patient airway resistance using at least one sensor, and modifying an interval of actuation of the at least one actuator for the at least one pMDI canister in response to a defined change in gas pressure in the ventilator circuit using the controller.
  - 12. The method of claim 2, wherein the controller is coupled to an operator interface that comprises a menu with control and configuration selections, and wherein the displaying the parameters is carried out to display, for a respective MDI canister, a number of doses remaining, time to next actuation, frequency of delivery and delivery status.
  - 14. The method of claim 2, wherein the displaying the parameters is carried out to display a graphic display of a remaining volume or dose amount relative to a full volume capacity and information regarding an interval between dosages for each of the at least one MDI canister.
  - 15. The method of claim 2, further comprising continuously monitoring the ventilator circuit airflow path during inhalation and exhalation using the controller and at least one sensor in fluid communication with the gas conduit.
  - 16. The method of claim 2, further comprising electronically populating a database of medical records to provide dispensed medication type, dose frequency and verification of medication dispensed to a patient.
  - 17. The method of claim 2, further comprising electronically providing electronic data records of patient physiologic parameters including a flow profile that contains peak flow, peak flow timing, patient airway resistance and duration for inhalation and exhalation using the controller.

18. An automated medical system for controlling medication dispensed to a ventilator circuit that extends between a mechanical ventilator and a patient, comprising:
- a gas conduit having axially opposing first and second ends, each end being in-line with and adapted to attach to spaced apart segments of tubing of the ventilator circuit to form part of the ventilation circuit;
  
  a spectrometer in fluid communication with the gas conduit to obtain one or more of ultraviolet, optical and/or near-infrared spectra of patient effluent gas;
  
  a plurality of pressurized metered dose inhaler (pMDI) canisters held orthogonal to the gas conduit with a dispensing end of a respective pMDI canister held proximate the gas conduit in fluid communication with the ventilator circuit via the gas conduit, wherein a delivery path from the dispensing end of the pMDI canisters is directly into an axially extending flow path that is in-line with of the gas conduit;
  
  at least one actuator in communication with the pMDI canisters to release medication from the dispensing end to the gas conduit then into the tubing of the ventilator circuit, wherein the at least one actuator can selectively actuate each pMDI canister;
  
  a housing holding the gas conduit, the pMDI canisters and the at least one actuator;
  
  a control unit operably associated with the at least one actuator and comprising an operator interface configured to allow an operator to adjust dosage and schedule medication dispensing for each of the pMDI canisters and to actuate the at least one actuator to dispense medication from each pMDI canisters to the ventilator circuit at a defined dosage, delivery time and/or frequency, wherein the control unit monitors air pathway flow in the ventilator circuit and the patient effluent gases and is configured to time actuation of the actuator so that medication from the at least one pMDI canister is released from the at least one pMDI canister only during an inspiratory/inhale cycle with gas flow toward the patient, wherein the control unit is further configured to provide electronic data records of patient physiologic parameters including a flow profile; and
  
  a display held by the control unit for displaying parameters including number of doses remaining for each of the at least one pMDI canister.
- View Dependent Claims (19, 20, 21)
- - 19. The system of claim 18, wherein the system evaluates the obtained spectra to determine one or both of (a) particle size reflectance and/or (b) determine deposition/detection.
  - 20. The system for a ventilator of claim 18, wherein the control unit further determines a pressure and volume of gas flow through the gas conduit associated with patient airway resistance so that the control unit can determine patient airway resistance and/or a cycle time on reversal of gas flow and evaluate the spectra of the patient effluent gas.
  - 21. The system of claim 18, wherein the electronic data records of the patient physiologic parameters of the flow profile contains peak flow, peak flow timing, patient airway resistance and duration for inhalation and exhalation,wherein the display provides visual information for each of the plurality of MDI canisters, wherein at least one of the pMDI canisters comprises a different medicine from others of the pMDI canisters,wherein the control unit comprises a dosage counter and the visual information comprises information regarding remaining dosages for each of said plurality of MDI canisters including a graphic display of a remaining volume or dose amount relative to a full volume capacity.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
iDTx Systems, Inc
Original Assignee
iDTx Systems, Inc
Inventors
Spandorfer, Michael

Granted Patent

US 10,639,440 B2
Time in Patent Office

Days
Field of Search
US Class Current
CPC Class Codes

A61B 5/0075   by spectroscopy, i.e. measu...

A61B 5/085   Measuring impedance of resp...

A61B 5/087   Measuring breath flow

A61B 5/4839   combined with drug delivery

A61M 15/0003   with means for dispensing m...

A61M 15/0005   with means for agitating th...

A61M 15/008   Electronic counters

A61M 15/0083   Timers

A61M 15/009   using medicine packages wit...

A61M 16/0003   Accessories therefor, e.g. ...

A61M 16/08   Bellows; Connecting tubes h...

A61M 16/14   by mixing different fluids,...

A61M 2016/0027   pressure meter

A61M 2016/003   with a flowmeter

A61M 2016/0036   in the breathing tube and u...

A61M 2205/14   Detection of the presence o...

A61M 2205/3368   Temperature

A61M 2205/505   Touch-screens; Virtual keyb...

A61M 2205/52   with memories providing a h...

A61M 2205/8206   battery-operated

DRUG DISPENSING CONTROLLER AND MONITORING SYSTEM FOR A VENTILATOR

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

Citations

21 Claims

Specification

Solutions

Use Cases

Quick Links

DRUG DISPENSING CONTROLLER AND MONITORING SYSTEM FOR A VENTILATOR

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links