A patient simulator and corresponding method, according to which a control system and a simulated spine assembly are adapted to simulate human spinal motion. The simulated spine assembly includes a plurality of pivoting joints connected together. In one or more embodiments, the simulated spine assembly further includes one or more encoders adapted to monitor one or more relative positions of the plurality of pivoting joints, and to communicate the monitored one or more relative positions to the control system. In addition, or instead, in one or more embodiments, the simulated spine assembly further includes one or more sensors adapted to monitor one or more forces being applied to one or more of the plurality of pivoting joints, and to communicate the monitored one or more forces to the control system.
The present disclosure provides interactive education systems, apparatus, components, and methods for teaching patient care that allow for easy and efficient connection to electrical systems, including EKG systems and/or defibrillators, having different connector types. In some aspects, a patient simulator may include a simulated body portion and an electrical connector system. The electrical connector system may include a base fixedly secured to a portion of the simulated body portion. The base may be in electrical communication with EKG and/or defibrillation circuitry of the patient simulator. The electrical connector system may include first and second electrical interface components each configured to be removably coupled to the base and configured to interface with at least one of an EKG connector or a defibrillator connector. The first and second electrical interface components may be structurally different such that each is configured to interface with a different type of EKG and/or defibrillator connector.
A patient simulator including one or more simulated limbs or limb portions and a simulated torso. The simulated torso includes an upper torso bracket, a lower torso bracket, and an articulation joint via which the upper and lower torso brackets are pivotably connected. Each of the one or more simulated limbs or limb portions is connected, at least indirectly, to the upper torso bracket or the lower torso bracket. The patient simulator may further include a simulated head or head portion connected, at least indirectly, to the upper torso bracket. The one or more simulated limbs or limb portions may include one or more simulated arms or arm portions connected, at least indirectly, to the upper torso bracket. Additionally, or alternatively, the one or more simulated limbs or limb portions may include one or more simulated legs or leg portions connected, at least indirectly, to the lower torso bracket.
A patient simulator may include a pump, a compressor, a power source, and a simulated torso in which the pump, the compressor, and the power source are contained. The compressor may include an inlet to which a bellows is coupled. A head coupling may detachably couple a simulated neck to the simulated torso. Similarly, an extremity coupling may detachably couple a simulated lower extremity to a simulated upper extremity, which simulated upper extremity is coupled to the simulated torso. The pump, the compressor, and/or the power source may provide hydraulic fluid, pneumatic fluid, and or electrical power, respectively, into: the simulated neck via the head coupling; or the simulated lower extremity via the extremity coupling. In addition, or instead, the patient simulator may include an invasive blood pressure (IBP) assembly having an armature adapted to contact a tube to change a fluid pressure in the IBP assembly.
The present disclosure provides interactive education systems, apparatus, components, and methods for teaching patient care. In some instances, devices, systems, and associated methods include air trapping techniques for asthma simulation. In some aspects of the present disclosure, a system comprises: a patient simulator having a simulated body portion; and an asthma simulation module positioned within the simulated body portion, the asthma simulation module including: a first simulated lung; an adjustable valve along a first air path between a simulated trachea and the first simulated lung; and an air trapping module along a second air path between the simulated trachea and the first simulated lung.
The present disclosure provides interactive education systems, apparatus, components, and methods for teaching patient care. In some aspects of the present disclosure, a system comprises: a patient simulator having a simulated body portion; an air pressure sensor positioned within the simulated body portion; a first air chamber positioned within the patient simulator, the first air chamber in communication with the air pressure sensor; a mechanism for selectively contacting the first air chamber; and an adapter positioned outside the patient simulator, the adapter in communication with the air pressure sensor and configured to be in communication with an air line of an automated pressure monitoring apparatus.
The present disclosure provides interactive education systems, apparatus, components, and methods for teaching patient care. In some instances, devices, systems, and associated methods include air trapping techniques for asthma simulation. In some aspects of the present disclosure, a system comprises: a patient simulator having a simulated body portion; and an asthma simulation module positioned within the simulated body portion, the asthma simulation module including: a first simulated lung; an adjustable valve along a first air path between a simulated trachea and the first simulated lung; and an air trapping module along a second air path between the simulated trachea and the first simulated lung.
G09B 23/20 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for physics for atomic physics or nucleonics
G16H 50/50 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for simulation or modelling of medical disorders
9.
SIMULATION DEVICES, SYSTEMS, AND ASSOCIATED METHODS FOR USE WITH AUTOMATED BLOOD PRESSURE MONITORING
The present disclosure provides interactive education systems, apparatus, components, and methods for teaching patient care. In some aspects of the present disclosure, a system comprises: a patient simulator having a simulated body portion; an air pressure sensor positioned within the simulated body portion; a first air chamber positioned within the patient simulator, the first air chamber in communication with the air pressure sensor; a mechanism for selectively contacting the first air chamber; and an adapter positioned outside the patient simulator, the adapter in communication with the air pressure sensor and configured to be in communication with an air line of an automated pressure monitoring apparatus.
A patient simulator and corresponding method, according to which a control system and a simulated spine assembly are adapted to simulate human spinal motion. The simulated spine assembly includes a plurality of pivoting joints connected together. In one or more embodiments, the simulated spine assembly further includes one or more encoders adapted to monitor one or more relative positions of the plurality of pivoting joints, and to communicate the monitored one or more relative positions to the control system. In addition, or instead, in one or more embodiments, the simulated spine assembly further includes one or more sensors adapted to monitor one or more forces being applied to one or more of the plurality of pivoting joints, and to communicate the monitored one or more forces to the control system.
An augmented reality system including: a physical anatomic model; a display unit via which a user is adapted to receive first and second optic feedbacks, the first optic feedback emanating from the physical anatomic model and passing through the display unit, and the second optic feedback emanating from the display unit and including a virtual anatomic model; a tracking system adapted to track a position and orientation of the display unit; and a computing device adapted to: receive a first signal from the tracking system relating to the position and orientation of the display unit, and send a second signal to cause the display unit to overlay the second optic feedback on the first optic feedback, the second signal being based on the first signal. In some embodiments, the second optic feedback further includes ancillary virtual graphics such as medical data, instructional steps, expert demonstrations, didactic content, and exigent circumstances.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G06T 19/00 - Manipulating 3D models or images for computer graphics
G09B 5/06 - Electrically-operated educational appliances with both visual and audible presentation of the material to be studied
G09B 5/14 - Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations with provision for individual teacher-student communication
G09B 7/00 - Electrically-operated teaching apparatus or devices working with questions and answers
12.
Apparatus, systems, and methods for simulating urinary procedure(s)
A method, apparatus, and system according to which a patient simulator includes one or more of the following: a left eye assembly including a simulated left pupil, a simulated left eyelid, and/or a simulated left iris; a right eye assembly including a simulated right pupil, a simulated right eyelid, and/or a simulated right iris; a neck assembly including a simulated neck; a left brow assembly including a simulated left brow; a right brow assembly including a simulated right brow; a tear duct assembly including simulated left and right cheeks through which artificial pores are formed; and a mouth assembly including a simulated mouth. In various embodiments, any one, or a combination, of these assemblies may be, include, or be part of, a manikin in the form of a human face, and may therefore be activated simultaneously to realistically simulate life-like human emotional states.
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect, multi-layer tissue simulations are provided. In another aspect, male genitalia models are provided. In another aspect, abdominal surgical wall inserts are provided. Systems and methods associated with these devices are also provided.
G09B 23/34 - Anatomical models with removable parts
B29C 39/02 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles
B29C 39/10 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles incorporating preformed parts or layers, e.g. casting around inserts or for coating articles
B29C 39/12 - Making multilayered or multicoloured articles
A patient simulator may include a pump, a compressor, a power source, and a simulated torso in which the pump, the compressor, and the power source are contained. The compressor may include an inlet to which a bellows is coupled. A head coupling may detachably couple a simulated neck to the simulated torso. Similarly, an extremity coupling may detachably couple a simulated lower extremity to a simulated upper extremity, which simulated upper extremity is coupled to the simulated torso. The pump, the compressor, and/or the power source may provide hydraulic fluid, pneumatic fluid, and or electrical power, respectively, into: the simulated neck via the head coupling; or the simulated lower extremity via the extremity coupling. In addition, or instead, the patient simulator may include an invasive blood pressure (IBP) assembly having an armature adapted to contact a tube to change a fluid pressure in the IBP assembly.
Simulator systems for teaching patient care are provided. In some instances, the simulator system includes a master computer module positioned within a patient body and configured to communicate simulation commands to a pneumatic module also positioned within the patient body and spaced from the master computer module. A compressor module is configured to control a compressor to supply compressed air from the compressor to the pneumatic module. The pneumatic module includes a processor configured to execute the simulation commands received from the master computer module to control a physically simulated body part of the patient body with the supplied compressed air.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G16H 50/50 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for simulation or modelling of medical disorders
G16Z 99/00 - Subject matter not provided for in other main groups of this subclass
19.
Interactive education system for teaching patient care
Apparatus and methods according to which a simulated eye includes a simulated iris and a simulated pupil. An iris optical sensor is positioned behind the simulated eye and adapted to: sense a condition of light passing through the simulated pupil; and send, based on the sensed light condition, a first electrical signal. An iris motor is mechanically coupled to the simulated iris and adapted to: receive a second electrical signal; and change, based on the received second electrical signal, a size of the simulated iris. In some embodiments, an iris size sensor is adapted to: sense the size of the simulated iris; and send, based on the sensed size of the simulated iris, a third electrical signal. The second electrical signal may include or be based on the first electrical signal, the second electrical signal, or both.
A system including a simulated respiratory sub-system and a simulated airway subsystem. The simulated respiratory sub-system comprises simulated lung(s) and, optionally, a lung compliance assembly and a compliance motor. The lung compliance assembly has a backing plate and a pressure plate between which the simulated lungs are positioned. The compliance motor is configured to adjust a clamping force exerted by the pressure plate on the simulated lungs to simulate clinical presentation of lung compliance. The simulated airway subsystem comprises an airway unit and, optionally, a trachea tube and a trachea tubing depth sensor. The airway unit has a mouth cavity and an internal airway via which the mouth cavity communicates with the simulated lung(s). The trachea tube is in communication with the internal airway and operably coupled to the airway unit. The trachea tubing depth sensor ensures proper execution of an intratracheal training procedure.
An apparatus and method of controlling an eye assembly of a patient simulator. The method generally includes receiving, via a data input device, one or more inputs, transmitting the one or more inputs to a controller in communication with the data input device, and controlling, using the controller and based on the one or more inputs, the eye assembly of the patient simulator to simulate ocular disease, which ocular disease includes nystagmus, blepharospasm, ptosis, idling, or a combination of two or more thereof.
A patient simulator system includes a fetal patient simulator including a simulated torso and a simulated head attached to the simulated torso and being moveable in relation to the simulated torso between a neutral position and a raised position. An actuator is configured to raise the simulated head from the neutral position to the raised position. The actuator may be disposed within the simulated head of the fetal patient simulator. The patient simulator system may further include a maternal patient simulator in which the fetal patient simulator is adapted to be disposed to simulate a birthing scenario. The actuator may raise the simulated head from the neutral position to the raised position during the birthing scenario to simulate the rise of a natural fetus's head during birth. The actuator may comprise an inflatable bag or other member positioned outside of the fetal patient simulator and within the maternal patient simulator.
A patient simulator system including a simulated head and a simulated fontanelle. The simulated head includes an endoskeleton skull and a skin layer. The simulated fontanelle is incorporated into the skin layer. The endoskeleton skull includes an indented fontanelle region. A fontanelle fitting and a pulse fitting each extend through the endoskeleton skull adjacent the indented fontanelle region. The simulated fontanelle comprises a fontanelle bladder extending within the indented fontanelle region and a pulse bladder extending adjacent the fontanelle bladder. The fontanelle bladder is operably coupled to the fontanelle fitting and communicates with a simulated respiratory system of the patient simulator system to receive either positive or negative pressure, which produces either a swollen or sunken state in the simulated fontanelle. The pulse bladder is operably coupled to the pulse fitting and communicates with a simulated circulatory system of the patient simulator system to receive a pneumatic or hydraulic pulse.
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect, multi-layer tissue simulations are provided. In another aspect, male genitalia models are provided. In another aspect, abdominal surgical wall inserts are provided. Systems and methods associated with these devices are also provided.
G09B 23/34 - Anatomical models with removable parts
B29C 39/02 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles
B29C 39/10 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles incorporating preformed parts or layers, e.g. casting around inserts or for coating articles
B29C 39/12 - Making multilayered or multicoloured articles
25.
Combat medical simulators and associated systems and methods
Devices, systems, and methods appropriate for use in combat medical training are provided. In some instances, the combat medical simulators facilitate training of common field medical techniques including tracheostomy, wound care, tourniquet use, pneumothorax, cardiopulmonary resuscitation, and/or other medical treatments. Further, the combat medical simulators have joints that provide realistic ranges of motions to enhance the realism of the training experience.
A method and apparatus according to which a patient simulator includes one or more of the following: a left eye assembly including a simulated left pupil, a simulated left eyelid, and/or a simulated left iris; a right eye assembly including a simulated right pupil, a simulated right eyelid, and/or a simulated right iris; a neck assembly including a simulated neck; a left brow assembly including a simulated left brow; a right brow assembly including a simulated right brow; a tear duct assembly including simulated left and right cheeks through which artificial pores are formed; and a mouth assembly including a simulated mouth. In various embodiments, any one, or a combination, of these assemblies may be, include, or be part of, a manikin in the form of a human face, and may therefore be activated simultaneously to realistically simulate life-like human facial features/expressions.
Devices, systems, and methods appropriate for use in medical training are disclosed. In some instances, a patient simulator system is provided that includes a maternal patient simulator and a fetal patient simulator. The maternal patient simulator includes an internal chamber sized to receive the fetal patient simulator and a birthing mechanism disposed within the internal chamber configured to translate and rotate the fetal patient simulator with respect to the maternal patient simulator to simulate a birth. In some instances, the maternal patient simulator includes a structural framework and a sub-layer engaged with the structural framework to provide structural support and alignment features for one or more soft silicon outer layers defining a realistic skin of the maternal patient simulator.
An augmented reality system including: a physical anatomic model; a display unit via which a user is adapted to receive first and second optic feedbacks, the first optic feedback emanating from the physical anatomic model and passing through the display unit, and the second optic feedback emanating from the display unit and including a virtual anatomic model; a tracking system adapted to track a position and orientation of the display unit; and a computing device adapted to: receive a first signal from the tracking system relating to the position and orientation of the display unit, and send a second signal to cause the display unit to overlay the second optic feedback on the first optic feedback, the second signal being based on the first signal. In some embodiments, the second optic feedback further includes ancillary virtual graphics such as medical data, instructional steps, expert demonstrations, didactic content, and exigent circumstances.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G06T 19/00 - Manipulating 3D models or images for computer graphics
G09B 5/06 - Electrically-operated educational appliances with both visual and audible presentation of the material to be studied
G09B 5/14 - Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations with provision for individual teacher-student communication
G09B 7/00 - Electrically-operated teaching apparatus or devices working with questions and answers
30.
AUGMENTED REALITY SYSTEM FOR TEACHING PATIENT CARE
An augmented reality system including: a physical anatomic model; a display unit via which a user is adapted to receive first and second optic feedbacks, the first optic feedback emanating from the physical anatomic model and passing through the display unit, and the second optic feedback emanating from the display unit and including a virtual anatomic model; a tracking system adapted to track a position and orientation of the display unit; and a computing device adapted to: receive a first signal from the tracking system relating to the position and orientation of the display unit, and send a second signal to cause the display unit to overlay the second optic feedback on the first optic feedback, the second signal being based on the first signal. In some embodiments, the second optic feedback further includes ancillary virtual graphics such as medical data, instructional steps, expert demonstrations, didactic content, and exigent circumstances.
Devices, systems, and methods appropriate for use in medical training using a patient simulator and various anatomical inserts. One such system generally includes a patient simulator and an anatomical insert, the patient simulator including a simulated vascular system, and the anatomical insert being fluidically couplable to the simulated vascular system and including a simulated artery and a simulated vein. When the anatomical insert is fluidically coupled to the simulated vascular system, the simulated vascular system is adapted to pressurize the simulated artery and the simulated vein with a blood-like fluid to simulate natural arteries and veins. Moreover, when the simulated vascular system pressurizes the simulated artery and the simulated vein with the blood-like fluid, the simulated vascular system is adapted to provide a pulsatile flow of the blood-like fluid to the simulated artery and a steady flow of the blood-like fluid to the simulated vein.
An apparatus and method according to which a patient simulator is used to simulate a human patient's breathing pattern, the patient simulator including a simulated respiratory system and a simulated airway system. The simulated respiratory system includes a lung valve, a simulated lung in communication with the lung valve, and a breathing pump including a cylinder and a piston dividing the cylinder into first and second chambers, the first chamber being in communication with the lung valve via at least a first flow path, and the second chamber being in communication with the lung valve via at least a second flow path. The simulated airway system is configured to be in communication with the second chamber of the breathing pump via at least a third flow path. In several exemplary embodiments, simulating, using the patient simulator, the human patient's breathing pattern comprises reciprocating the piston within the cylinder.
An apparatus and method according to which a patient simulator is used to simulate a human patient's breathing pattern, the patient simulator including a simulated respiratory system and a simulated airway system. The simulated respiratory system includes a lung valve, a simulated lung in communication with the lung valve, and a breathing pump including a cylinder and a piston dividing the cylinder into first and second chambers, the first chamber being in communication with the lung valve via at least a first flow path, and the second chamber being in communication with the lung valve via at least a second flow path. The simulated airway system is configured to be in communication with the second chamber of the breathing pump via at least a third flow path. In several examplary embodiments, simulating, using the patient simulator, the human patient's breathing pattern comprises reciprocating the piston within the cylinder.
A patient simulator having a right eye assembly including a right pupil, a right eyelid assembly including a right eyelid, a left eye assembly including a left pupil, a left eyelid assembly including a left eyelid, a transmitter configured to transmit a signal toward an object placed in front of the patient simulator, a sensor configured to sense a signal reflected off the object, and a microprocessor configured to determine a location of the object based on the sensed signal, and to effect movement of one or more of the right pupil, the right eyelid, the left eye, or the left eyelid based on the determined location of the object.
Simulator systems for teaching patient care are provided. In some instances, the simulator system includes a maternal simulator sized and shaped to simulate a pregnant woman, the maternal simulator including a torso, arms, legs, and a head, wherein the torso includes a chamber sized and shaped to receive a fetal simulator and wherein a birthing mechanism is disposed within the chamber for providing rotational and translational movement to the fetal simulator in a birthing simulation; and a fetal simulator sized and shaped to simulate a fetus, the fetal simulator configured to be selectively engaged with the birthing mechanism of the maternal simulator.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G16H 50/50 - ICT specially adapted for medical diagnosis, medical simulation or medical data miningICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for simulation or modelling of medical disorders
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
36.
Combat medical simulators and associated systems and methods
Devices, systems, and methods appropriate for use in combat medical training are provided. In some instances, the combat medical simulators facilitate training of common field medical techniques including tracheostomy, wound care, tourniquet use, pneumothorax, cardiopulmonary resuscitation, and/or other medical treatments. Further, the combat medical simulators have joints that provide realistic ranges of motions to enhance the realism of the training experience.
Patient simulator systems for teaching patient care are provided. In some instances, the patient simulator systems include a patient body comprising one or more simulated body portions. Generally, the patient simulator systems of the present disclosure provide physiological modeling. In one embodiment, the patient simulator includes a maternal simulator comprising a maternal circulatory model, a maternal cardiac ischemia model, and a maternal respiratory model and a fetal simulator comprising a fetal circulatory model, a fetal cardiac ischemia model, and a fetal central nervous system model. A controller in communication with the maternal and fetal simulators coordinates parameters of the maternal circulatory model, the maternal cardiac ischemia model, the maternal respiratory model, the fetal circulatory model, the fetal cardiac ischemia model, and the fetal central nervous system model to simulate physiological characteristics of a natural mother and fetus. Methods of utilizing the patient simulator systems are also provided.
Simulated pregnant abdominal systems and associated devices, systems, and methods are provided. The pregnant abdominal systems allow an interactive scenario simulating a routine gestation palpation of a fetal baby, the performance of an external cephalic version as well as the Leopold's Maneuvers. Further, the pregnant abdominal systems can be used as a platform to physically hear the fetus heartbeat using stethoscope, Doppler instrument, or a prenatal monitor. Further, in some implementations the fetus can be visualized using standard ultrasound systems.
G09B 23/34 - Anatomical models with removable parts
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
B29C 41/04 - Rotational or centrifugal casting, i.e. coating the inside of a mould by rotating the mould
B29C 45/14 - Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mouldApparatus therefor incorporating preformed parts or layers, e.g. injection moulding around inserts or for coating articles
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect, multi-layer tissue simulations are provided. In another aspect, male genitalia models are provided. In another aspect, abdominal surgical wall inserts are provided. Systems and methods associated with these devices are also provided.
G09B 23/34 - Anatomical models with removable parts
B29C 39/02 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles
B29C 39/10 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles incorporating preformed parts or layers, e.g. casting around inserts or for coating articles
B29C 39/12 - Making multilayered or multicoloured articles
Devices, systems, and methods appropriate for use in medical training are disclosed. In some instances, a patient simulator system is provided that includes a maternal patient simulator and a fetal patient simulator. The maternal patient simulator includes an internal chamber sized to receive the fetal patient simulator and a birthing mechanism disposed within the internal chamber configured to translate and rotate the fetal patient simulator with respect to the maternal patient simulator to simulate a birth. In some instances, the fetal patient simulator an internal support structure that includes spinal components, left arm components, right arm components, left leg components, and right leg components with a skin layer covering the internal support structure.
A patient simulator system includes a right eye assembly including a right eyelid and a right pupil, and a left eye assembly including a left eyelid and a left pupil, wherein the right pupil moves within an area of the right eye and the left pupil moves within an area of the left eye. In various embodiments, right/left optical sensors provide right/left electrical signals based on sensed light conditions associated with the right/left eyes, and a microprocessor changes a size of the right iris based on the right electrical signal, and changes a size of the left iris based on the left electrical signal. In various embodiments, the microprocessor electrically actuates at least one blink motor to rotate, wherein rotation of the at least one blink motor results in motion of the right eyelid and/or the left eyelid to simulate blinking.
Simulator systems for teaching patient care are provided. In some instances, the simulator system includes a maternal simulator sized and shaped to simulate a pregnant woman, the maternal simulator including a torso, arms, legs, and a head, wherein the torso includes a chamber sized and shaped to receive a fetal simulator and wherein a birthing mechanism is disposed within the chamber for providing rotational and translational movement to the fetal simulator in a birthing simulation; and a fetal simulator sized and shaped to simulate a fetus, the fetal simulator configured to be selectively engaged with the birthing mechanism of the maternal simulator.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect a polysiloxane mixture for simulating human biological tissue, especially human breast tissue, is disclosed. In another aspect, a method of manufacturing a biological tissue ultrasound phantom is disclosed. In another aspect, a human breast tissue models are disclosed. In some instances, the human breast tissue model includes at least one simulated pathological structure that simulates such pathologies as a cyst, a medullary carcinoma, a ductal carcinoma, an infiltrating scirrhus carcinoma, a lobular carcinoma, and a fibroadenoma.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
B29C 39/00 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor
B29C 39/02 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles
B29C 39/10 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles incorporating preformed parts or layers, e.g. casting around inserts or for coating articles
Devices, systems, and methods appropriate for use in combat medical training are provided. In some instances, the combat medical simulators facilitate training of common field medical techniques including tracheostomy, wound care, tourniquet use, pneumothorax, cardiopulmonary resuscitation, and/or other medical treatments. Further, the combat medical simulators have joints that provide realistic ranges of motions to enhance the realism of the training experience.
09 - Scientific and electric apparatus and instruments
Goods & Services
Medical simulators [teaching aids]; teaching apparatus and instruments; patient care simulators, namely, manikins used in medical education and training; interactive patient care simulators, namely, manikins and parts thereof, for teaching patient care to a user and for practicing medical protocols.
09 - Scientific and electric apparatus and instruments
10 - Medical apparatus and instruments
Goods & Services
Medical simulators [teaching aids]; teaching apparatus and instruments; patient care simulators used in education and training; interactive patient care simulators, namely, manikins and parts thereof, for teaching patient care to a user and for practicing medical protocols; gynaecological simulators. Gynaecological medical instruments.
09 - Scientific and electric apparatus and instruments
Goods & Services
Medical simulators [teaching aids]; teaching apparatus and instruments; training aids; training aids, namely, models in the nature of anatomical, biological, zoological models, such as models of various organs and parts of the human body and models of plants and animals; patient care simulators, such as manikins (or parts thereof) for use in the instructional and training fields.
09 - Scientific and electric apparatus and instruments
Goods & Services
Medical simulators [teaching aids]; teaching apparatus and instruments; patient care simulators used in education and training; interactive patient care simulators, namely, manikins and parts thereof, for teaching patient care to a user and for practicing medical protocols.
09 - Scientific and electric apparatus and instruments
Goods & Services
Medical simulators [teaching aids]; teaching apparatus and instruments; patient care simulators used in education and training; interactive patient care simulators, namely, manikins and parts thereof, for teaching patient care to a user and for practicing medical protocols.
09 - Scientific and electric apparatus and instruments
Goods & Services
Medical simulators [teaching aids]; teaching apparatus and instruments; patient care simulators, namely, manikins for use in instructional and training fields; interactive patient care simulators, namely, manikins and parts thereof, for teaching patient care to a user and for practicing medical protocols.
51.
Lung compliance simulation system and associated methods
A patient simulator system for teaching patient care is provided. The system includes a patient simulator. The patient simulator includes a patient body comprising one or more simulated body portions. The one or more simulated body portions include a lung compliance simulation system in some instances. In that regard, the lung compliance system is configured to be used with an external ventilator, including positive end-expiratory pressure (PEEP) and assisted-control ventilation. In some instances, the lung compliance system includes a lung compartment, a simulated lung positioned within the lung compartment, where the lung compartment defines an available volume for the simulated lung to expand into and where the available volume for the simulated lung to expand into is adjustable to control a compliance of the simulated lung.
Devices, systems, and methods appropriate for use in medical training using a patient simulator, various anatomical inserts, and an integrated camera and computer system are disclosed. In some instances, a surgical simulator is provided that includes a uterine assembly. The uterine assembly simulates the appearance and feel of natural tissue and includes a plurality of materials arranged and dimensioned to simulate anatomic structures such as a right fallopian tube, a left fallopian tube, a right ovary, a left ovary, a uterus having a cervix, a bladder, ureters, a peritoneum, a uterine artery, a uterine vein, a plurality of ligaments, an ovarian artery, an ovarian vein, a perineum, and a vagina. In some implementations, at least the uterine artery, uterine vein, ovarian artery, and ovarian vein are in communication with a fluid supply such that each is pressurized with a blood-like fluid to simulate natural arteries and veins.
Simulator systems for teaching patient care are provided. In some instances, the simulator system includes a maternal simulator sized and shaped to simulate a pregnant woman, the maternal simulator including a torso, arms, legs, and a head, wherein the torso includes a chamber sized and shaped to receive a fetal simulator and wherein a birthing mechanism is disposed within the chamber for providing rotational and translational movement to the fetal simulator in a birthing simulation; and a fetal simulator sized and shaped to simulate a fetus, the fetal simulator configured to be selectively engaged with the birthing mechanism of the maternal simulator.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
A patient simulator system for teaching patient care is provided. The system includes a patient simulator. The patient simulator includes a patient body comprising one or more simulated body portions. The one or more simulated body portions include a lung compliance simulation system in some instances. In that regard, the lung compliance system is configured to be used with an external ventilator, including positive end-expiratory pressure (PEEP) and assisted-control ventilation. In some instances, the lung compliance system includes a lung compartment, a simulated lung positioned within the lung compartment, where the lung compartment defines an available volume for the simulated lung to expand into and where the available volume for the simulated lung to expand into is adjustable to control a compliance of the simulated lung.
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect a polysiloxane mixture for simulating human biological tissue, especially human breast tissue, is disclosed. In another aspect, a method of manufacturing a biological tissue ultrasound phantom is disclosed. In another aspect, a human breast tissue models are disclosed. In some instances, the human breast tissue model includes at least one simulated pathological structure that simulates such pathologies as a cyst, a medullary carcinoma, a ductal carcinoma, an infiltrating scirrhus carcinoma, a lobular carcinoma, and a fibroadenoma.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
B29C 39/00 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor
B29C 39/02 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles
B29C 39/10 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles incorporating preformed parts or layers, e.g. casting around inserts or for coating articles
Patient simulator systems for teaching patient care are provided. In some instances, the patient simulator systems include a patient body comprising one or more simulated body portions. Generally, the patient simulator systems of the present disclosure provide physiological modeling. In one embodiment, the patient simulator includes a maternal simulator comprising a maternal circulatory model, a maternal cardiac ischemia model, and a maternal respiratory model and a fetal simulator comprising a fetal circulatory model, a fetal cardiac ischemia model, and a fetal central nervous system model. A controller in communication with the maternal and fetal simulators coordinates parameters of the maternal circulatory model, the maternal cardiac ischemia model, the maternal respiratory model, the fetal circulatory model, the fetal cardiac ischemia model, and the fetal central nervous system model to simulate physiological characteristics of a natural mother and fetus. Methods of utilizing the patient simulator systems are also provided.
Devices, systems, and methods appropriate for use in medical training are disclosed. In some instances, a patient simulator system is provided that includes a maternal patient simulator and a fetal patient simulator. The maternal patient simulator includes an internal chamber sized to receive the fetal patient simulator and a birthing mechanism disposed within the internal chamber configured to translate and rotate the fetal patient simulator with respect to the maternal patient simulator to simulate a birth. In some instances, the fetal patient simulator an internal support structure that includes a head, spinal components, left arm components, right arm components, left leg components, and right leg components with a continuous silicon skin layer covering the internal support structure.
Devices, systems, and methods appropriate for use in medical training are disclosed. In some instances, a patient simulator system is provided that includes a maternal patient simulator and a fetal patient simulator. The maternal patient simulator includes an internal chamber sized to receive the fetal patient simulator and a birthing mechanism disposed within the internal chamber configured to translate and rotate the fetal patient simulator with respect to the maternal patient simulator to simulate a birth. In some instances, the fetal patient simulator an internal support structure that includes a head, spinal components, left arm components, right arm components, left leg components, and right leg components with a continuous silicon skin layer covering the internal support structure.
Devices, systems, and methods appropriate for use in medical training are disclosed. In some instances, a patient simulator system is provided that includes a maternal patient simulator and a fetal patient simulator. The maternal patient simulator includes an internal chamber sized to receive the fetal patient simulator and a birthing mechanism disposed within the internal chamber configured to translate and rotate the fetal patient simulator with respect to the maternal patient simulator to simulate a birth. In some instances, the fetal patient simulator an internal support structure that includes a head, spinal components, left arm components, right arm components, left leg components, and right leg components with a continuous silicon skin layer covering the internal support structure.
Devices, systems, and methods appropriate for use in medical training are provided. In some implementations, the devices, systems, and methods are not dependent on external power supplies or internal batteries. A patient simulator is provided that includes a simulated patient body portion; and an electric-harvesting system positioned within the simulated patient body portion. The electric-harvesting system converts mechanical energy applied to the simulated patient body portion into electric energy for use by one or more components of the simulated body portion.
Simulated pregnant abdominal systems and associated devices, systems, and methods are provided. The pregnant abdominal systems allow an interactive scenario simulating a routine gestation palpation of a fetal baby, the performance of an external cephalic version as well as the Leopold's Maneuvers. Further, the pregnant abdominal systems can be used as a platform to physically hear the fetus heartbeat using stethoscope, Doppler instrument, or a prenatal monitor. Further, in some implementations the fetus can be visualized using standard ultrasound systems.
G09B 23/34 - Anatomical models with removable parts
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
B29C 41/04 - Rotational or centrifugal casting, i.e. coating the inside of a mould by rotating the mould
B29C 45/14 - Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mouldApparatus therefor incorporating preformed parts or layers, e.g. injection moulding around inserts or for coating articles
An eye assembly for use in a patient simulator is provided. The eye assembly includes an iris diaphragm having a moveable inner portion defining an opening. The inner portion of the iris diaphragm is movable radially from a first position wherein the opening has a first diameter and a second position wherein the opening has a second diameter greater than the first diameter. The iris diaphragm is configured for use in a simulated eye. The eye assembly also includes a dilation actuator in communication with the inner portion of the iris diaphragm for selectively moving the inner portion between the first and second positions to simulate dilation of an eye.
A patient simulator system for teaching patient care is provided. The system includes a patient simulator. The patient simulator includes a patient body comprising one or more simulated body portions. The one or more simulated body portions include a lung compliance simulation system in some instances. In that regard, the lung compliance system is configured to be used with an external ventilator, including positive end-expiratory pressure (PEEP) and assisted-control ventilation. In some instances, the lung compliance system includes a lung compartment, a simulated lung positioned within the lung compartment, where the lung compartment defines an available volume for the simulated lung to expand into and where the available volume for the simulated lung to expand into is adjustable to control a compliance of the simulated lung.
Devices, systems, and methods appropriate for use in combat medical training are provided. In some instances, the combat medical simulators facilitate training of common field medical techniques including tracheostomy, wound care, tourniquet use, pneumothorax, cardiopulmonary resuscitation, and/or other medical treatments. Further, the combat medical simulators have joints that provide realistic ranges of motions to enhance the realism of the training experience.
Devices, systems, and methods appropriate for use in medical training using a patient simulator, various anatomical inserts, and an integrated camera and computer system are disclosed. In some instances, a surgical simulator is provided that includes a uterine assembly. The uterine assembly simulates the appearance and feel of natural tissue and includes a plurality of materials arranged and dimensioned to simulate anatomic structures such as a right fallopian tube, a left fallopian tube, a right ovary, a left ovary, a uterus having a cervix, a bladder, ureters, a peritoneum, a uterine artery, a uterine vein, a plurality of ligaments, an ovarian artery, an ovarian vein, a perineum, and a vagina. In some implementations, at least the uterine artery, uterine vein, ovarian artery, and ovarian vein are in communication with a fluid supply such that each is pressurized with a blood-like fluid to simulate natural arteries and veins.
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect, methods of forming multi-layer tissue simulations are provided. In another aspect, methods of forming a male genitalia model are provided. In another aspects, methods of forming an abdominal surgical wall insert are provided. Devices and systems associated with these methods are also provided.
B29C 39/10 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles incorporating preformed parts or layers, e.g. casting around inserts or for coating articles
B29C 39/12 - Making multilayered or multicoloured articles
G09B 23/34 - Anatomical models with removable parts
B29C 39/02 - Shaping by casting, i.e. introducing the moulding material into a mould or between confining surfaces without significant moulding pressureApparatus therefor for making articles of definite length, i.e. discrete articles
70.
Lung compliance simulation system and associated methods
A patient simulator system for teaching patient care is provided. The system includes a patient simulator. The patient simulator includes a patient body comprising one or more simulated body portions. The one or more simulated body portions include a lung compliance simulation system in some instances. In that regard, the lung compliance system is configured to be used with an external ventilator, including positive end-expiratory pressure (PEEP) and assisted-control ventilation. In some instances, the lung compliance system includes a lung compartment, a simulated lung positioned within the lung compartment, where the lung compartment defines an available volume for the simulated lung to expand into and where the available volume for the simulated lung to expand into is adjustable to control a compliance of the simulated lung.
Devices, systems, and methods appropriate for use in medical training including materials that better mimic natural human tissue are disclosed. In one aspect a polysiloxane mixture for simulating human biological tissue, especially human breast tissue, is disclosed. Another aspect, a method of manufacturing a biological tissue phantom is disclosed. In another aspect, a human breast tissue models are disclosed. In one instances, the human breast tissue model comprises a simulated breast tissue comprising a mixture of a silicone foam and a silicone oil and a simulated skin layer covering the simulated breast tissue, where the simulated breast tissue and the simulated skin layer are sized and shaped to mimic a natural human breast. Sometimes, the human breast tissue model includes at least one simulated pathological structure that simulates such pathologies as a cyst, a medullary carcinoma, a ductal carcinoma, an infiltrating scirrhus carcinoma, a lobular carcinoma, and a fibroadenoma.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
B29C 44/00 - Shaping by internal pressure generated in the material, e.g. swelling or foaming
B29C 35/02 - Heating or curing, e.g. crosslinking or vulcanising
C08L 83/00 - Compositions of macromolecular compounds obtained by reactions forming in the main chain of the macromolecule a linkage containing silicon with or without sulfur, nitrogen, oxygen, or carbon onlyCompositions of derivatives of such polymers
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect a polysiloxane mixture for simulating human biological tissue, especially human breast tissue, is disclosed. In another aspect, a method of manufacturing a biological tissue ultrasound phantom is disclosed. In another aspect, a human breast tissue models are disclosed. In some instances, the human breast tissue model includes at least one simulated pathological structure that simulates such pathologies as a cyst, a medullary carcinoma, a ductal carcinoma, an infiltrating scirrhus carcinoma, a lobular carcinoma, and a fibroadenoma.
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect a polysiloxane mixture for simulating human biological tissue, especially human breast tissue, is disclosed. In another aspect, a method of manufacturing a biological tissue phantom is disclosed. In another aspect, a human breast tissue models are disclosed. In one instances, the human breast tissue model comprises a simulated breast tissue comprising a mixture of a silicone foam and a silicone oil and a simulated skin layer covering the simulated breast tissue, where the simulated breast tissue and the simulated skin layer are sized and shaped to mimic a natural human breast. In some instances, the human breast tissue model includes at least one simulated pathological structure that simulates such pathologies as a cyst, a medullary carcinoma, a ductal carcinoma, an infiltrating scirrhus carcinoma, a lobular carcinoma, and a fibroadenoma.
A patient simulator system for teaching patient care is provided. The system includes a patient simulator. The patient simulator includes a patient body comprising one or more simulated body portions. The one or more simulated body portions include at least one simulated finger that is configured to interface with a pulse oximeter to simulate an oxygen saturation of the patient simulator. In some instances, the simulated finger is further configured to interface with the pulse oximeter to simulate a pulse rate of the patient simulator. In some embodiments, the simulated finger may be calibrated to accurately interface with a particular pulse oximeter. Methods of utilizing the patient simulator systems, including the simulated finger for interfacing with a pulse oximeter, are also provided.
Patient simulator systems for teaching patient care are provided. In some instances, the patient simulator systems include a patient body comprising one or more simulated body portions. Generally, the patient simulator systems of the present disclosure provide physiological modeling. In one embodiment, the patient simulator includes a maternal simulator comprising a maternal circulatory model, a maternal cardiac ischemia model, and a maternal respiratory model and a fetal simulator comprising a fetal circulatory model, a fetal cardiac ischemia model, and a fetal central nervous system model. A controller in communication with the maternal and fetal simulators coordinates parameters of the maternal circulatory model, the maternal cardiac ischemia model, the maternal respiratory model, the fetal circulatory model, the fetal cardiac ischemia model, and the fetal central nervous system model to simulate physiological characteristics of a natural mother and fetus. Methods of utilizing the patient simulator systems are also provided.
Patient simulator systems for teaching patient care are provided. In some instances, the patient simulator systems include a patient body comprising one or more simulated body portions. Generally, the patient simulator systems of the present disclosure provide physiological modeling. In one embodiment, the patient simulator includes a maternal simulator comprising a maternal circulatory model, a maternal cardiac ischemia model, and a maternal respiratory model and a fetal simulator comprising a fetal circulatory model, a fetal cardiac ischemia model, and a fetal central nervous system model. A controller in communication with the maternal and fetal simulators coordinates parameters of the maternal circulatory model, the maternal cardiac ischemia model, the maternal respiratory model, the fetal circulatory model, the fetal cardiac ischemia model, and the fetal central nervous system model to simulate physiological characteristics of a natural mother and fetus. Methods of utilizing the patient simulator systems are also provided.
Devices, systems, and methods appropriate for use in medical training that include materials that better mimic natural human tissue are disclosed. In one aspect a polysiloxane mixture for simulating human biological tissue, especially human breast tissue, is disclosed. In another aspect, a method of manufacturing a biological tissue ultrasound phantom is disclosed. In another aspect, a human breast tissue models are disclosed. In some instances, the human breast tissue model includes at least one simulated pathological structure that simulates such pathologies as a cyst, a medullary carcinoma, a ductal carcinoma, an infiltrating scirrhus carcinoma, a lobular carcinoma, and a fibroadenoma.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
G01N 29/00 - Investigating or analysing materials by the use of ultrasonic, sonic or infrasonic wavesVisualisation of the interior of objects by transmitting ultrasonic or sonic waves through the object
G01N 37/00 - Details not covered by any other group of this subclass
A61B 8/00 - Diagnosis using ultrasonic, sonic or infrasonic waves
78.
INTERACTIVE EDUCATION SYSTEM FOR TEACHING PATIENT CARE
A patient simulator system for teaching patient care is provided. The system includes a patient simulator. The patient simulator includes a patient body comprising one or more simulated body portions. The one or more simulated body portions include a lung compliance simulation system in some instances. In that regard, the lung compliance system is configured to be used with an external ventilator, including positive end-expiratory pressure (PEEP) and assisted-control ventilation. In some instances, the lung compliance system includes a lung compartment, a simulated lung positioned within the lung compartment, where the lung compartment defines an available volume for the simulated lung to expand into and where the available volume for the simulated lung to expand into is adjustable to control a compliance of the simulated lung.
09 - Scientific and electric apparatus and instruments
Goods & Services
patient care simulators, namely, manikins used in medical education and training; handheld controller devices that interface with patient care simulators and computers for use in health care education and medical training; software user interface for use with patient care simulators used in education/training; monitoring system comprising computer hardware and software for instruction and training in monitoring vital signs using patient care simulators
Patient simulators, methods, and systems for teaching patient care are provided. The patient simulators and systems include one or more a patient bodies comprising one or more simulated body portions. A respiratory system is positioned within the patient body. The respiratory system includes a pair of lungs and is configured to simulate a respiratory pattern of a patient. A circulatory system is also positioned within the patient body. The circulatory system is configured to simulate at least one circulatory parameter of the patient. The system also includes a control system in communication with the patient simulator. The control system includes a respiratory physiological model for controlling the simulated respiratory pattern of the respiratory system and a circulatory physiological model for controlling the at least one circulatory parameter of the circulatory system. The respiratory physiological model is configured to adjust the simulated respiratory pattern of the respiratory system at least partially based on a treatment administered to the patient simulator by a user. The patient simulator is operable without physical connection to an external device. In some instances, the systems include both a maternal simulator and a fetal simulator, wherein the physiological conditions of the maternal and fetal simulators are linked to one another.
A newborn simulator for teaching patient care is provided. The newborn simulator includes a body comprising one or more simulated body portions sized to simulate a newborn baby and a head portion movably connected to a portion of the body. A simulated heart is positioned at least partially within the body along with a pair of simulated lungs. The simulator is operable without physical connection to an external device to provide a simulated heart beat and respiratory pattern.
An interactive education system for teaching patient care to a user is described. The system comprises a patient simulator; a virtual instrument for use with the patient simulator in performing patient care activities; means for sensing an interaction between the virtual instrument and the simulator, and means for providing feedback to the user regarding the interaction between the virtual instrument and the simulator. In one aspect, the system includes a maternal simulator, a fetal simulator, and a neonatal simulator.
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
G09B 23/00 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes
09 - Scientific and electric apparatus and instruments
Goods & Services
monitoring system comprising computer hardware and software for instruction and training in monitoring vital signs using patient care simulators, namely, manikins
09 - Scientific and electric apparatus and instruments
Goods & Services
training aids; namely, models in the nature of anatomical, biological, zoological models, such as models of various organs and parts of the human body and models of plants and animals; and patient care simulators, such as mannequins (or parts thereof) for use in the instructional and training fields
09 - Scientific and electric apparatus and instruments
Goods & Services
TRAINING AIDS, NAMELY, THREE-DIMENSIONAL TEACHING MODELS IN THE NATURE OF MANNEQUINS FOR USE IN INSTRUCTION IN THE FIELD OF HOSPITAL TRAINING AND IN THE FIELD OF RESUSCITATION FOR EMERGENCY CARE
