The invention relates to a system for the control and visualization of medical devices positioned in a patient's body for ablation of a tumor, such as a uterine fibroid and, more particularly, to a user interface for visualizing an ultrasound image and dynamic 3D avatar guidance of an ablation probe during a surgical procedure, enabling the operator to make operational decisions based on those visualizations.
Advances in technology have resulted in graphical user interfaces that allow a practitioner or other medical professional to visualize a plurality of images obtained from multiple medical devices such as a laparoscopic cameras and ultrasound probes together on one screen. Current systems use simple picture in picture technology to view smaller laparoscopic camera images and ultrasound images on a larger guidance system screen.
Personal computer 20 also incorporates software 22. Software 22 may be of any type for use on any suitable computing device, and which may be easily written by a programmer of ordinary skill in the art who is informed by this specification. The software is responsive to produce images illustrated in the drawings and stored in memory 24 of computer 20. The software performs navigation functions by being responsive to touchscreen entry on display screen 18. Likewise, in response to operation by touching display screen 18, computer 20 may cause the screen to change in one of the ways described in full detail below.
Computer 20 communicates with a plurality of medical devices 26 through an interface board 28. Medical devices 26 include an ablation instrument, laparoscopic camera, and ultrasound probe, or any other instrument useful in imaging and treating uterine fibroids or other pelvic tumors. At the same time, medical devices 26 provide information to interface 28 which in turn provides this information to personal computer 20 for display on display screens 16 and 18.
Overlay 102 includes two text boxes 120, 122. Text box 120 is located under screen 104 and displays information relating to what is displayed on screen 104. For example, text box 120 may display the depth of the ultrasound.
Text box 122 is located under screen 106 and displays information relating to what is displayed on screen 106. For example, text box 122 may display the point of view of the image displayed on screen 106.
Overlay 102 has a meter 124 located in between screens 104, 106. Meter 124 indicates the distance between the tip of an ablation probe to the plane of an ultrasound scan. Meter 124 has hash marks 126 to indicate the distance from the tip of the ablation probe to the plane of the ultrasound scan. The central hash mark 128 is green and indicates that the tip of the ablation probe is in line with the plane of the ultrasound scan. The hash marks above central hash mark 128 are blue and indicate that the ablation needle is behind the plane of the ultrasound scan. The space between the hash marks increases the further away from central hash mark 128 you get. The hash marks below central hash mark 128 are yellow and indicate that the ablation needle is in front of the plane of the ultrasound scan. Meter 124 also has a sliding hash mark 130 that slides up and down meter 124 indicating the dynamic location of the tip of the ablation needle relative to the plane of the ultrasound scan. Sliding hash mark 130 is translucent, allowing the user to see the blue, yellow, or green hash mark underneath.
Screen 104 is used to display a virtually complete ultrasound screen in two dimensions. Screen 104 contains a photorealistic avatar of ultrasound shaft 132. Ultrasound shaft 132 is placed above the display of ultrasound beam 134 in order to provide orientation for ultrasound beam 134 to the user. This enables the user to easily see the direction the ablation probe is entering the ultrasound beam.
Screen 106 also displays icon 136, which indicates the direction the ultrasound beam is pointing in relation to the uterus of patient 12.
Icon 136 may be a depiction of a right hand with the letter “R” to indicate that ultrasound beam 134 is pointing towards the right hand of patient 12.
Icon 136 may be a depiction of a left hand with the letter “L” to indicate that ultrasound beam 134 is pointing towards the left hand of patient 12.
Icon 136 may be a depiction a person's head to indicate that ultrasound beam 134 is pointing towards the head of patient 12.
Icon 136 may also be a depiction of feet to indicate that ultrasound beam 134 is pointing towards the feet of patient 12.
Icon 136 will change in real time between these depictions depending on the direction ultrasound beam 134 is pointing. For instance, if a user moves an ultrasound beam from pointing towards the feet of a patient towards to the right hand of the patient, icon 136 will change from a depiction of feet to a depiction of a right hand with the letter R. This is done automatically without any input from the surgeon. The surgeon also has the capability to freeze the orientation view if desired.
The display of ultrasound beam 134 will also rotate direction depending upon the orientation of ultrasound beam 134. For example, in
Quadrant 302 is defined between 315 degrees to 45 degrees measured from the uterus. When the ultrasound probe is in quadrant 302, Icon 136 will display a depiction of a human foot since to view the uterus the ultrasound beam would have to be directed towards the patient's feet.
Quadrant 304 is defined between 45 degrees and 135 degrees. When the ultrasound probe is in quadrant 304, Icon 136 will display a depiction of a right human hand with the letter “R”.
Quadrant 306 is defined between 135 degrees and 225 degrees. When the ultrasound probe is in quadrant 306, Icon 136 will display a depiction of a human face in profile.
Quadrant 308 is defined between 225 degrees and 315 degrees. When the ultrasound probe is in quadrant 308, Icon 136 will display a depiction of a left human hand with the letter “L”.
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Control 110 has a depiction of a tool, and when selected allows a medical professional to change the display of the system.
Control 112 displays “3D,” and when selected allows a medical professional to view the guidance information on screen 106 in three dimension.
Control 114 has a depiction of a lock, and when selected allows a medical professional to freeze the point of view being displayed.
Control 116 has a depiction of a grid, and when selected displays a grid over the ultrasound data, which decreases the need for measurement of the dimensions of any tumors or masses being imaged.
Control 118 has a depiction of an ultrasound probe, and when selected brings screen 104 into full-screen, eliminating screen 106.
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Selecting control 112 (
Selecting control 114 (
Selecting control 116 (
Selecting control 118 (
It will be appreciated by those skilled in the art that changes can be made to the embodiments described above without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but it is intended to cover modifications that are within the spirit and scope of the invention, as defined by the appended claims.
This application is a continuation of U.S. patent application Ser. No. 18/315,452 filed on May 10, 2023, pending, which is a continuation of U.S. patent application Ser. No. 17/098,315 filed Nov. 13, 2020, now U.S. Pat. No. 11,678,860, which is a continuation of U.S. patent application Ser. No. 14/537,899 filed Nov. 10, 2014, now U.S. Pat. No. 10,835,203, which claims priority to U.S. Provisional Application Ser. No. 61/902,382, filed Nov. 11, 2013. The entireties of all of the above applications are hereby incorporated herein by reference.
Number | Date | Country | |
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61902382 | Nov 2013 | US |
Number | Date | Country | |
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Parent | 18315452 | May 2023 | US |
Child | 18759765 | US | |
Parent | 17098315 | Nov 2020 | US |
Child | 18315452 | US | |
Parent | 14537899 | Nov 2014 | US |
Child | 17098315 | US |