Systems and methods for wearable injection guides
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-034/10
A61M-005/42
B33Y-050/02
A61M-005/46
A61B-017/34
G06F-017/50
B29C-067/00
G05B-019/4099
B33Y-080/00
A61B-090/00
출원번호
US-0141622
(2016-04-28)
등록번호
US-10052159
(2018-08-21)
발명자
/ 주소
Bangera, Mahalaxmi Gita
Boyden, Edward S.
Chin, Hon Wah
Della Rocca, Gregory J.
Hawkins, Daniel
Hyde, Roderick A.
Ishikawa, Muriel Y.
Kare, Jordin T.
Langer, Robert
Leuthardt, Eric C.
Malaska, Stephen L.
Myckatyn, Terence
Parikh, Parag Jitendra
Rivet, Dennis J.
Shimony, Joshua S.
Smith, Michael A.
Sweeney, Elizabeth A.
Tegreene, Clarence T.
Wolda, Sharon L.
Wood, Jr., Lowell L.
출원인 / 주소
Elwha LLC
인용정보
피인용 횟수 :
0인용 특허 :
28
초록▼
Systems and methods for wearable injection guides are described, which include: acquiring one or more digital images of a body region of an individual with at least one image capture device; creating a digitally rendered model of a wearable injection guide from the one or more digital images of the
Systems and methods for wearable injection guides are described, which include: acquiring one or more digital images of a body region of an individual with at least one image capture device; creating a digitally rendered model of a wearable injection guide from the one or more digital images of the body region of the individual; adding one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide; and forming the wearable injection guide from the digitally rendered model of the wearable injection guide, the formed wearable injection guide including one or more fiducials corresponding to the one or more digitally rendered fiducials on the digitally rendered model of the wearable injection guide.
대표청구항▼
1. A method, comprising: receiving information associated with one or more digital images of a surface topography of a body region of an individual;identifying one or more areas on the body region of the individual in need of treatment by comparing the received one or more digital images of the surf
1. A method, comprising: receiving information associated with one or more digital images of a surface topography of a body region of an individual;identifying one or more areas on the body region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the body region of the individual and one or more stored digital images;generating a treatment regimen including at least one treatment parameter for treating the identified one or more areas of the body region of the individual in need of treatment;creating a three-dimensional digitally rendered model of a wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual, at least one surface of the digitally rendered model of the wearable injection guide conforming in shape to the corresponding surface topography of the body region of the individual;adding one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide; andgenerating the wearable injection guide with one or more fiducials indicative of the at least one treatment parameter from the digitally rendered model of the wearable injection guide. 2. The method of claim 1, wherein receiving the information associated with one or more digital images of the surface topography of the body region of the individual comprises: receiving the information associated with the one or more digital images of the surface topography of the body region of the individual from an image capture device. 3. The method of claim 1, wherein receiving the information associated with one or more digital images of the surface topography of the body region of the individual comprises: receiving the information associated with one or more digital images of the surface topography of the body region of the individual from at least one biomedical imaging device. 4. The method of claim 1, further comprising: receiving information associated with one or more digital images of the surface topography of a facial region of the individual;identifying one or more areas on the facial region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the facial region of the individual and the one or more stored digital images;generating a treatment regimen including at least one treatment parameter for treating the identified one or more areas of the facial region of the individual in need of treatment;creating the three-dimensional digitally rendered model of the wearable injection guide from the received one or more digital images of the surface topography of the facial region of the individual, at least one surface of the digitally rendered model of the wearable injection guide conforming in shape to the corresponding surface topography of the facial region of the individual;adding one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide; andgenerating the wearable injection guide with one or more fiducials indicative of the at least one treatment parameter from the digitally rendered model of the wearable injection guide. 5. The method of claim 1, further comprising: receiving information associated with one or more digital images of the surface topography of the body region of the individual in at least one first expression state and in at least one second expression state;identifying the one or more areas on the body region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the body region of the individual in the at least one first expression state and in the at least one second expression state;generating the treatment regimen including the at least one treatment parameter for treating the identified one or more areas of the body region of the individual in need of treatment; andcreating the three-dimensional digitally rendered model of the wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual in the at least one first expression state or the at least one second expression state, at least one surface of the digitally rendered model of the wearable injection guide substantially conforming in shape to the corresponding surface topography of the body region of the individual in the at least one first expression state or the at least one second expression state. 6. The method of claim 1, wherein identifying the one or more areas of the body region of the individual in need of treatment comprises: overlaying the received one or more digital images of the surface topography of the body region of the individual and the one or more stored digital images. 7. The method of claim 1, wherein creating the three-dimensional digitally rendered model of the wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual comprises: creating the three-dimensional digitally rendered model of the wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual using one or more three-dimensional modeling algorithms. 8. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide in a treatment pattern specific for treating the identified one or more areas of the body region of the individual in need of treatment. 9. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered colors, numbers, letters, shapes, crosshairs, or combinations thereof indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide. 10. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered fiducials to the digitally rendered model of the wearable injection guide indicative of a type and dosage of at least one injectable agent to be injected at corresponding one or more fiducials on the manufactured wearable injection guide. 11. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered fiducials to the digitally rendered model of the wearable injection guide indicative of a type and dosage of at least one neurotoxin to be injected at corresponding one or more fiducials on the manufactured wearable injection guide. 12. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered fiducials to the digitally rendered model of the wearable injection guide indicative of a type and dosage of at least one of a subcutaneous volume enhancer or a dermal filler to be injected at corresponding one or more fiducials on the manufactured wearable injection guide. 13. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: automatically adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide from a database of stored treatment parameters. 14. The method of claim 1, wherein adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding the one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide with a user input device. 15. The method of claim 1, further comprising: adding one or more digitally rendered alignment marks to the digitally rendered model of the wearable injection guide. 16. The method of claim 1, further comprising: adding one or more digitally rendered injection needle access regions to the digitally rendered model of the wearable injection guide. 17. A method implemented on a computing device, comprising: receiving information associated with one or more digital images of a surface topography of a body region of an individual;identifying one or more areas on the body region of the individual in need of treatment by comparing the one or more digital images of the surface topography of the body region of the individual and one or more stored digital images;generating a treatment regimen including the at least one treatment parameter for treating the identified one or more areas of the body region of the individual in need of treatment;creating a three-dimensional digitally rendered model of a wearable injection guide from the one or more digital images of the surface topography of the body region of the individual, at least one surface of the digitally rendered model of the wearable injection guide conforming in shape to the corresponding surface topography of the body region of the individual;adding one or more digitally rendered fiducials indicative of the at least one treatment parameter to the digitally rendered model of the wearable injection guide; andtransmitting one or more model output signals having information for manufacturing the wearable injection guide with one or more fiducials indicative of the at least one treatment parameter from the digitally rendered model of the wearable injection guide to a manufacturing device. 18. A method comprising: receiving information associated with one or more digital images of a surface topography of a body region of an individual;identifying one or more areas on the body region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the body region of the individual and one or more stored digital images;generating a treatment regimen including an injection treatment pattern for treating the identified one or more areas of the body region of the individual in need of treatment;creating a three-dimensional digitally rendered model of a wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual, at least one surface of the digitally rendered model of the wearable injection guide conforming in shape to the corresponding surface topography of the body region of the individual;adding one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide; andgenerating the wearable injection guide with one or more injection needle access regions from the digitally rendered model of the wearable injection guide. 19. The method of claim 18, wherein receiving the information associated with one or more digital images of the surface topography of the body region of the individual comprises: receiving the information associated with the one or more digital images of the surface topography of the body region of the individual from at least one image captured device. 20. The method of claim 18, wherein receiving the information associated with one or more digital images of the surface topography of the body region of the individual comprises: receiving the information associated with the one or more digital images of the surface topography of the body region of the individual from at least one biomedical imaging device. 21. The method of claim 18, further comprising: acquiring the one or more digital images of the surface topography of the body region of the individual with an image capture device. 22. The method of claim 18, further comprising: receiving information associated with one or more digital images of the surface topography of a facial region of the individual;identifying one or more areas on the facial region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the facial region of the individual and the one or more stored digital images;generating a treatment regimen including an injection treatment pattern for treating the identified one or more areas of the facial region of the individual in need of treatment;creating a three-dimensional digitally rendered model of a wearable injection guide from the received one or more digital images of the surface topography of the facial region of the individual, at least one surface of the digitally rendered model of the wearable injection guide conforming in shape to the corresponding surface topography of the facial region of the individual;adding one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide; andgenerating the wearable injection guide with one or more injection needle access regions from the digitally rendered model of the wearable injection guide. 23. The method of claim 18, further comprising: receiving information associated with one or more digital images of the surface topography of the body region of the individual in at least one first expression state and in at least one second expression state;identifying the one or more areas on the body region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the body region of the individual in the at least one first expression state and in the at least one second expression state;generating the treatment regimen including the injection treatment pattern for treating the identified one or more areas of the body region of the individual in need of treatment; andcreating the three-dimensional digitally rendered model of a wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual in the at least one first expression state or the at least one second expression state, at least one surface of the digitally rendered model of the wearable injection guide substantially conforming in shape to the corresponding surface topography of the body region of the individual in the at least one first expression state or the at least one second expression state. 24. The method of claim 18, wherein identifying the one or more areas of the body region of the individual in need of treatment comprises: overlaying the received one or more digital images of the surface topography of the body region of the individual and the one or more stored digital images. 25. The method of claim 18, wherein creating the three-dimensional digitally rendered model of the wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual comprises: creating the three-dimensional digitally rendered model of the wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual using one or more three-dimensional modeling algorithms. 26. The method of claim 18, wherein adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide comprises: adding the one or more digitally rendered injection needle access regions in an injection treatment pattern specific for treating the identified one or more areas of the body region of the individual in need of treatment. 27. The method of claim 18, wherein adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide comprises: adding the one or more digitally rendered injection needle access regions in an injection treatment pattern for treating lines and wrinkles associated with the body region of the individual in need of treatment. 28. The method of claim 18, wherein adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered injection needle access regions according to the injection treatment pattern that transect an inner surface and an outer surface of the digitally rendered model of the wearable injection guide at an angle of 90 degrees. 29. The method of claim 18, wherein adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered injection needle access regions according to the injection treatment pattern that transect an inner surface and an outer surface of the digitally rendered model of the wearable injection guide at an angle less than 90 degrees. 30. The method of claim 18, wherein adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide comprises: adding a downward tapered access surface to at least one of the one or more digitally rendered injection needle access regions. 31. The method of claim 18, wherein adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide comprises: automatically adding the one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide. 32. The method of claim 18, further comprising: adding one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide. 33. The method of claim 32, wherein adding the one or more digitally rendered fiducials indicative of at least one treatment parameter to the digitally rendered model of the wearable injection guide comprises: adding one or more digitally rendered fiducials indicative a type and dosage of an injectable agent to be injected. 34. The method claim 18, further comprising: transmitting one or more model output signals having information for generating the wearable injection guide with the one or more injection needle access regions from the digitally rendered model of the wearable injection guide to a manufacturing device. 35. A method implemented with a computing device, comprising: receiving information associated with one or more digital images of a surface topography of a body region of an individual;identifying one or more areas on the body region of the individual in need of treatment by comparing the received one or more digital images of the surface topography of the body region of the individual and one or more stored digital images;generating a treatment regimen including an injection treatment pattern for treating the identified one or more areas of the body region of the individual in need of treatment;creating a three-dimensional digitally rendered model of a wearable injection guide from the received one or more digital images of the surface topography of the body region of the individual, at least one surface of the digitally rendered model of the wearable injection guide conforming in shape to the corresponding surface topography of the body region of the individual;adding one or more digitally rendered injection needle access regions according to the injection treatment pattern to the digitally rendered model of the wearable injection guide; andtransmitting one or more model output signals having information for manufacturing the wearable injection guide with one or more injection needle access regions from the digitally rendered model of the wearable injection guide to a manufacturing device. 36. The method of claim 35, further comprising: transmitting one or more model output signals having information for manufacturing the wearable injection guide with the one or more fiducials indicative of the at least one treatment parameter from the digitally rendered model of the wearable injection guide to a manufacturing device.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (28)
Tremaglio, Jr., Anthony R.; Chu, Michael S. H.; Ward, Tim E., Apparatus and methods for guiding a needle.
Uber, III, Arthur E.; Hirschman, Alan D.; Griffiths, David M.; Trombley, Frederick W.; Reilly, David M., System for delivery of hazardous pharmaceuticals.
Weiner Alan L. (Cranbury NJ) Sinnett Kevin (Mukwonago WI) Johnson Sterling (Skillman NJ), Tack for intraocular drug delivery and method for inserting and removing same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.