Our Products
LumoScanner System
A scanning system that can photographs close to the entire skin surface of the patient, archive the images and
visualize the capture images. The LumoScanner System is comprised of the LumoScanner hardware,
LumoCrunch image processing software and LumoDoc scan visualization software.
LumoScanner hardware
During each scan, LumoScanner’s six very high resolution
(64MP) cameras collectively capture 360 images, 180 while
scanning the anterior and 180 during the posterior scan.
The anterior or posterior scans will each take around 25
seconds.All the images are stored in the cameras during the
scan process. After the scan, the images will be uploaded to
the cloud for processing.
High Body Coverage with High Resolution
Hardware scans more than 90% of body surface with better- than clinical resolution.
Ease of Operation
Can be operated by staff with minimal expertise.
LumoScanner hardware
During each scan, LumoScanner’s six very high resolution
(64MP) cameras collectively capture 360 images, 180 while
scanning the anterior and 180 during the posterior scan.
The anterior or posterior scans will each take around 25
seconds.All the images are stored in the cameras during the
scan process. After the scan, the images will be uploaded to
the cloud for processing.
High Body Coverage with High Resolution
Hardware scans more than 90% of body surface with better- than clinical resolution.
Ease of Operation
Can be operated by staff with minimal expertise.
LumoCrunch
LumoCrunch cloud software uses the images from the scanner as
input, processes them and outputs a DICOM file for future analysis
and/or visualization.
LumoCrunch
LumoCrunch
- Renders the large number 2D images from the scanner as one 3D rendering
- Extracts the raw lesion information that is useful for clinicians (e.g. crops, locations and sizes of pigmented skin lesions)
- Creates a TBP DICOM file that contains the 2D images, 3D rendering and lesion data.
Incidentally,
Lumo Imaging has developed and published a proposal for TBP
DICOM and is currently serving as a voting member of the working
group that is tasked with the development of the TBP DICOM
standard. Please note the crops from 2D images are orthorectified
before storage in DICOM files. Orthorectification is unique to Lumo,
the rest of the processing steps performed as part of the
LumoCrunch pipeline are quite standard, can be readily found in
literature and have been used by other vendors of TBP Systems (e.g.
Fotofinder and Vectra 360). Orthorectification, is a well-known and
standard step for processing satellite imaging information (akin to
our senses seeing an oval shaped tabletop and our brain interpreting
the information as a circular tabletop). The resulting processed data
will be stored as a DICOM, most probably in the provider’s cloud
space.
LumoCrunch
LumoCrunch cloud software uses the images from the scanner as
input, processes them and outputs a DICOM file for future analysis
and/or visualization.
LumoCrunch
- Renders the large number 2D images from the scanner as one 3D rendering
- Extracts the raw lesion information that is useful for clinicians (e.g. crops, locations and sizes of pigmented skin lesions)
- Creates a TBP DICOM file that contains the 2D images, 3D rendering and lesion data.
Incidentally,
Lumo Imaging has developed and published a proposal for TBP
DICOM and is currently serving as a voting member of the working
group that is tasked with the development of the TBP DICOM
standard. Please note the crops from 2D images are orthorectified
before storage in DICOM files. Orthorectification is unique to Lumo,
the rest of the processing steps performed as part of the
LumoCrunch pipeline are quite standard, can be readily found in
literature and have been used by other vendors of TBP Systems (e.g.
Fotofinder and Vectra 360). Orthorectification, is a well-known and
standard step for processing satellite imaging information (akin to
our senses seeing an oval shaped tabletop and our brain interpreting
the information as a circular tabletop). The resulting processed data
will be stored as a DICOM, most probably in the provider’s cloud
space.
LumoDoc
LumoDoc is full-featured cloud-based (Zero footprint) TBP DICOM
viewer that can fetch DICOM files from the DICOM store using Google
Health API. As mentioned before, the current unpublished TBP DICOM
format contains 2D images, 3D rendering as well as crops of lesions from
the 2D images.
LumoDoc can visualize all three kinds of information, allow the clinician
to examine the scan from anywhere and allow the clinician to annotate
the scans.
Additionally, LumoDoc can side-by-side visualize the information from two TBP DICOM files (presumably from two different points of time but from the same individual). For example the clinician can side-by-side compare two 3D renderings, two 2D images or 2 lesion crops in order to view the subtle changes in the lesions over time.
Additionally, LumoDoc can side-by-side visualize the information from two TBP DICOM files (presumably from two different points of time but from the same individual). For example the clinician can side-by-side compare two 3D renderings, two 2D images or 2 lesion crops in order to view the subtle changes in the lesions over time.
LumoDoc
LumoDoc is full-featured cloud-based (Zero footprint) TBP DICOM
viewer that can fetch DICOM files from the DICOM store using Google
Health API. As mentioned before, the current unpublished TBP DICOM
format contains 2D images, 3D rendering as well as crops of lesions from
the 2D images.
LumoDoc can visualize all three kinds of information, allow the clinician
to examine the scan from anywhere and allow the clinician to annotate
the scans.
Additionally, LumoDoc can side-by-side visualize the information from two TBP DICOM files (presumably from two different points of time but from the same individual). For example the clinician can side-by-side compare two 3D renderings, two 2D images or 2 lesion crops in order to view the subtle changes in the lesions over time.
Additionally, LumoDoc can side-by-side visualize the information from two TBP DICOM files (presumably from two different points of time but from the same individual). For example the clinician can side-by-side compare two 3D renderings, two 2D images or 2 lesion crops in order to view the subtle changes in the lesions over time.
LumoTrack Clinical Decision Support Device (CDS)
A scanning system that can photographs close to the entire skin surface of the patient, archive the images and visualize the capture images. The LumoScanner System is comprised of the LumoScanner hardware, LumoCrunch image processing software and LumoDoc scan visualization software.
LumoTrack is a noninvasive skin imaging software that is
indicated for the review of skin lesions by trained medical
practitioners. The LumoTrack should be used in conjunction
with the totality of dermatological relevant information from
the clinical assessment, including visual analysis of the lesion,
by a dermatologist.
The device should not be used on patients as a screening tool. The device should not be used as the sole diagnostic criterion nor to confirm clinical diagnosis of skin cancer. The LumoTrack functionality already exists in other TBP systems’ software (e.g. FotoFinder’s). The LumoTrack may not function equally as well for all Fitzpatrick skin types.
The device should not be used on patients as a screening tool. The device should not be used as the sole diagnostic criterion nor to confirm clinical diagnosis of skin cancer. The LumoTrack functionality already exists in other TBP systems’ software (e.g. FotoFinder’s). The LumoTrack may not function equally as well for all Fitzpatrick skin types.
Flacara - Future of Dermoscopy
Flacara systems consists of a cell-phone attachment and a Flacara cell-phone app.
Flacara Attachment
The attachment is only compatible with iPhone pro series 13
or newer as those iPhones are capable of recording images
of lesions with 10x magnification. The attachment is only
there to occlude all ambient light and to illuminate the lesion
in a controlled manner and possibly cross-polarize the light
that returns to the iPhone. Using the attachment with the
app is necessary because 1) at distances that yield a 10x
magnification, the ambient light will be partially occluded and
therefore the lesion may not be evenly illuminated 2) without
the controlled light of the attachment, the ambient light
could affect the coloration of resulting images. The
attachment may or may not be configured for cross-
polarized imaging.
Flacara Attachment
The attachment is only compatible with iPhone pro series 13
or newer as those iPhones are capable of recording images
of lesions with 10x magnification. The attachment is only
there to occlude all ambient light and to illuminate the lesion
in a controlled manner and possibly cross-polarize the light
that returns to the iPhone. Using the attachment with the
app is necessary because 1) at distances that yield a 10x
magnification, the ambient light will be partially occluded and
therefore the lesion may not be evenly illuminated 2) without
the controlled light of the attachment, the ambient light
could affect the coloration of resulting images. The
attachment may or may not be configured for cross-
polarized imaging.
Flacara App
Flacara app is mainly to guide the clinician with capturing the initial or
follow-up the texture and closeup images of the lesions. The texture or
overview image is an image with the lesion at its center from around 6-
10” away. This image can be use by the system for locating the lesion in
the future. (The above functionality is similar to that of MetaOptima’s
MoleScope which can be purchased over the counter).
Flacara Comparison module
The comparison module provides for side-by-side comparison of the
closeup images from two instances of the same lesion and provide the
features values for the two instances (e.g. area at first instance and area
at the second instance)
Additionally, during the side-by-side comparison of the dermascopic images from past and present, the Flacara add-on modules built-in AI model will be able to provide an index related to amount of suspicious transformation in the lesion over time.
Additionally, during the side-by-side comparison of the dermascopic images from past and present, the Flacara add-on modules built-in AI model will be able to provide an index related to amount of suspicious transformation in the lesion over time.
Flacara App
Flacara app is mainly to guide the clinician with capturing the initial or
follow-up the texture and closeup images of the lesions. The texture or
overview image is an image with the lesion at its center from around 6-
10” away. This image can be use by the system for locating the lesion in
the future. (The above functionality is similar to that of MetaOptima’s
MoleScope which can be purchased over the counter).
Flacara Comparison module
The comparison module provides for side-by-side comparison of the
closeup images from two instances of the same lesion and provide the
features values for the two instances (e.g. area at first instance and area
at the second instance)
Additionally, during the side-by-side comparison of the dermascopic images from past and present, the Flacara add-on modules built-in AI model will be able to provide an index related to amount of suspicious transformation in the lesion over time.
Additionally, during the side-by-side comparison of the dermascopic images from past and present, the Flacara add-on modules built-in AI model will be able to provide an index related to amount of suspicious transformation in the lesion over time.
Our Partners
Some of our prestigious partners that we work with to achieve our mission to help dermatologists detect skin cancers at an earlier stage by monitoring undesirable transformation of the skin lesions.
Research Collaborations
Lumo Imaging is excited to form partnerships with healthcare institutions globally to scale the impact of our solutions.
Research Collaborations
Lumo Imaging is excited to form partnerships with healthcare institutions globally to scale the impact of our solutions.