Coming to a major research

hospital near
you in Fall 2025

Coming to a major research

hospital near
you in Fall 2025

Between 2010 and 2020, the annual incidences of invasive Melanoma have increased by 47% in the US.

Total body photography (TBP) has been proposed as an approach to improve skin cancer screening. In six prospective TBP studies in 2021, 7 to 98 melanomas were detected. Two of these studies indicated that up to 11 out of 20 melanomas were detected due to TBP.

The reported depth of detected melanoma varied across all studies. However, individuals undergoing TBP showed a trend towards a lower Breslow’s thickness. Patients diagnosed by TBP and SDDI screening had thinner melanomas compared to the registry data in the study by Rademaker et al.

What is LumoScanner TBP System?

A scanning system that can photograph 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.

What is LumoScanner TBP System?

A scanning system that can photograph 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 System

Competing Total Body Photography systems lack the resolution that is necessary for independent lesion evaluation, requiring dermatologists to capture and evaluate dermatoscopic images. LumoScanner solves this problem with a gantry-based system that moves six ultra-high resolution cameras over the patient’s body (in prone or supine positions) on a standard examination table.
During each scan LumoScanner captures at least 360 ultra-high-resolution images (i.e. more than 10x the detail of current systems) which allows it to resolve features as small as 30 microns. It is space-efficient and compatible with standard exam rooms because it is mounted on rails that run close to the ceiling. At the same time it costs much less than competing system supporting adoption even in resource-limited clinics.

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 Evolution​​

Prototype Derm Scanner

LumoCrunch image processing software

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.

LumoCrunch image processing software

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 scan visualization software

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.

LumoDoc scan visualization software

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.

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.

    Research Collaborations

    Lumo Imaging is excited to form partnerships with healthcare institutions globally to scale the impact of our solutions.

      Lumo Imaging is engineering and commercializing a first-ever, low-footprint, AI-driven TBP scanner to visualize skin anomalies across all dimensions of the human body.

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