MolecuLight i:X TM

Wound Intelligence Device

The MolecuLight i:X allows clinicians to quickly, safely, and easily visualize bacteria and measure wounds at the point of care, so they have maximum insights for accurate treatment selection and accelerated healing.1,2,3

What Does MolecuLight i:X Do?

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Visualize Bacteria

MolecuLight i:X allows clinicians to focus on potentially harmful levels of bacteria with the guidance of fluorescence imaging.1,5,6


Measure Wound Size

MolecuLight i:X provides clinicians with automatic wound border detection and instant wound area measurements.


See Results

Study shows an 89% cost reduction and 9X faster wound healing with the use of the MolecuLight i:X Wound Intelligence Device.2


Making a Difference in Wound Care






Compared to Standard Care 3

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in Costs

Compared to Standard Care 3

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Compared to Standard Care 3

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How Does it Work?

Leveraging the principle of fluorescence, the MolecuLight i:X Wound Intelligence Device emits safe violet light which causes bacteria ≥ 104 CFU/g to fluoresce.4 The bacterial fluorescence signals detected by the device provide healthcare professionals with a visual indication of bacterial presence, load, and location within and around wounds in real-time to guide clinicians in their selection, application, and response monitoring of wound therapies.2,8,9

1. Wu, YC. et al. Int Wound J. 2016 Aug;13(4):449-53.
2. DaCosta, R. S. et al. et al. PLoS One. 2015 Mar 19;10(3).
3. Ottolino-Perry, K. et al. Int Wound J. 2017 Feb 28.
4. Rennie MY et al. J Wound Care. 2017 Aug 2;26(8):452-460
5. Raizman R. Point-of-care fluorescence imaging device guides care and patient education in obese patients with surgical site infections. Presented at: CAWC 2016. Proceedings of the 22nd Annual Canadian Association of Wound Care Conference; 2016 Nov 3-6, Niagara Falls, ON.
6. Jeffery, S. Utility of point-of-care autofluorescence imaging device in successful closure of major limb amputations – a case study. Presented at: MHSRS 2016. Proceedings of the Military Health System Research Symposium; 2016 Aug 15-18; Kissimmee, FL.
7. MolecuLight Inc. Case Study 0051 Track Wound Size and Bacterial Presence with the MolecuLight i:X. 2016.
8. Wu YC et al. J Biomed Opt. 2014 Aug;19(8).
9. Raizman R and DaCosta RS. Handheld real-time fluorescence imaging of bacteria guides treatment selection and timing of dressing changes in inpatients undergoing negative pressure wound therapy. Proceedings of the Innovations in Wound Healing Conference; 2016 Dec 8-11, Key Largo, FL.