Nos valeurs
Au terme de nombreuses recherches, différents besoins ont été identifiés en radiologie interventionnelle percutanée. Que ce soit durant la planification, l’assistance et la navigation pour atteindre l’organe ou la lésion cible, la précision, le temps et l’exposition aux rayonnements, ont été systématiquement identifiés comme des attentes clés, encore peu ou pas résolues.
IMACTIS est née en 2009 dans les Alpes Françaises. L’entreprise conçoit et produit une solution unique qui répond à ces besoins, exprimés par le monde de la radiologie interventionnelle.

Notre Mission
Nos valeurs incluent la diversité, la complémentarité et le dépassement de soi. Ensemble, nous sommes engagés à fournir des solutions pratiques, efficaces et innovantes, qui contribueront à l’amélioration des soins.
Notre Vision
Nous croyons dans le pouvoir de l’innovation en radiologie interventionnelle, au bénéfice des patients, des praticiens, des soignants et des institutions : des procédures mini-invasives, pour une meilleure qualité de vie.

Notre équipe

Pierre Olivier – Président & CEO

Lionel Carrat – Directeur général & Cofondateur










Ils nous font
confiance



















































♦ Retrospective, comparative study involving 120 patients
♦ The system demonstrated a very high diagnostic success rate
♦ Radiation exposure & needle insertion time were significantly lower in the navigation group
♦ The use of CT-Navigation is efficient, reliable & safe for lung biopsy compared to conventional CT guidance
Computed Tomography-Navigation Electromagnetic system Compared to Conventional Computed Tomography Guidance for Percutaneous Lung Biopsy: A Single-Centre Experience
M. Lanouzière, O. Varbedian, O. Chevallier, L. Griviau, K. Guillen, R. Popoff, S.-L. Aho-Glélé and R. Loffroy – Diagnostics
♦ Review of the system: description, intended use, procedure details, main benefits and clinical data
♦ CT-Navigation could be considered as a first option in the diagnosis and/or treatment of lesions in difficult locations, even if further studies are necessary
Imactis CT-Navigation system. A real alternative to different percutaneous interventional procedures in lesions in difficult locations. A pictorial essay
J. A. Gómez Patiño, S. Méndez Alonso, M. Alfageme, R. González Costero, A. García Suárez, J. González Plaza, V. Perdomo Suriel, M. L. Collado Torres – ECR 2020
♦ Phantom study involving 2 operators (junior & senior) and 4 dose reduction protocols
♦ Dose protocol, operator experience, obliquity and target location had no impact on accuracy
♦ The image quality and operator confidence decreased with dose reduction
Comparison of acquisition and iterative reconstruction parameters in abdominal computed tomography-guided procedures: a phantom study
J. Frandon, P. Akessoul, A. Hamard, E. Bezandry, R. Loffroy, T. Addala, M. Bertrand, J.-P. Beregi, J. Greffier – QIMS
♦ Case review of seven patients: 4 biopsies (hepatic, pulmonary, retroperitoneal and osseous lesions) and 3 ablations (pulmonary, pancreatic and hepatic carcinomas)
♦ The system was easily operated, facilitated pre-procedure planing and displayed an accurate needle trajectory
♦ Benefits for ablations (higher accuracy, better targeting of small lesions) and biopsies (fewer CT controls) without significant post-procedure complications
A single centre experience accessing the usability and efficacy of the Imactis CT-Navigation system
J. Banat, P. Kennedy, R. Lindsay, R. Sathyanarayana, J. Farrell, S. Francis – BSIR 2020
♦ Retrospective analysis of 52 lung biopsy patients (26 NAV/26 conventional CT)
♦ Diagnostic yield was higher in the NAV group than in the CT group (100% vs 83%)
♦ The patient radiation dose and number of scans were significantly lower in the NAV group
♦ A significantly higher rate of non-axial approaches was used in the NAV group (61,5% vs 11,5%)
Electromagnetic navigation system for CT-guided biopsies compared with conventional CT guidance
G. Mauri, S. Tortora, G. Gorga, D. Maiettini, G. M. Varano, P. Della Vigna, G. Bonomo, E. Valconi, F. Orsi – ECR 2020
♦ Retrospective descriptive study involving 12 patients
♦ Technical success rate was 100% with no fracture during a mean follow-up time of 382 days
♦ All patients were able to walk on the day following osteosynthesis
Percutaneous osteosynthesis and cementoplasty (POC) for stabilization of malignant pathological fractures of the proximal femur
E.Mavrovi, J.B.Pialat, H.Beji, A.C.Kalenderian, G.Vaz, B.Richioud – Diagnostic and Interventional Imaging
♦ Prospective corpse study (3 forensic examinations)
♦ The magnitude of the organ displacements was highly variable
♦ All organs were successfully biopsied in corpse 3, only the liver could be biopsied in corpses 1 and 2
Evaluation of a Computed Assisted Medical Intervention (CAMI) system in scientific autopsy
F.Grenier, S.Voros, V.Scolan, F.Paysant, J.Boutonnat, I.Bricault, A.Moreau-Gaudry – Journal of Forensic Radiology and Imaging
♦ Prospective comparative phantom study involving interventional and diagnostic fellows
♦ The number of successful attempts was significantly higher for interventional fellows (when using the EM system)
♦ All fellows had a significantly higher successful attempt rate with the EM system than with conventional targeting
♦ No significant difference when comparing groups with different levels of experience
Use of an Electromagnetic Navigation System on a Phantom as a Training Simulator for CT-guided Procedures
Yadiel Sánchez, BA, Dmitry S. Trifanov, MD, Taj M. Kattapuram, MD, Haiyang Tao, MD, PhD, Anand M. Prabhakar, MD, MBA, Ronald S. Arellano, MD, Raul N. Uppot, MD – Journal of the American College of Radiology
♦ Prospective controlled multicenter study protocol (500 patients maximum)
♦ The aim is to assess the safety, efficacy and performance within the 2 patient groups
Evaluation of the clinical benefit of an EMN system for CT-guided IR procedures in the thoraco-abdominal region compared with conventional CT guidance (CTNAV II): study protocol for a randomized controlled trial
RC. Rouchy, A. Moreau-Gaudry, E. Chipon, S. Aubry, L. Pazart, B. Lapuyade, M. Durand, M. Hajjam, S. Pottier, B. Renard, R. Logier, X. Orry, A. Cherifi, E. Quehen, G. Kervio, O. Favelle, F. Patat, E. De Kerviler, C. Hughes, M. Medici, J. Ghelfi, A. Mounier & I. Bricault – Trials
♦ Prospective controlled study involving 120 patients
♦ Accuracy improved by a factor of 2 (when using the navigation system)
♦ Fewer acquisition scans: 2 vs 3 (when using the navigation system)
Computer assisted electromagnetic navigation improves accuracy in computed tomography guided interventions: A prospective randomized clinical trial
Pierre Durand, Alexandre Moreau-Gaudry, Anne-Sophie Silvent, Julien Frandon, Emilie Chipon, Maud Médici, Ivan Bricault – PLoS ONE
♦ Retrospective descriptive study involving 21 patients
♦ Complete ablation was obtained in 100% of cases
♦ The ablation probe was correctly placed on the first pass in 96% of cases
EM navigation system combined High-Frequency-Jet-Ventilation (HFJV) for CT-guided hepatic ablation of small US-undetectable and difficult to access lesions
Stephanie Volpi, Georgia Tsoumakidou, Amélie Loriaud, Arnaud Hocquelet, Rafael Duran & Alban Denys – International Journal of Hyperthermia
♦ Retrospective descriptive study involving 50 patients
♦ 96% technical success rate
CT guidance assisted by EM navigation system for percutaneous fixation by internal cemented screws (FICS)
Benjamin Moulin, Lambros Tselikas, Thierry De Baere, Florent Varin, Abdellahi Abed, Laura Debays, Cécile Bardoulat, Antoine Hakime, Christophe Teriitehau, Fréderic Deschamps, Guillaume Gravel – European Radiology
♦ Prospective abdominal phantom study comparing EM Navigation and 3D Image Fusion with Fluoroscopy
♦ While all methods reached 100% technical efficiency, EM Navigation was not limited to acute angle access
♦ The combination of both technologies offered the best accuracy but was slightly longer and irradiant compared to EMN
CBCT-Based Image Guidance for Percutaneous Access: Electromagnetic Navigation Versus 3D Image Fusion with Fluoroscopy Versus Combination of Both Technologies – A Phantom Study
Vania Tacher, Maxime Blain, Edouard Hérin, Manuel Vitellius, Mélanie Chiaradia, Nadia Oubaya, Haytham Derbel & Hicham Kobeiter – CVIR
♦ Retrospective controlled study involving 37 patients
♦ Interventional Dose-Length Product was reduced by a 3.2 factor (in the CT-Navigation group)
♦ Median procedure time was halved (in the CT-Navigation group)
Reduction of patient radiation dose during CT vertebroplasty: Impact of a new computer-assisted navigation (CAN) system
C. Teriitehau, H. Rabeh, E. Pessis, Q. Sénéchal, F. Besse and M. Bravetti – Radioprotection
♦ Prospective inclusion of navigation group patients along with retrospective matching with a control group patient (34 patients total)
♦ Implementation of the EM Navigation System for CT-guided MWA significantly improved the accuracy of antenna positioning
♦ The number of control scans and the radiation exposure were significantly lower in the Navigation group
Electromagnetic Navigation System-Guided Microwave Ablation of Hepatic Tumors: A Matched Cohort Study
K. I. Ringe, G. H. Pöhler, H. Rabeh & F. Wacker – CVIR
♦ Prospective controlled phantom study involving 54 operators
♦ 40.7% of operators reached the target on first attempt with the EM system vs 0% using CT-guidance
♦ Accuracy was improved by a factor of 4 and planning and puncture time by a factor of 2.8 (using CT-Navigation)
Phantom evaluation of a navigation system for out-of-plane CT-guided puncture
L. Moncharmont, A. Moreau-Gaudry, M. Medici, I. Bricault – ScienceDirect
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