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Our strategic tie-ups across the world help us in taking our portfolio companies global.
Technology
that sets a facility apart
EOS imaging is a global medical device company that develops and markets advanced imaging and imaged-based solutions for diagnosing, treating and monitoring the most common musculoskeletal pathologies.
Connecting imaging to care
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Nobel Prize winning unique 3D Imaging Technology.
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Unique combination of low dose 2D/3D imaging technology, software.
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For musculoskeletal pathologies and orthopedic surgical care.
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Available along the entire care pathway, from diagnosis to long term follow-up.
Are you looking to differentiate your practice?
View our webinar to hear how Dr. John Asghar, spine surgeon at the Cantor Spine Center and the Paley Orthopedics and Spine Institute, is using 2D/3D imaging solutions for degenerative spine management.
EOS System
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The EOS system provides low dose, full body, stereo-radiographic images of your patient in a functional position.
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The unique biplanar design and vertical scanning allows the acquisition of full body with precise 2D and 3D measurements, helping clinicians to better visualize mechanisms between the spine, hip, and knee, enhancing patient treatment across all stages of care.
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The EOS system introduces a fifth modality to reduce patient radiation dose for a wide range of patients providing an exceptional image contrast.
Clinical Benefits
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Comprehend compensation mechanisms between the spine, hip and knee thanks to full body, weight-bearing images.
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Calculate precise 2D and 3D measurements, free from magnification and stitching bias.
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Improved diagnostics due to high image quality and over 65,000 grey levels for excellent contrast.
Facility-wide Efficiency
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Capture frontal and lateral, full body images in less than 20 seconds for adults and 15 seconds for children.
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Complete an exam in under 4 minutes, even for complex spine or full body.
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Maximize patient throughput with up to 100 complex exams per day.
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Facilitate the process to image disabled patients with the EOS Radiolucent Chair.
Dose Reduction
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Patient’s radiation dose decreased by 50% compared to a DR system and 85% compared to a CR system.
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Substitution of specific CT exams with an EOS exam to reduce the patient’s radiation dose by 95%.
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Micro Dose protocol for a full spine exam (frontal and lateral) at a dose that’s equivalent to only a week’s worth of natural radiation.
Advanced Orthopedic Solutions
3DServices
With 3DServices, EOS images can be translated into 3D spine and lower limb models, as well as automatically generated patient reports that provide valuable information to analyze patient abnormalities over the entire care pathway. EOSapps, our secure, web-based 3D surgical planning software, integrates with EOSedge and EOS systems to translate 2D weight-bearing images into a highly accurate 3D representation of a patient’s anatomy. Using these 3D renderings, surgeons can select and optimally position implants for spine, hip and knee surgeries, and seamlessly transition from planning to execution.
EOSlink™
EOSlink delivers the EOS patient-specific plan directly into the operating room for execution. EOSlink provides orthopedic surgeons with the ability to seamless integrate their EOSapps pre-operative plan for spine, hip or knee surgery with intra-operative surgical solutions, such as navigation devices, robotics-based systems and custom spinal rod solutions.
EOSapps
The EOSapps are online, 3D surgical planning solutions based on unbiased, weight-bearing EOS images and an accurate 2D/3D patient-specific data set. They fully leverage on the digital data embedded in the 3D model of the patient’s anatomy generated from the low dose EOS images and sterEOS reconstruction. The EOSapps allow implants to be automatically selected and positioned for the best fit based on each patient’s 3D anatomy. They simulate the 3D surgical post-operative results in real-time, including its impact on key clinical parameters of the patient.
spineEOS
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Due to the complex nature of the spine, surgeries may be particularly difficult and call for careful preparation for better outcomes.
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The spineEOS online software provides a 3D visualization of the patient’s spine in its current state as well as a literature-based, optimal correction of their anatomy in 3D. The correction can be modified by the surgeon including simulating osteotomies, selecting and positioning cages and accurately planning the length, width and shape of the spinal rods in 3D. All key clinical parameters are displayed in real-time for easier decisions with regards to the surgical strategy.
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Thanks to the full body, weight-bearing 2D/3D EOS images, spineEOS displays the anticipated spine after correction and a restoration of a deformative or degenerative spine patient’s global balance pre-operatively.
hipEOS
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Though Total Hip Arthroplasty (THA) surgery is a very common procedure, it remains a challenging surgery. Identifying pre-operative risks and minimizing post-operative complications is crucial for improving results and patient reported outcome measures.
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hipEOS 3D surgical simulation and planning software is used to plan primary, total hip arthroplasties. The planning begins with an automatic proposal for the size and position of the stem and cup based on the surgeon’s preferred implants and the patient’s unique anatomy. The patient-specific plan can be adjusted by the physician with immediate feedback on how changes affect relevant clinical parameters.
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Thanks to the full body, weight-bearing standing and seated 2D/3D EOS images, hipEOS can be used to anticipate the results of the surgical strategy on implant range of motion (ROM), leg length discrepancies, femoral offset and torsion which are key criteria for successful total hip arthroplasties.
kneeEOS
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Due to an aging population, the number of Total Knee Arthroplasties (TKA) keeps increasing. Despite significant efforts, progress is still needed to improve the outcome of the current 20% of patients who are not satisfied with their surgical results.
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The kneeEOS online software is used to plan a primary, total knee arthroplasty by automatically selecting and positioning implants in 3D. The surgeon can modify the plan with immediate feedback on how changes to the plan affect relevant clinical parameters in 3D.
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Thanks to the full body, weight-bearing 3D EOS images, kneeEOS can be used to anticipate the consequences of the prosthesis placement on leg alignment and knee rotation; two key criteria for successful total knee arthroplasties.
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EOS imaging designs, develops and markets EOS, a unique and innovative medical imaging system dedicated to osteo-articular and orthopedic pathologies, as well as its associated software and services.
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The EOS platform is a unique combination of low dose 2D/3D imaging technology, software and services that add value to each step of the musculoskeletal patient care pathway. From diagnosis to long term follow-up, an EOS exam provides full body, 2D/3D images and patient-specific data sets to plan and control surgeries based on 3D anatomical models of the patient in a weight-bearing position.
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EOS represents a major advancement in the field of osteo-articular pathologies, which affect a large number of patients – particularly children, adolescents, and the elderly.
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EOS allows for simultaneous generation of two stereo-radiographic images – frontal and lateral – of the patient’s body in a functional position (standing or seated). Additionally, Patient’s radiation dose decreased by 50%* compared to a DR system, 85%* compared to a CR system and 95%* compared to computed tomography (CT). The Micro Dose option further reduces radiation levels and allows for a full spine exam (frontal and lateral) at a dose equivalent to only a week’s worth of natural radiation*. This feature is especially important for patients with disorders that require frequent scanning throughout treatment.
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The EOS system is able to complete the entire medical exam in less than 4 minutes, with the actual scanning process itself lasting less than 20 seconds.
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The accompanying sterEOS workstation enables to create patient-specific 3D models, calculate over 100 clinical parameters6 automatically and generate customizable patient reports.
Early detection is extremely important for managing cancer especially in developing countries.
We advise national and international missions on mass screening and diagnosis to detect early stage cancer.
Our Breast cancer screening is a unique Mobile Project, that uses Artificial Intelligence and latest technologies to investigate breast cancer amongst large sections of population in rural and semi-rural areas at their doorsteps.
Since the late 1980s, organised breast mammography screening programmes have been introduced in more and more countries across the world, based on the results of 8 large randomised trials. The aim of mammography screening is to detect breast cancer as early as possible, primarily in order to reduce the number of breast cancer deaths but also to reduce the severity of the disease and the use of heavy cancer treatments (and associated anxiety).
These programmes have always used a “one size fits all” strategy whereby women in a target age group (typically between 50-69 years old) are invited for a mammogram (2 incidences bilateral x-ray taken of their breast) every 2 or 3 years. This approach has demonstrated benefits (reduction of breast cancer specific mortality by 20%). However, it also comes with certain side effects, such as false positive findings, overdiagnosis and overtreatment – meaning treatment of indolent cancers (ones that would never have caused problems during a woman’s lifetime because they evolve very slowly), and a small lifetime risk of radiation-induced cancer. Furthermore, the current mammography screening’s sensitivity is not perfect; and the mortality impact not as high as could be expected.
A promising approach to improve mammography screening is personalized, individual risk-based screening.
In the current strategy, all invited women are treated the same. But women are not all the same: each woman has her own individual risk of developing breast cancer, depending on many factors like genetic factors, lifestyle, or hormonal exposure.
Recent scientific advances have largely improved our understanding of breast cancer genetics and other risk factors. We now have accurate risk assessment tools and sufficient knowledge to investigate the advantages of using a new screening approach based on individual risk estimation of breast cancer: this is the goal of Jona Breast Screening.