ARTIS pheno

Cutting-edge robotic imaging system for multiple surgical disciplines

Today’s surgery departments face complex challenges. Health economic demands, advances in medicine and research, and intense competition often prompt investments in minimally invasive operating techniques and a supporting Hybrid OR. Over 1,200 Hybrid OR installations worldwide show that ARTIS pheno can be a critical success factor in this endeavor.

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Artis pheno - Ready for current and future demands

ARTIS pheno is a versatile system for your Hybrid OR

Robotic technology with 9 degrees of freedom
Wide-space C-arm offering sufficient room
Flexible isocenter for adjustable working height in 2D imaging
3rd party surgical integration enables procedure specific patient positioning

Discover the range of possibilities supported by ARTIS pheno – whether performing standard or complex surgical procedures. ARTIS pheno is ready for multiple surgical disciplines:

Vascular surgery
Cardiac surgery
Neurosurgery
Thoracic surgery
Spine surgery
Orthopedic trauma surgery
Liver surgery

Artis pheno - Optimize clinical operations

Procedural intelligence for standardized image-guided surgery:

Case Flows allow surgical imaging with fewer manual steps
Intelligent analysis of preoperative datasets
Constant image quality (CNR based) supporting ALARA dose with OPTIQ

Learn more about OPTIQ

Artis pheno - Maintain infection control

With a system designed with infection control in mind:

Comprehensive cleaning concept
Smooth and sealed surfaces
Quick and easy draping

Sufficient space to navigate complex setups

Free space of 95.5 cm¹
Facilitates imaging in steep angulations
Suitable for procedures requiring large instruments and devices
Good access to for the OR team

See technical specifications

syngo DynaCT Large Volume and syngo DynaCT 360 can visualize large anatomical areas

Spine: Height of up to 23.5 cm (9.3”)
Thorax, abdomen: Diameter of up to 43 cm (16.9”)²

See technical specifications

ARTIS pheno is a versatile system for your Hybrid OR

Robotic technology with 9 degrees of freedom
Wide-space C-arm offering sufficient room
Flexible isocenter for adjustable working height in 2D imaging
3rd party surgical integration enables procedure specific patient positioning

Evidência

Imaging for multiple surgical disciplines

Discover the range of different procedures supported by ARTIS pheno.

Intraoperative 3D verification of electrode placement during deep brain stimulation procedure

Ready for deep brain stimulation

ARTIS pheno allows surgeons to focus on optimal electrode placement. The system delivers intra-operative imaging to support targeting of the brain structures, stereotactic navigation, as well as assessment of electrode placement – eliminating the need for transporting the patient to the radiology department for a postoperative CT scan.

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Aortic valve deployment with fusion imaging

Ready for TAVI

ARTIS pheno with procedural intelligence helps standardize TAVI procedures by simplifying image acquisition, automating planning, guiding valve deployment, and enabling prompt verification. Studies⁴ show that TAVI with syngo DynaCT and syngo Aortic Valve Guidance could potentially improve the implantation quality and reduce the paravalvular regurgitation compared to procedures without intraoperative 3D guidance. Other studies⁵ show that implantation quality is related to survival of patients.

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Ready for TAVI

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"Case Flows are the next step to support the procedure by brining ease to the handling of the system – they help to focus on the patient and not on handling the system."

PD Dr. Martin Austermann, MD

St. Franziskus-Hospital, Muenster, Germany

Product and Customer Videos

Case Studies & Publications

Thoracic Surgery
Image-guided video-assisted thoracoscopic surgery with Artis Pheno for pulmonary nodule resection J. Thoracic Surgery, 2020
Ya-Fu Cheng, Heng-Chung Chen, Pei-Cing Ke, Wei-Heng Hung, Ching-Yuan Cheng, Ching-Hsiung Lin, Bing-Yen Wang
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Neurosurgery
Diagnostic performance of intraoperative cone beam computed tomography compared with postoperative magnetic resonance imaging for detecting hemorrhagic transformation after endovascular treatment following large vessel occlusion Journal of Stroke, 2022
Naoki Kato, Katharina Otani, Yukiko Abe, Tomonobu Kodama, Toshihiro Ishibashi, Yuichi Murayama
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Intraoperative cone-beam CT with metal artifact reduction for assessment of the electrode position and the intracranial structures during deep brain stimulation procedure Acta Neurochirurgica, 2022
Toshinari Kawasaki, Takayuki Kikuchi, Katharina Otani, Yuto Mitsuno, Yukihiro Yamao, Nobukatsu Sawamoto, Ryosuke Takahashi, Susumu Miyamoto
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Spine Surgery
Generating patient‐matched 3D‐printed pedicle screw and laminectomy drill guides from Cone Beam CT images: Studies in ovine and porcine cadavers Medical Physics, 2022
Andrew Kanawati, Alex Constantinidis, Zoe Williams, Ricky O'Brien, Tess Reynolds
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Detalles técnicos

Product Specifications

Installation: Floor-mounted to keep the ceiling free
Minimum room size: 35m² (377 ft²)
Robotic C-arm: 9 axes for positioning of the C-arm, SID lift and Detector + Collimator rotation
Wide space C-arm: 130 cm (51") SID and 95.5 cm (37.5") usable clearance for easy patient access and C-arm positioning
Intraprocedural 3D imaging position: Head side and lateral
Working height: Flexible isocenter⁷ 104 cm (40.95") - 150 cm (59.1")
Max. 3D volume size (diameter x height): 43 cm x 17.5 cm (17" x 7.9") or 32 cm x 23.5 cm (13" x 9.3")
Detector: 30 x 40 detector

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Measured with standard/non-U.S. collimator cover

Optional with syngo DynaCT Large Volume in "landscape mode“.
Clinical images courtesy of University Hospital Ulm, Germany (left) and Jikei University, Tokyo, Japan (right).

Reto Bale et al., “Stereotactic radiofrequency ablation of hepatocellular carcinoma – A histopathological study in explanted livers,” Hepatology (2018): 1–11, https://doi.org/10.1002/hep.30406

Karl K. Poon et al., “Impact of OptimisingFluoroscopic Implant Angles on Paravalvular Regurgitation in Transcatheter Aortic Valve. Replacements – Utility of Three-Dimensional Rotational Angiography,” EuroIntervention8, no. 5(2012): 538–45, http://doi.org/10.4244/EIJV8I5A84.

SusheelK. Kodaliet al., “Two-Year Outcomes After Transcatheter or Surgical Aortic-Valve Replacement,” New England Journal of Medicine 366, no. 18 (2012): 1686–95, https://www.ncbi.nlm.nih.gov/pubmed/22443479.

Yin-Kai Chao et al., “A Comparison of Efficacy and Safety of Preoperative Versus Intraoperative Computed Tomography-Guided Thoracoscopic Lung Resection,” Journal of Thoracic and Cardiovascular Surgery 156, no. 5 (2018): 1974–1983.e1, https://www.ncbi.nlm.nih.gov/pubmed/30119900.

Requires optional syngo DynaCT Large Volume

The statements by Siemens’ customers described herein are based on results that were achieved in the customer’s unique setting. Since there is no “typical” hospital and many variables exist (e.g., hospital size, case mix, level of IT adoption) there can be no guarantee that other customers will achieve the same results.

Contato

ARTIS pheno

Cutting-edge robotic imaging system for multiple surgical disciplines

Benefícios

Evidência