Laszlo Jaksa et al. 3D-Printed multi-material liver model with simultaneous mechanical and radiological tissue-mimicking features for improved realism International Journal of Bioprinting. Publication Date March 28, 2023 How Analyze was Used “For all sample scans, a smooth J30s reconstruction kernel was applied. Analyze 12.0 toolkit (AnalyzeDirect, Overland Park, KS) was used to estimate the average Hounsfield…
Zhonghua Sun et al. Patient-Specific 3D-Printed Low-Cost Models in Medical Education and Clinical Practice Micromachines. Publication Date February 16, 2023 How Analyze was Used “Analyze 12.0/14.0 (AnalyzeDirect, Inc., Lexana, KS, USA) are commonly used commercial software packages for image post-processing and segmentation.” Keywords 3D printing, Cost, Heart, Cardiovascular disease, Model, Medicine, Anatomy, Pathology Author Affiliation(s)…
Sepideh Hatamikia et al. Silicone phantoms fabricated with multi-material extrusion 3D printing technology mimicking imaging properties of soft tissues in CT ArXiv. Publication Date December 6, 2022 How Analyze was Used “In case of the anatomical phantom the obtained HU values were compared with those of the original human CT data. Analyze 12.0 toolkit (AnalyzeDirect,…
Sepideh Hatamikia et al. Realistic 3D printed imaging tumor phantoms for validation of image processing algorithms ArXiv. Publication Date November 27, 2022 How Analyze was Used “We used the Analyze 12.0 toolkit (AnalyzeDirect, Overland Park, United States) in order to measure the HU values from the CT scan related to patients, printed cylinders and printed…
Zhonghua Sun et al. 3D Printed Models in Cardiovascular Disease: An Exciting Future to Deliver Personalized Medicine Micromachines. Publication Date October 22, 2022 How Analyze was Used “There is no standard requirement for software tools to perform images segmentation, although commercially available software such as Mimics (Materialise Leuven, Belgium, MeVislab (Mevismedical Solutions, Bremen, Germany) and…
Thomas Friedrich et al. Lu: NAS – a modular 3D-printed neuroangiography simulator with highest anatomical precision and scalable anatomical-technical interfaces Clinical Neuroradiology. Publication Date September 7, 2022 How Analyze was Used “Segmentation of clinical CT angiography data was performed using Analyze Pro 1.0 (AnalyzeDirect, Kansas, USA).” Keywords 3D-printing, Neuroangiography, Anatomical-technical interfaces Author Affiliation(s) University of…
Sepideh Hatamikia et al. 3D printed patient-specific thorax phantom with realistic heterogenous bone radiopacity using filament printer technology Zeitschrift für Medizinische Physik. Publication Date February 24, 2022 How Analyze was Used “We used the Analyze 12.0 toolkit (AnalyzeDirect, Overland Park, United States) in order to measure the HU values from the CT scan related to…
Catalina Lupulescu et al. The 3D printing of patient-specific kidney models to facilitate pre-surgical planning of renal cell carcinoma using CT datasets Australasian Medical Journal. Publication Date October 1, 2021 How Analyze was Used “The two datasets were post-processed using the commercially available biomedical software Analyze 12.0 (AnalyzeDirect, Inc., Lexana, KS, USA) following a series…
Jose L. Sanchez Noriega et al. Spatially and optically tailored 3D printing for highly miniaturized and integrated microfluidics Nature Communications. Publication Date September 17, 2021 How Analyze was Used “Chips were then scanned using a QuantumGX2 μCT scanner (PerkinElmer, Waltham, MA) at the following settings: 4 min High resolution, Al 0.5 mm + Cu 0.06 mm filter, 36 mm FOV, 90 kV,…
H. Spece et al. 3D printed porous PEEK created via fused filament fabrication for osteoconductive orthopaedic surfaces. Journal of the Mechanical Behavior of Biomedical Materials. Publication Date May 11, 2020 How Analyze was Used “The structures were then rendered in Analyze 12.0 software (AnalyzeDirect, Overland Park, KS) to determine the interconnectivity of the internal pore…
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