Jump to content

Search the Community

Showing results for tags 'ASD'.



More search options

  • Search By Tags

    Type tags separated by commas.
  • Search By Author

Content Type


Blogs

  • Embodi3d Test Blog
  • 3D Printing in Medicine
  • Cool Medical 3D-Printing
  • 3D Bio Printing by Paige Anne Carter
  • SSchoppert's Blog
  • Additive Manufacturing in Medicine
  • biomedical 3D printing
  • Bryce's Blog
  • Chris Leggett
  • 3D Models Help Improve Surgical Precision, Reduce Operating Time
  • Desktop 3D Printing in Medical Imaging
  • 3D Printing: Radiology corner
  • The Embodi3D.com Blog
  • descobar3d's Blog
  • 3D Printing in Anthropology
  • Learn to 3D Print: Basic Tools from software to printers
  • 3D printing for bio-medicine
  • 3D Biomedical Printing - by Jacob M.
  • Valchanov's Blog
  • Deirdre_Manion-Fischer's Blog
  • Matt Johnson's Biomedical 3D Printing Blog
  • Devarsh Vyas's Biomedical 3D Printing Blogs
  • Devarsh Vyas's Biomedical 3D Printing Blogs
  • Mike at Medical Models
  • Best embodi3d.com Medical and Anatomic Files

Forums

  • Biomedical 3D Printing
    • Hardware and 3D Printers
    • democratiz3D®
    • Software
    • Clinical applications
    • 3D Printable Models
    • Medical Imaging: CT, MRI, US
    • Science and Research
    • News and Trending Topics
    • Education, Conferences, Meetings, Events
  • General
    • Announcements
    • Questions and Answers
    • Suggestions and Feedback
    • Member Lounge (members only)
  • Classifieds, Goods and Services
    • General Classifieds - members post free
    • Services needed
    • Services offered
    • Stuff for sale/needed
    • Post a Job
    • Looking for work - visible only to members

Categories

  • democratiz3D® Processing
  • Bones
    • Skull and Head
    • Dental, Orthodontic, Maxillofacial
    • Spine and Pelvis
    • Extremity, Upper (Arm)
    • Extremity, Lower (Leg)
    • Thorax and Ribs
    • Whole body
    • Skeletal tumors, fractures and bony pathology
  • Muscles
    • Head and neck muscles
    • Extremity, Lower (Leg) Muscles
    • Extremity, Upper (Arm) Muscles
    • Thorax and Ribs Muscles
    • Abdomen and Pelvis muscles
    • Whole body Muscles
    • Muscular tumors and sarcomas
  • Cardiac and Vascular
    • Heart
    • Congenital Heart Defects
    • Aorta
    • Mesenteric and abdominal arteries
    • Veins
  • Organs of the Body
    • Brain and nervous system
    • Kidneys
    • Lungs
    • Liver
    • Other organs
  • Skin
  • Veterinary
    • Dogs
    • Cats
    • Other
  • Science and Research
    • Paleontology
    • Anthropology
    • Misc Research
  • Miscellaneous
    • Formlabs
  • Medical CT Scan Files
    • Skull, Head, and Neck CTs
    • Dental, Orthodontic, Maxillofacial CTs
    • Thorax and Ribs CTs
    • Abdomen and Pelvis CTs
    • Extremity, Upper (Arm) CTs
    • Extremity, Lower (Leg) CTs
    • Spine CTs
    • Whole Body CTs
    • MRIs
    • Ultrasound
    • Veterinary/Animals
    • Other

Product Groups

  • Premium Services
  • Physical Print Quotes

Find results in...

Find results that contain...


Date Created

  • Start

    End


Last Updated

  • Start

    End


Filter by number of...

Joined

  • Start

    End


Group


Name


Secondary Email Address


Interests

Found 2 results

  1. Version 1.0.0

    407 downloads

    There are four STL files for 3D printing demonstrating a moderate secundum atrial septal defect (ASD) and a mild coarctation. An atrial septal defect is a birth defect of the heart in which there is a hole in the wall (septum) that divides the upper chambers of the heart (atria). A hole can vary in size and may close on its own or may require surgery. If one of these openings does not close, a hole is left, and it is called an atrial septal defect. The hole increases the amount of blood that flows through the lungs and over time, it may cause damage to the blood vessels in the lungs. Damage to the blood vessels in the lungs may cause problems in adulthood, such as high blood pressure in the lungs and heart failure. Other problems may include abnormal heartbeat, and increased risk of stroke. MRI obtained for evaluation of distal arch and pulmonary veins due to findings of pulmonary overcirculation out of proportion to typical ASD pathophysiology. The MRI provided a complete anatomic overview and quantified the right sided enlargement from the 2:1 shunt through the ASD. Due to saturation band nulling of blood returning through the right sided pulmonary veins, there was excellent definition of the ASD due to the "dark" blood mixing with the "bright" blood and outlining the borders of the ASD which transfers to the model very well. Please keep in mind, that the model represents a heart in end-systole rather than diastole. Disclaimer: The available model has been validated to demonstrate the case’s pathologic features on a Z450 3D printer, (3DSystems, Circle Rock Hill, South Carolina)(or other printer as appropriate). While the mask applied to the original DICOM images accurately represents the anatomic features, some anatomic detail may be lost due to thin walled structures or inadequate supporting architecture; while other anatomic detail may be added due to similar limitations resulting in bleeding of modeling materials into small negative spaces. However, intracardiac structures, relationships, and pathologic features represent anatomic findings to scale and in high detail. Credit: The model is provided for distribution on Embodi3D with the permission of the author, pediatric cardiologist Dr. Matthew Bramlet, MD, and is part of the Congenital Heart Defects library. We thank Dr. Bramlet and all others who are working to help children with congenital heart problems lead normal and happy lives. It is distributed by Dr. Bramlet under the Creative Commons license Attribution-NonCommercial-NoDerivs. Please respect the terms of the licensing agreement.

    Free

  2. 71 downloads

    Pulmonary atresia is a form of congenital heart disease, in which the pulmonary valve does not form properly. The pulmonary valve is located on the right side of the heart and regulates blood flow to the lungs. This defect prevents blood from flowing into the lungs to gather oxygen. Pulmonary atresia is often associated with patent ductus arteriosus and can occur with or without a ventricular septal defect. Symptoms, which usually occur within the first few hours of life, include cyanosis, fast breathing, fatigue, poor eating habits, and shortness of breath. The CT scan, from which the STL files are derived, is from a 3 week old infant suffering from pulmonary atresia, ventricular septal defect with confluent branch pulmonary arteries and patent ductus arteriosus (PDA). In addition, there is a right aortic arch with a tortuous PDA inserting into the right pulmonary artery as well as an atrial septal defect (ASD). The left subclavian artery originates first off the aorta with a common origin of the left and right carotid arteries followed by the right subclavian artery. Five STL files have been zipped and available for download. One blood pool model for extracardiac structural analysis, and four files for the myocardial segmentation. One file of the entire heart and then three files, (1,2 and 3) of the three slice method with the center slice aligning with a short axis slice and containing all valves. The heart model was designed to be printed in three slices and held together with magnets. The model is provided for distribution on Embodi3D with the permission of the author, pediatric cardiologist Dr. Matthew Bramlet, MD, and is part of the Heart Library. We thank Dr. Bramlet and all others who are working to help children with congenital heart problems lead normal and happy lives. It is distributed by Dr. Bramlet under the Creative Commons license Attribution-NonCommercial-NoDerivs. Please respect the terms of the licensing agreement. A US quarter is shown for scale in the images below.

    Free

×
×
  • Create New...