Young Girl Can Breathe Easy Thanks to the Mimics Innovation Suite
Case presented by W. Vos*,****, J. De Backer*,****, P. Germonpré*, P. Parizel**, F. Wuyts***,**** and W. De Backer* (Departments of Pulmonology*, , University Hospital Antwerp; Radiology** and ENT***, Department of Physics****, Antwerp, Belgium; University of Antwerp, Antwerp, Belgium)
Kyfoscoliosis, a deformation of the spine that consists of both lateral and posterior curvatures, often results in decreased lung capacity in those who suffer from it. This was the case for a young 16-year old girl. She had been wearing an orthopaedic corset to control her spinal deformation; however, when she stopped wearing it at the age of 16, a wheezing sound developed. To assess the problem, Dr. Vos and his team turned to advanced functional respiratory imaging, using the Mimics Innovation Suite and flow simulations to (1) gain insight into the patient’s medical condition, (2) suggest a treatment plan, and (3) predict the outcome.
Patient-Specific Diagnosis Using the Mimics® Innovation Suite
The first step in the treatment was a classic lung function test in order to determine the patient’s total lung capacity. Results revealed it to be only 57% of the normal level for a girl her age and height. Next, to determine the origin of the wheezing sound, a CT scan was taken while the lungs were at full capacity. The CT data were then imported into Mimics for easy visualization of the spine and its deformation, the lung lobes, and the airway tree. The image showed a drastically smaller right lower lobe and a malformation and occlusion of the airway tree in the right lung. The extremely small lower lobe, in combination with the occluded airways, was considered to be partly responsible for the wheezing sound.
Before the patient stopped using her corset, the pressure of the corset, combined with her spinal curvature, had caused a total collapse of the airway entering the right lower lobe, preventing any air from reaching this region. After removing the corset, the pressure on the right lobe disappeared, allowing it to become ventilated at high lung volumes. The small bronchial diameter at the level of the truncus intermedius and the high-mass flow rates at larger lung volumes led to a high-velocity flow in this bronchus, which in turn caused the wheezing.
Custom Treatment Planning
Based on their findings, the researchers suggested a patient-specific treatment plan to overcome the underlying cause of the wheezing and allow air to reach the right lower lobe during the complete breathing cycle, not just at high lung volumes. To that end, they designed a stent to open the airway tree. They carefully calculated the stent’s dimensions and placement based on 3D models and data generated with Mimics’ accurate visualization and measurement tools. The data and 3D models were further used for surgical simulation, which allowed for a better understanding of the anatomy ahead of the surgery.
Using Mimics for functional respiratory imaging in combination with computational fluid dynamics, the researchers were able to accurately predict the outcome of the treatment, i.e. its effect on the patient’s lung capacity.
“It can be said that innovative advanced functional imaging using Mimics and flow simulations can improve the level of healthcare in the field of pulmonology through patient-specific analyses. The versatility of the technique and the positive outcomes when used in a clinical setting strengthens the belief that functional imaging using Mimics and CFD can become a standard tool in pulmonology worldwide.”
Dr. Vos et al, , University Hospital Antwerp / University of Antwerp, Belgium
Improved Quality of Life for the Patient
Seven months after the placement of the stent, the results were promising, with total lung capacity increasing from 57% to 68%. It was anticipated that within 18 months the patient’s lung capacity would approach normal levels. Even if the patient’s congenital medical condition prevents her total lung capacity from ever fully achieving normal values, the treatment successfully dealt with the patient’s initial complaint, as the wheezing sound disappeared immediately after the stent was put in place.
In addition to successfully treating their patient, the researchers also achieved the goals they set before the start of the study - to perform a patient-specific evaluation, suggest an appropriate therapy, and predict the outcome using advanced functional imaging techniques. The researchers believe that these techniques will become standard tools in pulmonology, increasing each patient’s quality of life and decreasing their share of overall healthcare costs.
Facilitating Respiratory Research with the Pulmonary Module
Mimics 17.0 introduces a dedicated Pulmonary Module facilitating segmentation of the entire lower respiratory system in a fast and flexible way. The automatic labeling method allows the creation of consistently labeled airway centerlines on which a multitude of advanced 3D measurements of a patient’s or group of patients’ anatomies can be performed. Mimics can drive research in the field of functional respiratory imaging and helps researchers to better understand the pathologies and to optimize device designs.
Mimics® Innovation Awards
Acknowledging excellence in 'Engineering on Anatomy'
Use the Mimics Innovation Suite for your cutting-edge research
The Medical edition of the Mimics® Innovation Suite currently consists of the following software components: Mimics® Medical version 17 and 3-matic® Medical version 9 (released 2014). Mimics® Medical is intended for use as a software interface and image segmentation system for the transfer of imaging information from a medical scanner such as a CT scanner or a Magnetic Resonance Imaging scanner. It is also used as pre-operative software for simulating / evaluating surgical treatment options. 3-matic® Medical is intended for use as software for computer assisted design and manufacturing of medical exo- and endo-prostheses, patient-specific medical and dental/orthodontic accessories and dental restorations.
The Research edition of the Mimics® Innovation Suite currently consists of the following software components: Mimics® Research version 17 and 3-matic® Research version 9 (released 2014). Mimics® Research is intended only for research purposes. It is intended as a software interface and image segmentation system for the transfer of imaging information from a variety of imaging sources to an output file. It is also used as software for simulating, measuring and modeling in the field of biomedical research. Mimics® Research must not be used, and is not intended to be used, for any medical purpose whatsoever. 3-matic® Research is intended for use as a software for computer assisted design and engineering in the field of biomedical research. 3-matic® Research must not be used, and is not intended to be used, for the design or manufacturing of medical devices of any kind.
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