Reliability of trunk shape measurements based on 3-D surface reconstructions

Pazos, Valérie; Cheriet, Foued; Danserau, Jean; Ronsky, Janet L.; Zernicke, Ronald F.; Labelle, Hubert

doi:10.1007/s00586-007-0457-0

Cited by 83 publications

(83 citation statements)

References 23 publications

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“…A smallest detectable difference of 2.5 • for the maximum BSR index was reported by Pazos et al [88] and therefore it is considered here as a threshold value to judge the accuracy of the simulation with regard to trunk asymmetry. The method proposed in the present work produced simulated postoperative trunks that are not only qualitatively similar to their real counterparts but that also quantitatively fall within the acceptable error range for the BSR index in the thoracic region, as given by the threshold value.…”

Section: Discussionmentioning

confidence: 94%

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A physically based trunk soft tissue modeling for scoliosis surgery planning systems

Assi

Grenier

Parent

et al. 2015

Computerized Medical Imaging and Graphics

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One of the major concerns of scoliotic patients undergoing spinal correction surgery is the trunk's external appearance after the surgery. This paper presents a novel incremental approach for simulating postoperative trunk shape in scoliosis surgery. Preoperative and postoperative trunk shapes data were obtained using three-dimensional medical imaging techniques for seven patients with adolescent idiopathic scoliosis. Results of qualitative and quantitative evaluations, based on the comparison of the simulated and actual postoperative trunk surfaces, showed an adequate accuracy of the method. Our approach provides a candidate simulation tool to be used in a clinical environment for the surgery planning process. IntroductionAdolescent idiopathic scoliosis (AIS) is a complex three-dimensional deformation of the trunk. In severe cases, a spine surgery treatment is required. Most of the surgical procedures use specialized instrumentation attached to the spine to correct the deformities (Fig. 4.1). One 22of the concerns of the patient (and, in fact, a major factor of satisfaction) is the trunk's appearance after the surgery. In addition to the surgeon's priorities in the surgery planning process, a tool for simulating the trunk's postoperative appearance is of importance to take into account the patient's concerns in the treatment planning.Aubin et al. [4] have developed a spinal surgery simulation system in the context of the optimal planning of surgical procedures to correct scoliotic deformities. The overall goal of this biomechanical engineering research project is to develop a user-oriented simulator for virtual prototyping of spinal deformities surgeries: a fully operational, safe and reliable patient-specific tool that will permit advanced planning of surgery with predictable outcomes, and rationalized design of surgical instrumentation [3,4]. It addresses the problems faced by orthopedic surgeons treating spinal deformities when making surgical planning decisions. The developed system is, however, only concerned with the configuration of the spine, and does not furnish any estimate of the effects of the surgical treatment on the external appearance of the trunk. A desirable complement to this spine simulator would be to develop a full trunk model that would allow the propagation of the surgical correction on the spine toward the external trunk surface through the soft tissue deformation.Physics-based models of deformable objects have been studied since the early 80's and are common in animation where physical laws are applied to an object to simulate realistic movements. Deformable physics-based models are also used in biomedical applications, in particular for surgery simulation [30]. These applications require visual and physical realism, but the real biomechanical properties involved are not always well known. The two most popular approaches to physically modeling soft tissues are the Finite Element Method (FEM) and Mass-Spring Model (MSM). Commonly used in engineering to accurately analyze struct...

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Section: Discussionmentioning

confidence: 94%

“…This choice is appropriate since the patient's first concern is for their trunk asymmetry and the BSR quantity has been proven to capture the information related to the rotation of the trunk and the rib hump [86,87,88].…”

Section: Discussionmentioning

confidence: 99%

A physically based trunk soft tissue modeling for scoliosis surgery planning systems

Assi

Grenier

Parent

et al. 2015

Computerized Medical Imaging and Graphics

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“…Moreover, it is closer to the perception of the distortion by the patient, being mainly concerned with the aesthetics 3D deformities induced by the scoliosis rather than the radiological distortion of the spine. (Pazos 2007, Denton 1992, Weisz 1988, Theologis 1997, Sahlstrand 1986 …”

Section: Reliability Of the Optical Techniquesmentioning

confidence: 99%

Three-Dimensional Assessment of the Scoliosis

Legaye¹

2012

Recent Advances in Scoliosis

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“…TS symmetry is also one of the elements intergrading and improving the quality of life of patients, an issue vital for any human being. TS analysis can help document the external asymmetry associated with different types of spinal curves in scoliosis as well as the cosmetic improvement obtained after treatment with exercises [2].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Scoliosis Deviation with Clinical Measurements during Physical Therapy

Ramova

Poposka²,

Lazović³

et al. 2013

Maced J Med Sci

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Aim: Scoliosis is a 3D deformation, in a vast related medical literature, we can find quit a few scoliosis evaluation indices, which are based on back surface data and are generally measured along three planes. The purpose of this study was to assess the usefulness of surface clinical measurements for evaluation of condition by patients with scoliosis in shorter terms. Materials and Method:A total of 40 scoliosis patients, with an average age of 13 years, the average Risser sign 3 and an average angle of curvature of 23.67° according to Cobb were included in this study. In research were looking a correlation between convexity of curve by xray picture and asymmetry of measurement distances.Results: the data analyze is showing a correlation between decrease of clinical asymmetry and reduction of curve by treatment with significance p < 0.01. The trunk surface asymmetry is still difficult to objectify and it depended of new examination technique shall be done more. Conclusion:External measurements of some anatomical points can be use in physical therapy practice for evaluation of condition by patients with scoliosis with significant correlation of convexity of curve.

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Reliability of trunk shape measurements based on 3-D surface reconstructions

Cited by 83 publications

References 23 publications

A physically based trunk soft tissue modeling for scoliosis surgery planning systems

A physically based trunk soft tissue modeling for scoliosis surgery planning systems

Three-Dimensional Assessment of the Scoliosis

Evaluation of Scoliosis Deviation with Clinical Measurements during Physical Therapy

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