Limits...
"Brace technology" thematic series - the Gensingen brace™ in the treatment of scoliosis.

Weiss HR - Scoliosis (2010)

Bottom Line: A new asymmetric Chêneau style CAD/CAM derivate has been designed to overcome problems the author experienced with other Chêneau CAD/CAM systems over the recent years.Sufficient in-brace correction effects have been demonstrated to be achievable when the Chêneau principles of correction are used appropriately.As there is a positive correlation between in-brace correction and the final outcome, the Chêneau concept of bracing with sufficient in-brace corrections as published can be regarded as being efficient when applied well.

View Article: PubMed Central - HTML - PubMed

Affiliation: 1 Orthopedic Rehabilitation Services, D-55457 Gensingen, Alzeyerstr, 23, Germany. hr.weiss@skoliose-dr-weiss.com.

ABSTRACT

Background: Bracing concepts in use today for the treatment of scoliosis include symmetric and asymmetric hard braces usually made of polyethylene (PE) and soft braces. A new asymmetric Chêneau style CAD/CAM derivate has been designed to overcome problems the author experienced with other Chêneau CAD/CAM systems over the recent years.

Brace description: This CAD/CAM Chêneau derivate has been called Gensingen brace™, a brace available to address all possible curve patterns. Once the patients' trunk is scanned with the help of a whole trunk optical 3D-scan and the patients' data from the clinical measurements are recorded, a model of the brace can be created by (1) modifying the trunk model of the patient 'on screen' to achieve a very individual brace model using the CAD/CAM tools provided or by (2) choosing a brace model from our library and re-size it to the patients' properties 'on screen'.

Results: End-result studies have been published on the Chêneau brace as early as 1985. Cohort studies on the Chêneau brace are available as is a prospective controlled study respecting the SRS criteria for bracing studies, demonstrating beneficial outcomes, when compared to the controls using a soft brace. Sufficient in-brace correction effects have been demonstrated to be achievable when the Chêneau principles of correction are used appropriately. As there is a positive correlation between in-brace correction and the final outcome, the Chêneau concept of bracing with sufficient in-brace corrections as published can be regarded as being efficient when applied well. Case reports with high in-brace corrections, as shown within this paper using the Gensingen brace™ promise beneficial outcomes when a good compliance can be achieved.

Conclusions: The use of the Gensingen brace™ leads to sufficient in-brace corrections, when compared to the correction effects achieved with other braces, as described in literature.According to the patients' reports, the Gensingen brace™ is comfortable to wear, when adjusted properly.Further studies are necessary (1) in order to evaluate brace comfort and (2) effectiveness using the SRS inclusion criteria.

No MeSH data available.


Related in: MedlinePlus

Sagittal alignment of a Gensingen brace™ 4C. On the right the implementation of a physiologic sagittal profile is visible with a pronounced lumbar lordosis and a slight thoracic kyphosis.
© Copyright Policy - open-access
Related In: Results  -  Collection

License
getmorefigures.php?uid=PMC2967515&req=5

Figure 5: Sagittal alignment of a Gensingen brace™ 4C. On the right the implementation of a physiologic sagittal profile is visible with a pronounced lumbar lordosis and a slight thoracic kyphosis.

Mentions: A slight lumbar lordosis has been introduced into the braces included into our library (Fig. 5), which can be augmented by using foam pads and the "Stop Point" against rotational forces (Point 37 according to Chêneau) has been set laterally in order to have a better relation to the anterior superior iliac spine on the rib-hump side.


"Brace technology" thematic series - the Gensingen brace™ in the treatment of scoliosis.

Weiss HR - Scoliosis (2010)

Sagittal alignment of a Gensingen brace™ 4C. On the right the implementation of a physiologic sagittal profile is visible with a pronounced lumbar lordosis and a slight thoracic kyphosis.
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC2967515&req=5

Figure 5: Sagittal alignment of a Gensingen brace™ 4C. On the right the implementation of a physiologic sagittal profile is visible with a pronounced lumbar lordosis and a slight thoracic kyphosis.
Mentions: A slight lumbar lordosis has been introduced into the braces included into our library (Fig. 5), which can be augmented by using foam pads and the "Stop Point" against rotational forces (Point 37 according to Chêneau) has been set laterally in order to have a better relation to the anterior superior iliac spine on the rib-hump side.

Bottom Line: A new asymmetric Chêneau style CAD/CAM derivate has been designed to overcome problems the author experienced with other Chêneau CAD/CAM systems over the recent years.Sufficient in-brace correction effects have been demonstrated to be achievable when the Chêneau principles of correction are used appropriately.As there is a positive correlation between in-brace correction and the final outcome, the Chêneau concept of bracing with sufficient in-brace corrections as published can be regarded as being efficient when applied well.

View Article: PubMed Central - HTML - PubMed

Affiliation: 1 Orthopedic Rehabilitation Services, D-55457 Gensingen, Alzeyerstr, 23, Germany. hr.weiss@skoliose-dr-weiss.com.

ABSTRACT

Background: Bracing concepts in use today for the treatment of scoliosis include symmetric and asymmetric hard braces usually made of polyethylene (PE) and soft braces. A new asymmetric Chêneau style CAD/CAM derivate has been designed to overcome problems the author experienced with other Chêneau CAD/CAM systems over the recent years.

Brace description: This CAD/CAM Chêneau derivate has been called Gensingen brace™, a brace available to address all possible curve patterns. Once the patients' trunk is scanned with the help of a whole trunk optical 3D-scan and the patients' data from the clinical measurements are recorded, a model of the brace can be created by (1) modifying the trunk model of the patient 'on screen' to achieve a very individual brace model using the CAD/CAM tools provided or by (2) choosing a brace model from our library and re-size it to the patients' properties 'on screen'.

Results: End-result studies have been published on the Chêneau brace as early as 1985. Cohort studies on the Chêneau brace are available as is a prospective controlled study respecting the SRS criteria for bracing studies, demonstrating beneficial outcomes, when compared to the controls using a soft brace. Sufficient in-brace correction effects have been demonstrated to be achievable when the Chêneau principles of correction are used appropriately. As there is a positive correlation between in-brace correction and the final outcome, the Chêneau concept of bracing with sufficient in-brace corrections as published can be regarded as being efficient when applied well. Case reports with high in-brace corrections, as shown within this paper using the Gensingen brace™ promise beneficial outcomes when a good compliance can be achieved.

Conclusions: The use of the Gensingen brace™ leads to sufficient in-brace corrections, when compared to the correction effects achieved with other braces, as described in literature.According to the patients' reports, the Gensingen brace™ is comfortable to wear, when adjusted properly.Further studies are necessary (1) in order to evaluate brace comfort and (2) effectiveness using the SRS inclusion criteria.

No MeSH data available.


Related in: MedlinePlus