�ݺ�ߣshows by User: BrainlabCorporate

�ݺ�ߣshows by User: BrainlabCorporate / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: BrainlabCorporate / Fri, 15 Jan 2016 14:54:59 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: BrainlabCorporate Simplicity in Neuronavigation /slideshow/simplicity-in-neuronavigation/57099177 nsflencranialnav1014-rev2-160115145459
Brainlab Cranial Navigation. Efficiently combining decisive aspects of neurosurgery. Brainlab® Cranial 3.0 provides a new user experience on Kick® and Curve™ navigation platforms. Fully DICOM-based, cranial navigation and Brainlab Elements* can run parallel with instant synchronization to update navigated image sets with new fusion results, SmartBrush® objects or trajectories.]]>
Brainlab Cranial Navigation. Efficiently combining decisive aspects of neurosurgery. Brainlab® Cranial 3.0 provides a new user experience on Kick® and Curve™ navigation platforms. Fully DICOM-based, cranial navigation and Brainlab Elements* can run parallel with instant synchronization to update navigated image sets with new fusion results, SmartBrush® objects or trajectories.]]> Fri, 15 Jan 2016 14:54:59 GMT /slideshow/simplicity-in-neuronavigation/57099177 BrainlabCorporate@slideshare.net(BrainlabCorporate) Simplicity in Neuronavigation BrainlabCorporate Brainlab Cranial Navigation. Efficiently combining decisive aspects of neurosurgery. Brainlab® Cranial 3.0 provides a new user experience on Kick® and Curve™ navigation platforms. Fully DICOM-based, cranial navigation and Brainlab Elements* can run parallel with instant synchronization to update navigated image sets with new fusion results, SmartBrush® objects or trajectories. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/nsflencranialnav1014-rev2-160115145459-thumbnail.jpg?width=120&height=120&fit=bounds" /> Brainlab Cranial Navigation. Efficiently combining decisive aspects of neurosurgery. Brainlab® Cranial 3.0 provides a new user experience on Kick® and Curve™ navigation platforms. Fully DICOM-based, cranial navigation and Brainlab Elements* can run parallel with instant synchronization to update navigated image sets with new fusion results, SmartBrush® objects or trajectories.

Simplicity in Neuronavigation from Brainlab

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1 Brochure TraumaCad 2.4 Joints /slideshow/brochure-trauma-cad24joints/34071922 brochure-traumacad-2-140429044844-phpapp02
Learn more: https://www.brainlab.com/traumacad TraumaCad® Joints—Automatic Hip Replacement Planning automatically aligns implants to their anatomic landmarks, performs a virtual resection and assembles components at their attachment points to calculate the resulting leg length and offset. Leg Length and Offset Optimization allows the physician to vary the component size and position, and see the impact on leg length and offset on the reduced hip. Post Operative Evaluation determines acetabular cup anteversion and inclination as well as femoral neck shaft version and inclination on the post-op AP X-Ray. ]]>
Learn more: https://www.brainlab.com/traumacad TraumaCad® Joints—Automatic Hip Replacement Planning automatically aligns implants to their anatomic landmarks, performs a virtual resection and assembles components at their attachment points to calculate the resulting leg length and offset. Leg Length and Offset Optimization allows the physician to vary the component size and position, and see the impact on leg length and offset on the reduced hip. Post Operative Evaluation determines acetabular cup anteversion and inclination as well as femoral neck shaft version and inclination on the post-op AP X-Ray. ]]> Tue, 29 Apr 2014 04:48:44 GMT /slideshow/brochure-trauma-cad24joints/34071922 BrainlabCorporate@slideshare.net(BrainlabCorporate) Brochure TraumaCad 2.4 Joints BrainlabCorporate Learn more: https://www.brainlab.com/traumacad TraumaCad® Joints—Automatic Hip Replacement Planning automatically aligns implants to their anatomic landmarks, performs a virtual resection and assembles components at their attachment points to calculate the resulting leg length and offset. Leg Length and Offset Optimization allows the physician to vary the component size and position, and see the impact on leg length and offset on the reduced hip. Post Operative Evaluation determines acetabular cup anteversion and inclination as well as femoral neck shaft version and inclination on the post-op AP X-Ray. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/brochure-traumacad-2-140429044844-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/traumacad TraumaCad® Joints—Automatic Hip Replacement Planning automatically aligns implants to their anatomic landmarks, performs a virtual resection and assembles components at their attachment points to calculate the resulting leg length and offset. Leg Length and Offset Optimization allows the physician to vary the component size and position, and see the impact on leg length and offset on the reduced hip. Post Operative Evaluation determines acetabular cup anteversion and inclination as well as femoral neck shaft version and inclination on the post-op AP X-Ray.

Brochure TraumaCad 2.4 Joints from Brainlab

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1 Product Sheet VoyantMark /slideshow/product-sheet-voyant-mark-34071407/34071407 product-sheet-voyantmark-140429043312-phpapp02
Learn more: https://www.brainlab.com/traumacad VoyantMark™—Accurately calibrate images and measure patient anatomy. VoyantMark is a single marker X-Ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy—hip, knee, shoulder, ankle and foot. ]]>
Learn more: https://www.brainlab.com/traumacad VoyantMark™—Accurately calibrate images and measure patient anatomy. VoyantMark is a single marker X-Ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy—hip, knee, shoulder, ankle and foot. ]]> Tue, 29 Apr 2014 04:33:12 GMT /slideshow/product-sheet-voyant-mark-34071407/34071407 BrainlabCorporate@slideshare.net(BrainlabCorporate) Product Sheet VoyantMark BrainlabCorporate Learn more: https://www.brainlab.com/traumacad VoyantMark™—Accurately calibrate images and measure patient anatomy. VoyantMark is a single marker X-Ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy—hip, knee, shoulder, ankle and foot. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/product-sheet-voyantmark-140429043312-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/traumacad VoyantMark™—Accurately calibrate images and measure patient anatomy. VoyantMark is a single marker X-Ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy—hip, knee, shoulder, ankle and foot.

Product Sheet VoyantMark from Brainlab

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1 Brochure Elements /BrainlabCorporate/brochure-elements brochureelements-140115050824-phpapp01
Learn more: https://www.brainlab.com/elements Brainlab Elements brings instant access to a suite of radiotherapy pre-planning solutions that work seamlessly together, delivering capability without complexity. Clinicians define the individual elements they need based on their case load, patient need and departmental infrastructure. Brainlab Elements bridge departments and offer working, scalable connections between clinical subspecialties like neurosurgery, spine surgery, orthopedics and radiation oncology. No other company brings it all together like Brainlab.]]>
Learn more: https://www.brainlab.com/elements Brainlab Elements brings instant access to a suite of radiotherapy pre-planning solutions that work seamlessly together, delivering capability without complexity. Clinicians define the individual elements they need based on their case load, patient need and departmental infrastructure. Brainlab Elements bridge departments and offer working, scalable connections between clinical subspecialties like neurosurgery, spine surgery, orthopedics and radiation oncology. No other company brings it all together like Brainlab.]]> Wed, 15 Jan 2014 05:08:23 GMT /BrainlabCorporate/brochure-elements BrainlabCorporate@slideshare.net(BrainlabCorporate) Brochure Elements BrainlabCorporate Learn more: https://www.brainlab.com/elements Brainlab Elements brings instant access to a suite of radiotherapy pre-planning solutions that work seamlessly together, delivering capability without complexity. Clinicians define the individual elements they need based on their case load, patient need and departmental infrastructure. Brainlab Elements bridge departments and offer working, scalable connections between clinical subspecialties like neurosurgery, spine surgery, orthopedics and radiation oncology. No other company brings it all together like Brainlab. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/brochureelements-140115050824-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/elements Brainlab Elements brings instant access to a suite of radiotherapy pre-planning solutions that work seamlessly together, delivering capability without complexity. Clinicians define the individual elements they need based on their case load, patient need and departmental infrastructure. Brainlab Elements bridge departments and offer working, scalable connections between clinical subspecialties like neurosurgery, spine surgery, orthopedics and radiation oncology. No other company brings it all together like Brainlab.

Brochure Elements from Brainlab

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1 iPlan BOLD MRI Mapping Clinical White Paper /slideshow/white-paper-mri-bold-technology/30038141 whitepapermriboldtechnology-140115050420-phpapp01
Learn more: https://www.brainlab.com/fibertracking-software With iPlan BOLD MRI Mapping, anatomical images are enhanced with functional maps showing areas of the brain that are responsible for important motoric or cognitive functions. iPlan BOLD MRI Mapping can be easily combined with iPlan FiberTracking to provide a powerful and comprehensive functional package with information about vital functional areas and significant white matter structures.]]>
Learn more: https://www.brainlab.com/fibertracking-software With iPlan BOLD MRI Mapping, anatomical images are enhanced with functional maps showing areas of the brain that are responsible for important motoric or cognitive functions. iPlan BOLD MRI Mapping can be easily combined with iPlan FiberTracking to provide a powerful and comprehensive functional package with information about vital functional areas and significant white matter structures.]]> Wed, 15 Jan 2014 05:04:20 GMT /slideshow/white-paper-mri-bold-technology/30038141 BrainlabCorporate@slideshare.net(BrainlabCorporate) iPlan BOLD MRI Mapping Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/fibertracking-software With iPlan BOLD MRI Mapping, anatomical images are enhanced with functional maps showing areas of the brain that are responsible for important motoric or cognitive functions. iPlan BOLD MRI Mapping can be easily combined with iPlan FiberTracking to provide a powerful and comprehensive functional package with information about vital functional areas and significant white matter structures. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepapermriboldtechnology-140115050420-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/fibertracking-software With iPlan BOLD MRI Mapping, anatomical images are enhanced with functional maps showing areas of the brain that are responsible for important motoric or cognitive functions. iPlan BOLD MRI Mapping can be easily combined with iPlan FiberTracking to provide a powerful and comprehensive functional package with information about vital functional areas and significant white matter structures.

iPlan BOLD MRI Mapping Clinical White Paper from Brainlab

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1 Stereotactic Radiosurgery and Radiotherapy of Pituitary Adenomas Clinical White Paper /slideshow/white-paper-pituary-adenomas/30038140 whitepaperpituaryadenomas-140115050418-phpapp01
Learn more: https://www.brainlab.com/iplan-rt Pituitary adenomas (PAs) are the third most common intracranial tumors in surgical practice, accounting for approximately 10 to 25% of all intracranial neoplasms. Radiological series suggest that unsuspected PAs may be present in one out of six people and autopsy specimens reveal a prevalence of 14%. Histopathologically, PAs are mostly benign lesions located on the anterior lobe of the pituitary gland. Because of their invasive growth tendency, these adenomas may cause significant morbidity in affected patients, expressed by visual, endocrinologic and neurologic symptoms.]]>
Learn more: https://www.brainlab.com/iplan-rt Pituitary adenomas (PAs) are the third most common intracranial tumors in surgical practice, accounting for approximately 10 to 25% of all intracranial neoplasms. Radiological series suggest that unsuspected PAs may be present in one out of six people and autopsy specimens reveal a prevalence of 14%. Histopathologically, PAs are mostly benign lesions located on the anterior lobe of the pituitary gland. Because of their invasive growth tendency, these adenomas may cause significant morbidity in affected patients, expressed by visual, endocrinologic and neurologic symptoms.]]> Wed, 15 Jan 2014 05:04:18 GMT /slideshow/white-paper-pituary-adenomas/30038140 BrainlabCorporate@slideshare.net(BrainlabCorporate) Stereotactic Radiosurgery and Radiotherapy of Pituitary Adenomas Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt Pituitary adenomas (PAs) are the third most common intracranial tumors in surgical practice, accounting for approximately 10 to 25% of all intracranial neoplasms. Radiological series suggest that unsuspected PAs may be present in one out of six people and autopsy specimens reveal a prevalence of 14%. Histopathologically, PAs are mostly benign lesions located on the anterior lobe of the pituitary gland. Because of their invasive growth tendency, these adenomas may cause significant morbidity in affected patients, expressed by visual, endocrinologic and neurologic symptoms. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepaperpituaryadenomas-140115050418-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt Pituitary adenomas (PAs) are the third most common intracranial tumors in surgical practice, accounting for approximately 10 to 25% of all intracranial neoplasms. Radiological series suggest that unsuspected PAs may be present in one out of six people and autopsy specimens reveal a prevalence of 14%. Histopathologically, PAs are mostly benign lesions located on the anterior lobe of the pituitary gland. Because of their invasive growth tendency, these adenomas may cause significant morbidity in affected patients, expressed by visual, endocrinologic and neurologic symptoms.

Stereotactic Radiosurgery and Radiotherapy of Pituitary Adenomas Clinical White Paper from Brainlab

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1 Monte Carlo Dose Algorithm Clinical White Paper /BrainlabCorporate/white-paper-monte-carlo whitepapermontecarlo-140115050416-phpapp01
Learn more: https://www.brainlab.com/iplan-rt Conventional dose calculation algorithms, such as Pencil Beam are proven effective for tumors located in homogeneous regions with similar tissue consistency such as the brain. However, these algorithms tend to overestimate the dose distribution in tumors diagnosed in extracranial regions such as in the lung and head and neck regions where large inhomogeneities exist. Due to the inconsistencies seen in current calculation methods for extracranial treatments and the need for more precise radiation delivery, research has led to the creation and integration of improved calculation methods into treatment planning software.]]>
Learn more: https://www.brainlab.com/iplan-rt Conventional dose calculation algorithms, such as Pencil Beam are proven effective for tumors located in homogeneous regions with similar tissue consistency such as the brain. However, these algorithms tend to overestimate the dose distribution in tumors diagnosed in extracranial regions such as in the lung and head and neck regions where large inhomogeneities exist. Due to the inconsistencies seen in current calculation methods for extracranial treatments and the need for more precise radiation delivery, research has led to the creation and integration of improved calculation methods into treatment planning software.]]> Wed, 15 Jan 2014 05:04:16 GMT /BrainlabCorporate/white-paper-monte-carlo BrainlabCorporate@slideshare.net(BrainlabCorporate) Monte Carlo Dose Algorithm Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt Conventional dose calculation algorithms, such as Pencil Beam are proven effective for tumors located in homogeneous regions with similar tissue consistency such as the brain. However, these algorithms tend to overestimate the dose distribution in tumors diagnosed in extracranial regions such as in the lung and head and neck regions where large inhomogeneities exist. Due to the inconsistencies seen in current calculation methods for extracranial treatments and the need for more precise radiation delivery, research has led to the creation and integration of improved calculation methods into treatment planning software. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepapermontecarlo-140115050416-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt Conventional dose calculation algorithms, such as Pencil Beam are proven effective for tumors located in homogeneous regions with similar tissue consistency such as the brain. However, these algorithms tend to overestimate the dose distribution in tumors diagnosed in extracranial regions such as in the lung and head and neck regions where large inhomogeneities exist. Due to the inconsistencies seen in current calculation methods for extracranial treatments and the need for more precise radiation delivery, research has led to the creation and integration of improved calculation methods into treatment planning software.

Monte Carlo Dose Algorithm Clinical White Paper from Brainlab

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1 Stereotactic Radiotherapy of Recurrent Malignant Gliomas Clinical White Paper /slideshow/white-paper-malignant-gliomas/30038137 whitepapermalignantgliomas-140115050414-phpapp01
Learn more: https://www.brainlab.com/intraoperative-mri Tumors of the central nervous system (CNS) represent approximately 176,000 newly diagnosed cases worldwide per year, with an estimated annual mortality of 128,000. Malignant gliomas comprise 30% of all primary CNS tumors and remain one of the greatest challenges in oncology today, despite access to state-of-the-art surgery, imaging, radiotherapy and chemotherapy.]]>
Learn more: https://www.brainlab.com/intraoperative-mri Tumors of the central nervous system (CNS) represent approximately 176,000 newly diagnosed cases worldwide per year, with an estimated annual mortality of 128,000. Malignant gliomas comprise 30% of all primary CNS tumors and remain one of the greatest challenges in oncology today, despite access to state-of-the-art surgery, imaging, radiotherapy and chemotherapy.]]> Wed, 15 Jan 2014 05:04:14 GMT /slideshow/white-paper-malignant-gliomas/30038137 BrainlabCorporate@slideshare.net(BrainlabCorporate) Stereotactic Radiotherapy of Recurrent Malignant Gliomas Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/intraoperative-mri Tumors of the central nervous system (CNS) represent approximately 176,000 newly diagnosed cases worldwide per year, with an estimated annual mortality of 128,000. Malignant gliomas comprise 30% of all primary CNS tumors and remain one of the greatest challenges in oncology today, despite access to state-of-the-art surgery, imaging, radiotherapy and chemotherapy. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepapermalignantgliomas-140115050414-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/intraoperative-mri Tumors of the central nervous system (CNS) represent approximately 176,000 newly diagnosed cases worldwide per year, with an estimated annual mortality of 128,000. Malignant gliomas comprise 30% of all primary CNS tumors and remain one of the greatest challenges in oncology today, despite access to state-of-the-art surgery, imaging, radiotherapy and chemotherapy.

Stereotactic Radiotherapy of Recurrent Malignant Gliomas Clinical White Paper from Brainlab

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1 Stereotactic Radiosurgery and Radiotherapy of Brain Metastases Clinical White Paper /slideshow/white-paper-brain-metastases/30038135 whitepaperbrainmetastases-140115050413-phpapp02
Learn more: https://www.brainlab.com/iplan-rt Brain metastases are a common manifestation of systemic cancer constituting as much as 30% of all intracranial malignant tumors. Each year, 15 to 30% of cancer patients develop brain metastases, yielding an incidence of over 100,000 patients in the US. Development of brain metastases leads directly to the patient’s death in the majority of cases.]]>
Learn more: https://www.brainlab.com/iplan-rt Brain metastases are a common manifestation of systemic cancer constituting as much as 30% of all intracranial malignant tumors. Each year, 15 to 30% of cancer patients develop brain metastases, yielding an incidence of over 100,000 patients in the US. Development of brain metastases leads directly to the patient’s death in the majority of cases.]]> Wed, 15 Jan 2014 05:04:13 GMT /slideshow/white-paper-brain-metastases/30038135 BrainlabCorporate@slideshare.net(BrainlabCorporate) Stereotactic Radiosurgery and Radiotherapy of Brain Metastases Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt Brain metastases are a common manifestation of systemic cancer constituting as much as 30% of all intracranial malignant tumors. Each year, 15 to 30% of cancer patients develop brain metastases, yielding an incidence of over 100,000 patients in the US. Development of brain metastases leads directly to the patient’s death in the majority of cases. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepaperbrainmetastases-140115050413-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt Brain metastases are a common manifestation of systemic cancer constituting as much as 30% of all intracranial malignant tumors. Each year, 15 to 30% of cancer patients develop brain metastases, yielding an incidence of over 100,000 patients in the US. Development of brain metastases leads directly to the patient’s death in the majority of cases.

Stereotactic Radiosurgery and Radiotherapy of Brain Metastases Clinical White Paper from Brainlab

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1 Stereotactic Radiosurgery of Arteriovenous Malformations Clinical White Paper /slideshow/white-paper-arteriovenous-malformations/30038134 whitepaperarteriovenousmalformations-140115050412-phpapp02
Learn more: https://www.brainlab.com/radiosurgery-products/ Despite the low prevalence—between 0.04% and 0.52%—in the general population, intracranial arteriovenous malformations (AVMs) are the leading cause of nontraumatic intracerebral hemorrhage in people younger than 35 years old. Intracranial AVMs are congenital anomalies developing between the fourth and eighth week of intrauterine life. They consist of the persistence of connections between an artery and a vein without the interposition of a capillary bed, typically under a high-flow regimen. ]]>
Learn more: https://www.brainlab.com/radiosurgery-products/ Despite the low prevalence—between 0.04% and 0.52%—in the general population, intracranial arteriovenous malformations (AVMs) are the leading cause of nontraumatic intracerebral hemorrhage in people younger than 35 years old. Intracranial AVMs are congenital anomalies developing between the fourth and eighth week of intrauterine life. They consist of the persistence of connections between an artery and a vein without the interposition of a capillary bed, typically under a high-flow regimen. ]]> Wed, 15 Jan 2014 05:04:12 GMT /slideshow/white-paper-arteriovenous-malformations/30038134 BrainlabCorporate@slideshare.net(BrainlabCorporate) Stereotactic Radiosurgery of Arteriovenous Malformations Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/radiosurgery-products/ Despite the low prevalence—between 0.04% and 0.52%—in the general population, intracranial arteriovenous malformations (AVMs) are the leading cause of nontraumatic intracerebral hemorrhage in people younger than 35 years old. Intracranial AVMs are congenital anomalies developing between the fourth and eighth week of intrauterine life. They consist of the persistence of connections between an artery and a vein without the interposition of a capillary bed, typically under a high-flow regimen. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepaperarteriovenousmalformations-140115050412-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/radiosurgery-products/ Despite the low prevalence—between 0.04% and 0.52%—in the general population, intracranial arteriovenous malformations (AVMs) are the leading cause of nontraumatic intracerebral hemorrhage in people younger than 35 years old. Intracranial AVMs are congenital anomalies developing between the fourth and eighth week of intrauterine life. They consist of the persistence of connections between an artery and a vein without the interposition of a capillary bed, typically under a high-flow regimen.

Stereotactic Radiosurgery of Arteriovenous Malformations Clinical White Paper from Brainlab

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1 Stereotactic Radiotherapy for the Treatment of Acoustic Neuromas Clinical White Paper /slideshow/white-paper-acoustic-neuromas/30038133 whitepaperacousticneuromas-140115050411-phpapp01
Learn more: https://www.brainlab.com/radiosurgery-products/ Acoustic neuromas (AN) have an annual incidence of approximately one per 100,000 people and may account for up to 8% of all new tumors presenting to a neurosurgical referral practice. Acoustic neuromas are benign tumors arising from Schwann cells from the vestibular branch of the eighth cranial nerve. Nevertheless, they can pursue a potentially aggressive course, with uncontrolled local growth resulting in compression of the brainstem and fourth ventricle, cranial nerve and other neurological deficits.]]>
Learn more: https://www.brainlab.com/radiosurgery-products/ Acoustic neuromas (AN) have an annual incidence of approximately one per 100,000 people and may account for up to 8% of all new tumors presenting to a neurosurgical referral practice. Acoustic neuromas are benign tumors arising from Schwann cells from the vestibular branch of the eighth cranial nerve. Nevertheless, they can pursue a potentially aggressive course, with uncontrolled local growth resulting in compression of the brainstem and fourth ventricle, cranial nerve and other neurological deficits.]]> Wed, 15 Jan 2014 05:04:11 GMT /slideshow/white-paper-acoustic-neuromas/30038133 BrainlabCorporate@slideshare.net(BrainlabCorporate) Stereotactic Radiotherapy for the Treatment of Acoustic Neuromas Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/radiosurgery-products/ Acoustic neuromas (AN) have an annual incidence of approximately one per 100,000 people and may account for up to 8% of all new tumors presenting to a neurosurgical referral practice. Acoustic neuromas are benign tumors arising from Schwann cells from the vestibular branch of the eighth cranial nerve. Nevertheless, they can pursue a potentially aggressive course, with uncontrolled local growth resulting in compression of the brainstem and fourth ventricle, cranial nerve and other neurological deficits. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepaperacousticneuromas-140115050411-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/radiosurgery-products/ Acoustic neuromas (AN) have an annual incidence of approximately one per 100,000 people and may account for up to 8% of all new tumors presenting to a neurosurgical referral practice. Acoustic neuromas are benign tumors arising from Schwann cells from the vestibular branch of the eighth cranial nerve. Nevertheless, they can pursue a potentially aggressive course, with uncontrolled local growth resulting in compression of the brainstem and fourth ventricle, cranial nerve and other neurological deficits.

Stereotactic Radiotherapy for the Treatment of Acoustic Neuromas Clinical White Paper from Brainlab

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1 iPlan Monte Carlo Dose Calculation Flyer /BrainlabCorporate/flyer-i-plan-monte-carlo flyeriplanmontecarlo-140115050409-phpapp01
Learn more: https://www.brainlab.com/iplan-rt iPlan® Monte Carlo dose calculation offers fast, accurate dose calculations for more precise treatment of extracranial indications—expanding SBRT treatment possibilities. iPlan Monte Carlo performs dose calculations within seconds for conformal beam and dynamic arc treatments and within minutes for complex IMRT cases. Seamless integration allows for use with all major linear accelerators and multi-leaf collimator (MLC) types. This advanced calculation method eliminates treatment area restrictions of conventional dose calculation algorithms for highly precise treatment delivery to inhomogeneous regions including lung and head & neck indications.]]>
Learn more: https://www.brainlab.com/iplan-rt iPlan® Monte Carlo dose calculation offers fast, accurate dose calculations for more precise treatment of extracranial indications—expanding SBRT treatment possibilities. iPlan Monte Carlo performs dose calculations within seconds for conformal beam and dynamic arc treatments and within minutes for complex IMRT cases. Seamless integration allows for use with all major linear accelerators and multi-leaf collimator (MLC) types. This advanced calculation method eliminates treatment area restrictions of conventional dose calculation algorithms for highly precise treatment delivery to inhomogeneous regions including lung and head & neck indications.]]> Wed, 15 Jan 2014 05:04:09 GMT /BrainlabCorporate/flyer-i-plan-monte-carlo BrainlabCorporate@slideshare.net(BrainlabCorporate) iPlan Monte Carlo Dose Calculation Flyer BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt iPlan® Monte Carlo dose calculation offers fast, accurate dose calculations for more precise treatment of extracranial indications—expanding SBRT treatment possibilities. iPlan Monte Carlo performs dose calculations within seconds for conformal beam and dynamic arc treatments and within minutes for complex IMRT cases. Seamless integration allows for use with all major linear accelerators and multi-leaf collimator (MLC) types. This advanced calculation method eliminates treatment area restrictions of conventional dose calculation algorithms for highly precise treatment delivery to inhomogeneous regions including lung and head & neck indications. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/flyeriplanmontecarlo-140115050409-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt iPlan® Monte Carlo dose calculation offers fast, accurate dose calculations for more precise treatment of extracranial indications—expanding SBRT treatment possibilities. iPlan Monte Carlo performs dose calculations within seconds for conformal beam and dynamic arc treatments and within minutes for complex IMRT cases. Seamless integration allows for use with all major linear accelerators and multi-leaf collimator (MLC) types. This advanced calculation method eliminates treatment area restrictions of conventional dose calculation algorithms for highly precise treatment delivery to inhomogeneous regions including lung and head & neck indications.

iPlan Monte Carlo Dose Calculation Flyer from Brainlab

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1 HybridArc Radiosurgery Flyer /slideshow/flyer-i-plan-hybridarc/30038127 flyeriplanhybridarc-140115050408-phpapp01
Learn more: https://www.brainlab.com/iplan-rt HybridArc™ intelligently combines two proven, conformal treatment methods for radiosurgery with automated and optimized blending—in seconds—of modulated dynamic conformal arcs and discrete IMRT technology. As part of the iPlan® family of planning and treatment software, HybridArc enables rotational volumetric dose shaping and streamlines both simple and complex treatment planning. Flexible integration makes HybridArc ideal for both the latest advancements in linac technology, as well as established linear accelerators.]]>
Learn more: https://www.brainlab.com/iplan-rt HybridArc™ intelligently combines two proven, conformal treatment methods for radiosurgery with automated and optimized blending—in seconds—of modulated dynamic conformal arcs and discrete IMRT technology. As part of the iPlan® family of planning and treatment software, HybridArc enables rotational volumetric dose shaping and streamlines both simple and complex treatment planning. Flexible integration makes HybridArc ideal for both the latest advancements in linac technology, as well as established linear accelerators.]]> Wed, 15 Jan 2014 05:04:08 GMT /slideshow/flyer-i-plan-hybridarc/30038127 BrainlabCorporate@slideshare.net(BrainlabCorporate) HybridArc Radiosurgery Flyer BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt HybridArc™ intelligently combines two proven, conformal treatment methods for radiosurgery with automated and optimized blending—in seconds—of modulated dynamic conformal arcs and discrete IMRT technology. As part of the iPlan® family of planning and treatment software, HybridArc enables rotational volumetric dose shaping and streamlines both simple and complex treatment planning. Flexible integration makes HybridArc ideal for both the latest advancements in linac technology, as well as established linear accelerators. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/flyeriplanhybridarc-140115050408-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt HybridArc™ intelligently combines two proven, conformal treatment methods for radiosurgery with automated and optimized blending—in seconds—of modulated dynamic conformal arcs and discrete IMRT technology. As part of the iPlan® family of planning and treatment software, HybridArc enables rotational volumetric dose shaping and streamlines both simple and complex treatment planning. Flexible integration makes HybridArc ideal for both the latest advancements in linac technology, as well as established linear accelerators.

HybridArc Radiosurgery Flyer from Brainlab

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1 Adaptive Hybrid Surgery Flyer /slideshow/flyer-adaptive-hybrid-surgery/30038125 flyeradaptivehybridsurgery-140115050407-phpapp01
Learn more: https://www.brainlab.com/iplan-rt Less aggressive surgical resection. More functional preservation. Adaptive Hybrid Surgery defines where surgery stops and radiosurgery begins. Today more than half of all cranial benign neoplasms are surgically mitigated with preservation techniques. Combining surgery with radiosurgery offers the best and most durable tumor control while offering the same low surgical risks as preservation surgery on its own.]]>
Learn more: https://www.brainlab.com/iplan-rt Less aggressive surgical resection. More functional preservation. Adaptive Hybrid Surgery defines where surgery stops and radiosurgery begins. Today more than half of all cranial benign neoplasms are surgically mitigated with preservation techniques. Combining surgery with radiosurgery offers the best and most durable tumor control while offering the same low surgical risks as preservation surgery on its own.]]> Wed, 15 Jan 2014 05:04:07 GMT /slideshow/flyer-adaptive-hybrid-surgery/30038125 BrainlabCorporate@slideshare.net(BrainlabCorporate) Adaptive Hybrid Surgery Flyer BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt Less aggressive surgical resection. More functional preservation. Adaptive Hybrid Surgery defines where surgery stops and radiosurgery begins. Today more than half of all cranial benign neoplasms are surgically mitigated with preservation techniques. Combining surgery with radiosurgery offers the best and most durable tumor control while offering the same low surgical risks as preservation surgery on its own. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/flyeradaptivehybridsurgery-140115050407-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt Less aggressive surgical resection. More functional preservation. Adaptive Hybrid Surgery defines where surgery stops and radiosurgery begins. Today more than half of all cranial benign neoplasms are surgically mitigated with preservation techniques. Combining surgery with radiosurgery offers the best and most durable tumor control while offering the same low surgical risks as preservation surgery on its own.

Adaptive Hybrid Surgery Flyer from Brainlab

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1 Stereotactic Radiosurgery for the Treatment of Trigeminal Neuralgia Clinical White Paper /slideshow/white-paper-trigeminal-neuralgia/30038123 whitepapertrigeminalneuralgia-140115050406-phpapp02
Learn more: https://www.brainlab.com/iplan-rt Trigeminal neuralgia (TN) is well defined and one of the most common causes of facial pain, especially in the elderly. It usually occurs as one-sided, severe, brief, recurrent episodes of spontaneous or stimulation triggered facial pain in the territory of one or more branches of the trigeminal nerve. ]]>
Learn more: https://www.brainlab.com/iplan-rt Trigeminal neuralgia (TN) is well defined and one of the most common causes of facial pain, especially in the elderly. It usually occurs as one-sided, severe, brief, recurrent episodes of spontaneous or stimulation triggered facial pain in the territory of one or more branches of the trigeminal nerve. ]]> Wed, 15 Jan 2014 05:04:06 GMT /slideshow/white-paper-trigeminal-neuralgia/30038123 BrainlabCorporate@slideshare.net(BrainlabCorporate) Stereotactic Radiosurgery for the Treatment of Trigeminal Neuralgia Clinical White Paper BrainlabCorporate Learn more: https://www.brainlab.com/iplan-rt Trigeminal neuralgia (TN) is well defined and one of the most common causes of facial pain, especially in the elderly. It usually occurs as one-sided, severe, brief, recurrent episodes of spontaneous or stimulation triggered facial pain in the territory of one or more branches of the trigeminal nerve. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/whitepapertrigeminalneuralgia-140115050406-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/iplan-rt Trigeminal neuralgia (TN) is well defined and one of the most common causes of facial pain, especially in the elderly. It usually occurs as one-sided, severe, brief, recurrent episodes of spontaneous or stimulation triggered facial pain in the territory of one or more branches of the trigeminal nerve.

Stereotactic Radiosurgery for the Treatment of Trigeminal Neuralgia Clinical White Paper from Brainlab

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1 Quentry—Beyond Image Sharing Brochure /slideshow/brochure-quentry/30038085 brochurequentry-140115050302-phpapp02
Learn more: https://www.brainlab.com/quentry Quentry® is an online service by Brainlab for image transfer, sharing and collaboration. It provides physicians a safe environment to access, control and share diagnostic images and documents. Built on a secure, HIPAA-compliant infrastructure, Quentry supports clinicians throughout the referral, diagnosis, planning and treatment workflow. Physicians can join and connect with each other for free and build a medical referral network, either for individual or hospital use.]]>
Learn more: https://www.brainlab.com/quentry Quentry® is an online service by Brainlab for image transfer, sharing and collaboration. It provides physicians a safe environment to access, control and share diagnostic images and documents. Built on a secure, HIPAA-compliant infrastructure, Quentry supports clinicians throughout the referral, diagnosis, planning and treatment workflow. Physicians can join and connect with each other for free and build a medical referral network, either for individual or hospital use.]]> Wed, 15 Jan 2014 05:03:02 GMT /slideshow/brochure-quentry/30038085 BrainlabCorporate@slideshare.net(BrainlabCorporate) Quentry—Beyond Image Sharing Brochure BrainlabCorporate Learn more: https://www.brainlab.com/quentry Quentry® is an online service by Brainlab for image transfer, sharing and collaboration. It provides physicians a safe environment to access, control and share diagnostic images and documents. Built on a secure, HIPAA-compliant infrastructure, Quentry supports clinicians throughout the referral, diagnosis, planning and treatment workflow. Physicians can join and connect with each other for free and build a medical referral network, either for individual or hospital use. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/brochurequentry-140115050302-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/quentry Quentry® is an online service by Brainlab for image transfer, sharing and collaboration. It provides physicians a safe environment to access, control and share diagnostic images and documents. Built on a secure, HIPAA-compliant infrastructure, Quentry supports clinicians throughout the referral, diagnosis, planning and treatment workflow. Physicians can join and connect with each other for free and build a medical referral network, either for individual or hospital use.

Quentry—Beyond Image Sharing Brochure from Brainlab

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1 VoyantMark Accurate Calibration Flyer /slideshow/product-sheet-voyant-mark/30037931 productsheetvoyantmark-140115045836-phpapp01
Learn more: https://www.brainlab.com/traumacad VoyantMark is a single marker X-ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy— hip, knee, shoulder, ankle and foot.]]>
Learn more: https://www.brainlab.com/traumacad VoyantMark is a single marker X-ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy— hip, knee, shoulder, ankle and foot.]]> Wed, 15 Jan 2014 04:58:36 GMT /slideshow/product-sheet-voyant-mark/30037931 BrainlabCorporate@slideshare.net(BrainlabCorporate) VoyantMark Accurate Calibration Flyer BrainlabCorporate Learn more: https://www.brainlab.com/traumacad VoyantMark is a single marker X-ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy— hip, knee, shoulder, ankle and foot. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/productsheetvoyantmark-140115045836-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/traumacad VoyantMark is a single marker X-ray calibration and marking device. Designed specifically to work with TraumaCad® surgical planning software, VoyantMark aids in accurately measuring patient anatomy— hip, knee, shoulder, ankle and foot.

VoyantMark Accurate Calibration Flyer from Brainlab

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1 TraumaCad Orthopedic Digital Templating Brochure /slideshow/brochure-trauma-cad-24/30037876 brochuretraumacad2-140115045626-phpapp02
Learn more: https://www.brainlab.com/traumacad TraumaCad® provides orthopedic surgeons with digital tools to perform preoperative planning and simulates the expected results prior to surgery. Using digital images on-screen, you can perform measurements, fix prostheses, simulate osteotomies and visualize fracture reductions.]]>
Learn more: https://www.brainlab.com/traumacad TraumaCad® provides orthopedic surgeons with digital tools to perform preoperative planning and simulates the expected results prior to surgery. Using digital images on-screen, you can perform measurements, fix prostheses, simulate osteotomies and visualize fracture reductions.]]> Wed, 15 Jan 2014 04:56:26 GMT /slideshow/brochure-trauma-cad-24/30037876 BrainlabCorporate@slideshare.net(BrainlabCorporate) TraumaCad Orthopedic Digital Templating Brochure BrainlabCorporate Learn more: https://www.brainlab.com/traumacad TraumaCad® provides orthopedic surgeons with digital tools to perform preoperative planning and simulates the expected results prior to surgery. Using digital images on-screen, you can perform measurements, fix prostheses, simulate osteotomies and visualize fracture reductions. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/brochuretraumacad2-140115045626-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/traumacad TraumaCad® provides orthopedic surgeons with digital tools to perform preoperative planning and simulates the expected results prior to surgery. Using digital images on-screen, you can perform measurements, fix prostheses, simulate osteotomies and visualize fracture reductions.

TraumaCad Orthopedic Digital Templating Brochure from Brainlab

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1 Image-Guided Spine Navigation Brochure /slideshow/brochure-spine-navigation-30037806/30037806 brochurespinenavigation-140115045413-phpapp01
Learn more: https://www.brainlab.com/spinal-navigation Brainlab Spinal Navigation combines state-of-the-art touch screen based image control with best-in-class registration methods for image-guided surgery. As an open navigation platform, Brainlab Spinal Navigation enables accurate pedicle screw placement as well as drastic reduction of X-Ray exposure to both the surgical team and the patient. Navigation of implants and instruments is possible in 2D images, 3D fluoroscopy scans, MR or CT datasets in all stages of surgery—from incision planning to implant placement.]]>
Learn more: https://www.brainlab.com/spinal-navigation Brainlab Spinal Navigation combines state-of-the-art touch screen based image control with best-in-class registration methods for image-guided surgery. As an open navigation platform, Brainlab Spinal Navigation enables accurate pedicle screw placement as well as drastic reduction of X-Ray exposure to both the surgical team and the patient. Navigation of implants and instruments is possible in 2D images, 3D fluoroscopy scans, MR or CT datasets in all stages of surgery—from incision planning to implant placement.]]> Wed, 15 Jan 2014 04:54:13 GMT /slideshow/brochure-spine-navigation-30037806/30037806 BrainlabCorporate@slideshare.net(BrainlabCorporate) Image-Guided Spine Navigation Brochure BrainlabCorporate Learn more: https://www.brainlab.com/spinal-navigation Brainlab Spinal Navigation combines state-of-the-art touch screen based image control with best-in-class registration methods for image-guided surgery. As an open navigation platform, Brainlab Spinal Navigation enables accurate pedicle screw placement as well as drastic reduction of X-Ray exposure to both the surgical team and the patient. Navigation of implants and instruments is possible in 2D images, 3D fluoroscopy scans, MR or CT datasets in all stages of surgery—from incision planning to implant placement. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/brochurespinenavigation-140115045413-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/spinal-navigation Brainlab Spinal Navigation combines state-of-the-art touch screen based image control with best-in-class registration methods for image-guided surgery. As an open navigation platform, Brainlab Spinal Navigation enables accurate pedicle screw placement as well as drastic reduction of X-Ray exposure to both the surgical team and the patient. Navigation of implants and instruments is possible in 2D images, 3D fluoroscopy scans, MR or CT datasets in all stages of surgery—from incision planning to implant placement.

Image-Guided Spine Navigation Brochure from Brainlab

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1 xSpot Intraoperative Image Registration for C-arm Navigation Flyer /slideshow/flyer-x-spot/30037803 flyerxspot-140115045407-phpapp02
Learn more: https://www.brainlab.com/image-registration xSpot intuitively brings intra-operative C-arm images into navigation. Images taken with xSpot will be automatically registered to fit navigation optimally within the surgical workflow. Brainlab has developed the xSpot for seamless use and navigation in the OR. The autoclavable device is suitable for the sterile environment and is designed for free-hand guidance.]]>
Learn more: https://www.brainlab.com/image-registration xSpot intuitively brings intra-operative C-arm images into navigation. Images taken with xSpot will be automatically registered to fit navigation optimally within the surgical workflow. Brainlab has developed the xSpot for seamless use and navigation in the OR. The autoclavable device is suitable for the sterile environment and is designed for free-hand guidance.]]> Wed, 15 Jan 2014 04:54:07 GMT /slideshow/flyer-x-spot/30037803 BrainlabCorporate@slideshare.net(BrainlabCorporate) xSpot Intraoperative Image Registration for C-arm Navigation Flyer BrainlabCorporate Learn more: https://www.brainlab.com/image-registration xSpot intuitively brings intra-operative C-arm images into navigation. Images taken with xSpot will be automatically registered to fit navigation optimally within the surgical workflow. Brainlab has developed the xSpot for seamless use and navigation in the OR. The autoclavable device is suitable for the sterile environment and is designed for free-hand guidance. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/flyerxspot-140115045407-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Learn more: https://www.brainlab.com/image-registration xSpot intuitively brings intra-operative C-arm images into navigation. Images taken with xSpot will be automatically registered to fit navigation optimally within the surgical workflow. Brainlab has developed the xSpot for seamless use and navigation in the OR. The autoclavable device is suitable for the sterile environment and is designed for free-hand guidance.

xSpot Intraoperative Image Registration for C-arm Navigation Flyer from Brainlab

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1 https://cdn.slidesharecdn.com/profile-photo-BrainlabCorporate-48x48.jpg?cb=1559032895 Corporate Information: https://www.brainlab.com/corporate-information/ Privacy Policy: https://www.brainlab.com/privacy-policy/ www.brainlab.com https://cdn.slidesharecdn.com/ss_thumbnails/nsflencranialnav1014-rev2-160115145459-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/simplicity-in-neuronavigation/57099177 Simplicity in Neuronav... https://cdn.slidesharecdn.com/ss_thumbnails/brochure-traumacad-2-140429044844-phpapp02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/brochure-trauma-cad24joints/34071922 Brochure TraumaCad 2.4... https://cdn.slidesharecdn.com/ss_thumbnails/product-sheet-voyantmark-140429043312-phpapp02-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/product-sheet-voyant-mark-34071407/34071407 Product Sheet VoyantMark