Marla Stinson | Gwinnett Techical College (original) (raw)

Papers by Marla Stinson

The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state.... more The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state. The lymphatics of the lung and mediastinum were cannulated and contrast medium was introduced by retrograde injection to identify the visceral pleural lymphatics and deep lymphatics of the lung. Radiographic x-ray, CT, MR, and color photographic images were obtained. Collateraliza-tion, extravasation (bronchorrhea), perivascular stasis, and circumvention were demonstrated. Lymphatic communication with the contralateral lung, thoracic duct, heart, and the diaphragm was demonstrated. The findings correlate with the lymphangiographic display of lymphedema of the extremi-ties, obstruction to lymph flow secondary to congenital abnormalities, trauma, tumor, and infections. Our results support the view that stents and/or large bore needles may be introduced into the superficial lymphatics of the lung. The lymphatics of the lung may be anastomosed post lung transplantation and thus possibly red...

Journal of the National Medical Association, 1990

Fascial planes between tissues are separated by connective tissue, fat, and blood vessels. Magnet... more Fascial planes between tissues are separated by connective tissue, fat, and blood vessels. Magnetic resonance imaging displays surface anatomy and soft tissues. Our team has been successful in demonstrating brachial plexus nerves as a model of magnetic resonance anatomy. Radiologists have devised methods to increase the resolution of images by suppressing noise and increasing the sharpness of the image. We added water bags to a 0.3 tesla permanent magnet suppressing the noise and increasing the signal to image our patients. The images proved to be sharper.

Clinical Anatomy, 1991

The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state.... more The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state. The lymphatics of the lung and mediastinum were cannulated and contrast medium was introduced by retrograde injection to identify the visceral pleural lymphatics and deep lymphatics of the lung. Radiographic x-ray, CT, MR, and color photographic images were obtained. Collateralization, extravasation (bronchorrhea), perivascular stasis, and circumvention were demonstrated. Lymphatic communication with the contralateral lung, thoracic duct, heart, and the diaphragm was demonstrated. The findings correlate with the lymphangiographic display of lymphedema of the extremities, obstruction to lymph flow secondary to congenital abnormalities, trauma, tumor, and infections. Our results support the view that stents and/or large bore needles may be introduced into the superficial lymphatics of the lung. The lymphatics of the lung may be anastomosed post lung transplantation and thus possibly reduce passive congestion that occurs in the early postoperative period. The authors postulate that tumor cells and infectious agents may be spread from one lung to the other by the anatomical pathways demonstrated.

Clinical Anatomy, 1995

Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain rad... more Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain radiographs or CT, were presented to the Vascular Surgery, Neurology, and the Neurosurgery departments. Patients were requested for MRI of their brachial plexus. They were referred for imaging and the imaging results were presented to the faculty and housestaff. Our technique was accepted and adopted to begin referrals for MRI evaluation of brachial plexopathy. Over 175 patients have been studied. Eighty-five patients were imaged with the 1.5 Tesla magnet (Signa; General Electric Medical Systems, Milwaukee, WI) 3-D reconstruction MRI. Coronal, transverse (axial), oblique transverse, and sagittal plane T1-weighted and selected TZweighted pulse sequences were obtained at 4-5 mm slice thickness, 40-45 full field of view, and a 512 x 256 size matrix. Saline water bags were used to enhance the signal between the neck and the thorax. Sites of brachial plexus compromise were demonstrated. Our technique with 3-D reconstruction increased the definition of brachial plexus pathology. The increased anatomical definition enabled the vascular surgeons and neurosurgeons to improve patient care. Brachial plexus in vivo anatomy as displayed by MRI, magnetic resonance angiography (MRA), and 3-D reconstruction offered an opportunity to augment the teaching of clinical anatomy to medical students and health professionals. Selected case presentations (bodybuilder, anomalous muscle, fractured clavicle, thyroid goiter, silicone breast implant rupture, and cervical rib) demonstrated compromise of the brachial plexus displayed by MRI. T h e MRI and 3-D reconstruction techniques, demonstrating the bilateral landmark anatomy, increased the definition of the clinical anatomy and resulted in greater knowledge of patient care management.

Clinical Anatomy, 1995

Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain rad... more Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain radiographs or CT, were presented to the Vascular Surgery, Neurology, and the Neurosurgery departments. Patients were requested for MRI of their brachial plexus. They were referred for imaging and the imaging results were presented to the faculty and housestaff. Our technique was accepted and adopted to begin referrals for MRI evaluation of brachial plexopathy. Over 175 patients have been studied. Eighty-five patients were imaged with the 1.5 Tesla magnet (Signa; General Electric Medical Systems, Milwaukee, WI) 3-D reconstruction MRI. Coronal, transverse (axial), oblique transverse, and sagittal plane T1-weighted and selected TZweighted pulse sequences were obtained at 4-5 mm slice thickness, 40-45 full field of view, and a 512 x 256 size matrix. Saline water bags were used to enhance the signal between the neck and the thorax. Sites of brachial plexus compromise were demonstrated. Our technique with 3-D reconstruction increased the definition of brachial plexus pathology. The increased anatomical definition enabled the vascular surgeons and neurosurgeons to improve patient care. Brachial plexus in vivo anatomy as displayed by MRI, magnetic resonance angiography (MRA), and 3-D reconstruction offered an opportunity to augment the teaching of clinical anatomy to medical students and health professionals. Selected case presentations (bodybuilder, anomalous muscle, fractured clavicle, thyroid goiter, silicone breast implant rupture, and cervical rib) demonstrated compromise of the brachial plexus displayed by MRI. T h e MRI and 3-D reconstruction techniques, demonstrating the bilateral landmark anatomy, increased the definition of the clinical anatomy and resulted in greater knowledge of patient care management.

Clinical Anatomy, 1995

Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain rad... more Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain radiographs or CT, were presented to the Vascular Surgery, Neurology, and the Neurosurgery departments. Patients were requested for MRI of their brachial plexus. They were referred for imaging and the imaging results were presented to the faculty and housestaff. Our technique was accepted and adopted to begin referrals for MRI evaluation of brachial plexopathy. Over 175 patients have been studied. Eighty-five patients were imaged with the 1.5 Tesla magnet (Signa; General Electric Medical Systems, Milwaukee, WI) 3-D reconstruction MRI. Coronal, transverse (axial), oblique transverse, and sagittal plane T1-weighted and selected TZweighted pulse sequences were obtained at 4-5 mm slice thickness, 40-45 full field of view, and a 512 x 256 size matrix. Saline water bags were used to enhance the signal between the neck and the thorax. Sites of brachial plexus compromise were demonstrated. Our technique with 3-D reconstruction increased the definition of brachial plexus pathology. The increased anatomical definition enabled the vascular surgeons and neurosurgeons to improve patient care. Brachial plexus in vivo anatomy as displayed by MRI, magnetic resonance angiography (MRA), and 3-D reconstruction offered an opportunity to augment the teaching of clinical anatomy to medical students and health professionals. Selected case presentations (bodybuilder, anomalous muscle, fractured clavicle, thyroid goiter, silicone breast implant rupture, and cervical rib) demonstrated compromise of the brachial plexus displayed by MRI. T h e MRI and 3-D reconstruction techniques, demonstrating the bilateral landmark anatomy, increased the definition of the clinical anatomy and resulted in greater knowledge of patient care management.

The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state.... more The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state. The lymphatics of the lung and mediastinum were cannulated and contrast medium was introduced by retrograde injection to identify the visceral pleural lymphatics and deep lymphatics of the lung. Radiographic x-ray, CT, MR, and color photographic images were obtained. Collateraliza-tion, extravasation (bronchorrhea), perivascular stasis, and circumvention were demonstrated. Lymphatic communication with the contralateral lung, thoracic duct, heart, and the diaphragm was demonstrated. The findings correlate with the lymphangiographic display of lymphedema of the extremi-ties, obstruction to lymph flow secondary to congenital abnormalities, trauma, tumor, and infections. Our results support the view that stents and/or large bore needles may be introduced into the superficial lymphatics of the lung. The lymphatics of the lung may be anastomosed post lung transplantation and thus possibly red...

Journal of the National Medical Association, 1990

Fascial planes between tissues are separated by connective tissue, fat, and blood vessels. Magnet... more Fascial planes between tissues are separated by connective tissue, fat, and blood vessels. Magnetic resonance imaging displays surface anatomy and soft tissues. Our team has been successful in demonstrating brachial plexus nerves as a model of magnetic resonance anatomy. Radiologists have devised methods to increase the resolution of images by suppressing noise and increasing the sharpness of the image. We added water bags to a 0.3 tesla permanent magnet suppressing the noise and increasing the signal to image our patients. The images proved to be sharper.

Clinical Anatomy, 1991

The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state.... more The lungs and hearts of 15 swine were surgically harvested intact and studied in the fresh state. The lymphatics of the lung and mediastinum were cannulated and contrast medium was introduced by retrograde injection to identify the visceral pleural lymphatics and deep lymphatics of the lung. Radiographic x-ray, CT, MR, and color photographic images were obtained. Collateralization, extravasation (bronchorrhea), perivascular stasis, and circumvention were demonstrated. Lymphatic communication with the contralateral lung, thoracic duct, heart, and the diaphragm was demonstrated. The findings correlate with the lymphangiographic display of lymphedema of the extremities, obstruction to lymph flow secondary to congenital abnormalities, trauma, tumor, and infections. Our results support the view that stents and/or large bore needles may be introduced into the superficial lymphatics of the lung. The lymphatics of the lung may be anastomosed post lung transplantation and thus possibly reduce passive congestion that occurs in the early postoperative period. The authors postulate that tumor cells and infectious agents may be spread from one lung to the other by the anatomical pathways demonstrated.

Clinical Anatomy, 1995

Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain rad... more Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain radiographs or CT, were presented to the Vascular Surgery, Neurology, and the Neurosurgery departments. Patients were requested for MRI of their brachial plexus. They were referred for imaging and the imaging results were presented to the faculty and housestaff. Our technique was accepted and adopted to begin referrals for MRI evaluation of brachial plexopathy. Over 175 patients have been studied. Eighty-five patients were imaged with the 1.5 Tesla magnet (Signa; General Electric Medical Systems, Milwaukee, WI) 3-D reconstruction MRI. Coronal, transverse (axial), oblique transverse, and sagittal plane T1-weighted and selected TZweighted pulse sequences were obtained at 4-5 mm slice thickness, 40-45 full field of view, and a 512 x 256 size matrix. Saline water bags were used to enhance the signal between the neck and the thorax. Sites of brachial plexus compromise were demonstrated. Our technique with 3-D reconstruction increased the definition of brachial plexus pathology. The increased anatomical definition enabled the vascular surgeons and neurosurgeons to improve patient care. Brachial plexus in vivo anatomy as displayed by MRI, magnetic resonance angiography (MRA), and 3-D reconstruction offered an opportunity to augment the teaching of clinical anatomy to medical students and health professionals. Selected case presentations (bodybuilder, anomalous muscle, fractured clavicle, thyroid goiter, silicone breast implant rupture, and cervical rib) demonstrated compromise of the brachial plexus displayed by MRI. T h e MRI and 3-D reconstruction techniques, demonstrating the bilateral landmark anatomy, increased the definition of the clinical anatomy and resulted in greater knowledge of patient care management.

Clinical Anatomy, 1995

Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain rad... more Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain radiographs or CT, were presented to the Vascular Surgery, Neurology, and the Neurosurgery departments. Patients were requested for MRI of their brachial plexus. They were referred for imaging and the imaging results were presented to the faculty and housestaff. Our technique was accepted and adopted to begin referrals for MRI evaluation of brachial plexopathy. Over 175 patients have been studied. Eighty-five patients were imaged with the 1.5 Tesla magnet (Signa; General Electric Medical Systems, Milwaukee, WI) 3-D reconstruction MRI. Coronal, transverse (axial), oblique transverse, and sagittal plane T1-weighted and selected TZweighted pulse sequences were obtained at 4-5 mm slice thickness, 40-45 full field of view, and a 512 x 256 size matrix. Saline water bags were used to enhance the signal between the neck and the thorax. Sites of brachial plexus compromise were demonstrated. Our technique with 3-D reconstruction increased the definition of brachial plexus pathology. The increased anatomical definition enabled the vascular surgeons and neurosurgeons to improve patient care. Brachial plexus in vivo anatomy as displayed by MRI, magnetic resonance angiography (MRA), and 3-D reconstruction offered an opportunity to augment the teaching of clinical anatomy to medical students and health professionals. Selected case presentations (bodybuilder, anomalous muscle, fractured clavicle, thyroid goiter, silicone breast implant rupture, and cervical rib) demonstrated compromise of the brachial plexus displayed by MRI. T h e MRI and 3-D reconstruction techniques, demonstrating the bilateral landmark anatomy, increased the definition of the clinical anatomy and resulted in greater knowledge of patient care management.

Clinical Anatomy, 1995

Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain rad... more Magnetic resonance images (MRI) of brachial plexus anatomy bilaterally, not possible by plain radiographs or CT, were presented to the Vascular Surgery, Neurology, and the Neurosurgery departments. Patients were requested for MRI of their brachial plexus. They were referred for imaging and the imaging results were presented to the faculty and housestaff. Our technique was accepted and adopted to begin referrals for MRI evaluation of brachial plexopathy. Over 175 patients have been studied. Eighty-five patients were imaged with the 1.5 Tesla magnet (Signa; General Electric Medical Systems, Milwaukee, WI) 3-D reconstruction MRI. Coronal, transverse (axial), oblique transverse, and sagittal plane T1-weighted and selected TZweighted pulse sequences were obtained at 4-5 mm slice thickness, 40-45 full field of view, and a 512 x 256 size matrix. Saline water bags were used to enhance the signal between the neck and the thorax. Sites of brachial plexus compromise were demonstrated. Our technique with 3-D reconstruction increased the definition of brachial plexus pathology. The increased anatomical definition enabled the vascular surgeons and neurosurgeons to improve patient care. Brachial plexus in vivo anatomy as displayed by MRI, magnetic resonance angiography (MRA), and 3-D reconstruction offered an opportunity to augment the teaching of clinical anatomy to medical students and health professionals. Selected case presentations (bodybuilder, anomalous muscle, fractured clavicle, thyroid goiter, silicone breast implant rupture, and cervical rib) demonstrated compromise of the brachial plexus displayed by MRI. T h e MRI and 3-D reconstruction techniques, demonstrating the bilateral landmark anatomy, increased the definition of the clinical anatomy and resulted in greater knowledge of patient care management.