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Professional Summary
Education & Certifications
- Residency: Boston University Medical Center Radiology Residency (1982) MA
- Residency: Boston Childrens Hospital Pediatric Residency (1980) MA
- Fellowship: Boston Children's Hospital (1984) MA
- Residency: Johannesburg General Hospital Complex (1978) South Africa
- Board Certification: American Board of Radiology, Pediatric Radiology (1995)
- Board Certification: American Board of Radiology, Diagnostic Radiology (1983)
- Internship: Johannesburg General Hospital Complex (1977) South Africa
- Medical Education: University of Witwatersrand (1976) South Africa
Publications
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A pitfall of radioisotope quantification of the ratio of pulmonary blood flow to systemic blood flow (Qp/Qs) in a patient with severe postoperative pulmonary venous obstruction
Newman, B., Grosse-Wortmann, L., Charron, M., & Yoo, S. J. (2008). A pitfall of radioisotope quantification of the ratio of pulmonary blood flow to systemic blood flow (Qp/Qs) in a patient with severe postoperative pulmonary venous obstruction. CLINICAL NUCLEAR MEDICINE, 33(8), 521–524. -
Development and Validation of Automated 2D-3D Bronchial Airway Matching to Track Changes in Regional Bronchial Morphology Using Serial Low-Dose Chest CT Scans in Children with Chronic Lung Disease
Raman, P., Raman, R., Newman, B., Venkatraman, R., Raman, B., & Robinson, T. E. (2010). Development and Validation of Automated 2D-3D Bronchial Airway Matching to Track Changes in Regional Bronchial Morphology Using Serial Low-Dose Chest CT Scans in Children with Chronic Lung Disease. JOURNAL OF DIGITAL IMAGING, 23(6), 744–54. -
Congenital extrahepatic portosystemic shunt associated with heterotaxy and polysplenia
Newman, B., Feinstein, J. A., Cohen, R. A., Feingold, B., Kreutzer, J., Patel, H., & Chan, F. P. (2010). Congenital extrahepatic portosystemic shunt associated with heterotaxy and polysplenia. PEDIATRIC RADIOLOGY, 40(7), 1222–30. -
Left Pulmonary Artery Sling-Anatomy and Imaging
Newman, B., & Cho, Y. A. (2010). Left Pulmonary Artery Sling-Anatomy and Imaging. SEMINARS IN ULTRASOUND CT AND MRI, 31(2), 158–70. -
Evaluation of a Radiation Dose Reduction Strategy for Pediatric Chest CT
Kim, J.-E., & Newman, B. (2010). Evaluation of a Radiation Dose Reduction Strategy for Pediatric Chest CT. AMERICAN JOURNAL OF ROENTGENOLOGY, 194(5), 1188–93. -
Effectiveness of a Staged US and CT Protocol for the Diagnosis of Pediatric Appendicitis: Reducing Radiation Exposure in the Age of ALARA
Krishnamoorthi, R., Ramarajan, N., Wang, N. E., Newman, B., Rubesova, E., Mueller, C. M., & Barth, R. A. (2011). Effectiveness of a Staged US and CT Protocol for the Diagnosis of Pediatric Appendicitis: Reducing Radiation Exposure in the Age of ALARA. RADIOLOGY, 259(1), 231–39. -
Combined respiratory and cardiac triggering improves blood pool contrast-enhanced pediatric cardiovascular MRI
Vasanawala, S. S., Chan, F. P., Newman, B., & Alley, M. T. (2011). Combined respiratory and cardiac triggering improves blood pool contrast-enhanced pediatric cardiovascular MRI. PEDIATRIC RADIOLOGY, 41(12), 1536–44. -
Point/counterpoint: dose-related issues in cardiac CT imaging.
Newman, B., & Vasanawala, S. S. (2011). Point/counterpoint: dose-related issues in cardiac CT imaging. Pediatric Radiology, 41, 528–33. -
Pneumonia in Normal and Immunocompromised Children: An Overview and Update
Eslamy, H. K., & Newman, B. (2011). Pneumonia in Normal and Immunocompromised Children: An Overview and Update. RADIOLOGIC CLINICS OF NORTH AMERICA, 49(5), 895-? -
Pulmonary reperfusion injury after the unifocalization procedure for tetralogy of Fallot, pulmonary atresia, and major aortopulmonary collateral arteries
Maskatia, S. A., Feinstein, J. A., Newman, B., Hanley, F. L., & Roth, S. J. (2012). Pulmonary reperfusion injury after the unifocalization procedure for tetralogy of Fallot, pulmonary atresia, and major aortopulmonary collateral arteries. JOURNAL OF THORACIC AND CARDIOVASCULAR SURGERY, 144(1), 184–89. -
Reply to commentary - CT radiation dose reduction: can we do harm by doing good?
Newman, B., & Callahan, M. J. (2012). Reply to commentary - CT radiation dose reduction: can we do harm by doing good? PEDIATRIC RADIOLOGY, 42(4), 399–401. -
Comparison of Different Methods of Calculating CT Radiation Effective Dose in Children
Newman, B., Ganguly, A., Kim, J.-E., & Robinson, T. (2012). Comparison of Different Methods of Calculating CT Radiation Effective Dose in Children. AMERICAN JOURNAL OF ROENTGENOLOGY. BOSTON,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA,MA: AMER ROENTGEN RAY SOC. -
PULMONARY REPERFUSION INJURY AFTER THE UNIFOCALIZATION PROCEDURE FOR TETRALOGY OF FALLOT, PULMONARY ATRESIA AND MAJOR AORTOPULMONARY COLLATERAL ARTERIES
Maskatia, S., Feinstein, J. A., Newman, B., Hanley, F. L., & Roth, S. J. (2011). PULMONARY REPERFUSION INJURY AFTER THE UNIFOCALIZATION PROCEDURE FOR TETRALOGY OF FALLOT, PULMONARY ATRESIA AND MAJOR AORTOPULMONARY COLLATERAL ARTERIES. JOURNAL OF THE AMERICAN COLLEGE OF CARDIOLOGY. NEW ORLEANS,LA,LA,LA,LA,LA,LA: ELSEVIER SCIENCE INC. -
Rudhe syndrome: reversible right middle lobe emphysema in infants with left-to-right shunts-an historical review
Collins, L. K., Levin, T. L., Berdon, W. E., Cowles, R. A., & Newman, B. (2010). Rudhe syndrome: reversible right middle lobe emphysema in infants with left-to-right shunts-an historical review. PEDIATRIC RADIOLOGY, 40(5), 762–765. -
Pause and Pulse: Radiation Dose in Pediatric Fluoroscopy
Newman, B., John, S., Goske, M., & Hernanz-Schulman, M. (2011). Pause and Pulse: Radiation Dose in Pediatric Fluoroscopy. PEDIATRICS IN REVIEW, 32(9), E83–E90. -
Ultrasound body applications in children.
Newman, B. (2011). Ultrasound body applications in children. Pediatric Radiology, 41, 555–61. -
Thoracic Neoplasms in Children
Newman, B. (2011). Thoracic Neoplasms in Children. RADIOLOGIC CLINICS OF NORTH AMERICA, 49(4), 633-? -
Chest CT in children: anesthesia and atelectasis.
Newman, B., Krane, E. J., Gawande, R., Holmes, T. H., & Robinson, T. E. (2014). Chest CT in children: anesthesia and atelectasis. Pediatric Radiology, 44(2), 164–72. -
Heterotaxy syndromes and abnormal bowel rotation.
Newman, B., Koppolu, R., Murphy, D., & Sylvester, K. (2014). Heterotaxy syndromes and abnormal bowel rotation. Pediatric Radiology, 44(5), 542–51. -
Perforated appendicitis: an underappreciated mimic of intussusception on ultrasound.
Newman, B., Schmitz, M., Gawande, R., Vasanawala, S., & Barth, R. (2014). Perforated appendicitis: an underappreciated mimic of intussusception on ultrasound. Pediatric Radiology, 44(5), 535–41. -
Pediatric CT quality management and improvement program
Larson, D. B., Molvin, L. Z., Wang, J., Chan, F. P., Newman, B., & Fleischmann, D. (2014). Pediatric CT quality management and improvement program. PEDIATRIC RADIOLOGY, 44, 519–524. -
Cystic Lung Lesions in Newborns and Young Children: Differential Considerations and Imaging
Newman, B., & Caplan, J. (2014). Cystic Lung Lesions in Newborns and Young Children: Differential Considerations and Imaging. SEMINARS IN ULTRASOUND CT AND MRI, 35(6), 571–87. -
Congenital peribronchial myofibroblastic tumor: case report of an asymptomatic infant with a rapidly enlarging pulmonary mass and review of the literature.
Brock, K. E., Wall, J., Esquivel, M., Newman, B., Marina, N., Albanese, C., & Hazard, F. K. (2015). Congenital peribronchial myofibroblastic tumor: case report of an asymptomatic infant with a rapidly enlarging pulmonary mass and review of the literature. Annals of Clinical and Laboratory Science, 45(1), 83–89. -
Radiologist Compliance With California CT Dose Reporting Requirements: A Single-Center Review of Pediatric Chest CT
Zucker, E. J., Larson, D. B., Newman, B., & Barth, R. A. (2015). Radiologist Compliance With California CT Dose Reporting Requirements: A Single-Center Review of Pediatric Chest CT. AMERICAN JOURNAL OF ROENTGENOLOGY, 204(4), 810–16. -
Meconium in Perinatal Imaging: Associations and Clinical Significance
Jerdee, T., Newman, B., & Rubesova, E. (2015). Meconium in Perinatal Imaging: Associations and Clinical Significance. SEMINARS IN ULTRASOUND CT AND MRI, 36(2), 161–77. -
The incidental pulmonary nodule in a child Part 1: recommendations from the SPR Thoracic Imaging Committee regarding characterization, significance and follow-up
Westra, S. J., Brody, A. S., Mahani, M. G., Guillerman, R. P., Hegde, S. V., Iyer, R. S., … Thacker, P. G. (2015). The incidental pulmonary nodule in a child Part 1: recommendations from the SPR Thoracic Imaging Committee regarding characterization, significance and follow-up. PEDIATRIC RADIOLOGY, 45(5), 628–33. -
Pediatric CT quality management and improvement program.
Larson, D. B., Molvin, L. Z., Wang, J., Chan, F. P., Newman, B., & Fleischmann, D. (2014). Pediatric CT quality management and improvement program. Pediatric Radiology, 44, 519–24. -
Cystic lung lesions in newborns and young children: differential considerations and imaging.
Newman, B., & Caplan, J. (2014). Cystic lung lesions in newborns and young children: differential considerations and imaging. Seminars in Ultrasound, CT, and MR, 35(6), 571–87. -
Added Value of Radiologist Consultation for Pediatric Ultrasound: Implementation and Survey Assessment.
Zucker, E. J., Newman, B., Larson, D. B., Rubesova, E., & Barth, R. A. (2015). Added Value of Radiologist Consultation for Pediatric Ultrasound: Implementation and Survey Assessment. AJR. American Journal of Roentgenology, 205(4), 822–26. -
Improved Quantification and Mapping of Anomalous Pulmonary Venous Flow With Four-Dimensional Phase-Contrast MRI and Interactive Streamline Rendering
Hsiao, A., Yousaf, U., Alley, M. T., Lustig, M., Chan, F. P., Newman, B., & Vasanawala, S. S. (2015). Improved Quantification and Mapping of Anomalous Pulmonary Venous Flow With Four-Dimensional Phase-Contrast MRI and Interactive Streamline Rendering. JOURNAL OF MAGNETIC RESONANCE IMAGING, 42(6), 1765–76. -
Perinatal Thoracic Mass Lesions: Pre- and Postnatal Imaging.
Zucker, E. J., Epelman, M., & Newman, B. (2015). Perinatal Thoracic Mass Lesions: Pre- and Postnatal Imaging. Seminars in Ultrasound, CT, and MR, 36(6), 501–21. -
Analysis of Kidney Ultrasound Dimensions by Body Habitus and Position.
Kouba, E., Newman, B., & Dairiki Shortliffe, L. M. (2016). Analysis of Kidney Ultrasound Dimensions by Body Habitus and Position. Journal of Urology, 196(3), 943–49. -
Tumor-induced Osteomalacia in a 3-Year-Old With Unresectable Central Giant Cell Lesions.
Crossen, S. S., Zambrano, E., Newman, B., Bernstein, J. A., Messner, A. H., Bachrach, L. K., & Twist, C. J. (2016). Tumor-induced Osteomalacia in a 3-Year-Old With Unresectable Central Giant Cell Lesions. Journal of Pediatric Hematology/Oncology, -? -
Analysis of Kidney Ultrasound Dimensions by Body Habitus and Position
Kouba, E., Newman, B., & Shortliffe, L. M. D. (2016). Analysis of Kidney Ultrasound Dimensions by Body Habitus and Position. JOURNAL OF UROLOGY, 196(3), 943–49. -
Tumor-induced Osteomalacia in a 3-Year-Old With Unresectable Central Giant Cell Lesions
Crossen, S. S., Zambrano, E., Newman, B., Bernstein, J. A., Messner, A. H., Bachrach, L. K., & Twist, C. J. (2017). Tumor-induced Osteomalacia in a 3-Year-Old With Unresectable Central Giant Cell Lesions. JOURNAL OF PEDIATRIC HEMATOLOGY ONCOLOGY, 39(1), E21–E24. -
Persistent fifth arch anomalies - broadening the spectrum to include a variation of double aortic arch vascular ring
Newman, B., Hanneman, K., & Chan, F. (2016). Persistent fifth arch anomalies - broadening the spectrum to include a variation of double aortic arch vascular ring. PEDIATRIC RADIOLOGY, 46(13), 1866–72. -
Congenital Variants and Anomalies of the Aortic Arch.
Hanneman, K., Newman, B., & Chan, F. (2017). Congenital Variants and Anomalies of the Aortic Arch. Radiographics , 37(1), 32–51. -
ALARA (as low as reasonably achievable) CT 2011--executive summary.
Newman, B., & Callahan, M. J. (2011). ALARA (as low as reasonably achievable) CT 2011--executive summary. Pediatric Radiology, 41 Suppl 2, 453–55. -
Safety in pediatric MR and cardiac CT - Results of a membership survey of the Society for Pediatric Radiology - 2006
Kaste, S., Laningham, F., Stazzone, M., Brown, S. D., Emery, K., Newman, B., … Frush, D. (2007). Safety in pediatric MR and cardiac CT - Results of a membership survey of the Society for Pediatric Radiology - 2006. PEDIATRIC RADIOLOGY, 37(4), 409–12. -
Ultrafast pediatric chest computed tomography: comparison of free-breathing vs. breath-hold imaging with and without anesthesia in young children.
Kino, A., Zucker, E. J., Honkanen, A., Kneebone, J., Wang, J., Chan, F., & Newman, B. (2018). Ultrafast pediatric chest computed tomography: comparison of free-breathing vs. breath-hold imaging with and without anesthesia in young children. Pediatric Radiology. -
Improved quantification and mapping of anomalous pulmonary venous flow with four-dimensional phase-contrast MRI and interactive streamline rendering.
Hsiao, A., Yousaf, U., Alley, M. T., Lustig, M., Chan, F. P., Newman, B., & Vasanawala, S. S. (2015). Improved quantification and mapping of anomalous pulmonary venous flow with four-dimensional phase-contrast MRI and interactive streamline rendering. Journal of Magnetic Resonance Imaging : JMRI, 42(6), 1765–76. -
Left ventricular retraining in corrected transposition: Relationship between pressure and mass.
Mainwaring, R. D., Patrick, W. L., Arunamata, A., Chan, F., Newman, B., Rosenblatt, T. R., … Hanley, F. L. (2019). Left ventricular retraining in corrected transposition: Relationship between pressure and mass. The Journal of Thoracic and Cardiovascular Surgery. -
Mucus plugging, air trapping, and bronchiectasis are important outcome measures in assessing progressive childhood cystic fibrosis lung disease.
Robinson, T. E., Goris, M. L., Moss, R. B., Tian, L., Kan, P., Yilma, M., … Cornfield, D. N. (2020). Mucus plugging, air trapping, and bronchiectasis are important outcome measures in assessing progressive childhood cystic fibrosis lung disease. Pediatric Pulmonology. -
Congenital central pulmonary artery anomalies: Part 1.
Newman, B., & Alkhori, N. (2020). Congenital central pulmonary artery anomalies: Part 1. Pediatric Radiology. -
Congenital central pulmonary artery anomalies: Part 2.
Newman, B., & Alkhori, N. (2020). Congenital central pulmonary artery anomalies: Part 2. Pediatric Radiology. -
Magnetic resonance imaging for congenital lung malformations.
Newman, B. (2021). Magnetic resonance imaging for congenital lung malformations. Pediatric Radiology. -
Improved detection of air trapping on expiratory computed tomography using deep learning.
Ram, S., Hoff, B. A., Bell, A. J., Galban, S., Fortuna, A. B., Weinheimer, O., … Galban, C. J. (2021). Improved detection of air trapping on expiratory computed tomography using deep learning. PloS One, 16(3), e0248902. -
Ultrafast pediatric chest computed tomography: comparison of free-breathing vs. breath-hold imaging with and without anesthesia in young children
Kino, A., Zucker, E. J., Honkanen, A., Kneebone, J., Wang, J., Chan, F., & Newman, B. (2019). Ultrafast pediatric chest computed tomography: comparison of free-breathing vs. breath-hold imaging with and without anesthesia in young children. PEDIATRIC RADIOLOGY, 49(3), 301–307. -
Congenital Variants and Anomalies of the Aortic Arch
Hanneman, K., Newman, B., & Chan, F. (2017). Congenital Variants and Anomalies of the Aortic Arch. RADIOGRAPHICS, 37(1), 32–51. -
Vascular Lesions-Congenital, Acquired, and latrogenic: Imaging in the Neonate
Epelman, M., Johnson, C., Hellinger, J. C., Darge, K., & Newman, B. (2015). Vascular Lesions-Congenital, Acquired, and latrogenic: Imaging in the Neonate. SEMINARS IN ULTRASOUND CT AND MRI, 36(2), 193–215. -
Quality Improvement in Neonatal Digital Radiography: Implementing the Basic Quality Improvement Tools
Eslamy, H. K., Newman, B., & Weinberger, E. (2014). Quality Improvement in Neonatal Digital Radiography: Implementing the Basic Quality Improvement Tools. SEMINARS IN ULTRASOUND CT AND MRI, 35(6), 608–626. -
Congenital Absence of the Pericardium: Pearls and Pitfalls.
Newman, B. (2022). Congenital Absence of the Pericardium: Pearls and Pitfalls. Seminars in Ultrasound, CT, and MR, 43(1), 47–50.
Clinical Trials
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Open trials refer to studies currently accepting participants. Closed trials are not currently enrolling, but may open in the future.
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Referring Physicians
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