91大神

Daniel J. Podberesky, MD

Medical Imaging

Get to Know Me

I discovered my passion for radiology in medical school. I enjoy working with doctors in all specialties and using my knowledge and expertise in pediatric imaging, particularly heart and body imaging, to help ensure correct diagnosis and treatment. I lead a team of more than 40 radiologists providing care in four states across 91大神.

Why I Treat Children

To be able to participate in the care of a child and see the look on a parent鈥檚 face when they鈥檙e given good news about an imaging exam is extremely satisfying. As a radiologist, working with children also allows me to keep up my skills in all types of imaging. We have many tools, including X-rays, ultrasound, CT (computed tomography), MRI (magnetic resonance imaging), nuclear medicine and fluoroscopy (鈥渕oving鈥 X-rays), to diagnose children with many different conditions.

What I'm Passionate About

In recent years there have been tremendous advances in imaging techniques to diagnose digestive, urinary, heart and breathing problems in children. I am passionate about using these technologies to help pediatric patients at 91大神 鈥 and about continuing the search for new ways to advance the science of pediatric imaging for the benefit of children everywhere.

How I Try to Make A Difference

As radiologist-in-chief of 91大神 Children鈥檚 Health System, the best way I can make a difference is by empowering my team to do their jobs to the best of their ability. This means having the best radiologists, technologists, nurses and support staff; providing them with the best equipment; and using the safest techniques and procedures.

Education & Training

Fellowship

  • Pediatric Radiology - Cincinnati Children's Hospital Medical Center, 2004

Internship

  • Transitional Year - Wilford Hall Medical Center, 1999

Residency

  • Radiology - Wilford Hall Medical Center, 2003

Medical/Dental School

  • M.D. - University of Maryland at Baltimore, 1998

Board Certifications

  • American Board of Radiology/Diagnostic Radiology
  • American Board of Radiology/Pediatric Radiology

  • The Joint Commission's Ongoing Professional Practice Evaluation Process: Costly, Ineffective, and Potentially Harmful to Safety Culture; Journal of the American College of Radiology; (2024).

  • Letter From the Guest Editors; Seminars in Ultrasound, CT and MRI; (2022).

  • Magnetic resonance imaging of M眉llerian anomalies in girls: concepts and controversies; Pediatric Radiology; (2022).

  • Working from home in pediatric radiology: to be or not to be, it's not a simple question; Pediatric Radiology; (2022).

  • Diagnostic performance of LI-RADS version 2018 for evaluation of pediatric hepatocellular carcinoma; Radiology; (2021).

  • Cardiac magnetic resonance imaging and computed tomography for the pediatric cardiologist; Progress in Pediatric Cardiology; (2020).

  • Applications of pediatric body CT angiography: What radiologists need to know; American Journal of Roentgenology; (2020).

  • Letter From the Guest Editors; Seminars in Ultrasound, CT and MRI; (2020).

  • Optimization of pediatric body CT angiography: What radiologists need to know; American Journal of Roentgenology; (2020).

  • Pediatric hepatoblastoma, hepatocellular carcinoma, and other hepatic neoplasms: Consensus imaging recommendations from American College of Radiology pediatric Liver Reporting and Data System (LI-RADS) working group; Radiology; (2020).

  • Progression of Fatty Liver Disease in Children Receiving Standard of Care Lifestyle Advice; Gastroenterology; (2020).

  • Clinically Actionable Hypercholesterolemia and Hypertriglyceridemia in Children with Nonalcoholic Fatty Liver Disease; Journal of Pediatrics; (2018).

  • Consensus Recommendations for Evaluation, Interpretation, and Utilization of Computed Tomography and Magnetic Resonance Enterography in Patients With Small Bowel Crohn's Disease; Gastroenterology; (2018).

  • Fractures in children with newly diagnosed hepatoblastoma; Pediatric Radiology; (2018).

  • Gadolinium-based contrast agents in children; Pediatric Radiology; (2018).

  • In Children With Nonalcoholic Fatty Liver Disease, Zone 1 Steatosis Is Associated With Advanced Fibrosis; Clinical Gastroenterology and Hepatology; (2018).

  • Low and High Birth Weights Are Risk Factors for Nonalcoholic Fatty Liver Disease in Children; Journal of Pediatrics; (2017).

  • Quality measures and pediatric radiology: suggestions for the transition to value-based payment; Pediatric Radiology; (2017).

  • Sonographic evaluation of pediatric thyroid nodules; Radiographics; (2017).

  • Pediatric chest ultrasound: a practical approach; Pediatric Radiology; (2017).

  • Peer feedback, learning, and improvement: Answering the call of the Institute of Medicine report on diagnostic error; Radiology; (2017).

  • Pediatric chest CT diagnostic reference ranges: Development and application; Radiology; (2017).

  • Non-catheter-related venous thromboembolism in children: Imaging review from head to toe; Radiographics; (2017).

  • Prospective assessment of correlation between US acoustic radiation force impulse and MR elastography in a pediatric population: Dispersion of US shear-wave speed measurement matters; Radiology; (2016).

  • Magnetic resonance imaging of acquired disorders of the pediatric female pelvis other than neoplasm; Pediatric Radiology; (2016).

  • Increased parenchymal damage and steatohepatitis in Caucasian non-alcoholic fatty liver disease patients with common IL1B and IL6 polymorphisms; Alimentary Pharmacology and Therapeutics; (2016).

  • In Children With Nonalcoholic Fatty Liver Disease, Cysteamine Bitartrate Delayed Release Improves Liver Enzymes but Does Not Reduce Disease Activity Scores; Gastroenterology; (2016).

  • A prognostic tool to predict severe acute pancreatitis in pediatrics; Pancreatology; (2016).

  • Consensus on elastography of the liver; Radiology; (2016).

  • Diagnostic performance and dose comparison of filtered back projection and adaptive iterative dose reduction three-dimensional CT enterography in children and young adults; Radiology; (2015).

  • The incidental pulmonary nodule in a child: Part 2: Commentary and suggestions for clinical management, risk communication and prevention; Pediatric Radiology; (2015).

  • Image-guided prediction of pseudocyst formation in pediatric pancreatic trauma; Journal of Surgical Research; (2015).

  • Pediatric inflammatory bowel disease: imaging issues with targeted solutions; Abdominal Imaging; (2015).

  • Retrospective comparison of gradient recalled echo R2* and spin-echo R2 magnetic resonance analysis methods for estimating liver iron content in children and adolescents; Pediatric Radiology; (2015).

  • The impact of hepatocyte phase imaging from infancy to young adulthood in patients with a known or suspected liver lesion; Pediatric Radiology; (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; (2015).

  • Toward large-scale process control to enable consistent ct radiation dose optimization; American Journal of Roentgenology; (2015).

  • Imaging modalities in pediatric inflammatory bowel disease; Current Opinion in Pediatrics; (2014).

  • Iron deficiency in patients with nonalcoholic fatty liver disease is associated with obesity, female gender, and low serum hepcidin; Clinical Gastroenterology and Hepatology; (2014).

  • Relationship of MR elastography determined liver stiffness with cardiac function after Fontan palliation; Journal of Magnetic Resonance Imaging; (2014).

  • Magnetic resonance elastography of the liver in patients status-post fontan procedure: Feasibility and preliminary results; Congenital Heart Disease; (2014).

  • Cross-vendor validation of liver magnetic resonance elastography; Abdominal Imaging; (2014).

  • Use of magnetic resonance elastography to assess hepatic fibrosis in children with chronic liver disease; Journal of Pediatrics; (2014).

  • Teamwork among pediatric anesthesia and radiology providers at a large tertiary-care children's hospital: Past, present and future; Pediatric Radiology; (2013).

  • Is it time for a dedicated pediatric MRI ACR accreditation program?; Journal of the American College of Radiology; (2013).

  • Comparison of radiation dose estimates and scan performance in pediatric high-resolution thoracic ct for volumetric 320-detector row, helical 64-detector row, and noncontiguous axial scan acquisitions; Academic Radiology; (2013).

  • CT and MR enterography in children and adolescents with inflammatory bowel disease; Radiographics; (2013).

  • Comparison of radiation dose estimates, image noise, and scan duration in pediatric body imaging for volumetric and helical modes on 320-detector CT and helical mode on 64-detector CT; Pediatric Radiology; (2013).

  • Diagnostic reference ranges for pediatric abdominal CT; Radiology; (2013).

  • Does secretin add value in pediatric magnetic resonance cholangiopancreatography?; Pediatric Radiology; (2013).

  • System for verifiable CT radiation dose optimization based on image quality. Part II. Process control system; Radiology; (2013).

  • Hepatic pathology after Fontan palliation: Spectrum of imaging findings; Pediatric Radiology; (2013).

  • Increased prevalence of luminal narrowing and stricturing identified by enterography in pediatric crohn's disease patients with elevated granulocyte-macrophage colony stimulating factor autoantibodies; Inflammatory Bowel Diseases; (2013).

  • Estimation of fish and 蠅-3 fatty acid intake in pediatric nonalcoholic fatty liver disease; Journal of Pediatric Gastroenterology and Nutrition; (2013).

  • Letter to the editor; Journal of Pediatric Surgery; (2013).

  • Magnetic resonance imaging of the pediatric liver: Imaging of steatosis, iron deposition, and fibrosis; Magnetic Resonance Imaging Clinics of North America; (2013).

  • Multidetector computed tomographic and magnetic resonance enterography in children. State of the art.; Radiologic Clinics of North America; (2013).

  • Neuroblastoma associated with persistent cloaca: A case report; Journal of Pediatric Surgery Case Reports; (2013).

  • RE: Invited commentary; Radiographics; (2013).

  • Reply to Dr. Meyers et al regarding 'Beyond acute appendicitis: Imaging of additional pathologies of the pediatric appendix'; Pediatric Radiology; (2013).

  • System for verifiable CT radiation dose optimization based on image quality. Part I. Optimization model; Radiology; (2013).

  • Magnetic resonance imaging of anorectal malformations; Magnetic Resonance Imaging Clinics of North America; (2013).

  • Beyond acute appendicitis: Imaging of additional pathologies of the pediatric appendix; Pediatric Radiology; (2013).

  • Inflammatory Bowel Disease in Children and Adolescents. Assessing the Diagnostic Performance and Interreader Agreement of Magnetic Resonance Enterography Compared to Histopathology; Academic Radiology; (2012).

  • Hepatoblastoma imaging with gadoxetate disodium-enhanced MRI-typical, atypical, pre- and post-treatment evaluation; Pediatric Radiology; (2012).

  • Limited, fast magnetic resonance imaging as an alternative for preoperative evaluation of pectus excavatum: A feasibility study; Journal of Thoracic Imaging; (2012).

  • Non-contrast MRA using an inflow-enhanced, inversion recovery SSFP technique in pediatric abdominal imaging; Pediatric Radiology; (2012).

  • Pediatric liver MR elastography; Digestive Diseases and Sciences; (2012).

  • Radiation dose estimation for prospective and retrospective ECG-gated cardiac CT angiography in infants and small children using a 320-MDCT volume scanner; American Journal of Roentgenology; (2012).

  • Reply; American Journal of Roentgenology; (2012).

  • ACR Appropriateness Criteria <sup>庐</sup> on suspected physical abuse-child; Journal of the American College of Radiology; (2011).

  • Breathe in... Breathe out... Stop breathing: Does phase of respiration affect the haller index in patients with pectus excavatum?; American Journal of Roentgenology; (2011).

  • Characterization of pediatric liver lesions with gadoxetate disodium; Pediatric Radiology; (2011).

  • MRI of acquired posterior urethral diverticulum following surgery for anorectal malformations; Pediatric Radiology; (2011).

  • Crohn's disease limited to the appendix: A case report in a pediatric patient; Pediatric Surgery International; (2010).

  • Little League shoulder: A growth plate injury; Pediatric Radiology; (2010).

  • ACR Appropriateness Criteria<sup>庐</sup> on Developmental Dysplasia of the Hip-Child; Journal of the American College of Radiology; (2009).

  • Imaging of American football injuries in children; Pediatric Radiology; (2009).

  • 3-Dimensional Magnetic Resonance Genitography: A Different Look at Cloacal Malformations; Journal of Urology; (2007).

  • Best cases from the AFIP: Placental chorioangioma; Radiographics; (2007).

  • Superior mesenteric artery syndrome in a basic military trainee; Military Medicine; (2007).

  • Infrarenal aortic coarctation in a 15-year-old with claudication; Journal of Vascular Surgery; (2006).

  • Tailgut cyst in a child; Pediatric Radiology; (2005).

  • Nanomolar ouabain augments caffeine-evoked contractions in rat arteries; American Journal of Physiology - Cell Physiology; (1993).

  • English
  • Spanish