Jonathan A. Saenger
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View article: Systemic Vascular Calcification After Lung Transplantation: The Role of Mammographic Breast Arterial Calcifications
Systemic Vascular Calcification After Lung Transplantation: The Role of Mammographic Breast Arterial Calcifications Open
Objective: This study systematically evaluates the association between breast arterial calcifications (BACs) on mammography and systemic vascular calcifications detected by computed tomography (CT) in female lung transplant recipients, rep…
View article: Mammographic Calcifications in Lung Transplant Recipients: Prevalence and Evolution
Mammographic Calcifications in Lung Transplant Recipients: Prevalence and Evolution Open
Objective: To investigate the prevalence and progression of macrocalcifications or sporadic scattered microcalcifications, breast arterial calcifications (BAC) and grouped microcalcifications in women undergoing lung transplantation (LTX).…
View article: Mammographic Vascular Microcalcifications as a Surrogate Parameter for Coronary Heart Disease: Correlation to Cardiac Computer Tomography and Proposal of a Classification Score
Mammographic Vascular Microcalcifications as a Surrogate Parameter for Coronary Heart Disease: Correlation to Cardiac Computer Tomography and Proposal of a Classification Score Open
Objective: This study develops a BI-RADS-like scoring system for vascular microcalcifications in mammographies, correlating breast arterial calcification (BAC) in a mammography with coronary artery calcification (CAC), and specifying diffe…
View article: High-Frequency Jet Ventilation Versus Spontaneous Respiration for Percutaneous Cryoablation of Lung Tumors: Comparison of Adverse Events and Procedural Efficiency
High-Frequency Jet Ventilation Versus Spontaneous Respiration for Percutaneous Cryoablation of Lung Tumors: Comparison of Adverse Events and Procedural Efficiency Open
BACKGROUND. High-frequency jet ventilation (HFJV) facilitates accurate probe placement in percutaneous ablation of lung tumors but may increase risk for adverse events, including systemic air embolism. OBJECTIVE. The purpose of this study …
View article: Noninvasive Quantification of Radiation-Induced Lung Injury using a Targeted Molecular Imaging Probe
Noninvasive Quantification of Radiation-Induced Lung Injury using a Targeted Molecular Imaging Probe Open
Rationale Radiation-induced lung injury (RILI) is a progressive inflammatory process commonly seen following irradiation for lung cancer. The disease can be insidious, often characterized by acute pneumonitis followed by chronic fibrosis w…
View article: Increased hemolysis rate in plasma tubes after implementation of a fully automated sample delivery and acceptance system
Increased hemolysis rate in plasma tubes after implementation of a fully automated sample delivery and acceptance system Open
Objectives Automated sample delivery and laboratory acceptance systems (PTAS) may influence the hemolysis rate of blood samples due to g-forces, abrupt acceleration, and rapid deceleration. However, quantitative data regarding the rate of …