C Frellesen
Non-linear image blending improves visualization of head and neck primary squamous cell carcinoma compared to linear blending in dual-energy CT
Scholtz J, Vogl T, Lehnert T, Bauer R, Kerl J, Wagenblast J, Bodelle B, Frellesen C, Schulz B, Albrecht M, Kaup M, Hüsers K, Wichmann J. Non-linear image blending improves visualization of head and neck primary squamous cell carcinoma compared to linear blending in dual-energy CT. Clin Radiol 2014; 70:168-75.
Dec 6, 2014Non-linear image blending improves visualization of head and neck primary squamous cell carcinoma compared to linear blending in dual-energy CT
Dec 6, 2014Clin Radiol 2014; 70:168-75
Scholtz J-E, Vogl T J, Lehnert T, Bauer Ralf, Kerl J M, Wagenblast J, Bodelle B, Frellesen C, Schulz B, Albrecht M, Kaup M, Hüsers K, Wichmann J L
Low-tube-voltage 80-kVp neck CT: evaluation of diagnostic accuracy and interobserver agreement
Wichmann J, Vogl T, Lehnert T, Bauer R, Kerl J, Wagenblast J, Frellesen C, Scholtz J, Burck I, Bodelle B, Nöske E, Kraft J, Schulz B. Low-tube-voltage 80-kVp neck CT: evaluation of diagnostic accuracy and interobserver agreement. AJNR Am J Neuroradiol 2014; 35:2376-81.
Aug 7, 2014Low-tube-voltage 80-kVp neck CT: evaluation of diagnostic accuracy and interobserver agreement
Aug 7, 2014AJNR Am J Neuroradiol 2014; 35:2376-81
Wichmann J L, Vogl T J, Lehnert T, Bauer Ralf, Kerl J M, Wagenblast J, Frellesen C, Scholtz J-E, Burck I, Bodelle B, Nöske E-M, Kraft J, Schulz B