Editorial: Advances in Label Free Tissue Imaging With Laser Scanning Microscopy Techniques

“…The authors consent to the observation that with its inception this journal has made a serious effort to cater to the medical applications of physics, to render physics-driven innovation palatable to scientists and clinical adopters. In that regard, recently accepted manuscripts cover an exceptionally broad range of topics, including magnetic resonance imaging (MRI) with low-and high magnetic field strengths [3][4][5], LASER scanning microscopy techniques [6], applications of dual-channel endoscopy [7], small-animal SPECT [8] and total-body PET imaging [9], and preclinical ultrasound systems [10]. Likewise, relevant publications in our journal address conceptual measurements of basic biological and morphological parameters, such as carotid stiffness [11], cardiac arrhythmia [12], articular cartilage constituents [13] as well as the ultrastructure of bone [14,15].…”

Medical Physics and Imaging–A Timely Perspective

“…The authors consent to the observation that with its inception this journal has made a serious effort to cater to the medical applications of physics, to render physics-driven innovation palatable to scientists and clinical adopters. In that regard, recently accepted manuscripts cover an exceptionally broad range of topics, including magnetic resonance imaging (MRI) with low-and high magnetic field strengths [3][4][5], LASER scanning microscopy techniques [6], applications of dual-channel endoscopy [7], small-animal SPECT [8] and total-body PET imaging [9], and preclinical ultrasound systems [10]. Likewise, relevant publications in our journal address conceptual measurements of basic biological and morphological parameters, such as carotid stiffness [11], cardiac arrhythmia [12], articular cartilage constituents [13] as well as the ultrastructure of bone [14,15].…”

Medical Physics and Imaging–A Timely Perspective