Add to ORKGThe scintillation camera is a sensitive electronic instrument for taking pie tures of the distribution of gamma-ray and positron-emitting isotopes in vivo. The pictures are similar to those obtained from mechanical scanners, but they are produced in much less time. No scanning is employed because th
With the sophistication and increased use of scintillation cameras in nuclear medicine, routine qual...
From eleventh international annual meeting of the German Society of Nuclear Medicine; Athens, Greece...
In nuclear-medical imaging, most clinically applied gamma rays have energies less than or equal to 5...
The scintillation camera is a nonscanning instrument for displaying the distribution of radioactive ...
The scintillation camera offers a simple method of visualizing the flow of blood through vessels and...
Scintillation cameras, especially the gamma cam era developed by Anger (7), have become an im portan...
Line-source experiments were conducted to assess the performance of a gamma-camera equipped with a s...
In our previous studies we have considered a possible use of a manipulator for biomedical applicatio...
Gamma scintigraphy has established itself as a method of choice for the in vivo monitoring of the fa...
The gamma camera provides fast and accurate real-time imaging of the distribution of radionuclides i...
Scintillating materials are used in a variety of medical imaging devices. This paper presents a desc...
Collimators are usually needed to image sources emitting X-rays that cannot be focused. Alternately,...
[[abstract]]This paper reports investigations into some of the improvements of the performance of `m...
We describe the development of a scintillator-coated charge coupled device (CCD) based camera for im...
Collimators are usually needed to image sources emitting X-rays that cannot be focused. Alternately,...
With the sophistication and increased use of scintillation cameras in nuclear medicine, routine qual...
From eleventh international annual meeting of the German Society of Nuclear Medicine; Athens, Greece...
In nuclear-medical imaging, most clinically applied gamma rays have energies less than or equal to 5...
The scintillation camera is a nonscanning instrument for displaying the distribution of radioactive ...
The scintillation camera offers a simple method of visualizing the flow of blood through vessels and...
Scintillation cameras, especially the gamma cam era developed by Anger (7), have become an im portan...
Line-source experiments were conducted to assess the performance of a gamma-camera equipped with a s...
In our previous studies we have considered a possible use of a manipulator for biomedical applicatio...
Gamma scintigraphy has established itself as a method of choice for the in vivo monitoring of the fa...
The gamma camera provides fast and accurate real-time imaging of the distribution of radionuclides i...
Scintillating materials are used in a variety of medical imaging devices. This paper presents a desc...
Collimators are usually needed to image sources emitting X-rays that cannot be focused. Alternately,...
[[abstract]]This paper reports investigations into some of the improvements of the performance of `m...
We describe the development of a scintillator-coated charge coupled device (CCD) based camera for im...
Collimators are usually needed to image sources emitting X-rays that cannot be focused. Alternately,...
With the sophistication and increased use of scintillation cameras in nuclear medicine, routine qual...
From eleventh international annual meeting of the German Society of Nuclear Medicine; Athens, Greece...
In nuclear-medical imaging, most clinically applied gamma rays have energies less than or equal to 5...