Marc R. Sontag scite author profile

Contemporary cardiac pacemakers can fail from radiation damage at doses as low as 10 gray and can exhibit functional changes at doses as low as 2 gray. A review and discussion of this potential problem is presented and a protocol is offered that suggests that radiation therapy patients with implanted pacemakers be planned so as to limit accumulated dose to the pacemaker to 2 gray. Although certain levels and types of electromagnetic interference can cause pacemaker malfunction, there is evidence that this is not a serious problem around most contemporary radiation therapy equipment.

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Early Effects of Ionizing Radiation on the Microvascular Networks in Normal Tissue

Roth¹,

Sontag²,

Kiani³

1999

Radiation Research

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Microvascular networks, which control the delivery of oxygen and nutrients and the removal of metabolic waste, are the most sensitive part of the vascular system to ionizing radiation. Structural and functional changes in microvascular networks were studied in locally irradiated (single 10-Gy dose) hamster cremaster muscles observed 3, 7 and 30 days post-irradiation. Networks were selected in reference to a well-defined location in the tissue to reduce heterogeneity due to spatial variations. Intravital microscopy was used to measure structural and functional parameters in vivo. A factorial design was used to examine the effects of radiation status, time postirradiation, and network vessel type on the structure and function of microvascular networks. While the diameter of microvessels in control animals increased significantly with age, vessel diameter in irradiated vessels decreased significantly with age. Red blood cell velocity in irradiated networks at 3 and 30 days postirradiation was significantly lower than in control networks. There was a significant decrease in capillary surface area and a significant increase in vessel hematocrit in irradiated animals. Blood flow in irradiated vessels was significantly lower than in control vessels. Changes in functional parameters were evident at 3 days postirradiation while changes in structural parameters occurred later. All vessel types were not damaged equally by radiation at every time examined.

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The Equivalent Tissue-Air Ratio Method for Making Absorbed Dose Calculations in a Heterogeneous Medium

Sontag¹,

Cunningham²

1978

Radiology

167

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The CT scanner makes three-dimensional anatomical information available for treatment planning, the calculational algorithm being the limiting factor in dose calculations. A method has been developed, called the "effective tissue-air ratio method," that uses all the information but reduces it to manageable proportions. The accuracy is satisfactory for a wide range of photon beam energies and clinical applications. It has been implemented in such a way that the CT scan can be used directly without the intermediate step of manually obtaining structures from either a viewing screen or a hard copy of the CT image.

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The utility of SPECT lung perfusion scans in minimizing and assessing the physiologic consequences of thoracic irradiation

Marks

Spencer

Bentel

et al. 1993

International Journal of Radiation Oncology*Biology*Physics

136

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Marc R. Sontag

Management of radiation oncology patients with implanted cardiac pacemakers: Report of AAPM Task Group No. 34

Early Effects of Ionizing Radiation on the Microvascular Networks in Normal Tissue

The Equivalent Tissue-Air Ratio Method for Making Absorbed Dose Calculations in a Heterogeneous Medium

The utility of SPECT lung perfusion scans in minimizing and assessing the physiologic consequences of thoracic irradiation

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