S. James Adelstein scite author profile

The value of a diagnostic test lies in its ability to detect patients with disease (its sensitivity) and to exclude patients without disease (its specificity). For tests with binary outcomes, these measures are fixed. For tests with a continuous scale of values, various cutoff points can be selected to adjust the sensitivity and specificity of the test to conform with the physician's goals. Principles of statistical decision theory and information theory suggest technics for objectively determining these cutoff points, depending upon whether the physician is concerned with health costs, with financial costs, or with the information content of the test.

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Managing Radiation Use in Medical Imaging: A Multifaceted Challenge

Hricak¹,

Brenner²,

Adelstein³

et al. 2011

Radiology

298

169

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The Physician's Responsibility toward Hopelessly Ill Patients

Wanzer

Federman²,

Adelstein³

et al. 1989

N Engl J Med

417

141

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Physicians have a specific responsibility toward patients who are hopelessly ill, dying, or in the end stages of an incurable disease. In a summary of current practices affecting the care of dying patients, we give particular emphasis to changes that have become commonplace since the early 1980s. Implementation of accepted policies has been deficient in certain areas, including the initiation of timely discussions with patients about dying, the solicitation and execution in advance of their directives for terminal care, the education of medical students and residents, and the formulation of institutional guidelines. The appropriate and, if necessary, aggressive use of pain-relieving substances is recommended, even when such use may result in shortened life. We emphasize the value of a sensitive approach to care--one that is adjusted continually to suit the changing needs of the patient as death approaches. Possible settings for death are reviewed, including the home, the hospital, the intensive care unit, and the nursing home. Finally, we consider the physician's response to the dying patient who is rational and desires suicide or euthanasia.

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Bystander effect produced by radiolabeled tumor cells in vivo

Xue

Butler

Makrigiorgos

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

180

107

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, and (iii) the overall radiation dose deposited by radiolabeled cells in the unlabeled cells within the growing tumor is <10 cGy, we conclude that the results obtained are a consequence of a bystander effect that is generated in vivo by factor(s) present within and͞or released from the 125 IUdR-labeled cells. These in vivo findings significantly impact the current dogma for assessing the therapeutic potential of internally administered radionuclides. They also call for reevaluation of the approaches currently used for estimating the risks to individuals and populations inadvertently exposed internally to radioactivity as well as to patients undergoing routine diagnostic nuclear medical procedures. Studies in recent years have demonstrated that a radiobiologic phenomenon termed the ''bystander effect'' can be observed in mammalian cells grown in vitro. Bystander damage describes biologic effects, originating from irradiated cells, that occur in unirradiated neighboring cells. Several investigators have reported that when ␣-particles traverse a small fraction of a cell population in vitro, lower rates of survival and higher rates of genetic change are observed than those predicted from directionization-only models (1-6). These changes include increased levels of sister chromatid exchanges, mutations, and micronuclei formation, changes in gene expression, and oncogenic transformation. Cell survival is likewise compromised when cells are cocultured with tritiated thymidine-labeled cells (7, 8) and iodine-125 (9). Similarly, the bystander effect has been reported for microcolonies that have been ␥ irradiated (10) and for cells exposed to media from ␥-irradiated cells (10, 11). Evidence from these reports challenges the past half-century's tenet that radiation produces effects only in cells whose DNA has been damaged either through direct ionization or indirectly (for example, through hydroxyl radicals produced in water molecules in the immediate vicinity of the DNA).Whether radiation-induced bystander effects represent a phenomenon that occurs only ex vivo, i.e., are a byproduct of in vitro conditions and manipulations, or whether they are factual in vivo events has not been fully examined. Consequently, the extension of conclusions derived from in vitro studies to the in vivo situation is uncertain. The demonstration of a bystander effect with an in vivo system and the elucidation of the underlying mechanisms of an in vivo bystander effect would go a long way in translating its implications for humans.Recently, Watson et al. (12) demonstrated chromosomal instability in the progeny of unirradiated bone marrow cells mixed with cells exposed ex vivo to neutrons and transplanted into recipient mice. In this novel system, a sex-mismatch transplantation protocol provides a three-way marker system and allows the investigators to distinguish not only host-derived cells from donor-derived cells, but also irradiated donor stemcell-derived cells from nonirradiated donor stem-cell-derived cells. These studies thus provide the...

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Radioimmunotherapy with Alpha-Particle-Emitting Immunoconjugates

Macklis

Kinsey

et al. 1988

Science

148

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Alpha particles are energetic short-range ions whose higher linear energy transfer produces extreme cytotoxicity. An alpha-particle-emitting radioimmunoconjugate consisting of a bismuth-212-labeled monoclonal immunoglobulin M specific for the murine T cell/neuroectodermal surface antigen Thy 1.2 was prepared. Analysis in vitro showed that the radioimmunoconjugate was selectively cytotoxic to a Thy 1.2+ EL-4 murine tumor cell line. Approximately three bismuth-212-labeled immunoconjugates per target cell reduced the uptake of [3H]thymidine by the EL-4 target cells to background levels. Mice inoculated intraperitoneally with EL-4 cells were cured of their ascites after intraperitoneal injection of 150 microcuries of the antigen-specific radioimmunoconjugate, suggesting a possible role for such conjugates in intracavitary cancer therapy.

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