Assessment of disease extent on contrast-enhanced MRI in breast cancer detected at digital breast tomosynthesis versus digital mammography alone.

AIM: To compare the utility of breast magnetic resonance imaging (MRI) in determining the extent of disease in patients with newly diagnosed breast cancer detected on combination digital breast tomosynthesis (DBT) versus digital screening mammography (DM). MATERIALS AND METHODS: Review of 24,563 DBT-screened patients and 10,751 DM-screened patients was performed. Two hundred and thirty-five DBT patients underwent subsequent MRI examinations; 82 to determine extent of disease after newly diagnosed breast cancer. Eighty-three DM patients underwent subsequent MRI examinations; 23 to determine extent of disease. MRI examinations performed to assess disease extent were considered true positives if additional disease was discovered in the contralateral breast or >2 cm away from the index malignancy. Differences in cancer subtypes and MRI outcomes between the DM and DBT cohorts were compared using chi-squared tests and post-hoc Bonferroni-adjusted tests for equal proportions. RESULTS: No differences in cancer subtype findings were observed between the two cohorts; however, MRI outcomes were found to differ between the DBT and DM cohorts (p=0.024). Specifically, the DBT cohort had significantly (p=0.013) fewer true-positive findings (7/82, 8.5%) than did the DM cohort (7/23; 30%), whereas the false-positive rate was similar between the cohorts (not statistically significant). When stratifying by breast density, this difference in true-positive rates was primarily observed when evaluating women with non-dense breasts (p=0.001). CONCLUSION: In both the DM- and DBT-screened populations with new cancer diagnoses, MRI is able to detect additional cancer; however, in those patients who have DBT screen-detected cancers the positive impact of preoperative MRI is diminished, particularly in those women with non-dense breasts.

Alterations in cell cycle regulation underlie cisplatin induced apoptosis of dorsal root ganglion neurons in vivo.

Cisplatin is used in the treatment of ovarian and testicular cancer. Twenty percent of patients cannot be optimally treated because of sensory neurotoxicity. Human and animal studies demonstrate that the dorsal root ganglion neuron is the primary target of drug injury. We have previously demonstrated that cisplatin causes neuronal apoptosis in vitro. We now report a reproducible animal model of cell death induced by cisplatin. Drug was administered for 1 or 2 cycles of 5 days separated by 5 days. Total dose administered was 0, 5, 7.5, 10, or 15 mg/kg. Ganglia from 34 animals were processed and examined using in situ hybridization for cyclin D1 messenger RNA and digoxigenin coupled TUNEL staining. Overall, 2.9 +/- 3.9% of neurons were TUNEL positive in treated rats compared with 0.2 +/- 0.3% in controls (P <.005). There was a strong positive correlation (r2 = 0.88; P = 0.018) between percentage of TUNEL stained DRG and cumulative dose of cisplatin. Two independent approaches to quantitation of in situ cyclin D1 hybridization were used; blinded grading by an observer and measurement of color density using digital image analysis. Both demonstrated dramatic upregulation of expression of cyclin D1 mRNA in treated compared with control rats. This demonstrates that apoptosis of neurons is preceded by aberrant reentry into G1 phase of the cell cycle in an animal model.

Mechanisms of neurotoxic injury and cell death.

Neurotoxic injury to the nervous system produces neuronal death or distal axonal degeneration. Neurotoxin-induced demyelination is relatively rare in the peripheral and central nervous systems. Major advances have occurred in our understanding of the mechanisms of apoptotic cell death. The pathways leading to apoptosis offer many new approaches to neuroprotection.