Identifying the deceiver: the non-neoplastic mimickers of genital system neoplasms

Tumors of the genital system are common and imaging is of crucial importance for their detection and diagnosis. Several non-neoplastic diseases may mimic these tumors and differential diagnosis may be difficult in certain cases. Misdiagnosing non-neoplastic diseases as tumor may prompt unnecessary medical treatment or surgical interventions. In this article, we aimed to present the imaging characteristics of non-neoplastic diseases of the male and female genital systems that may mimic neoplastic processes. Increasing awareness of the imaging specialists to these entities may have a severe positive impact on the management of these patients.

Imaging findings of infectious and inflammatory diseases of the urinary system mimicking neoplastic diseases

Neoplastic diseases affecting the urinary organs are common, and diagnosis by imaging is usually straightforward. However, infectious/inflammatory processes also commonly affect these organs and can be mistaken for a neoplasm. Familiarity with these potential mimickers and awareness of their imaging presentations are key for correct diagnosis. We present the imaging findings of non-neoplastic infectious/inflammatory diseases that can mimic a neoplastic process.

Non-neoplastic hepatopancreatobiliary lesions simulating malignancy: can we differentiate?

Despite the success of cross-sectional imaging in evaluating hepatopancreatobiliary system malignancies, several non-malignant disease processes may closely mimic malignancy. Differentiating these benign diseases from malignancy may be difficult, or even impossible, even in the hands of experienced imagers. In this manuscript, we present benign mimics involving the hepatopancreatobiliary system and try to increase awareness of these potential pitfalls.

Long-term effects of sterol depletion in C. elegans: sterol content of synchronized wild-type and mutant populations

Three major long-term effects of sterol deprivation in Caenorhabditis elegans are described. 1) The life expectancy of sterol-deprived wild-type animals is decreased by more than 40%. Similar decreases are found in animals carrying mutations in the daf-9, daf-12, daf-16, and clk-1 genes, suggesting that previously described aging pathways involving these genes are not involved in the life-extending effects of sterols. 2) There is a premature loss of motility, measured by response to mild touch. 3) There is a rapid postreproductive onset of sarcopenia (muscle wasting) as measured by total body fluorescence in a myo3::GFP-expressing strain. We also report that five sterols (the desmethylsterols cholesterol, 7-dehydrocholesterol, and lathosterol and the 4alpha-methyl sterols lophenol and 4alpha-methyl-cholesta-Delta8(14)-en-3beta-ol) are found in significant amounts at all stages of development and aging in cholesterol-fed animals. Supplying any one of these as the sole sterol confers similar protection from the long-term effects of sterol deprivation. These findings suggest that sterols are required continuously throughout the animal's life.

Insulating behavior of lambda-DNA on the micron scale

We have investigated the electrical conductivity of lambda-DNA using DNA covalently bonded to Au electrodes. Thiol-modified dTTP was incorporated into the "sticky" ends of bacteriophage lambda-DNA using DNA polymerase. Two-probe measurements on such molecules provide a hard lower bound for the resistivity rho>10(6)Omega cm at bias potentials up to 20 V, in conflict with recent claims of moderate to high conductivity. By direct imaging, we show that the molecules are present after the measurements. We stress the importance of eliminating salt residues in these measurements.