Arterio-ureteral fistula:a nationwide cross-sectional questionnaire analysis

PURPOSE: Arterio-ureteral fistula (AUF) is an uncommon diagnosis, but potentially lethal. Although the number of reports has increased over the past two decades, the true incidence and contemporary urologists’ experience and approach in clinical practice remains unknown. This research is conducted to provide insight in the incidence of AUF in The Netherlands, and the applied diagnostic tests and therapeutic approaches in modern practice. METHODS: A nationwide cross-sectional questionnaire analysis was performed by sending a survey to all registered Dutch urologists. Data collection included information on experience with patients with AUF; and their medical history, diagnostics, treatment, and follow-up, and were captured in a standardized template by two independent reviewers. Descriptive statistics were used. RESULTS: Response rate was 62% and 56 AUFs in 53 patients were reported between 2003 and 2018. The estimated incidence of AUF in The Netherlands in this time period is 3.5 AUFs per year. Hematuria was observed in all patients; 9% intermittent microhematuria, and 91% presenting with, or building up to massive hematuria. For the final diagnosis, angiography was the most efficient modality, confirming diagnosis in 58%. Treatment comprised predominantly endovascular intervention. CONCLUSION: The diagnosis AUF should be considered in patients with persistent intermittent or massive hematuria. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00345-021-03910-3

Mouse Chromosome 11

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46996/1/335_2004_Article_BF00648429.pd

Improved mutagen-testing systems in mice. Progress report, 1 September 1979-30 October 1980

Work is continuing on: chromosomal inversions and Robertsonians; cytology of inversions; translocations; mutagen test validation; meiotic pairing; and the characterization of induced lethals. (PSB

Improved mutagen-testing systems in mice. Progress report, 1 September 1978-30 October 1979

The purpose of this project is to produce improved mutagen-testing systems in mice. Our approach is to produce chromosomal inversion systems and to improve the techniques necessary to induce, detect, genetically define, and combine inversions in effective useful mutation-test systems. Another specific objective has been to test the systems produced with respect to their effectiveness. Another objective has been to mark, maintain, and study recessive detrimentals and lethals induced in the validation-testing of these systems. Of particular importance is to study induced recessives for dominant effects on fitness. A final broad objective has been to use the induced inversions and recessive lethals for studies of basic problems in mammalian genetics, growth, and development

Improved mutagen testing systems in mice

Our laboratory was the first to induce and ascertain a mammalian chromosomal inversion; we did this by searching for a high frequency of first meiotic anaphase bridges in testes of males whose fathers received post-spermatogonial radiation or mutagenesis from chromosomal breaking chemical mutagens. One test in was examined in each mouse, and those showing a high frequency were then mated to determine if the high frequency were passed on as a dominant and whether linkage analysis suggested the presence of an inversion. A very high incidence (exceeding 20% bridges in first meiotic anaphase bridges) was found in about 1 in 150 males examined and this frequency was generally found to be passed on to the offspring an predicted. Later cytological banding techniques were developed elsewhere and we used them to show visually the inverted orders of the inverted chromosomal segments. Since that time we have induced inversions covering most of the mouse genome

Improved mutagen-testing systems in mice. Progress report, 1 June 1976--31 August 1977

Results are reported from studies on the production of chromosomal inversion by chemical treatment or irradiation of sperm in mice and to detect inversions by observing high frequencies of first meiotic anaphase bridges of their sons or by using chromosomal banding techniques to detect inverted segments cytologically. For each new inversion, which is either of considerable length or which has particularly useful experimental properties, we will determine its linkage group, mark it genetically, if possible, or place it with a genetically marked homologous chromosome, and study its cytological, physiological, and anatomical effects. The inversions are being used to construct recessive lethal testing systems for estimating mutational loads in populations exposed to radiation or either proved or potential chemical mutagens, to mark and maintain induced lethals for analysis of their potential dominant effects on fitness, and to study other basic problems in mammalian genetics