A comprehensive renal injury concept based on a validated finite element model of the human abdomen.

Background: The identification of abdominal injury mechanisms, development of effective countermeasures, and refinement of clinical approach to injury treatment are greatly facilitated by the employment of numerical models that can predict injuries resulting from complicated soft tissue interactions during blunt abdominal impact.

Methods: The present study introduces a detailed three-dimensional finite element model of the human abdomen that was developed specifically for the investigation of renal trauma. The model geometry and materials reflect the complex mechanical environment of the abdomen, and is validated against both published and novel experiments.

Low-dose versus standard-dose CT protocol in patients with clinically suspected renal colic.

Objective: The purpose of our study was to compare a low-dose abdominal CT protocol, delivering a dose of radiation close to the dose delivered by abdominal radiography, with standard-dose unenhanced CT in patients with suspected renal colic.

Materials And Methods: One hundred twenty-five patients (87 men, 38 women; mean age, 45 years) who were admitted with suspected renal colic underwent both abdominal low-dose CT (30 mAs) and standard-dose CT (180 mAs). Low-dose CT and standard-dose CT were independently reviewed, in a delayed fashion, by two radiologists for the characterization of renal and ureteral calculi (location, size) and for indirect signs of renal colic (renal enlargement, pyeloureteral dilatation, periureteral or renal stranding).

Abdominal plain film in patients admitted with clinical suspicion of renal colic: should it be replaced by low-dose computed tomography?

Objectives: To evaluate a low-dose abdominal computed tomography (LDCT) protocol, delivering a radiation dose close to that delivered by an abdominal plain film (APF), in patients with a clinical suspicion of renal colic.

Methods: A total of 139 patients for whom an APF was requested for suspicion of renal colic were randomized into two groups. The patients in group 1 (n = 68) underwent an admission LDCT scan delivering a 2.

Cryosurgical changes in the porcine kidney: histologic analysis with thermal history correlation.

Advances in minimally invasive renal cryosurgery have renewed interest in the relative contributions of direct cryothermic and secondary vascular injury-associated ischemic cell injury. Prior studies have evaluated renal cryolesions seven or more days post-ablation and postulated that vascular injury is the primary cell injury mechanism; however, the contributions of direct versus secondary cell injury are not morphologically distinguishable during the healing/repair stage of a cryolesion. While more optimal to evaluate this issue, minimal acute (< or = 3 days) post-ablation histologic data with thermal history correlation exists.