Elastic Properties of Aging Human Hematoma Model In Vitro and Its Susceptibility to Histotripsy Liquefaction.

Objective: Tissue susceptibility to histotripsy disintegration has been reported to depend on its elastic properties. This work was aimed at investigation of histotripsy efficiency for liquefaction of human hematomas, depending on their stiffness and degree of retraction over time (0-10 d).

Methods: As an in vitro hematoma model, anticoagulated human blood samples (200 mL) were recalcified at different temperatures.

Ultrastructural Analysis of Volumetric Histotripsy Bio-effects in Large Human Hematomas.

Large-volume soft tissue hematomas are a serious clinical problem, which, if untreated, can have severe consequences. Current treatments are associated with significant pain and discomfort. It has been reported that in an in vitro bovine hematoma model, pulsed high-intensity focused ultrasound (HIFU) ablation, termed histotripsy, can be used to rapidly and non-invasively liquefy the hematoma through localized bubble activity, enabling fine-needle aspiration.

Quality assessment of red blood cell suspensions derived from pathogen-reduced whole blood.

Background: We used laboratory indicators to evaluate the quality of pathogen-reduced red blood cell suspension (RBCS) compared with gamma-irradiated RBCS.

Materials And Methods: To determine biochemical and metabolic parameters of RBCS, we obtained 50 whole blood units from healthy volunteers and randomized them into 2 groups: 25 were pathogen-reduced, and then, RBCS prepared from them. RBCS from the other 25 was gamma-irradiated.

Optical emission spectroscopy of lead sulfide films plasma deposition.

In-situ Optical Emission Spectroscopy (OES) combined with quantum chemical calculations was used as a powerful tool to find out the exited reactive species existing in plasma discharge during the process of lead sulfide chalcogenide materials deposition. Low temperature nonequilibrium RF (40.68 MHz) plasma at low pressure (0.