s and no restenosis was found in 3 patients according to cerebral angiography. Preliminary results show that PTAS in the management of the vertebrobasilar arterial stenosis is a safe and effective method.

The environmental pollution by heavy metals such as mercury, cadmium and lead has become a worldwide public health hazard. To rapidly and inexpensively monitor environmental heavy metals is a prerequisite for minimizing human and animal exposure. The development of immunoassays to detect mercury ion residues has been a promising trend with the advantage of rapid and cheap operation. We reported the isolation and characterization of mercury-specific monoclonal antibodies. Because Hg2+ ions are too small to elicit an immune response, the metal was coupled to protein carrier (keyhole limpet, KLH) using a chelator (diethylenetriamine pentaacetic acid, DTPA). After the synthesis of antigen and characterization, monoclonal antibodies against mercury ions were generated by immunizing BALB/c mice with mercury conjugated antigen (Hg-DTPA-KLH). The stable hybridoma cell lines were produced by fusion of murine splenocytes and SP2/0 myeloma cells. The hybridoma cells were subcloned by the limiting dilution and screened by ELISA, two hybridoma cell lines producing stably specific monoclonal antibodies (MAbs) against mercury ions were obtained, named H2H5 and H1H8. The ascites fluid was produced in BABL/c mice by intraperitoneal injection of 1 x 10(7) H2H5 and H1H8 cells, respectively. The titers of ascites were all above 1:51 200. The isotyping of secrete antibodies from two hybridoma cell lines was IgG1, kappa type. These data laid a potency of establishing immunoassays methods of determining Hg2+ ion residues and had the realistic significance for improving the efficiency and quality of risk assessment.
Animals ; Antibodies, Monoclonal ; biosynthesis ; immunology ; Chelating Agents ; chemistry ; Environmental Pollutants ; analysis ; immunology ; Female ; Hybridomas ; metabolism ; Immunoassay ; methods ; Mercury ; analysis ; immunology ; Mice ; Mice, Inbred BALB C

Objective:To characterize the severe sports injuries related to alpine skiing during the 2022 Beijing Winter Olympics and Paralympics so as to provide information for the prevention and treatment of sports injuries in the Yanqing National Alpine Skiing Center tracks.Methods:The medical data were collected of all the alpine skiing athletes and related staff who had sought medical treatment in Peking University Third Hospital Yanqing Hospital during January 20, 2022 to March 26, 2022. Descriptive statistical analyses were conducted for body part, type, occurrence place, and severity of the injuries.Results:There were 49 patients who had suffered severe injuries related to alpine skiing events during this Olympic Games, with 68 injuries by body parts and 72 injuries by types. The most common injury part was the knee (25.0%, 17/68), followed by the head (14.7%, 10/68), and the shoulder (8.8%, 6/68). The most common types of injury were contusion (including hematoma and abrasion, 30.6%, 22/72), followed by sprain (including dislocation, subluxation, and ligament injury, 22.2%, 16/72), and fracture (20.8%, 15/72). The most common occurrence place in the tracks for athletes was the "Haituo Bowl" area (41.7%, 10/24). In terms of severity, the injuries led to an absence from training or competition in 48 athletes [98.0% (48/49)], of whom 33 were severely injured [67.3% (33/49)].Conclusions:The most vulnerable part for severe sports injuries in the alpine skiing events of the 2022 Beijing Winter Olympics and Paralympics was the knee, mostly with ligament injuries, which is consistent with the findings of previous events. The high proportion of severe injuries indicated the difficulty of this track. The place where injuries mostly occurred was the "Haituo Bowl" area of the racing track, also the most challenging part of this track, indicating a necessity of more medical resources in this area.