OBJECTIVE: To determine the effect of ulinastatin on plasma thromboxane B(2) and deep vein thrombosis(DVT) in elderly patients after hip joint replacement. METHODS: Eighty ASAI-IIpatients aged 65-81 years undergoing hip joint replacement were randomly divided into 4 groups (n=20): Group U1 (ulinastatin 5 000 U/kg);Group U2 (ulinastatin 10 000 U/kg); Group U3 (ulinastatin 20 000 U/kg); and Group C (the same volume of saline as control).The blood samples were collected at 5 time points: preoperation (T(1)), immediately after the operation (T(2)), 1 d (T(3)), 2 d (T(4)) and 3 d after the operation (T(5)), respectively. Thromboxane B(2) was detected, and DVT was also examined through color Doppler ultrasonography 3 d after the operation. RESULTS: Compared with T(1), the level of thromboxane B(2) significantly increased in Group C at T(2)-5, in Group U1 at T(2-4), in Group U2 and U3 at T(2) (P<0.01). Compared with Group C, the concentration of thromboxane B(2) decreased in Group U1 at T(2-3), in Group U2 and U3 at T(2-4) (P<0.01). Compared with Group U1, thromboxane B(2) significantly decreased in Group U2 and U3 at T(2-4) (P<0.01).The incidence rate of DVT was 40% in Group C, 10% in Group U1. There was no incidence of DVT in the Group U2 and U3 (P>0.05). CONCLUSION Ulinastatin can inhibit blood thromboxane B(2) level in dose dependent manner and prevent DVT in elderly patients after hip joint replacement.
Aged ; Aged, 80 and over ; Arthroplasty, Replacement, Hip ; adverse effects ; Female ; Glycoproteins ; therapeutic use ; Hip Fractures ; surgery ; Humans ; Male ; Thromboxane B2 ; blood ; Trypsin Inhibitors ; therapeutic use ; Ultrasonography ; Venous Thrombosis ; diagnostic imaging ; etiology ; prevention & control

Objective:To investigate the application value of MRI in evaluating the disorders of pelvic floor in female stress urinary incontinence (SUI).Methods:From January 2017 to January 2019, the patients in the SUI group and the control group of Beijing Chaoyang Hospital, Capital Medical University were prospectively collected. Some patients in the SUI group were treated with tension-free vaginal tape (TVT). The dynamic MR was performed in both SUI patients and volunteers, and the following functional MR parameters were assessed between two groups: the urethral length and urethral hypermobility; the opening of urethral and bladder neck; and the pelvic organ prolapse. For SUI patients, the functional changes of the pelvic floor on MRI after TVT was also analyzed. Chi-square test, rank-sum test and t test were used. Results:Comparing with the control groups ( n=25), the urethral hypermobility, shortening functional urethral length, bladder neck funneling and urethra opening were significantly associated with SUI group ( n=33). Thirty one patients were treated with TVT, 12 of them were reexamined with MRI at 3 to 6 months after operation. Postoperative MR showed that SUI patients had lower risk of the urethral opening and bladder neck funneling ( P<0.05). There were significant differences in the length of functional urethra, angle of urethra movement, H-line, M-line, bladder funnel sign, urethra opening and bladder prolapse between the two groups ( P<0.05). There was a significant difference between the bladder funnel sign and urethra open sign before and after TVT ( P<0.05). There was no significant difference in the degree of bladder prolapse and uterus prolapse, length of urethra and angle of urethra movement between the two groups ( P>0.05). Conclusion:MRI can accurately evaluate pelvic floor function of SUI patients. However, TVT did not significantly improve weak pelvic supporting structures and pelvic organ prolapse.

Objective:To investigate the characteristics and relationship between the location of lower extremity deep vein thrombosis (DVT) and the site of pulmonary embolism in hospitalized patients.Methods:The data of patients with lower extremity DVT diagnosed by ultrasound examination and pulmonary embolism diagnosed by CT pulmonary angiography from December 2017 to December 2021 were analyzed retrospectively. According to the location of lower extremity DVT, the patients were divided into mixed DVT, proximal DVT, and distal DVT which was further divided into anterior/posterior tibial vein or peroneal vein thrombosis and calf muscular venous thrombosis. Mixed DVT was referred to the presence of both proximal and distal DVT. According to the involved site of pulmonary artery, pulmonary embolism was divided into three types: main pulmonary artery, left or right pulmonary artery trunk embolism, lobar pulmonary artery embolism and segmental pulmonary artery embolism. The location of lower extremity DVT, the site of pulmonary embolism, the clinical manifestation (shortness of breath, chest tightness, chest pain, hemoptysis, cough, lower limb swelling, lower limb pain, syncope, fever) and risk factors (fracture/trauma, tumor, diabetes, hypertension, atrial fibrillation, infection, surgery, autoimmune diseases, paralysis, pregnancy) of venous thromboembolism (VTE), and the level of D-dimer were analyzed.Results:A total of 209 patients were enrolled finally, including 127 patients with left lower extremity DVT (60.8%) and 82 with right lower extremity DVT (39.2%). Mixed DVT accounted for 39.2%, proximal DVT accounted for 17.3%, and distal DVT accounted for 43.5% (anterior/posterior tibial vein and peroneal vein thrombosis accounted for 14.8%, calf muscular venous thrombosis accounted for 28.7%). The incidences of main pulmonary artery embolism, left or right pulmonary artery trunk embolism in the mixed DVT and proximal DVT were significantly higher than those in the anterior/posterior tibial vein or peroneal vein thrombosis and calf muscular venous thrombosis [41.5% (34/82), 38.8% (14/36) vs. 16.2% (5/31), 10.0% (6/60)], with statistically significant differences (all P < 0.05). The incidences of pulmonary segmental artery embolism in the anterior/posterior tibial vein or peroneal vein thrombosis were higher than those in the mixed DVT and proximal DVT [41.9% (13/31) vs. 26.8% (22/82), 30.6% (11/36)], but the difference was not statistically significant (both P > 0.05). The incidences of pulmonary segmental artery embolism in the calf muscular venous thrombosis were significantly higher than those in the mixed DVT and the proximal DVT [66.7% (40/60) vs. 26.8% (22/82), 30.6% (11/36)], and the difference was statistically significant (both P < 0.05). The levels of D-dimer in patients with calf muscular venous thrombosis combined with main pulmonary artery embolism, left or right pulmonary artery trunk embolism were significantly higher than those in patients with calf muscular venous thrombosis combined pulmonary segmental artery embolism (mg/L: 6.08±3.12 vs. 3.66±2.66, P < 0.05). There were no significant differences in D-dimer levels in other patients with DVT combined with pulmonary embolism in different sites. In terms of the clinical manifestations of VTE, the incidences of lower limb swelling in the mixed DVT and proximal DVT were significantly higher than those in the anterior/posterior tibial vein or peroneal vein thrombosis and calf muscular venous thrombosis [54.9% (45/82), vs. 29.0% (9/31), 15.0% (9/60), both P < 0.05], the incidences of lower limb swelling in the proximal DVT were significantly higher than those in the calf muscular venous thrombosis [41.7% (15/63) vs. 15.0% (9/60), P < 0.05], there were no significant difference in the other clinical manifestations among the DVT groups. There was no significant difference in the incidence of VTE risk factors among the groups. Conclusions:The DVT of inpatients mostly occurred in the left lower limb, and the incidence of distal DVT was higher than that of proximal DVT. Mixed DVT and proximal DVT combined with pulmonary embolism mostly occurred in the main pulmonary artery, left or right pulmonary artery trunk, while distal DVT combined with pulmonary embolism mostly occurred in the pulmonary segmental artery. The levels of D-dimer in patients with lower extremity DVT combined with main pulmonary artery or left and right pulmonary artery trunk embolism were higher than those in patients with pulmonary lobe and segmental artery embolism. The incidence of lower extremity swelling in patients with mixed DVT and proximal DVT was higher than that in patients with distal DVT.