In order to enhance the anticoagulant properties of decellularized biological materials as scaffolds for tissue engineering research via heparinized process, the decellularized porcine liver scaffolds were respectively immobilized with heparin through layer-by-layer self-assembly technique (LBL), multi-point attachment (MPA) or end-point attachment (EPA). The effects of heparinization and anticoagulant ability were tested. The results showed that the three different scaffolds had different contents of heparin. All the three kinds of heparinized scaffolds gained better performance of anticoagulant than that of the control scaffold. The thrombin time (TT), prothrombin time (PT) and activated partial thromboplastin time (APTT) of EPA scaffold group were longest in all the groups, and all the three times exceeded the measurement limit of the instrument. In addition, EPA scaffolds group showed the shortest prepared time, the slowest speed for heparin release and the longest recalcification time among all the groups. The decellularized biological materials for tissue engineering acquire the best effect of anticoagulant ability in vitro via EPA heparinized technique.
Objective To discuss the application value in increasing the frequency of monitoring and ensuring the safety of anticoagulation therapy in patient self-monitoring (PST) and self-management (PSM) of portable coagulometer. Method This non-randomized prospective controlled study was conducted in 100 patients receiving oral warfarin anticoagulation therapy after heart valve replacement and met the inclusion criteria in our hospital between March 2013 and April 2014 year. All the patients were divided into three groups including an outpatient follow-up group(outpatient group), a self-monitoring group and a self-management group. Meanwhile, the patients in the outpatient group visited professional institutions, performed international normalized ratio (INR) testing with central lab and adjusted the dosage of orally administered warfarin by the doctors. And the other two groups performed INR testing with CoaguChek XS portable coagulometer by themselves, and the patients in the self-management group performed management by themselves. The follow-up time was 6 months. The dates of time in therapeutic range (TTR), fraction of time in therapeutic range (FTTR) and anticoagulation complications in the three groups were analyzed and compared. Results There was no significant difference in the INR results obtained from the follow-up time among the three groups (P=0.845) . TTR value of INR of the outpatient group, the self-monitoring group, and the self-management group was 45.9% (4368.0 days/9517.0 days), 61.2% (6057.0 days/9897.0 days), and 65.4% (2833.8 days/4333.0 days), respectively with a statistical difference among the three groups (P<0.001) . FTTR value of INR obtained from the outpatient group, the self-monitoring group, and the self-management group was 48.3% (99 times/205 times), 60.7% (164 times/270 times), and 64.9% (100 times/154 times) respectively. There was a statistical difference in the FTTR between the outpatient group and the self-monitoring group (P=0.007) , and also between the outpatient group and the self-monitoring group (P=0.002) . But there was no statistical difference between the self-monitoring group and the self-management group (P=0.392) . There were not any major bleeding and thrombosis complications in all study. And there was no statistical difference in the total complications, thrombosis, and bleeding complications rates between the outpatient group and the self-monitoring group, and also between the outpatient group and the self-management group (P>0.05) . Conclusions The patients receiving oral anticoagulation after heart valve replacement or their care providers were able to perform PST and PSM. The use of portable coagulometer for self-monitoring and self-management can increase the frequency of anticoagulation monitoring and achieve better INR target value control. PST and PSM could achieve higher quality of anticoagulation management and life and without increasing the risk of oral anticoagulation than the traditional monitoring method. The monitoring frequency of once a month is reasonable for the patients receiving oral anticoagulation more than half a year after heart valve replacement.
Objective To evaluate the quality of anticoagulant therapy in patients with mechanical prosthetic valve replacement during early period through time in therapeutic range(TTR) and fraction of time in therapeutic range(FTTR), and to provide an objective evidence for further improving quality of anticoagulant therapy. Methods All the patients were followed and registered in hospital and at outpatient clinic from July 2012 through April 2014, with a maximum of 6 months after surgery. Targeted international normalized rate (INR) was 1.60 to 2.20, acceptable INR was 1.50 to 2.30. And warfarin weekly dosage adjustment was used as the strategy of anticoagulation management. Adjusting the warfarin dosage when INR was beyond acceptable INR. Events of bleeding, thrombogenesis and thromboembolism, TTR and FTTR of these patients during the follow-up were collected to evaluate quality of anticoagulant therapy in these patients. Results A total 477 patients and 2 755 reports of INR values were included for data analysis. The follow-up time was 78 918 days. Values of INR varied from 0.92 to 7.72(1.83±0.64). Required weekly doses of warfarin in target INR and acceptable INR were 5.00–35.00(18.15±3.99) mg/week and 5.00–39.38(18.29±4.08) mg/week. TTR of target INR and acceptable INR was 36.85%(27 079.5 d/78 918.0 d) and 49.84% (39 331.5 d/78 918.0 d), respectively. FTTR of target INR and acceptable INR was 37.31% (1 028 times/2 755 times), 50.01% (1 378 times/2 755 times), respectively. TTR of target INR and acceptable INR was 46.04%(3 902.5 d/8 475.5 d), 59.49%(5 042 d/8 475.5 d) when the patients’ follow-up was up to six months and FTTR of target INR and acceptable INR value of these patients was 46.81%(206 times/440 times), 60.45%(266 times/440 times). During the follow-up, there were 3 thromboembolism events, 1 transient physical abnormal activity, and 1 thrombogenesis in the left atrium, and there was no bleeding and death events. Conclusion The strategy of anticoagulation management used in our study is reasonable. In order to further improve the patients’ quality of anticoagulant therapy, it is necessary to start anticoagulation after operation as soon as possible, to strengthen the education of patients with anticoagulant knowledge and to increase INR test frequency properly.
Objective To investigate the role of clinical pharmacists in warfarin therapy. Methods A total of 134 patients underwent prosthetic heart valve replacement and had warfarin for life from March 2013 to October 2013 in Fujian Medical University Union Hospital. All patients were equally divided into two groups (an intervention and a non-intervention group) crosswise by sequence. There were 67 patients in each group. The anticoagulant effects of the two groups were compared. Results There was no statistical difference in the patients' demographic information between the two groups. However, the time for the patients to reach the target international normalized ratio(INR) values for the first time (7.1±3.3 dvs. 10.5±5.0 d,P=0.000) and time of INR in the therapy range (46.3%±18.8%vs.19.0%±16.2%,P=0.000) during their hospitalization, proportion of time of under anticoagulation (47.5%±19.5%vs. 71.2%±22.9%,P=0.000), proportion of time of anticoagulation overdose (5.3%±8.2%vs. 9.9%±16.7%,P=0.002) were significantly different. While there was no statistical difference in postoperative hospitalization time between the two groups (19.9±6.6 dvs. 18.1±7.0 d,P=0.137). There were 4 patients (6.0%) with minor hemorrhage and no severe complication was found in the intervention group. There were seven patients (10.4%) with mild hemorrhage, two patients with stroke, one patient with mild pulmonary embolism, and severe complication rate of 4.5% in the non-intervention group. Conclusion With clinical pharmacists involved in the whole anticoagulation therapy progress of patients after mechanical heart valve replacement, the time to achieve the therapeutic window for the first time is effectively shorten, and the time of the INR value controlled in therapeutic range is highly improved during hospitalization time. Moreover, the patients' risk of thrombosis and bleeding is eventually reduced.
Objective To summarize our experience on leaflet extension in reoperation after tricuspid valve repair in children at age≤15 years and to explore the application indicators and skills of this technique. Methods We retrospectively analyzed the clinical data of 23 children who underwent reoperation after tricuspid valve repair in Xinhua Hospital between January 2006 and October 2015. There were 15 males and 8 females with a mean age of 8.7 years, ranging from 5 to 15 years. The leaflet was extended by artificial pericardium patch. After surgery, warfarin anticoagulation therapy was done, and international normalized ratio was maintained 2.0 to 3.0. Results The average cardiopulmonary bypass time was 87-132 (98.5±35.7) minutes, and average aortic cross-clamping time was 56-97 (68.40±23.78) minutes. One patient died in hospital. There were 3 patients with complications including respiratory failure in 1 patient, acute renal failure in 1 patient, and right heart insufficiency in 1 patient. All the children cured and were followed up for 5 months to 10 years, with a mean follow-up of 3.5 years. One patient died during the follow-up. Six patients suffered mild to moderate tricuspid regurgitation and tricuspid valve function of the rest patients was good. No other redo-valve surgery or complications correlated to anticoagulation occurred. Conclusion Leaflet extension in reoperation after tricuspid valve repair in children is useful with optimistic middle to long term efficacy and needs intensive care therapy during the perioperative period.
Objective To evaluate the long-term anticoagulation outcomes of target international normalized ratio (INR) 1.60 to 2.20 and weekly dosage adjustment of warfarin in patients after mechanical heart valve replacement. Methods Outpatients after mechanical heart valve replacement at least 6 months were registered continually from July 2011 to July 2016 in department of cardiothoracic surgery at Zigong No.4 People's Hospital and West China Hospital. There were 1 690 females (70.62%) and 703 males (29.38%) with a median age of 47 years, ranging from 14 to 80 years. All patients were followed up for 6-61 months. Target INR was 1.60 to 2.20 and warfarin dosage were adjusted weekly. Unexpected bleeding, thrombogenesis and thromboembolism, time in therapeutic range (TTR) and fraction of TTR (FTTR) were recorded and calculated to evaluate the outcome of anticoagulation management. Results A total of 2 393 patients with 26 521 INR values were included for data analysis. INR values varied from 0.90-8.39 (1.82±0.45) and required weekly doses of warfarin were 1.75-61.25 (21.72±7.39) mg. TTR of target INR and acceptable INR was 59.38% (1 449 514.0 days/2 441 060.0 days) and 73.57% (1 795 971.0 days/2 441 060.0 days), respectively. FTTR of target INR and acceptable INR were 50.71% (13 450 times/26 521 times), 65.25% (17 305 times/26 521 times). During the follow-up , anticoagulation-related complications included: cerebral infarction in 21 patients (complete recovery in 18 patients, physical activity disorder in 3 patients), cerebral hemorrhage in 4 patients (death in 1 patient, complete recovery in 3 patients), severe gastrointestinal bleeding in 3 patients (completely recovered) and uterine bleeding in 1 patient (surgical removal of the uterus). Conclusion Target INR 1.60–2.20 and warfarin weekly dosage adjustment for patients after mechanical heart valve replacement is reasonable and safe.
Objective Influence factors of the stable warfarin dose in the early period after mechanical prosthetic valve replacement were analyzed to guide the anticoagulation therapy for these patients. Methods A total of 288 patients within 6 months after mechanical prosthetic valve replacement in West China Hospital were followed up and registered at outpatient department from July 2012 to April 2014, including basic information (name, sex, age, height, weight, etc.), general clinical data (cardiac function, heart rate, surgery pattern, etc.) and related data about anticoagulation therapy. The target international standardized ratio (INR) range was 1.60 to 2.20 and the acceptable INR was 1.50 to 2.30. The sex, age, height, body weight, body mass index (BMI), body surface area (BSA) and related clinical factors were analyzed to find the relationship with the dose of warfarin. Results Sex was found to have a significant effect on the stable warfarin dose (P<0.05). Women needed a lower stable warfarin dose than men during the early anticoagulation therapy. There was no significant difference in the stable warfarin dose of patients with different ages, rhythms, NYHA classification, surgery pattern and diseases before operation; but the stable warfarin dose was lower in the patients with radiofrequency ablation during valve replacement procedures than the patients with single valve replacement (P<0.05). There was an association between age, height, weight, BMI, BSA and the stable warfarin dose withR2 of 1.2%, 3.2%, 3.5%, 1.1%, 4.2%, respectively and they could explain 6.1% of variability in warfarin dose. Conclusion During early anticoagulation therapy in patients with mechanical prosthetic valve replacement, it is necessary to consider the effects of various preoperative factors, drug factors and demographic factors on warfarin dose. Even though there is an association between age, height, weight, BMI, BSA and the stable warfarin dose, which can only explain 6.1% of variability in warfarin dose, thus cannot guide the postoperative anticoagulation of these patients.
Objective To investigate the effects and feasibility of regional citrate anticoagulation continuous venous-venous hemodialysis(RCA-CVVHD) in acute hepatic & kidney injury after cardiovascular surgery. Methods Ten patients with acute kidney injury combined with acute hepatic injury after cardiovascular surgery were involved in this study. There were 5 males and 5 females at age of 35-69(58.2±12.7) years. All of them were treated by RCA-CVVHD. Blood samples were collected before treatment, 12 h, 24 h, 48 h, and 72 h after treatment. Results There was no statistical difference between post- and pre-treatment regarding with pH value (7.47±0.12 vs. 7.50±0.06 vs. 7.48±0.04 vs. 7.48±0.03 vs. 7.45±0.05, P>0.05) or BE value (0.91±9.97 mmol/L vs. 2.36±3.92 mmol/L vs. –0.22±3.09 mmol/L vs. 1.87±3.58 mmol/L vs. –1.05±1.12 mmol/L, P>0.05). There was a statistical difference in iCa (1.09±0.09 mmol/L vs. 1.15±0.08 mmol/L vs. 1.17±0.08 mmol/L vs. 1.24±0.09 mmol/L vs. 1.16±0.06 mmol/L), Na+ (149.44±6.84 mmol/L vs. 144.33±3.35 mmol/L vs. 143.13±3.52 mmol/L vs.141.25±5.52 mmol/L vs. 136.71±4.92 mmol/L), and tCa/iCa (2.07±0.11 vs. 2.10±1.12 vs. 2.17±0.69 vs. 2.23±1.05 vs. 2.30±0.11), respectively. Conclusion RCA-CVVHD used in patients with acute hepatic impairment is safe and feasible.
The patients with mechanical prosthetic valve replacement need anticoagulant therapy for all their life. The incidence of thromboembolism and anticoagulation-related bleeding events still account for major postoperative complications after mechanical heart valve replacement. Most of the complications happen in the first half year after operation. Therefore, early anticoagulation therapy is very important. Of course, so far most guidelines focus stating their opinions on long-term anticoagulant therapy. However, there is no consensus about anticoagulant therapy in the early period of postoperation. In this review, we summarize early anticoagulant therapy of the patients with mechanical heart valve replacement through consulting domestic and abroad relevant research in recent years and give an overview of the present situations of early anticoagulant therapy.
Objective To investigate whether the individualized anticoagulation therapy based on CYP2C9 and VKORC1 gene is superior to empirical anticoagulation therapy after artificial heart valve replacement surgery in Uygur patients. Methods From December 2012 to December 2015, 210 Uygur patients who underwent artificial heart valve replacement surgery at the First Affiliated Hospital of Xinjiang Medical University were randomly assigned to a genetic anticoagulation therapy group (group A, n=106, 41 females and 65 males, aged 44.7±10.02 years) or an empirical anticoagulation therapy group (group B, n=104, 47 females and 57 males, aged 45.62±10.01 years) according to the random number table. CYP2C9 and VKORC1 genotypes were tested in the group A and then wafarin of administration in anticoagulation therapy was recommended. Patients in the group B were treated with conventional anticoagulation. Patients in both groups were followed up for 1 month and coagulation function was regularly tested. Results The percentage of patients with INR values of 1.8-2.5 after 4 weeks warfarin anticoagulation treatment in the group A was higher than that in the group B (47.1% vs. 32.7%, P=0.038). The rate of INR≥3.0 in the warfarin anticoagulation therapy period in the group A was lower than that in the group B (21.6% vs. 26.5%, P=0.411). The time to reach the standard INR value and the time to get maintenance dose were shorter in the group A compared with the group B (8.80±3.07 d vs. 9.26±2.09 d, P=0.031; 14.25±4.55 d vs. 15.33±1.85 d, P=0.032). Bleeding occured in one patient in the group A and three patients in the group B (P=0.293). Embolic events occured in three patients in the group A and five patients in the group B (P=0.436). Conclusion Compared with the empirical anticoagulation, the genetic anticoagulation based on wafarin dosing model can spend less time and make more patients to reach the standard INR value. However there is no significant difference between the two groups in the ratio of INR≥3.0, bleeding and embolic events in the warfarin anticoagulation therapy.