Objective To explore the clinical presentation and diagnosis and treatment of prehepatic portal hypertension (PPH) and discuss its surgical strategies. Methods Forty-six cases of PPH treated in the 2nd Artillery General Hospital and Peking Union Medical College Hospital from January 2000 to May 2009 were analyzed retrospectively, including 2 cases of Abernethy abnormality. All patients were evaluated by indirect portal vein angiography, CT angiography and (or) portal duplex system Doppler ultrasonography before treament. Surgical strategies included: 23 cases with meso-caval shunt, 8 cases with splenectomy and spleno-renal vein shunt, 1 case with porta-caval shunt, 2 cases with paraumbilical vein-jugular vein shunt, 3 cases with portal azygous disconnection, 1 cases with splenectomy and portal azygous disconnection, 1 case with sigmoidostomy and closed the fistula of sigmoid six months later, 1 case with resection of part of small intestine due to acute extensive thrombosis of portal vein system, 4 cases with selective superior mesenteric artery and (or) splenic artery thrombolytic infusion therapy, 2 cases remained no-surgical option and underwent conservative treatment. Results Forty-four patients were followed-up from 2 months to 5 years, average of 23.4 months, one patient without surgical treatment was lost. Satisfactory outcomes were obtained in 34 patients with various shunts, which expressed as a release of hypersplenism and gastrointestinal hemorrhage. Two cases were treated with meso-caval shunt because of rehemorrhage in month 13 and 24 and one died in month 8 after disconnection, one died on day 40 after thrombolytic therapy due to putrescence of intestines, one who remained no-surgical option underwent hemorrhage 4 months later, and then went well by conservative treatment. Conclusion The key of treatment of PPH is to reduce the pressure of hepatic portal vein. Surgical managements of shunt and selective superior mesenteric artery and (or) splenic artery thrombolytic infusion therapy are safe and effective, but individual treatment strategy should be performed.
ObjectiveTo summarize our experience in treating highrisk carotid stenosis. MethodsWe retrospectively analyzed the clinical characteristics, treatment, and outcomes of 24 patients with highrisk carotid stenosis in our department from January 2001 with emphasis on the application of carotid stents and shunting tubes. ResultsAll patients were successfully treated, with 11 patients undergoing carotid angioplasty and stenting (CAS) and 13 patients receiving carotid endarterectomy (CEA) and shunting. No death, stroke, and ischemic neurological deficit occurred in 30 days postoperatively. ConclusionSelective application of CAS and shunting in CEA can effectively reduce complications and improve therapeutic effects in patients with highrisk carotid stenosis.
Objective To evaluate the effects of different inspiratory flow waveforms on the respiratory function of patients with severe exacerbation of asthma during mechanical ventilation. Methods Twenty-one patients with severe exacerbation of asthma were ventilated with square waveform and decelerating waveform respectively for 30 minutes when the tidal volume was set at 6 mL/ kg, 8 mL/ kg and 10 mL/ kg in ICUof Zhejiang Hospital of Integrated Traditional Chinese and Western Medicine fromJanuary 2006 to December 2007. Meanwhile shunt fraction ( Q·S /Q·T ) , dead space value ( VD/VT ) , airway peak pressure ( Ppeak ) , plateau pressure ( Pplat) ,intrinsic positive end-expiratory pressure( PEEPi) and arterial blood gas analysis were measured. Results The Q ·S /Q·T in the decelerating waveformgroup was less than that of the square waveform group( P lt;0. 05) when tidal volume was set at 6 mL/ kg. When tidal volume was set at 10 mL/ kg, PEEPi and VD /VT in the decelerating waveform group were higher than those of the square waveform group. On the contrary, the Ppeak was lower than that of square waveform group( P lt; 0. 05) . Conclusion For patients with severe exacerbation of asthma treated with mechanical ventilation, decelerating waveform is preferable at low tidal volume( 6 mL/ kg) , and square waveform is preferable at high tidal volume( 10 mL/kg) .
Abstract: Objective?To analyze the risk factors for early shunt dysfunction after systemic-pulmonary shunt in order to improve early postoperative outcomes. Methods We retrospectively analyzed the clinical records of 189 patients who underwent systemic-pulmonary shunt in General Hospital of Shenyang Military District between February 2002 and December 2010. There were 87 males and 102 females with their age ranging from 3 months to 50(5.3±6.2)years,and body weight ranging from 3 to 56(17.7±11.0)kg. There were 94 patients with tetralogy of Fallot (TOF) and pulmonary artery stenosis,51 patients with pulmonary atresia (PA) and ventricular septal defect,4 patients with PA and intact ventricular septum,10 patients with functional single ventricle (SV) and pulmonary stenosis(PS),6 patients with SV and PA,6 patients with double outlet right ventricle and PS,8 patients with transposition of the great arteries(TGA) and PS,and 10 patients with TGA and PA. The surgical procedures included central aorto-pulmonary shunt (Waterston) in 105 patients, modified Blalock-Taussig shunt in 61 patients and Melbourne shunt in 23 patients. Results Early postoperative death occurred in 13 patients (6.9%). There were 12 patients (6.3%) with intra-operative severe hypotension or arrhythmia, 10 patients (5.3%) with postoperative severe low cardiac output, and 10 patients (5.3%) with early shunt dysfunction within the first 24 h postoperatively. Univariate analysis identified low body weight (P=0.027), shunt size with diameter<4 mm (P=0.025) and severe intra-operative adverse event (hypotension or arrhythmia with P=0.002) were risk factors for early shunt dysfunction. In multivariate analysis, intra-operative adverse event was an independent risk factor for early shunt dysfunction(P=0.017). Conclusion Early outcomes after systemic-pulmonary shunt can be significantly improved by preventing intra-operative severe hypotension or arrhythmia and choosing shunt size larger than 4 mm,especially for patients with young age, low body weight, and poorly-developed pulmonary artery.
Abstract: Objective To evaluate different shunting flow in varied conditions in a simulated adult cardiopulmonary bypass (CPB) model under normothermia. Methods We established the pseudo adult patient undergoing CPB at four different shunting states with devices of heartlung machine, heatcooler, an adult membrane oxygenator and arterial filter. In state 1, purge line of the arterial filter was open alone; In state 2, purge line combined with 6.5 mm tubing hemoconcentrator shunting was open; In state 3, purge line combined with 5 mm tubing hemoconcentrator was open; In state 4, purge line combined with blood cardioplegia shunting was open. The flow of preoxygenator and postfilter was recorded with ultrasonic flowmeter, and the pressure of purge line and postarterial filter was also detected. Results At state 1, when the pump flow was invariable, the percentage of the shunting flow increased with the increase of postfilter pressure. However, when the postfilter pressure was constant, the percentage of the shunting flow decreased with the increase of the pump flow. The purge line pressure increased with the increase of the postfilter pressure at a constant pump flow under state 1. The shunting flow of state 2 was the largest among all the four states. The shunting flow of state 3 was similar to that of state 4. All the purge line pressure was lower than the postfiler pressure of the circuit in the four states. Conclusion Under states of different shunting opening, different degrees of blood flow are diverted away from the arterial line. The shunting flow increases at a lower pump flow and a higher postfilter pressure. A flow probe located in the postfilter line may be necessary to monitor realtime arterial flow.
Objective To explore the causes and treatment of rebleeding after operation on portal hypertension patients. Methods The clinical data of 41 rebleeding cases underwent the operational between January 2000 and December 2009 in Peking Union Medical College Hospital were retrospectively analyzed. Results All 13 cases who got rebleeding after shunt operation received lienectomy, but for those who got rebleeding after lienectomy, 23 patients received Phemister or modified Phemister or expanded lienectomy and 5 patients received shunt operation. Surgical related complications occurred in 7 cases (17.1%) at 2 weeks after operation, including abdominal bleeding (3 cases), gastrointestinal bleeding (2 cases), and intractable ascites (2 cases). After the follow-up of 3-60 months (mean 39 months), all patients were still alive. During the follow-up, 3 cases of recurrent esophageal varices were observed and one of them got rebleeding.Conclusion The majority of rebleeding after lienectomy tend to be ascribed to the wrong operations chose, while bad operation skill often contribute to the rebleeding after shunt operation, suggesting ideal therapeutic effect for rebleeding can benefit from appropriate operation choose.
Objectives To systematically review the efficacy of polytetrafluoroethylene (PTFE) covered stent grafts vs. bare stent grafts in transjugular intrahepatic portosystemic shunt (TIPS) for portal hypertension. Methods PubMed, EMbase, The Cochrane Library, and ClinicalTrial.gov were searched online to collect randomized controlled trials (RCTs) and cohort studies of PTFE-covered stent grafts vs. bare stent grafts for portal hypertension from inception to Jan 11th, 2017. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies. Meta-analysis was then performed by RevMan 5.3 software. Results A total of 4 RCTs and 11 cohort studies involving 2 422 patients (1 070 PTFE-covered stent grafts patients and 1 352 bare stent grafts patients) were included. The results of meta-analysis showed that compared with the bare stent grafts group, the PTFE-covered stent grafts group had higher patency rate of intrahepatic shunt (HR=0.38, 95%CI 0.31 to 0.47, P<0.000 01) and survival rate (HR=0.59, 95%CI 0.44 to 0.79,P=0.000 5), lower postoperative complications rate (including gastrointestinal bleeding and refractory ascites) (HR=0.44, 95%CI 0.33 to 0.58, P<0.000 01) and encephalopathy rate (HR=0.76, 95%CI 0.57 to 0.99,P=0.05). Conclusions Current evidence shows that compared with the bare stent grafts, the PTFE-covered stent grafts could effectively improve patency rate of intrahepatic shunt and survival rate with less postoperative complications rate and encephalopathy rate. Due to limited quality and quantity of the included studies, more high quality studies are required to verify above conclusions.
Objective To explore factors affecting the shunt safety of patients in emergency intensive care unit (EICU), construct a shunt safety evaluation model, and evaluate its prediction effectiveness, so as to provide a theoretical basis for the decision-making of shunt safety in EICU. Methods The demographic data, vital signs, laboratory examinations and other indicators of patients transferred to the general ward from the EICU of West China Hospital of Sichuan University from 0:00 on August 1, 2019 to 23:59 on May 31, 2021 were collected and analyzed. The short-term poor prognosis after being transferred out of the EICU was regarded as the end-point event. Of the patients, 70% were randomly selected as the model construction cohort, and 30% were the model validation cohort. In the model construction cohort, multivariate logistic regression analysis was used to screen the influencing factors affecting shunt safety, and the shunt safety evaluation model of patients in EICU was constructed. In the validation cohort, receiver operating characteristic curve was used to evaluate the effectiveness of the model in evaluating the shunt safety of patients in EICU. Results A total of 582 patients were included, of whom 59 patients (10.1%) had a poor short-term prognosis. Multivariate logistic regression analysis showed that the patients’ respiratory rate when leaving the EICU [odds ratio (OR)=0.863, 95% confidence interval (CI) (0.794, 0.938), P=0.001], Glasgow Coma Scale scores [OR=1.575, 95%CI (1.348, 1.841), P<0.001], albumin [OR=1.137, 95%CI (1.008, 1.282), P=0.036], prothrombin time [OR=0.956, 95%CI (0.914, 1.000), P=0.048] were the influencing factors of shunt safety. Based on the above indicators, a shunt safety evaluation model for patients in EICU was created. The area under the curve for the shunt safety assessment model to predict poor short-term prognosis was 0.815, the best cut-off value was 4 points, the sensitivity was 93.3%, and the specificity was 61.5%. Conclusions The patients’ respiratory rate when leaving EICU, Glasgow Coma Scale scores, albumin and prothrombin time are factors affecting the shunt safety for patients in EICU. The shunt safety assessment model can better predict the short-term poor prognosis of patients transferred from EICU to general ward.