Objective To choose the best procedure on preparation of acellularbovine pericardium (ABP) guided bone regeneration (GBR) material. Methods The BP was decellularized with 0.25% Trypsin+0.5% Triton X-100. The acellular bovine pericardiums (ABPs) were treated with phosphatebuffered saline(PBS) (group A), 95% glycerol (group B), EDAC (group C), and EDAC and 95% glycerol (group D) respectively. The treated ABPs were implanted subcutaneously in the back of SD rats respectively at random and no material was implanted as control. Seven rats were sacrificed at 2 weeks, twelve at 4 weeks, twelve at 8 weeks, seven at 16 weeks. Local reaction was studied grossly. The amount of antigen presenting cell (APC) and the percentage of ABP degeneration were reckoned by images analysis system. Results The ABPs were replaced by fibroblasts completely in group A at 8 weeks, in group C at 16 weeks, but only less than 50% till 16 weeks in groups B and D. In all groups, the depth of surrounding fibres attenuated timedependingly. The APC amount of the groups B and D was higher than that of the control group, and the ABP of the groups B and D degraded partly at 16 weeks. Conclusion The ABP treated with EDAC can be replaced by the surrounding tissues and has good biocompatibility.
ObjectiveTo assess clinical results of aortic cusps replacement with bovine pericardium for bicuspid aortic valve (BAV) and severe aortic regurgitation (AR). MethodsClinical data of 79 patients with BAV and severe AR who underwent aortic cusps replacement with bovine pericardium in Wuhan Asia Heart Hospital from June 2008 to December 2013 were retrospectively analyzed. There were 60 male and 19 female patients with their age of 38±14 years (ranged 12-78 years). All the patients were in NYHA class Ⅱ. There were 26 patients with ascending aorta and sinotubular expanding. ResultsNo early death or major complication was recorded. Intraoperative transesophageal echocardiography showed successful repair with normal coaptation of the aortic leaflets in all the patients. AR grade was less than mild in all the patients with peak aortic valve pressure gradients of 14.2±2.8 mm Hg. All the patients were discharged from the hospital within 15 postoperative days without any adverse symptom, and were followed up for 50±16 months (ranged 9-64 months). During follow-up, all the patients were in NYHA classⅠ. There were 57 patients without AR, 16 patients with mild AR, 5 patients with moderate AR and 1 patients with severe AR. The peak of aortic valve pressure gradient was 12.4±3.2 mm Hg. The average diameter of ascending aorta was 2.7 cm in the patients with ascending aorta and sinotubular expanding. The shape of sinotubular kept normal. The height of coaptation of aortic valve was 0.58 cm by echocadiography. None of the patients died or required reoperation. The structural valve degeneration was not observed during the follow-up. ConclusionThree aortic cusps replacement with bovine pericardium can produce good hemodynamics and midterm results for patients with BAV and severe AR. The ascending aorta and sinotubular should be reduced and fixed in the patients with ascending aorta and sinotubular expanding.
Currently, as the key raw material of artificial biological heart valve, bovine pericardium is mainly depend on import and has become a “bottleneck” challenge, greatly limiting the development of domestic biological heart valve. Therefore, the localization of bovine pericardium is extremely urgent. In this study, the pericardium of Sichuan yak was compared with that of Australian cattle in terms of fundamental properties and anti-calcification performance. The results demonstrated that the appearance and thickness of yak pericardium were more advantageous than the Australian one. Sichuan yak pericardium and Australian cattle pericardium had comparable performance in shrinkage temperature, mechanical test and anti-calcification test. This study preliminarily verifies the feasibility of substitution of Australian cattle pericardium by Sichuan yak pericardium and promotes the progression of bovine pericardium localization with data support.
In the present study, the performance of the liquid nitrogen frozen and thinned bovine pericardium was studied and compared with the porcine pericardium. The microstructure and mechanical properties of the bovine pericardium were observed and tested by hematoxylin-eosin (HE) staining and tensile test respectively. In all conditions, porcine pericardium was selected as a control group. The results showed that there was little difference in the performance of bovine pericardium after being frozen by liquid nitrogen. The secant modulus and ultimate strength of the thinned bovine pericardium were similar to those of porcine pericardium, however, the elastic modulus was a little higher than porcine pericardium. The study suggested that the performance of the thinned bovine pericardium was similar to those of porcine pericardium. It was easy for the thinned bovine pericardium to obtain a relatively ideal thickness and expected performance, therefore, the thinned bovine pericardium can be used as the materials of transcatheter aortic valve leaflets.
ObjectiveTo investigate the clinical application of fresh autologous pericardial patch transplantation in cardiovascular surgery. MethodFrom January 2008 to December 2014, we used fresh autologous pericardial patch as a repair material in surgical treatment of congenital heart disease, valvular and vascular malformation. A total of 239 patients were included (130 males, 109 females), with a mean age of 0.40±13.80 years ranging from 0.25-69.00 years, including 180 infants. ResultThe time of intensive care unit (ICU) stay was 3-15 days and the time of ventilator-assisted breathing was 4-100 hours. Postoperative atelectasis and pleural effusion occured in 8 patients and was cured successfully by closed thoracic drainage and anti-infection therapy. Nine patients died within 30 days after surgery, including 3 deaths caused by low cardiac output syndrome and acute renal failure, 5 deaths caused by multiple organ failure, and 1 death caused by malignant arrhythmia. All patients had no infective endocarditis, thrombosis, hemolysis, blood vessel stenosis, or calcification of pericardial patch. The cause of death was associated with the primary lesion, but not with transplanted pericardium. We followed up 198 patients for 3-64 months. During follow-up, echocardiography showed no patch graft vegetation, thrombosis, perforation or calcification. ConclusionThe fresh autologous pericardium is a good material for repairing cardiac defects.
ObjectiveTo study the hemocompatibility of bioprosthetic heart valve materials respectively based on glutaraldehyde and non-glutaraldehyde treatment. MethodsFresh bovine pericardium was treated with glutaraldehyde or non-glutaraldehyde after adipose tissue was removed. To evaluate the hemocompatibility of the two bioprosthetic heart valve materials, hemolysis test, in vitro fibrinogen adsorption experiment, platelet adhesion experiment, thrombin-antithrombin complex (TAT) test, complement activation assay and ex vivo circulation experiment were performed. ResultsThe hemolysis test results demonstrated that both of the materials showed hemolytic rates lower than 5%. The results of TAT test and complement activation assay showed no statistical differences among the two materials and the blank control group. Compared to the bioprosthetic heart valve materials with glutaraldehyde-based treatment, the materials with non-glutaraldehyde-based treatment showed significantly decreased fibrinogen adsorption, platelet adhesion and thrombosis. ConclusionCompared to the bioprosthetic heart valve materials with glutaraldehyde-based treatment, the materials with non-glutaraldehyde-based treatment show better hemocompatibility.
Objective To compare the difference of effect while using homograft pericardium patch and Gore- tex patch in staged repair of tetralogy of Fallot(TOF) to enlarge the right ventricular outflow tract (RVOT). Methods Twenty-eight patients with TOF who underwent the staged complete repair were divided into 2 groups according to the date of surgery. Gore-rex group, 13 cases, their RVOT were enlarged with Gore-tex patches. Cryopreserved homograft pericardium patch group, 15 cases, their RVOT were enlarged with cryopreserved homograft pericardium patches. Clinical results and follow-up results were compared. Results There were 1 operative death in Gore-tex patch group (7. 7%), and 1 early postoperative death in cryopreserved homograft pericardium patch group (6. 7%). Hemostasia time, the pericardial cavity drainage volume in cryopreserved homograft pericardium patch group were less than those in Gore-tex patch group (P〈0. 01). All patients were followed-up for 0.8-4.5years. The residual obstruction rate at RVOT level in Gore-tex patch group was higher than that in cryopreserved homograft pericardium patch group by echocardiography (P〈0.01). No calcification shadow was found on the chest X-ray. Conclusion Homograft pericardium is the tissue with high density and intensity, its elasticity and compliance are good. Using homograft pericardium patch may be helpful to decrease the residual obstruction of RVOT after operation. It can be adapted as a repairing material in heart surgery.
Objective To investigate the feasibility of a "pericardial lining" modified Bentall procedure for the treatment of patients with aortic root aneurysm. MethodsThis was a retrospective study that consecutively enrolled patients treated at the Affiliated Suzhou Hospital of Nanjing Medical University, The Affiliated Traditional Chinese Medicine Hospital of Southwest Medical University, and the First People's Hospital of Guangyuan from January 2023 to February 2024. Preoperative clinical data, imaging findings (including echocardiography and CT scans of the aortic root and the entire aorta), details of coronary artery management, surgical outcomes, and postoperative follow-up results were collected. All patients underwent the "pericardial lining" modified Bentall procedure: the aortic valve was replaced, and an autologous pericardial patch was divided into three equal leaflets based on the circumference of the aortic annulus measured by a valve sizer. These leaflets were then sutured to the aortic annulus. Fenestrations were created in two of the pericardial leaflets for anastomosis with the left and right coronary ostia. The pericardial leaflets were sutured to the wall of the aortic sinuses to form an integrated structure, thereby narrowing the sinus portion. A prosthetic vascular graft was anastomosed to the proximal and distal aorta, and no aortic root-to-right atrium shunt was created. Results A total of 5 patients, aged 37 to 68 years, were included. The preoperative Society of Thoracic Surgeons (STS) risk scores ranged from 2.8% to 3.9%. The diameter of the ascending aorta was 40-73 mm, the left ventricular end-diastolic diameter (LVEDD) was 45-71 mm, and the left ventricular ejection fraction (LVEF) was 47%-64%. Intraoperatively, the aortic cross-clamp time ranged from 85 to 180 min, and the cardiopulmonary bypass time ranged from 110 to 302 min. Postoperative follow-up echocardiography revealed that the ascending aortic diameter was 27-35 mm, LVEDD was 39-57 mm, and LVEF was 43%-61%. All surgeries were completed successfully with satisfactory immediate outcomes and no intraoperative complications. During the follow-up period, there was no mortality or reoperation. Conclusion For patients with aortic root aneurysm, the "pericardial lining" modified Bentall procedure yields satisfactory preliminary results, and the technique is demonstrated to be feasible.
ObjectiveTo investigate the effects of modification of acellular bovine pericardium with 1-ethyl-3-(3-dinethylami-nopropyl) carbodimide (EDC)/N-hydroxysuccininide (NHS) or genipin and find out the best crosslinking reagent. MethodsThe cellular components of the bovine pericardiums were removed. The effects of decellularization were tested by HE staining. The acellular bovine pericardiums were crosslinked with EDC/NHS (EDC/NHS group) or genipin (genipin group). The properties of the crosslinked acellular matrix were evaluated by scanning electron microscope (SEM), matrix thickness, crosslinking index, mechanical property, denaturation temperature, enzymatic degradation, and cytotoxicity test before and after the crosslinking. Acellular bovine pericardium (ABP group) or normal bovine pericardium (control group) were harvested as controls. ResultsSEM showed that collagen fibers were reticulated in bovine pericardial tissues after crosslinked by EDC/NHS or genipin, and relative aperture of the collagen fiber was from 10 to 20 μm. The thickness and denaturation temperature of the scaffolds were increased significantly after crosslinking with EDC/NHS or genipin (P<0.05), while there was no significant difference between EDC/NHS group and genipin group (P>0.05). The difference had no statistical significance in crosslinking index between EDC/NHS group and genipin group (t=0.205, P=0.218). The degradation rate in EDC/NHS group and genipin group was significantly lower than that in ABP group and control group (P<0.05). Elastic modulus and fracture stress in EDC/NHS group and genipin group were significantly lower than those in ABP group (P<0.05), but there was no significant difference among EDC/NHS group, genipin group, and control group (P>0.05). The break elongation in EDC/NHS group and genipin group were significantly increased than those in ABP group and control group (P<0.05). The difference had no statistical significance in stability and mechanical properties between EDC/NHS group and genipin group (P>0.05). Cytotoxicity of genipin crosslinked tissue (grade 1) were much lower than that of EDC/NHS (grade 2) at 5 days. ConclusionAcellular bovine pericardium crosslinked with genipin has better biocompatibility than EDC/NHS.
Abstract: Objective To evaluate clinical outcomes of tricuspid annuloplasty using a C-type ring made of autologous pericardium for the treatment of functional tricuspid regurgitation (TR). Methods Eleven patients underwent tricuspid annuloplasty in Guizhou Provincial People’s Hospital between March 2009 and January 2011, including 5 male patients and 6 female patients with their age of 32-57 (43.80±12.20) years. There were 3 patients with mild TR, 7 patients with moderate TR, and 1 patient with severe TR. Concomitant procedures included mitral valve replacement and/or aortic valve replacement and/or left atrial thrombectomy. The C-type ring was created using a strip of pericardium after 0.8% glutaraldehyde fixation for 15 minutes. Interrupted horizontal mattress suture was used to secure the C-type ring to the tricuspid annulus. Hear function and echocardiography were examined during follow-up. Results There was no in-hospital death, and the hospital stay was 15-28 (21.10±3.80) days. All the patients were followed up for 8-28 (18.50±7.00)months. There was no death or reoperation because of TR or tricuspid stenosis during follow-up. Ten patients had TR during follow-up, including 9 patients with mild TR and 1 patient with mild to moderate TR, but there was no patient with severe TR. The degree of TR during follow-up was significantly reduced than preoperative degree (Z =-2.81,P<0.05). Preoperative and postoperative right ventricular dimension (19.95±5.11 mm vs. 21.57±12.81 mm,P=0.705) and right atrial dimension(37.55±6.79 mm vs. 35.55±5.22 mm,P=0.317)were not statistically different. Conclusion Tricuspid annuloplasty using a C-type ring made of autologous pericardium has satisfactory clinical outcomes for patients with functional TR.