Objective To investigate the feasibility of using small intestinal submucosa ( SIS) graft for repair of anterior urethral strictures. Methods From June 2009 to August 2010,18 men ( mean age,38 yrs) with anterior ureth...Objective To investigate the feasibility of using small intestinal submucosa ( SIS) graft for repair of anterior urethral strictures. Methods From June 2009 to August 2010,18 men ( mean age,38 yrs) with anterior urethral strictures underwent urethroplasty using a four layer SIS as an onlay patch graft. SIS was used to展开更多
Background:Pelvic organ prolapse (POP) is a major health concern that affects women.Surgeons have increasingly used prosthetic meshes to correct POP.However,the most common used is synthetic mesh,and absorbable mes...Background:Pelvic organ prolapse (POP) is a major health concern that affects women.Surgeons have increasingly used prosthetic meshes to correct POP.However,the most common used is synthetic mesh,and absorbable mesh is less reported.This research aimed to evaluate the clinical effectiveness of porcine small intestinal submucosa (SIS).Methods:Consecutive forty POP patients who met the inclusion criteria underwent pelvic reconstruction surgery with SIS between March 2012 and December 2013.The patients' clinical characteristics were recorded preoperatively.Surgical outcomes,measured by objective and subjective success rates,were investigated.We evaluated the quality of life (QOL) using the Pelvic Floor Distress Inventory-20 (PFDI-20) and the Pelvic Floor Impact Questionnaire-7 (PFIQ-7).Sexual QOL was assessed by the Pelvic Organ Prolapse/Urinary Incontinence Sexual Function Questionnaire-12 (P1SQ-12).Results:At postoperative 12 months,the subjective recurrence rate (7.5%) was much lower than the objective recurrence rate (40.0%).Postoperatively,no erosion was identified.One underwent a graft release procedure because of urinary retention,and one had anus sphincter reconstruction surgery due to defecation urgency.Another experienced posterior vaginal wall infection where the mesh was implanted,accompanied by severe vaginal pain.Estrogen cream relieved the pain.One patient with recurrence underwent a secondary surgery with Bard Mesh because of stage 3 anterior vaginal wall prolapse.Scoring system of PFDI-20 was from 59.150 ± 13.143 preoperatively to 8.400 ± 4.749 postoperatively and PFIQ-7 was from 73.350 ± 32.281 to 7.150 ± 3.110,while PISQ-12 was from 15.825 ± 4.050 to 12.725 ± 3.471.Conclusions:QOL and the degree of subjective satisfaction were significantly improved postoperatively.Anterior repair deserves more attention because of the higher recurrence rate.The long-term follow-up of the patient is warranted to draw firm conclusion.展开更多
Background:Acute skin wounds may compromise the skin barrier,posing a risk of infection.Small intestinal submucosa(SIS)is widely used to treat acute and chronic wounds.However,the efficacy of SIS to accelerate wound h...Background:Acute skin wounds may compromise the skin barrier,posing a risk of infection.Small intestinal submucosa(SIS)is widely used to treat acute and chronic wounds.However,the efficacy of SIS to accelerate wound healing still needs to be improved to meet clinical demands.To tackle this problem,platelet-rich plasma(PRP)is used due to its potency to promote proliferation,migration and adhesion of target cells.In this study,we applied PRP and SIS to skin wounds to explore their effects on wound healing by evaluating re-epithelialization,collagen production,angiogenesis and the inflammatory response.Methods:A1×1-cm full-thickness skin defectwas established in mice.Sixty mice were divided into four treatment groups:PRP+SIS,PRP,SIS and control.On days 3,5,7,10 and 14 post-surgery,tissue specimens were harvested.Haematoxylin and eosin,Masson’s trichrome,immunohistochemical and immunofluorescence double staining were used to visualize epidermal thickness,collagen and vascular regeneration and inflammation.Results:Wound contraction in the PRP and PRP+SIS groups was significantly greater,compared with the other groups,on days 3 and 5 post-surgery.A histological analysis showed higher collagen expression in the PRP and PRP+SIS groups on day 7,whichwas associated with a thicker epidermal layer on day 14.In addition,immunohistochemical staining showed that CD31-positive blood vessels and vascular endothelial growth factor expression in the PRP+SIS and PRP groups were significantly higher,compared with the control group.Furthermore,immunofluorescence double staining showed that the number of M1 and M2 macrophages in the PRP+SIS and PRP groups was higher,compared with the control and SIS groups alone,on day 3.However,on day 7,the number of M1 macrophages dramatically decreased in the PRP+SIS and PRP groups.The ratio of M2 to M1 macrophages in the PRP+SIS and PRP groups was 3.97 and 2.93 times that of the control group and 4.56 and 3.37 times that of the SIS group,respectively.Conclusion:Co-administration of SIS and PRP has a better effect on promoting angiogenesis,reepithelialization and collagen regeneration in managing acute wound healing than either agent alone.展开更多
With the development of tissue engineering,the required biomaterials need to have the ability to promote cell adhesion and proliferation in vitro and in vivo.Especially,surface modification of the scaffold material ha...With the development of tissue engineering,the required biomaterials need to have the ability to promote cell adhesion and proliferation in vitro and in vivo.Especially,surface modification of the scaffold material has a great influence on biocompatibility and functionality of materials.The small intestine submucosa(SIS)is an extracellular matrix isolated from the submucosal layer of porcine jejunum,which has good tissue mechanical properties and regenerative activity,and is suitable for cell adhesion,proliferation and differentiation.In recent years,SIS is widely used in different areas of tissue reconstruction,such as blood vessels,bone,cartilage,bladder and ureter,etc.This paper discusses the main methods for surface modification of SIS to improve and optimize the performance of SIS bioscaffolds,including functional group bonding,protein adsorption,mineral coating,topography and formatting modification and drug combination.In addition,the reasonable combination of these methods also offers great improvement on SIS surface modification.This article makes a shallow review of the surface modification of SIS and its application in tissue engineering.展开更多
Currently the standard surgical treatment for bladder defects is augmentation cystoplasty with autologous tissues,which has many side effects.Biomaterials such as small intestine submucosa(SIS)can provide an alternati...Currently the standard surgical treatment for bladder defects is augmentation cystoplasty with autologous tissues,which has many side effects.Biomaterials such as small intestine submucosa(SIS)can provide an alternative scaffold for the repair as bladder patches.Previous studies have shown that SIS could enhance the capacity and compliance of the bladder,but its application is hindered by issues like limited smooth muscle regeneration and stone formation since the fast degradation and poor mechanical properties of the SIS.Procyanidins(PC),a natural bio-crosslinking agent,has shown anti-calcification,anti-inflammatory and anti-oxidation properties.More importantly,PC and SIS can crosslink through hydrogen bonds,which may endow the material with enhanced mechanical property and stabilized functionalities.In this study,various concentrations of PC-crosslinked SIS(PC-SIS)were prepared to repair the full-thickness bladder defects,with an aim to reduce complications and enhance bladder functions.In vitro assays showed that the crosslinking has conferred the biomaterial with superior mechanical property and anti-calcification property,ability to promote smooth muscle cell adhesion and upregulate functional genes expression.Using a rabbit model with bladder defects,we demonstrated that the PC-SIS scaffold can rapidly promote in situ tissue regrowth and regeneration,in particular smooth muscle remodeling and improvement of urinary functions.The PC-SIS scaffold has therefore provided a promising material for the reconstruction of a functional bladder.展开更多
Anal fistula is one of the three greatest anorectal diseases with a high prevalence. The traditional treatments(e.g., surgery) for fistula have limitations due to damage to the internal anal sphincter of patients. W...Anal fistula is one of the three greatest anorectal diseases with a high prevalence. The traditional treatments(e.g., surgery) for fistula have limitations due to damage to the internal anal sphincter of patients. With recent advances in biomaterials, treatments based on biomaterial filling (e.g., scleraprotein injection, fistula plug) have emerged as novel therapies for fistula. The anal fistula plug (e.g., based on small intestinal submucosa (SIS)) has attracted increasing attention because of short term healing rate and biocompatibility. However, challenges remain for this method such as plug falling as observed in clinics. To address this, this paper analyzes the case of SIS falling under physiological condition from mechanical point of view using ANSYS simulation. It then proposes three new geometrical structures for fistula plug and compares their mechanical behavior (e.g., axial stress, reaction of constraint) with that of clinically used structure (cone shape). Based on the simulation, it optimizes the geometric parameters of fistula plug. The approach developed here can help to improve the design of fistula plug for better clinical treatments.展开更多
There has been an increase in the incidence of hypopharyngeal and cervical esophageal cancer worldwide,and hence growing needs for hypopharyngeal and cervical esophageal tissue repair.This work produced a bi-layer com...There has been an increase in the incidence of hypopharyngeal and cervical esophageal cancer worldwide,and hence growing needs for hypopharyngeal and cervical esophageal tissue repair.This work produced a bi-layer composite scaffold with decellularized small intestine submucosa and polylactic-co-glycolic acid,which resembled the layered architectures of its intended tissues.The decellularized small intestine submucosa contained minimal residual DNA(52.5±61.2 ng/mg)and the composite scaffold exhibited satisfactory mechanical properties(a tensile modulus of 21.1±64.8 MPa,an ultimate tensile strength of 14.0±62.9MPa and a failure strain of 26.9±65.1%).The interactions between cells and the respective layers of the scaffold were characterized by CCK-8 assays,immunostaining and Western blotting.Desirable cell proliferation and phenotypic behaviors were observed.These results have provided an important basis for the next-step in vivo studies of the scaffold,and bode well for its future clinical applications.展开更多
Approximately 25%of patients with congenital heart disease require implantation of patches to repair.However,most of the currently available patches are made of inert materials with unmatched electrical conductivity a...Approximately 25%of patients with congenital heart disease require implantation of patches to repair.However,most of the currently available patches are made of inert materials with unmatched electrical conductivity and mechanical properties,which may lead to an increased risk for arrhythmia and heart failure.In this study,we have developed a novel Polyurethane/Small intestinal submucosa patch(PSP)with mechanical and electrical properties similar to those of the native myocardial tissue,and assessed its feasibility for the reconstruction of right ventricular outflow tract.A right ventricular outflow tract reconstruction model was constructed in 40 rabbits.Compared with commercially available bovine pericardium patch,the PSP patch has shown better histocompatibility and biodegradability,in addition with significantly improved cardiac function.To tackle the significant fibrosis and relatively poor vascularization during tissue remodeling,we have further developed a bioactive patch by incorporating the PSP composites with urine-derived stem cells(USCs)which were pretreated with hypoxia.The results showed that the hypoxia-pretreated bioactive patch could significantly inhibit fibrosis and promote vascularization and muscularization,resulting in better right heart function.Our findings suggested that the PSP patch combined with hypoxia-pretreated USCs may provide a better strategy for the treatment of congenital heart disease.展开更多
The aim of this paper was to observe and visualize the changes in osteoblasts by electron microscopy during osteogenesis using tissue engineering technique.We also studied the feasibility of improving tissue vasculari...The aim of this paper was to observe and visualize the changes in osteoblasts by electron microscopy during osteogenesis using tissue engineering technique.We also studied the feasibility of improving tissue vascularization of the engineered bone by using small intestine submucosa(SIS)as the scaffold.Bone mesenchymal stem cells(BMSCs)were isolated by gradient centrifugation method.Bone mesenchymal stem cells were seeded in the SIS,and the scaffold-cell constructs were cultured in vitro for 2 weeks.Small intestine submucosa without BMSCs served as control.Both SIS scaffolds were then implanted subcutaneously in the dorsa of athymic mice.The implants were harvested after in vivo incubation for 4,8 and 12 weeks.The changes in osteoblasts and vascularization were observed under a transmission electron microscope and a scanning electron microscope.The BMSCs grew quite well,differentiating on the surface of the SIS and secreting a great deal of extracellular matrices.The scaffold-cell constructs formed a lot of bone and blood vessels in vivo.The scaffold degraded after 12 weeks.No osteoblasts,but vascularization and fibroblasts were observed,in the control.The SIS can be used as a scaffold for constructing tissue-engineered bone as it can improve the formation of bone and vessels in vivo.展开更多
文摘Objective To investigate the feasibility of using small intestinal submucosa ( SIS) graft for repair of anterior urethral strictures. Methods From June 2009 to August 2010,18 men ( mean age,38 yrs) with anterior urethral strictures underwent urethroplasty using a four layer SIS as an onlay patch graft. SIS was used to
文摘Background:Pelvic organ prolapse (POP) is a major health concern that affects women.Surgeons have increasingly used prosthetic meshes to correct POP.However,the most common used is synthetic mesh,and absorbable mesh is less reported.This research aimed to evaluate the clinical effectiveness of porcine small intestinal submucosa (SIS).Methods:Consecutive forty POP patients who met the inclusion criteria underwent pelvic reconstruction surgery with SIS between March 2012 and December 2013.The patients' clinical characteristics were recorded preoperatively.Surgical outcomes,measured by objective and subjective success rates,were investigated.We evaluated the quality of life (QOL) using the Pelvic Floor Distress Inventory-20 (PFDI-20) and the Pelvic Floor Impact Questionnaire-7 (PFIQ-7).Sexual QOL was assessed by the Pelvic Organ Prolapse/Urinary Incontinence Sexual Function Questionnaire-12 (P1SQ-12).Results:At postoperative 12 months,the subjective recurrence rate (7.5%) was much lower than the objective recurrence rate (40.0%).Postoperatively,no erosion was identified.One underwent a graft release procedure because of urinary retention,and one had anus sphincter reconstruction surgery due to defecation urgency.Another experienced posterior vaginal wall infection where the mesh was implanted,accompanied by severe vaginal pain.Estrogen cream relieved the pain.One patient with recurrence underwent a secondary surgery with Bard Mesh because of stage 3 anterior vaginal wall prolapse.Scoring system of PFDI-20 was from 59.150 ± 13.143 preoperatively to 8.400 ± 4.749 postoperatively and PFIQ-7 was from 73.350 ± 32.281 to 7.150 ± 3.110,while PISQ-12 was from 15.825 ± 4.050 to 12.725 ± 3.471.Conclusions:QOL and the degree of subjective satisfaction were significantly improved postoperatively.Anterior repair deserves more attention because of the higher recurrence rate.The long-term follow-up of the patient is warranted to draw firm conclusion.
基金funded by National Natural Science Foundation of China,grant number 81671924,81272105National Key Research and Development Plan of China,grant number 2017YFC1103301+6 种基金Health and Medical Treatment Collaborative Innovation Major Special Projects of Guangzhou,grant number 201508020253Science and Technology Key Project of Guangdong Province,grant number 2014B020212010Science and Technology Planning Project of Guangdong Province of China,grant number 2015B020233012Military Medical Innovation Special Projects,grant number 18CXZ029Zhejiang Provincial Basic Public Welfare Research Project,grant number GJ19H140001and China’s National Key R&D Programs(NKPs)grant number 2018YFB0407204.
文摘Background:Acute skin wounds may compromise the skin barrier,posing a risk of infection.Small intestinal submucosa(SIS)is widely used to treat acute and chronic wounds.However,the efficacy of SIS to accelerate wound healing still needs to be improved to meet clinical demands.To tackle this problem,platelet-rich plasma(PRP)is used due to its potency to promote proliferation,migration and adhesion of target cells.In this study,we applied PRP and SIS to skin wounds to explore their effects on wound healing by evaluating re-epithelialization,collagen production,angiogenesis and the inflammatory response.Methods:A1×1-cm full-thickness skin defectwas established in mice.Sixty mice were divided into four treatment groups:PRP+SIS,PRP,SIS and control.On days 3,5,7,10 and 14 post-surgery,tissue specimens were harvested.Haematoxylin and eosin,Masson’s trichrome,immunohistochemical and immunofluorescence double staining were used to visualize epidermal thickness,collagen and vascular regeneration and inflammation.Results:Wound contraction in the PRP and PRP+SIS groups was significantly greater,compared with the other groups,on days 3 and 5 post-surgery.A histological analysis showed higher collagen expression in the PRP and PRP+SIS groups on day 7,whichwas associated with a thicker epidermal layer on day 14.In addition,immunohistochemical staining showed that CD31-positive blood vessels and vascular endothelial growth factor expression in the PRP+SIS and PRP groups were significantly higher,compared with the control group.Furthermore,immunofluorescence double staining showed that the number of M1 and M2 macrophages in the PRP+SIS and PRP groups was higher,compared with the control and SIS groups alone,on day 3.However,on day 7,the number of M1 macrophages dramatically decreased in the PRP+SIS and PRP groups.The ratio of M2 to M1 macrophages in the PRP+SIS and PRP groups was 3.97 and 2.93 times that of the control group and 4.56 and 3.37 times that of the SIS group,respectively.Conclusion:Co-administration of SIS and PRP has a better effect on promoting angiogenesis,reepithelialization and collagen regeneration in managing acute wound healing than either agent alone.
基金supported by the National Natural Science Foundation of China(No.81571919)LiaoNing Revitalization Talents Program(No.XLYC1907124).
文摘With the development of tissue engineering,the required biomaterials need to have the ability to promote cell adhesion and proliferation in vitro and in vivo.Especially,surface modification of the scaffold material has a great influence on biocompatibility and functionality of materials.The small intestine submucosa(SIS)is an extracellular matrix isolated from the submucosal layer of porcine jejunum,which has good tissue mechanical properties and regenerative activity,and is suitable for cell adhesion,proliferation and differentiation.In recent years,SIS is widely used in different areas of tissue reconstruction,such as blood vessels,bone,cartilage,bladder and ureter,etc.This paper discusses the main methods for surface modification of SIS to improve and optimize the performance of SIS bioscaffolds,including functional group bonding,protein adsorption,mineral coating,topography and formatting modification and drug combination.In addition,the reasonable combination of these methods also offers great improvement on SIS surface modification.This article makes a shallow review of the surface modification of SIS and its application in tissue engineering.
基金This work was supported by the National Key R&D Program of China(No.2017YFC1104702)Sichuan Science and Technology Program(No.2019JDRC0020)1.3.5 project for disciplines of excellence,West China Hospital,Sichuan University(No.ZYJC18002).
文摘Currently the standard surgical treatment for bladder defects is augmentation cystoplasty with autologous tissues,which has many side effects.Biomaterials such as small intestine submucosa(SIS)can provide an alternative scaffold for the repair as bladder patches.Previous studies have shown that SIS could enhance the capacity and compliance of the bladder,but its application is hindered by issues like limited smooth muscle regeneration and stone formation since the fast degradation and poor mechanical properties of the SIS.Procyanidins(PC),a natural bio-crosslinking agent,has shown anti-calcification,anti-inflammatory and anti-oxidation properties.More importantly,PC and SIS can crosslink through hydrogen bonds,which may endow the material with enhanced mechanical property and stabilized functionalities.In this study,various concentrations of PC-crosslinked SIS(PC-SIS)were prepared to repair the full-thickness bladder defects,with an aim to reduce complications and enhance bladder functions.In vitro assays showed that the crosslinking has conferred the biomaterial with superior mechanical property and anti-calcification property,ability to promote smooth muscle cell adhesion and upregulate functional genes expression.Using a rabbit model with bladder defects,we demonstrated that the PC-SIS scaffold can rapidly promote in situ tissue regrowth and regeneration,in particular smooth muscle remodeling and improvement of urinary functions.The PC-SIS scaffold has therefore provided a promising material for the reconstruction of a functional bladder.
基金supported by the Major International (Regional) Joint Research Program of China (11120101002)the National Natural Science Foundation of China(10825210 and 31050110125)the National 111 Project of China(B06024)
文摘Anal fistula is one of the three greatest anorectal diseases with a high prevalence. The traditional treatments(e.g., surgery) for fistula have limitations due to damage to the internal anal sphincter of patients. With recent advances in biomaterials, treatments based on biomaterial filling (e.g., scleraprotein injection, fistula plug) have emerged as novel therapies for fistula. The anal fistula plug (e.g., based on small intestinal submucosa (SIS)) has attracted increasing attention because of short term healing rate and biocompatibility. However, challenges remain for this method such as plug falling as observed in clinics. To address this, this paper analyzes the case of SIS falling under physiological condition from mechanical point of view using ANSYS simulation. It then proposes three new geometrical structures for fistula plug and compares their mechanical behavior (e.g., axial stress, reaction of constraint) with that of clinically used structure (cone shape). Based on the simulation, it optimizes the geometric parameters of fistula plug. The approach developed here can help to improve the design of fistula plug for better clinical treatments.
基金This study was funded by Ningbo Municipal Bureau of Science and Technology(Grant No.202002N3125).
文摘There has been an increase in the incidence of hypopharyngeal and cervical esophageal cancer worldwide,and hence growing needs for hypopharyngeal and cervical esophageal tissue repair.This work produced a bi-layer composite scaffold with decellularized small intestine submucosa and polylactic-co-glycolic acid,which resembled the layered architectures of its intended tissues.The decellularized small intestine submucosa contained minimal residual DNA(52.5±61.2 ng/mg)and the composite scaffold exhibited satisfactory mechanical properties(a tensile modulus of 21.1±64.8 MPa,an ultimate tensile strength of 14.0±62.9MPa and a failure strain of 26.9±65.1%).The interactions between cells and the respective layers of the scaffold were characterized by CCK-8 assays,immunostaining and Western blotting.Desirable cell proliferation and phenotypic behaviors were observed.These results have provided an important basis for the next-step in vivo studies of the scaffold,and bode well for its future clinical applications.
基金supported by the National Key R&D Program of China(Grant No.2017YFC1104702)National Natural Science Foundation of China(Grant No.31771065)the 1.3.5 Project for Disciplines of Excellence,West China Hospital,Sichuan University(Grant No.ZYJC18002).
文摘Approximately 25%of patients with congenital heart disease require implantation of patches to repair.However,most of the currently available patches are made of inert materials with unmatched electrical conductivity and mechanical properties,which may lead to an increased risk for arrhythmia and heart failure.In this study,we have developed a novel Polyurethane/Small intestinal submucosa patch(PSP)with mechanical and electrical properties similar to those of the native myocardial tissue,and assessed its feasibility for the reconstruction of right ventricular outflow tract.A right ventricular outflow tract reconstruction model was constructed in 40 rabbits.Compared with commercially available bovine pericardium patch,the PSP patch has shown better histocompatibility and biodegradability,in addition with significantly improved cardiac function.To tackle the significant fibrosis and relatively poor vascularization during tissue remodeling,we have further developed a bioactive patch by incorporating the PSP composites with urine-derived stem cells(USCs)which were pretreated with hypoxia.The results showed that the hypoxia-pretreated bioactive patch could significantly inhibit fibrosis and promote vascularization and muscularization,resulting in better right heart function.Our findings suggested that the PSP patch combined with hypoxia-pretreated USCs may provide a better strategy for the treatment of congenital heart disease.
基金This work was supported by the National Natural Science Foundation of China(Grant No.30371444).
文摘The aim of this paper was to observe and visualize the changes in osteoblasts by electron microscopy during osteogenesis using tissue engineering technique.We also studied the feasibility of improving tissue vascularization of the engineered bone by using small intestine submucosa(SIS)as the scaffold.Bone mesenchymal stem cells(BMSCs)were isolated by gradient centrifugation method.Bone mesenchymal stem cells were seeded in the SIS,and the scaffold-cell constructs were cultured in vitro for 2 weeks.Small intestine submucosa without BMSCs served as control.Both SIS scaffolds were then implanted subcutaneously in the dorsa of athymic mice.The implants were harvested after in vivo incubation for 4,8 and 12 weeks.The changes in osteoblasts and vascularization were observed under a transmission electron microscope and a scanning electron microscope.The BMSCs grew quite well,differentiating on the surface of the SIS and secreting a great deal of extracellular matrices.The scaffold-cell constructs formed a lot of bone and blood vessels in vivo.The scaffold degraded after 12 weeks.No osteoblasts,but vascularization and fibroblasts were observed,in the control.The SIS can be used as a scaffold for constructing tissue-engineered bone as it can improve the formation of bone and vessels in vivo.