生物医学工程研究
生物醫學工程研究
생물의학공정연구
JOURNAL OF BIOMEDICAL ENGINEERING RESEARCH
2015年
2期
102-105
,共4页
王艳玲%刘光万%吴丽娟%曲洪媛%赵芳%杨光%吴昌琳
王豔玲%劉光萬%吳麗娟%麯洪媛%趙芳%楊光%吳昌琳
왕염령%류광만%오려연%곡홍원%조방%양광%오창림
淀粉-透明质酸%冷冻干燥%交联%止血%生物相容性
澱粉-透明質痠%冷凍榦燥%交聯%止血%生物相容性
정분-투명질산%냉동간조%교련%지혈%생물상용성
Starch -hyaluronic acid%Freeze -drying%Cross -linking%Hemostatic%Biocompatibility
以马铃薯淀粉为主要原料,同时添加少量透明质酸和三偏磷酸钠并通过冷冻干燥技术制备一种新型淀粉基止血材料。利用电子显微镜观察其微观结构,用 XRD 测定其晶体结构,用 DSC 测定其热稳定性,同时还根据国家标准 GB /T16886医疗器械生物学评价标准对其进行生物相容性研究。研究结果表明,此新型淀粉基止血材料呈现三维网络状结构,交联反应发生在非晶区且具有良好的热稳定性。动物实验表明该材料无皮内刺激反应、无致敏、无全身急性毒性及细胞毒性,具有良好的生物相容性。结果表明:该新型淀粉基止血材料在临床应用上具有广阔的前景。
以馬鈴藷澱粉為主要原料,同時添加少量透明質痠和三偏燐痠鈉併通過冷凍榦燥技術製備一種新型澱粉基止血材料。利用電子顯微鏡觀察其微觀結構,用 XRD 測定其晶體結構,用 DSC 測定其熱穩定性,同時還根據國傢標準 GB /T16886醫療器械生物學評價標準對其進行生物相容性研究。研究結果錶明,此新型澱粉基止血材料呈現三維網絡狀結構,交聯反應髮生在非晶區且具有良好的熱穩定性。動物實驗錶明該材料無皮內刺激反應、無緻敏、無全身急性毒性及細胞毒性,具有良好的生物相容性。結果錶明:該新型澱粉基止血材料在臨床應用上具有廣闊的前景。
이마령서정분위주요원료,동시첨가소량투명질산화삼편린산납병통과냉동간조기술제비일충신형정분기지혈재료。이용전자현미경관찰기미관결구,용 XRD 측정기정체결구,용 DSC 측정기열은정성,동시환근거국가표준 GB /T16886의료기계생물학평개표준대기진행생물상용성연구。연구결과표명,차신형정분기지혈재료정현삼유망락상결구,교련반응발생재비정구차구유량호적열은정성。동물실험표명해재료무피내자격반응、무치민、무전신급성독성급세포독성,구유량호적생물상용성。결과표명:해신형정분기지혈재료재림상응용상구유엄활적전경。
The novel hemostatic material was fabricated from starch,hyaluronic acid and STMP with freeze -drying technique. The microstructure,crystalline structure and thermal stability of the material were studied by SEM,XRD and DSC respectively.And the biocompatibility of this material was investigated by subcutaneous reactivity,sensitization,acute systemic toxicity and cytotoxicity tests described in GB/T16886.The results showed that the crosslinking reaction occurred in amorphous area and this novel hemostatic material presented three -dimensional network structure which was of favourable thermal stability.Animal experiments indicated that the material had no subcutaneous reactivity,no sensitization,no acute systemic reaction and no cytotoxicity.It is concluded that this novel hemostatic material shows promise for clinical applications.
