1) bFGF-gelatin sponge
bFGF-明胶海绵复合物
1.
Objective To investigate the feasibility of bFGF-gelatin sponge as scaffold material in bone tissue engineering.
目的探讨bFGF-明胶海绵复合物作为骨组织工程支架的可行性,为进一步的体内实验提供基础研究。
2) Kangfuxin gelfoam
康复新明胶海绵
1.
Conclusion Kangfuxin gelfoam could relieve pain and promote wound cure.
目的观察康复新明胶海绵治疗干槽症的临床疗效。
3) Gelatin sponge
明胶海绵
1.
A compound of tinidazole-iodoform gelatin sponge embedded in the socket after tooth extraction to reduce postexodontic complications;
碘仿加替硝唑明胶海绵预防下颌阻生牙拔除术后并发症效果的随机对照研究
2.
Selective bronchial arterial embolization with gelatin sponge and silk thread in the treatment of massive hemoptysis;
明胶海绵加丝线栓塞支气管动脉治疗大咯血
3.
A clinical study of Gelatamp colloidal silver gelatin sponge on preventing the complication of teeth ex-traction;
Gelatamp胶质银止血明胶海绵预防拔牙后并发症的临床研究
4) Gelfoam
['dʒelfəum]
明胶海绵
1.
Treatment of Hemoptysis by Embolizing Bronchial Arteries with Gelfoam(A Long-term Follow-up Result in 52 Cases);
医用明胶海绵栓塞支气管动脉治疗大咯血(52例病人长期随访观察)
2.
Objective:To explore the clinical effect of bronchial artery branches together infusing with pingyangmycin and embolization with gelfoam particles(strips)on repeated hemoptysis.
目的:研究平阳霉素溶液灌注支气管动脉后加明胶海绵颗粒(条)栓塞支气管动脉分支及主干治疗肺咯血的临床价值。
3.
Objective To study the features of multiple blood supply of hemoptysis,and to explore the clinical value of transarterial embolization with gelfoam for treatment the refractory hemoptysis.
目的探讨咯血病灶的多支血供特点,以及应用明胶海绵栓塞供血动脉治疗顽固性咯血的临床价值。
5) composite sponge
复合海绵
1.
Prepartion and chararcterization of carboxyl methyl starch sodium and sodium alginate composite sponge
羧甲基淀粉钠/海藻酸钠复合海绵的制备与表征
6) pulverulent Zihuang foam-rubber of gelatin
紫黄明胶海绵粉
1.
Determination of emodin in pulverulent Zihuang foam-rubber of gelatin by HPLC;
高效液相色谱法测定紫黄明胶海绵粉中大黄素的含量
补充资料:明胶海绵
分子式:
CAS号:
性质: 将灭菌的明胶溶液搅打至发泡,用甲醛处理使大分子交联而失去可溶性,经干燥即成为外科手术用的止血明胶海绵。可根据需要制成不同柔韧性的和不同规格的产品。这类海绵能被蛋白酶完全消化掉,因而手术后可留在体内,并可用以向特定部位施以治疗药物,而不会刺激组织或产生异物反应。
CAS号:
性质: 将灭菌的明胶溶液搅打至发泡,用甲醛处理使大分子交联而失去可溶性,经干燥即成为外科手术用的止血明胶海绵。可根据需要制成不同柔韧性的和不同规格的产品。这类海绵能被蛋白酶完全消化掉,因而手术后可留在体内,并可用以向特定部位施以治疗药物,而不会刺激组织或产生异物反应。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条