Luffa aegyptiaca is a common vegetable in Taiwan and it produced sponge-like dry fruit for cleaning dished or body. The purpose of the present study was to use the dried fruit of L. aegyptiaca (Loofa) as a new source of chitin for a potential wound dressing biomedical material. Loofa obtained from traditional market was cut into approximate 1 cm in length and then treated with 1 N sodium hydroxide (NaOH) at 85 oC for 4 hours. The pulp like suspension was bleached by 25 % sodium hypochloride until the fiber turned colorless and the pulp was washed by distilled water to remove excess hypochlorite. The white pulp was again filtered and lyophilized to make into a paper-like membrane. The sugar composition of the membrane was carried out by hydrolyzing 5 mg of the membrane in sealed ampules by either 2 M HCl or trifluoroacetic acid at 100 °C for 5, 10, and 15 hr and then the dried hydrolysate was analyzed by thin layer chromatography (TLC) as well as high performance liquid chromatography (HPLC). The results indicated that L. aegyptiaca membrane contained N-acetyl-D-glucosamine, the monomer of chitin, visualized by Elson-Morgen reagent. The hydrolysate also contained hexoses mainly glucose. Infrared spectrometry (IR) of the membrane showed signal of acetyl group of primary amine that characterized the structure of chitin. Methylation of the white pulp with followed hydrolysis, reduction and acetylation procedures was designed to determine the linkage type of sugar residues and GC/MS analysis revealed a linkage type of [β-1,4-N-acetyl-D -glucsamine] in one of the peak of the methylated and acetylated product. The results indicated that loofa contained 39.7% of chitin in total fiber of the dried fruit with a yield of 70% from the vegetable sponge to membrane. Animal model was carried out by using Wistar rats of 8 week in age, with at least 300 g in weight. For the test of wound healing enhancement, the animals were anesthetized by barbiturate and then two 2 cm x 2 cm full thickness mirror-image wounds was cut along the both side of spinal cord. Then membranes of loofa and SACCHACHITIN as well as cotton gauge were applied onto the wound area of Wistar rats. The wound size and the healing progression were observed for each 3~4 days after treatment. The results indicated that L. aegyptiaca membrane showed significant healing enhancement (25 days to complete heal) when compared to cotton gauge (>30 days), but the healing period was longer than that of SACCHACHITIN (21 days). However, the membrane of loofa was still advantageous in high yield, better physical properties for fabrication and with a more attractive appearance.