| 摘要: | 本研究之目的在以靜電紡絲(Electrospinning)技術將絲蛋白(Silk Fibroin, SF)製成酵素固定用之再生絲蛋白纖維薄膜,並評估應用於家用型牙齒美白貼片基材之可行性。取蠶繭經脫膠(Degum)處理所得絲蛋白,以(CaCl2:C2H5OH:H2O)溶劑系統溶解配成絲蛋白溶液,利用迴轉式流變儀觀察其剪切黏度變化後,以滴定法配合剪切應力建構絲蛋白三成分比例圖,發展出異於傳統透析(Dialysis)方式之剪切應力誘導相分離製程獲得新再生絲蛋白(New Regenerated SF),並分別使用毛細管黏度計、掃描式電子顯微鏡及X光繞射儀,分析再生絲蛋白產物之固有黏度、表面形態及結晶結構。將再生絲蛋白溶於甲酸配成不同濃度之紡絲液,以表面張力儀及拉伸流變儀進行表面張力與拉伸黏度之量測,並經靜電紡絲製成不織布薄膜,其後使用甲醇做表面改質,再分別以掃描式電子顯微鏡、接觸角量測儀及反射式傅立葉紅外線光譜儀,進行薄膜之表面形態、纖維直徑、潤濕性、表面能量及二級結構研究,最後將馬鈴薯萃取酵素PEA(Potatoes Extract Antioxidant)以冷凍乾燥法固定於薄膜上,利用牙齒樣品進行體外漂白,並以分光測色儀分析漂白前後之牙齒色差。結果顯示,當絲蛋白溶液中之絲蛋白比例低於1 wt%,於35 ℃下配合6~8k rpm剪切應力誘導,平均可得再生絲蛋白產率為87.7±3.5 %,高於傳統透析法(70.8±4.7 %),但相對分子量較低,結晶結構亦具差異性。另外,再生絲蛋白紡絲液之拉伸黏度隨溶液濃度上升而逐漸增加,並發現濃度在4~7 wt%時溶液呈現剪切稀化(Shear Thinning),當濃度提高至8~9 wt%,則溶液之流變特性出現轉折呈現剪切稠化(Shear Thickening),在此濃度範圍後始可以靜電紡絲紡得具均勻形態之纖維。而本研究以10 wt%再生絲蛋白紡絲液進行靜電紡絲,所得纖維直徑為0.71±0.06 ?慆,收成薄膜經甲醇改質後,表面接觸角由110.1±1.52°降至60.1±0.25°,表徵??-Pleated Crystal與Random Coil二級結構比例之Crystallinity Index(CI=A1628/A1665)則從0.7上升至2.86,最後固定有PEA之薄膜加速老化試驗兩周前後,牙齒漂白色差△E*值從61降至8。本研究發展出可利於再生絲蛋白大量生產之剪切應力誘導相分離法,解決傳統透析所需時間過長及製程不穩定之問題。本研究同時也建立再生絲蛋白紡絲液與溶液拉伸流變特性之關係,值得深入探討。而以新製程生產再生絲蛋白所紡製出之薄膜,展現較傳統透析法再生絲蛋白薄膜優良之抗水溶解性及親水性。最後將PEA固定於靜電紡絲再生絲蛋白薄膜上,結合5.25 wt% H2O2使用,可具有優異之牙齒美白效果,證實其具有應用於牙齒美白貼片之可行性。
The objective of this study is to produce electrospun regenerated silk fibroin (R-SF) membrane for enzyme immobilization and to explore the feasibility of its dental applications as a tooth whitening strip. The SF harvested from degummed cocoons of silkworm was dissolved in (CaCl2:C2H5OH:H2O) solvent. The shear viscosity of SF solution was measured by rotational rheometer. The processing window of R-SF was constructed with shear-induced method and titration test. The R-SF precipitation could be produced by shear-induced method without dialysis. The inherent viscosity, morphology, and crystal structure of R-SF were analyzed by capillary viscometer, scanning electron microscope (SEM), and X-ray diffractiometer. The R-SF was dissolved in formic acid to prepare the spinning dopes. The extensional viscosity of R-SF/formic acid was analyzed by Wilhelmy type of surface tensiometer and capillary breakup extensional rheometer (CaBER®). Non-woven membranes were then produced via electrospinning. The morphology, wettability, surface energy, and secondary structure of methanol treated R-SF membranes were respectively examined by SEM, contact angle measurement, and FTIR-ATR. Finally, the potatoes extract antioxidant (PEA) was immobilized on electrospun R-SF membranes via freeze drying. The tooth whitening strips were prepared by adding 5.25 wt% hydrogen peroxide onto PEA immobilized R-SF membranes and examined whitening efficacy by colorimeter. R-SF was produced by shear-induced precipitation method (6~8k rpm, 35 ℃) when percentage of SF was below 1 wt%. With this new method, the average yield (87.7±3.51 %) was higher than that of dialysis one (70.8±4.72 %). The crystal structures were different between the new method and dialysis. Besides, extensional viscosity of R-SF/formic acid was depended on solution concentration. The characteristic of solution showed shear thinning in the concentration range of 4~7 wt%, however it transformed to shear thickening at higher concentration range of 8~9 wt%. Within this shear thickening range, the uniform fibers were obtained by electrospinning. The 10 wt% R-SF spinning solution was chosen for experiment hereafter. The average diameter of electrospun fibers was 0.71±0.06 ?慆. After treated by methanol, the contact angle of electrospun R-SF membranes decreased from 110.1±1.52 to 60.1±0.25 degrees. The structure transformation from random coil to ??-pleated crystal of SF was expressed by crystallinity index, ratio of A1628 cm-1/A1665 cm-1, increasing from 0.7 to 2.86. After the treatment of fresh whitening strips, the stained teeth showed a significant color difference (?媧*) value of 61. But it decreased down to 8 after the whitening strip aged for 2 weeks. A new shear-induced precipitation method for R-SF production is developed with advantage of high productivity. Besides, the relationship between electrospinnability of R-SF/formic acid and solution characteristic about extensional rheology is established. This phenomenon is worth further exploration. Membranes prepare from shear-induced R-SF show superior water-resistance and hydrophilicity than those from dialyzed one. The concept for a novel tooth whitening system containing hydrogen peroxide/PEA/electrospun R-SF membrane is effective for tooth whitening evidently. |
