Bio-chemical Preparation of Microcrystalline Cellulose Powder from Cotton Linters for Utilization as Tablet Excipients

Harshali N. Shende, Varsha Satankar, V. Mageshwaran
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Abstract

Aims: The present work is aimed to prepare microcrystalline cellulose (MCC) powder from cotton linters by an eco-friendly bio-chemical process and to evaluate the prepared MCC as tablet excipients. Study Design: Randomized Complete Block Design. Place and Duration of Study: Ginning Training Center, ICAR-Central Institute for Research on Cotton Technology, Nagpur, Maharashtra, India during June to December, 2019. Methodology: The MCC was prepared from cotton linters by enzymatic and chemical methods and compared with commercial grade MCC (Avicel® PH101). The crude enzyme extract of Aspergillus sp. VM-1 was obtained by solid-state fermentation and used for hydrolysis of cotton linters at 60℃ for 60 min. In the chemical process, 10% alkali was used for hydrolysis at boiling temperature for 60 min. In both the processes, the hydrolyzed cotton linters were bleached with hydrogen peroxide. The MCC powders were characterized for physico-chemical and tableting properties based on Indian Pharmacopeia (IP) and Untied States Pharmacopeia (USP) specifications. Results: The α-cellulose content (%) in the synthesized MCC by enzymatic process was 98.1 while the commercial grade MCC, Avicel® PH101 had 98.5. The physico-chemical properties of synthesized MCC by enzymatic process were comparable with Avicel PH101 and meet the IP standards. The degree of polymerization (DP) of prepared MCC and Avicel PH101 were 215 and 157, respectively. The FT-IR spectrum of synthesized MCC had similarity to that of Avicel® PH101. The tableting properties of prepared MCC met USP standards. The MCC prepared from cotton linters by enzymatic was found to be superior to chemical process with respect to cellulose yield, degree of polymerization and tablet dissolution property. Conclusion: The results showed MCC synthesized from cotton linters through enzymatic route is a promising candidate for direct compressible excipient of tablet. The present study highlights that the enzymatic process significantly reduces the alkali usage and heating temperature and thus saves the chemicals and energy in the process. 
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用生物化学方法从棉花秆中制备微晶纤维素粉,并将其用作片剂辅料
目的:本研究旨在通过生态友好型生物化学工艺从棉花绒毛中制备微晶纤维素(MCC)粉末,并对制备的 MCC 作为片剂辅料进行评估。研究设计:随机整群设计。研究地点和时间:2019年6月至12月,印度马哈拉施特拉邦那格浦尔,ICAR-中央棉花技术研究所轧棉培训中心。研究方法:用酶法和化学法从棉花绒毛中制备 MCC,并与商业级 MCC(Avicel® PH101)进行比较。通过固态发酵获得曲霉菌 VM-1 的粗酶提取物,用于在 60℃ 下水解棉短绒 60 分钟。在化学工艺中,使用 10%的碱在沸腾温度下水解 60 分钟。在这两种工艺中,水解后的棉短绒都用过氧化氢漂白。根据印度药典(IP)和美国药典(USP)的规范,对 MCC 粉末的物理化学和制片特性进行了表征。结果:酶法合成的 MCC 中的α-纤维素含量(%)为 98.1,而商业级 MCC Avicel® PH101 的含量为 98.5。酶法合成 MCC 的理化性质与 Avicel PH101 相当,符合 IP 标准。制备的 MCC 和 Avicel PH101 的聚合度(DP)分别为 215 和 157。合成 MCC 的傅立叶变换红外光谱与 Avicel® PH101 相似。制备的 MCC 的压片性能符合 USP 标准。在纤维素产量、聚合度和片剂溶解性能方面,用酶法从棉短绒中制备的 MCC 优于化学法。结论研究结果表明,通过酶解工艺从棉短绒中合成的 MCC 是一种很有前景的直接可压缩片剂辅料。本研究强调,酶解工艺大大减少了碱的用量和加热温度,从而节省了工艺中的化学品和能源。
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