Compaction characteristics of a micro-structured fillerbinder “Microcrystarcellactose B3” for direct compression tableting

Journal of Pharmacy & Bioresources Pub Date : 2018-12-05 DOI:10.4314/jpb.v15i2.1

A. O. Shittu, A. Oyi, A. Isah, M. Ibrahim

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Abstract

A research was conducted to develop and evaluate a highly compressible micro-structured filler- binder for direct compression tableting. Tapioca starch (TS) was annealed, hydrolyzed and coprocessed with α -lactose monohydrate (α-LMH) and microcrystalline cellulose (MCC) to yield a novel microcrystarcellactose (MSCL B3). The powder suspensions were prepared at a concentration of 40 %w/w in five separate conical flasks. The TS granules were annealed for 1 h and subsequently hydrolyzed with α-amylase at 58 o and pH 7 for 1, 2, 3, 4, and 5 h respectively. The reaction was terminated and neutralized with 0.1 N HCL and 0.1 N NaOH respectively. The enzyme hydrolyzed starch (EHS) at 3 h, sieved fraction >75-250 μm was coprocessed with α-LMH and MCC and compressed with load ranging from 2.5 to 12.5 KN. MSCL B3 (component ratio of EHS, α-LMH, and MCC ‘35: 35:30’) possessed improved functionality over direct physical mixture of the excipients. The Py (yield values) are: Cellactose (24.2 MNm -2 ) > MCC (25 MNm -2 ) > MSCL B3 (50.0 MNm -2 ) > Starlac (143 MNm -2 ). The degree of plastic deformation occurring “Pk” are in the following order: MSCL B3 (17.0 MNm -2 ) = Cellactose ® (17.0 MNm -2 ) > MCC (18.6 MNm -2 ) > Starlac ® (19.1 MNm -2 ). MSCL B3 is as good as Cellactose ® and more superior in functionality than Starlac ® and MCC. The dilution potential for MSCL B3 in PCM and AA tablets were: 45% and 50 % respectively. MSCL B3 can be used to formulate softer tablet of both poorly compressible API and moisture sensitive API Keywords: Microcrystarcellactose; Coprocessed excipient; Directly compressible excipient; Highly functional fillerbinder; Tapioca starch

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用于直接压片的微结构填料粘合剂“微晶cellactose B3”的压实特性

研究了一种用于直接压缩压片的高压缩性微结构填料-粘结剂。对木薯淀粉(TS)进行退火、水解，并与α-乳糖一水合物(α- lmh)和微晶纤维素(MCC)共加工，制得一种新型微晶纤维素(MSCL B3)。在5个不同的锥形烧瓶中以40% w/w的浓度制备粉末悬浮液。将TS颗粒退火1 h后，用α-淀粉酶在58℃和pH 7条件下分别水解1、2、3、4和5 h。终止反应，分别用0.1 N HCL和0.1 N NaOH中和。将酶解淀粉(EHS)在3 h时，筛分大于75 ~ 250 μm，与α-LMH和MCC共加工，并以2.5 ~ 12.5 KN的负荷进行压缩。MSCL B3 (EHS、α-LMH和MCC ' 35: 35:30 '的成分比)比直接物理混合的赋形剂具有更好的功能。产率值为:Cellactose (24.2 MNm -2) > MCC (25 MNm -2) > MSCL B3 (50.0 MNm -2) > Starlac (143 MNm -2)。发生“Pk”的塑性变形程度为:MSCL B3 (17.0 MNm -2) = Cellactose®(17.0 MNm -2) > MCC (18.6 MNm -2) > Starlac®(19.1 MNm -2)。MSCL B3与Cellactose®一样好，在功能上比Starlac®和MCC更优越。PCM片和AA片对MSCL B3的稀释势分别为45%和50%。MSCL B3可用于配制难压缩原料药和湿敏原料药的软性片剂。Coprocessed赋形剂;可直接压缩赋形剂;高功能填料粘结剂;木薯淀粉

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Journal of Pharmacy & Bioresources

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