Pharma Excipients
DC excipient
Formulation and Development of Paediatric Orally Disintegrating Carbamazepine Tablets
Carbamazepine is a medicine used to manage epilepsy and partial or tonic-clonic seizures. This study aimed at formulating and obtaining carbamazepine orodispersible tablets for paediatric use at a 50 mg dose, with a diameter not greater than 6 mm and a tablet weight of 80 mg, through a direct…
Read More...
Read More...
DiCom SANAQ® SP204 – Co-processed excipient suitable for acid sensitive API’s
PHARMATRANS SANAQ offers excipients and active ingredients of outstanding quality and performance. With our research & development skill and tradition, we commit to study innovative technological solutions providing excipients contributing successfully to smart and efficient pharmaceutical…
Read More...
Read More...
RetaLac® – MEGGLE’s co-processed hypromellose lactose excipient for direct compression
RetaLac® by MEGGLE is a co-processed excipient comprising of equal parts of milled alpha-lactose monohydrate and hypromellose (USP substitution type 2208) with a nominal viscosity of 4000 cps. A specialized spray-agglomeration process generates textured, highly structured particles with d50 in…
Read More...
Read More...
Impact of Lubrication on Key Properties of Orodispersible Minitablets in Comparison to…
Orodispersible minitablets (ODMTs) offer several benefits like easy swallowability, dose flexibility and simple manufacturing through direct compression. In this study, the effect of lubrication on five different co-processed excipients (Ludiflash®, Parteck® ODT, Prosolv® ODT G2, galenIQ™ 721 and…
Read More...
Read More...
The Effect of Cellulose Nanofibers on the Manufacturing of Mini-Tablets by Direct Powder Compression
Mini-tablets (MTs) contain a small amount of active pharmaceutical ingredients in one small tablet. MTs are advantageous because they can be fine-tuned according to the age and weight of pediatric patients and they are easy for children and the elderly to swallow. However, there are manufacturing…
Read More...
Read More...
DuraLac® H – MEGGLE’s anhydrous lactose grade for direct compression
General information
Direct compression (DC) tablet manufacture is a popular choice because it provides the least complex, most cost effective process to produce tablets compared to other tablet manufacturing approaches. Manufacturers can blend APIs with excipients and compress, making dosage…
Read More...
Read More...
Development of Inline Near-Infrared Spectroscopy Method for Real-Time Monitoring of Blend Uniformity…
Blending is a critical intermediate unit operation for all solid oral formulations. For blend uniformity testing, API content in the blend must be quantified precisely. A detailed study was conducted to demonstrate the suitability of inline NIR (near-infrared) spectroscopy for blend uniformity…
Read More...
Read More...
Hydrochlorothiazide/Losartan Potassium Tablet Prepared by Direct Compression
Hydrochlorothiazide (HCTZ)/losartan potassium (LOS-K) was used as a model drug to prepare compound tablets through the investigation of the compression and mechanical properties of mixed powders to determine the formulation and preparation factors, followed by D-optimal mixture experimental design…
Read More...
Read More...
Exploiting synergistic effects of brittle and plastic excipients in directly compressible…
Direct compression (DC) is the simplest and most economical way to produce pharmaceutical tablets. Ideally, it consists of only two steps: dry blending of a drug substance(s) with excipients followed by compressing the powder mixture into tablets. In this study, immediate-release film-coated tablets…
Read More...
Read More...
Tablettose – MEGGLE’s agglomerated lactose grades for direct compression
General information
Direct compression (DC) tablet manufacture is a popular choice because it provides the least complex, most cost effective process to produce tablets compared to other tablet manufacturing approaches. Manufacturers can blend APIs with excipients and compress, making dosage forms…
Read More...
Read More...