novel multifunctional excipients by co-processing with mg-silicate dr. faisal al-akayleh faculty of...
Post on 02-Jan-2016
217 Views
Preview:
TRANSCRIPT
Novel Multifunctional Excipients
by Co-processing with Mg-Silicate
Dr. Faisal Al-AkaylehFaculty of Pharmacy, Petra University
Solid dosage forms
Active + Inactive Tablets Capsule
blends
Excipients: Inactive substances used as carriers for the active ingredients
Pharmaceutical excipientsType of excipientType of excipient ExamplesExamples
BindersBinders Starch, cellulose or modified cellulose Starch, cellulose or modified cellulose such as microcrystalline cellulose, such as microcrystalline cellulose, hydroxypropyl cellulose, lactose, or hydroxypropyl cellulose, lactose, or sugar alcohols like xylitol, sorbitol or sugar alcohols like xylitol, sorbitol or maltitolmaltitol
Fillers Fillers Lactose, dibasic calcium phosphate, Lactose, dibasic calcium phosphate, cellulose, sucrose, glucose, mannitol, cellulose, sucrose, glucose, mannitol, sorbitol, calcium carbonatesorbitol, calcium carbonate
Disintegrants Disintegrants Polyvinyl pyrrolidone, sodium starch Polyvinyl pyrrolidone, sodium starch glycolate, crosslinked sodium glycolate, crosslinked sodium carboxymethyl cellulose carboxymethyl cellulose (crosscarmellose)(crosscarmellose)
LubricantsLubricants Talc and fats, e.g. magnesium stearate Talc and fats, e.g. magnesium stearate or stearic acidor stearic acid
Pharmaceutical excipients
Function Application
Disintegration Filling Binding Wet
granulation
Direct
compression
Primojel • • •
Croscarmellose • • •
SuperTab • • •
Pharmatose • •
Avicel • • • • •
Conventional excipientsLimitations
Large gelling behavior of most disintegrants
Low compressibility of most fillers
Low disintegration of most binders
Avicel Ac-Di-Sol L-HPC
Primojel
under 100%
RH
Excipients development
Our Strategies of Excipient Development
Development of Excipient with multifunctional purposes(Binder, filler, disintegrant)
Processing of the natural bioplymers(Example: Chitin, starch, cellulose, Lactose, Microcrystalline Cellulose) with Mg silicate
Co precipitation and dry granulation (Roll compaction) with Mg silicate
Excipients processing
Roll compaction in the pharmaceutical industry
Resources of Mg Silicate from Jordan
Sand Dead Sea
Na silicate production Mg chloride-rich brine production
Mg Silicate Processing
Slurry Starch, or Chitin, or Cellulose or Lactose
For use in pharmaceutical industries
Mixing Mg silicate suspension
Decantors
Drying & sieving Mg silicate Mixing
30% MgCl2 45% Na silicate
For use in chemical industries
• The pH of the media of the co-precipitation of Ca, Mg, and Al silicates on chitin particles was measured as 10, 9, and 4, respectively
• The resulted co-precipitate was found to be an amorphous powder
Industrial Applications
Mg silicate
Chemical Pharmaceutical
Multifunctional Excipient
Fillers
Binders
Disintegrant
Soap and detergent
Lubricant
Agriculture
Adsorbent
Refining
Purifying agent
Anticaking agent
Decoloring of sugar
Fermentation industry
Processing with magnesium silicate by Roll Compaction
Improved flow Increase in
plasticity
Chitin-metal silicates..crystallography
Metal silicates
Chitin-metal silicatesMetal silicates
Mg silicate has high surface area (600-900 m2/g)-minimized upon compaction with starch to 8 m2/g… no drug adsorption observed
High water penetration and infiltration rates
Neutral pH surface acidity
Processing starch with Mg silicate
Permeability of processed starch
Swelling Abilities
Tensile strength of compacts
Disintegration time of compacts
Sensitivity to Mg stearate lubrication
Chitin – Metal Silicates
Chitin – Metal Silicates
Dissolution of Paracetamol
Compacted Lactose with Mg silicate
excipient
Microcrystalline cellulose-Mg silicate excipient
Thank you
top related