Thursday, March 19, 2020

Hydrophilic Matrix Tablets Essay Example

Hydrophilic Matrix Tablets Essay Example Hydrophilic Matrix Tablets Essay Hydrophilic Matrix Tablets Essay How Changes in the Formulation of Hydrophilic Matrix Tablets Effects Drug Release and Tablet Hydration Discussion: Part A ( hydration ) : Experiment A1: Experiment A1 was carried out to see how the belongingss of different polymers consequence the hydration of hydrophilic matrix tablets. Four different polymers were tested Sodium Alginate 100 % ( SA ) , Xanthan Gum 100 % ( XG ) , Hydroxypropylmethylcellulose 100 % ( HPMC ) and Methylcellulose 100 % ( MC ) . These were compared to a control which was a standard lactose tablet. They were all tested in fake stomachic fluid ( SGF ) and fake enteric fluid ( SIF ) individually. First if we compare all the matrix tablets to the milk sugar we can see that the lactose tablet wholly disintegrates with in the first 30mins in both fluids. However the matrix tablets barely disintegrate and are still present at 240mins. This is because the lactose tablet does non incorporate a polymer. Upon initial wetting of the matrix tablets the polymer begins to hydrate organizing a syrupy gel bed. In order for drug to be released it has to spread through this bed. This takes clip and this allows sustained dru g release. Whereas the lactose tablet merely disintegrates and releases all the drug straight off. Sodium alginate ( SA ) is a natural hydrophilic polyose and is a additive polymer. We can see from the consequences that it was quickly able to organize a gel bed nevertheless the size of the gel bed was different in the two fluids. SA formed a larger gel bed in the SGF than the SIF as it got to 4mm in the SGF and merely 2.5 in the SIF. It besides took longer for the gel to increase in size in the SIF. The nucleus breadth decreased as clip went on and were similar for both fluids but overall it was somewhat lower in the SGF at the clip points. The difference in the breadth of the gel bed between the two fluids shows that the hydration of SA is dependent on pH. SIF has a pH of around 7.2 so is impersonal nevertheless SGF has a pH of around 2 to 3 doing it acidic. As the concentration of H ions addition ( in acidic conditions ) there is inter-conversion of carboxylate anions ( sodium alginate ) to free carboxyl groups ( alginic acid ) . This means in acidic conditions like SGF SA is ab le to swell but is indissoluble nevertheless it is soluble in impersonal conditions. Therefore the gel bed may acquire dissolved in SIF and consequence in a lower breadth compared to SGF which would hold a thick gel bed. Hence alterations in pH are likely to change the hydration features of the polymer and consequence its action on sustained drug release. Xanthan gum ( XG ) , an anionic polymer, showed different hydration features compared to SA. It produced the widest gel bed the fastest at 30mins compared to the other polymers in both the fluids. This shows its ability to organize a thick gel bed rapidly. It was besides able to bring forth the widest gel bed in the SIF compared to the other tablets. It had similar features in both fluids which indicated it is non pH dependant. The nucleus breadth is besides similar in both. HPMC besides was able to organize a gel bed nevertheless its size increased the slowest in both fluids when compared to the other polymers. It is non pH dependant. Again the nucleus was similar in both. Cellulose is really soluble and porous this could be why the gel bed was non really thick Methylcellulose ( MC ) was besides able to organize a gel bed and had similar consequences for both gel and nucleus breadth in both fluids. To reason Quick hydration and subsequent gel formation is a foremost and of import belongings of a polymer for it to be used for sustained release preparation. This is due to the thought that if the polymer does non hydrate rapidly, the surface barrier ( gel bed ) can non be formed instantly, which may do a big sum of drug to be released during the fast initial stage. Besides the thicker the bed the better this is because the more the matrix crestless waves, the longer the diffusion way length required for the drug to come out, which consequences in decreasing of release rate. Therefore all four tablets are acceptable to be used as hydrophilic matrices as they all form a gel bed but out of all four matrix tablets I believe XG to hold the best hydration features as it forms the quickest and thickest gel bed. There were a few restrictions. Cuting the tablets may hold affected the measuring of breadth, tabular arraies were hard to manage when nucleus was little and gel bed was big and finding the waterlessness of the nucleus was hard. Experiment A2: The purpose of experiment A2 was to see how different concentrations of polymer effected hydration of the matrix tablet. By and large the tendency shows that as you increase the concentration of polymer the rate of hydration lessenings. The consequences for the two fluids were similar nevertheless the hydration rate was somewhat greater in SGF. 5 % of polymer was excessively small to even organize a gel bed and therefore the tablet disintegrated directly off. At 10 % there was rapid formation of a gel bed nevertheless the nucleus breadth was low and the nucleus was wet bespeaking a high rate of drug release and the tablet disintegrated by 240mins. For 15, 20 and 30 % a gel bed did signifier at a slower rate severally but at that place was a higher nucleus breadth and the nucleus was drier. To reason, the greater the concentration of the polymer the thicker the gel bed. However it takes longer to organize. When the concentration of HPMC is low the gel bed is non thick and the hydrous matrix would be extremely porous with a low grade of tortuousness taking to low gel strength and rapid diffusion of the drug from matrix. Besides the addition in lactose at low concentrations of polymer agencies that it disintegrates faster. At high concentrations the matrix is more compact and the intermolecular interactions between the polymer means it is less porous so it takes longer to hydrate but when it does it organize a thick syrupy bed forestalling increased drug release. I believe at that place needs to be a via media between the rate of hydration and drug release. Therefore the best concentration to utilize would be about 20 % as it is able to organize a gel bed within 30mins and forestall a high rate of drug release. The restrictions for this experiment were similar to those fr om A1 Experiment A3: Experiment A3 involved the usage of the decomposition rigs. The thought of this trial was to see how polymer concentration effects hydration and decomposition of hydrophilic matrix tablets. The decomposition of three different concentrations ( 5, 15 and 30 % ) of SA, XG and HPMC were tested in SGF and SIF. For SA the general tendency showed that as polymer concentration increases the tablet disintegrates less. As discussed above in SGF SA forms an indissoluble polymer which makes it thicker than the bed in SIF. Therefore it would take longer for fluid to perforate the tablet in SGF and that is why it disintegrates quicker in SIF. In SIF it to the full disintegrates by 45mins for all concentrations but the tablet is still present in the SGF at this clip. For XG none of the tablets in both fluids managed to disintegrate. Disintegration was faster in SGF. This could be due to the sourness of the SGF. For SIF all three different concentration seemed to demo the same decomposition profile. As concentration increased in SGF the clip taken for decomposition increased like SA. For HPMC the consequences were surprising. For both the fluids all the concentrations of HPMC disintegrated wholly within the first hr and no gel bed was observed. Decomposition was faster in SIF. For SGF it took longer at higher concentrations. Therefore it did non demo sustained release belongingss like XG and SA. There were many restrictions. Exact clip of decomposition was difficult to find due to the clip intervals. Two different people were taking consequences so they would hold different subjective positions. Besides the graduated table used was obscure. The tablets could hold been assayed and more concentrations should hold been tested. Part B ( drug release ) : Part B was used to prove the drug release belongingss of hydrophilic matrix tablets. In order to make this the consequences obtained from the basket disintegration setup will be compared to the consequences from the flow rig setup. This will let us to find which disintegration method is more accurate every bit good as comparing their variableness. Revolving basket: If we look at the graph that shows the sum of drug released against clip. We can see that every bit shortly as the lactose tablet is inserted into the SIF there is an initial explosion of drug release. The sum of drug released continues to increase at a fast rate until around 30min where it begins to plateau and so lessening. The drug is released rapidly from the lactose tablet as there is no gel bed formed to decelerate the diffusion of drug out. Therefore the fluid rapidly disintegrates the milk sugar and all the drug is released. For the polymer tablet there is once more an initial explosion of drug release precisely the same as the lactose tablet. This is because the gel bed has non formed yet. Once the bed forms the sum of drug released begins to diminish compared to the control. It plateaus at around 15mins and so continues to let go of the same sum of drug for the remainder of the experiment. Therefore drug release continues for a longer period indicating sustained release. The rate of drug released for both the tablets start high and so bit by bit decreases. For the control the rate of release is ever greater than that of the polymer shown by the graph. For the control the drug is released quickly until there is none left. With the polymer it shows good modified release as the rate is a batch lower and is comparatively changeless between 5 to 15 mins. Flow -through rig: The flow rig showed clear conclusive consequences about the release profiles for the two different types of tablets. If we look at the graph demoing concentration of drug release over clip we can see directly off the modified release features of the polymer tablet. For the control every bit shortly as the rig is turned on we get immediate drug release. It continues to lift quickly until 10min and so begins to diminish until 60min where it is so wholly disintegrated. Both the tablets had disintegrated wholly. For the polymer we can once more see an initial explosion of drug release. This is because the gel bed has non formed. After 5 min one time the bed has formed the graph tableland and there is a changeless sum of drug released until 120min nevertheless the concentration of drug released is a batch lower than that of the control. When compared to the control there is a clear difference in the two release profiles. The two rigs both analysed the same thing but both had differing methods and gave different consequences. The basket method was simpler to put up and less fiddly to take consequences. However there were restrictions. Air bubbles on the basket could hold altered drug release, it was hard to reel the readings and during the start the clip intervals were really close together doing it difficult to take all the readings. The flow rig besides had drawbacks. First our setup 3 flow tubings were leaky. This meant that merchandise would hold been lost. Besides for one of the control rig the flow rig stopped working and no more consequences could be taken. Therefore we were unable to add mistake bars to the control graph. Finally merchandise may hold been lost when reassigning the pipes. Besides for both the experiments they did non mime the proper physiological conditions that would be present in the organic structure. If we compare the two methods I believe the flow-through rig gave more acc urate dependable consequences. The mistake bars were greater in the basket method significance at that place was a batch of fluctuation and the consequences would be hard to reproduce. Besides for the flow rig both groups showed indistinguishable consequences this was non the instance for basket. The flow rig showed the concentration of drug released at precisely the clip specified whereas the basket method shows the entire sum of drug released by the tablet at the specific clip so it is cumulative. Therefore the consequences for the flow rig are more good and manageable as the one graph gives all the needed information. Besides if the tubings were crystalline we could see the tablet. A reciprocating cylinder was besides used to prove drug release. Even though it mimics physiological conditions the best it provided inconclusive consequences in SIF for SGF it once more showed a lower rate of drug release for the polymer. However the mistake bars were really big for all the consequences and hence non accurate. Decision: By comparing the consequences from all the experiments we can reason Xanthan Gum is the best polymer to utilize for sustained release preparations, nevertheless all the polymers used produced acceptable hydrophilic matrices. XG had the most advantageous hydration profile compared to the other polymers as explained in the decision of portion A1. It can besides be seen that concentration of the polymer has an consequence on hydration explained in the decision of portion A2. XG showed sustained release at all concentrations but 15 % would be the best via media between decomposition clip and drug release. Finally drug release from tablets with polymers can clearly demo sustained release when tested by many different disintegration rigs nevertheless the flow-through rig proved to be the most successful.

Monday, March 2, 2020

McDonalds French Fries Are Still Not Vegetarian

McDonald's French Fries Are Still Not Vegetarian Most animal-rights activists follow a plant-based diet for ethical reasons and avoid places where billions of dead animals are served up every day. Still,  vegetarians or vegans  may be inclined to sneak into McDonalds on occasion for a serving of the famous Golden Arches french fries. If so, they should stop. In spite of numerous protests and even lawsuits, McDonalds french fries are not, and never have been, vegan or vegetarian. But how can that be? you might ask. French fries are made from potatoes and fried in oil, so theres no harm in grabbing a serving for the road. Right? Its All Good in India Sure. If you live in India. In that country, you can consume all the McDonalds French fries your heart desires because they are made of only plant-based ingredients. In fact, McDonalds in India does not serve pork or beef products at all. So if the fast-food giant can respect the fact that, in India, cows are sacred and not for consumption, as well as make veg-friendly fries, then why can’t they do it in the United States? Not in the U.S.A. However, French fries served at American McDonald’s locations are not vegetarian. Thats because for decades McDonald’s cooked its fries in beef fat- its supposedly what gave them their famous flavor. But when they switched to vegetable oil, the fries were no longer as tasty. The solution was to add natural beef flavor to the spuds. Class-Action Lawsuit In 2001, McDonald’s was hit with a class-action lawsuit, led by a group of Hindu customers who felt they were being duped into unwittingly consuming animal products, which is strictly against their religion. Other vegetarians and vegans joined the fight, pointing out that the company gave out misleading information. Customers were being told that the French fries were fried in vegetable oil- the inference being that the fries were no longer cooked in lard and were therefore veg-friendly. Admitting that the fries were coated in beef flavoring, McDonalds settled for $10 million, with $6 million going to vegetarian organizations. Whats in a Fry? But they didn’t change their recipe one bit. Their website still lists the ingredients for all to see. As a representative explained: â€Å"With regard to our French fries, any customer in the U.S. who contacts McDonalds USA to ask if they contain beef flavoring is told yes. The way it works is, McDonalds French fry suppliers add a very small amount of beef flavor to the oil in the par-frying process at the potato processing plant before shipping the spuds to individual outlets. Once at the restaurant, the fries are cooked in vegetable oil. That same representative went on to say that, In addition, we have no plans to change the way we prepare our French fries in the U.S. However, it is important to know that our French fries are prepared differently in other countries.† To vegans and vegetarians, this is insulting. How difficult would it be to just leave out the beef flavoring like they do in India? The likely answer is that because the majority of customers in India are vegetarian or vegan, not accommodating their ethics would mean a loss of billions of dollars. Here in the United States, the opposite is likely to be true. Leave off the beef flavor that has long given the McDonalds French fry its famous flavor, and Americans are likely to just say no to Do you want fries with that?