Manufacture Of Efevesen Tablets Of Alang-alang Extract (Imperata Cylindrica (L.) P. Beauv) Using The Direct Printing Method

Manufacture of Effervesen Tablets of Alang-Alang Extract (Imperata Cylindrica (L.) P. Beauv) Using the Direct Printing Method

Discussion Category: Undergraduate Theses, Education, Journal, Thesis, University, Student, Campus

Making an Effervesen Tablet Extract Alang-Alang (Imperata Cylindrica (L.) P. Beauv) Using the Direct Print Method

Background

The utilization of natural ingredients as drugs is increasingly popular, mainly because it can reduce side effects that often arise from the use of synthetic drugs. One of the natural ingredients that is quite promising is the root of the alang-alang, which is known to have various properties, including as a heat reliever in the body. In this study, reed roots are used in the form of Ephervesen tablets, a preparation chosen because of its ease of use and the speed of onset of action is better than conventional tablets. The use of natural ingredients in drug development has gained significant attention in recent years due to their potential to provide safer and more effective alternatives in treatment.

Research Purposes

This study aims to evaluate the potential of reed root extracts combined with various variations of filling materials to be used as efevesen tablets. The use of Ephervesen tablets is expected to increase the bioavailability of active compounds by accelerating the dissolution process and absorption in the body. The development of natural ingredient-based drug preparations is a promising area of research, and this study contributes to the understanding of the potential of alang-alang root extract as a natural remedy.

Manufacturing Method

The manufacture of Ephervesen tablets begins with the collection of reed root extract using the maceration method with 80% ethanol solvent. The extract obtained was then dried with lactose in a ratio of 1: 3. The direct printing method is used to mix tablets, with different variations of fillers. The formulas used include:

• Lactose granules (formula f1)
• Lactose granules and starch manihot with a ratio of 2: 1 (Formula F2)
• Mixture with a ratio of 1: 1 (formula f3)
• Mixture with a ratio of 1: 2 (formula F4)
• Granul Amilum Manihot (Formula F5)
• Avicel PH102 (Formula F6)

The preformulation test was carried out to test the physical properties of the resulting granules, including stationary angles, flow time, and tap index. Furthermore, the evaluation of the Ephervesen tablet is carried out by paying attention to the uniformity of weight, violence, friability, soluble time, pH, and water content.

Research Result

The results of the preformulation test show that all efevesen tablet formulas have good characteristics and meet the specified criteria. The resulting tablet shows the hardness value ranges from 3-5.5 kg, friability between 0.16-29%, dissolved time between 2.11-2.93 minutes, pH is between 6-6.7, and water content between 4-4.9%. The results indicate that the direct printing method is a suitable method for the manufacture of Ephervesen tablets.

Conclusion

From the results of this study, it can be concluded that the reed root extract can be formulated into an effervesen tablet using the direct printing method. Formula with granule lactose filler (F1 formula) succeeded in meeting all the characteristics of the Ephervesen tablet, with results approaching the characteristics of the Avicel PH 102 formula (Formula F6). This study shows good potential for the development of natural ingredient-based drug preparations, which can provide a safer and more effective alternative in treatment.

Thus, the manufacture of ehatime tablets from alang-alang root extract not only provides convenience in use, but also offers a faster way for the body to absorb useful active substances. This is a positive step in utilizing natural resources for health, while reducing dependence on synthetic drugs.

Future Directions

The results of this study provide a promising foundation for further research on the development of natural ingredient-based drug preparations. Future studies can focus on the optimization of the manufacturing process, the evaluation of the efficacy and safety of the Ephervesen tablets, and the comparison of the results with conventional tablets. The use of natural ingredients in drug development has the potential to provide safer and more effective alternatives in treatment, and this study contributes to the understanding of the potential of alang-alang root extract as a natural remedy.

Limitations

This study has some limitations that should be considered. The use of a small sample size and the limited number of formulas tested may not be representative of the entire population. Additionally, the study only evaluated the physical properties of the Ephervesen tablets and did not assess their efficacy and safety. Future studies should aim to address these limitations and provide a more comprehensive understanding of the potential of alang-alang root extract as a natural remedy.

Conclusion

In conclusion, this study demonstrates the potential of alang-alang root extract as a natural remedy for the development of Ephervesen tablets. The direct printing method is a suitable method for the manufacture of Ephervesen tablets, and the results show that the formula with granule lactose filler (F1 formula) meets all the characteristics of the Ephervesen tablet. This study contributes to the understanding of the potential of natural ingredient-based drug preparations and provides a positive step in utilizing natural resources for health, while reducing dependence on synthetic drugs.
Q&A: Manufacture of Effervesen Tablets of Alang-Alang Extract (Imperata Cylindrica (L.) P. Beauv) Using the Direct Printing Method

Frequently Asked Questions

Q: What is the purpose of this study?

A: The purpose of this study is to evaluate the potential of reed root extracts combined with various variations of filling materials to be used as efevesen tablets. The use of Ephervesen tablets is expected to increase the bioavailability of active compounds by accelerating the dissolution process and absorption in the body.

Q: What is the direct printing method?

A: The direct printing method is a technique used to mix tablets, with different variations of fillers. This method is used to create a uniform mixture of the reed root extract and the filler material.

Q: What are the different formulas used in this study?

A: The formulas used in this study include:

• Lactose granules (formula f1)
• Lactose granules and starch manihot with a ratio of 2: 1 (Formula F2)
• Mixture with a ratio of 1: 1 (formula f3)
• Mixture with a ratio of 1: 2 (formula F4)
• Granul Amilum Manihot (Formula F5)
• Avicel PH102 (Formula F6)

Q: What are the physical properties of the resulting granules?

A: The physical properties of the resulting granules were tested using the preformulation test, which included stationary angles, flow time, and tap index.

Q: What are the characteristics of the Ephervesen tablets?

A: The characteristics of the Ephervesen tablets were evaluated by paying attention to the uniformity of weight, violence, friability, soluble time, pH, and water content.

Q: What are the results of the preformulation test?

A: The results of the preformulation test show that all efevesen tablet formulas have good characteristics and meet the specified criteria. The resulting tablet shows the hardness value ranges from 3-5.5 kg, friability between 0.16-29%, dissolved time between 2.11-2.93 minutes, pH is between 6-6.7, and water content between 4-4.9%.

Q: What is the conclusion of this study?

A: From the results of this study, it can be concluded that the reed root extract can be formulated into an effervesen tablet using the direct printing method. Formula with granule lactose filler (F1 formula) succeeded in meeting all the characteristics of the Ephervesen tablet, with results approaching the characteristics of the Avicel PH 102 formula (Formula F6).

Q: What are the future directions of this study?

A: Future studies can focus on the optimization of the manufacturing process, the evaluation of the efficacy and safety of the Ephervesen tablets, and the comparison of the results with conventional tablets.

Q: What are the limitations of this study?

A: This study has some limitations that should be considered. The use of a small sample size and the limited number of formulas tested may not be representative of the entire population. Additionally, the study only evaluated the physical properties of the Ephervesen tablets and did not assess their efficacy and safety.

Q: What are the implications of this study?

A: The results of this study provide a promising foundation for further research on the development of natural ingredient-based drug preparations. The use of natural ingredients in drug development has the potential to provide safer and more effective alternatives in treatment.

Q: What are the potential applications of this study?

A: The potential applications of this study include the development of natural ingredient-based drug preparations for various diseases and conditions. The use of alang-alang root extract as a natural remedy has the potential to provide a safer and more effective alternative to conventional treatments.

Q: What are the future perspectives of this study?

A: The future perspectives of this study include the optimization of the manufacturing process, the evaluation of the efficacy and safety of the Ephervesen tablets, and the comparison of the results with conventional tablets. The use of natural ingredients in drug development has the potential to provide safer and more effective alternatives in treatment.