Comparison Of The Number Of Silver In Fixer A And B Solutions With Washing 200 Films At The Radiology Installation Of Dentistry, Faculty Of Dentistry, University Of North Sumatra

Comparison of the Number of Silver in Fixer A and B Solutions in Washing 200 Films at the Radiology Installation of Dentistry, Faculty of Dentistry, University of North Sumatra

Introduction

Radiographic examination plays a crucial role in determining the diagnosis, planning, and evaluation of treatment in dentistry. The right radiographic process depends on the technique and use of the correct X-rays. This process involves various stages such as conventional processing, which consists of developing, washing, fixing, rinsing, and drying. In this study, a laboratory experimental study was conducted to compare the amount of silver contained in the solution of fixer A and B after washing 200 films at the Radiology Installation of Dentistry Radiology, Faculty of Dentistry, University of North Sumatra (FKG USU) Medan.

Background of the Study

Radiographic examination is a crucial diagnostic tool in dentistry, allowing dentists to visualize the internal structures of the teeth and surrounding tissues. The quality of radiographic images is directly related to the effectiveness of the radiographic process. One of the critical stages in this process is the fixing stage, where the fixer solution is used to remove the remaining silver halides from the film. The type of fixer solution used can significantly affect the quality of the resulting radiographs.

Methodology

This study employed a laboratory experimental design to compare the amount of silver contained in the solution of fixer A and B after washing 200 films at the Radiology Installation of Dentistry Radiology, Faculty of Dentistry, University of North Sumatra (FKG USU) Medan. The fixer solutions used were Fixer A and Fixer B, which contained different concentrations of ammonium thiosulphate. The films were washed in a controlled environment, and the amount of silver dissolved in each fixer solution was measured using a spectrophotometer.

Results

The results of this study showed that Fixer A was able to dissolve more silver compared to Fixer B. The average amount of silver dissolved in Fixer A reached 1,3911 grams, while Fixer B only dissolved 0.9211 grams. This finding is very significant, as it shows that the use of fixer A is not only more effective in the film processing but also provides better radiographic results.

Discussion

The concentration of ammonium thiosulphate in a fixer solution plays an important role in the solubility of silver. Ammonium Thiosulphate acts as a developer agent that enhances the ability of the fixer solution in dissolving silver contained in the film radiography. Thus, the selection of the right type of fixer greatly affects the quality of the resulting radiographs. The results of this study suggest that Fixer A is a more effective fixer solution compared to Fixer B, due to its higher concentration of ammonium thiosulphate.

Conclusion

In conclusion, the type of fixer A is not only more practical to use but also more efficient in the clinical context, especially in producing high-quality radiography. Therefore, for more effective clinical practice, the use of fixer A is highly recommended, especially in processing radiographic films. This study provides valuable insights for practitioners and academics in the field of dentistry radiology, especially in improving the quality of dental health services.

Implications of the Study

The findings of this study have significant implications for the field of dentistry radiology. The use of fixer A can improve the quality of radiographic images, leading to more accurate diagnoses and better treatment outcomes. Additionally, the study highlights the importance of selecting the right type of fixer solution, as it can significantly affect the quality of the resulting radiographs.

Recommendations

Based on the findings of this study, the following recommendations are made:

1. Use of Fixer A: The use of fixer A is highly recommended, especially in processing radiographic films.
2. Selection of Fixer Solution: The selection of the right type of fixer solution is crucial in achieving high-quality radiographic images.
3. Further Research: Further research is needed to investigate the effects of different concentrations of ammonium thiosulphate on the solubility of silver.

Limitations of the Study

This study has several limitations, including:

1. Small Sample Size: The sample size of this study was limited to 200 films.
2. Controlled Environment: The study was conducted in a controlled environment, which may not reflect real-world conditions.
3. Limited Fixer Solutions: Only two fixer solutions were used in this study.

Future Directions

Future studies can build on the findings of this study by investigating the effects of different concentrations of ammonium thiosulphate on the solubility of silver. Additionally, studies can be conducted to investigate the effects of different fixer solutions on the quality of radiographic images.

Conclusion

In conclusion, this study provides valuable insights into the comparison of the number of silver in fixer A and B solutions in washing 200 films at the Radiology Installation of Dentistry, Faculty of Dentistry, University of North Sumatra. The findings of this study highlight the importance of selecting the right type of fixer solution and the use of fixer A in achieving high-quality radiographic images.
Q&A: Comparison of the Number of Silver in Fixer A and B Solutions in Washing 200 Films at the Radiology Installation of Dentistry, Faculty of Dentistry, University of North Sumatra

Q: What is the purpose of this study?

A: The purpose of this study is to compare the amount of silver contained in the solution of fixer A and B after washing 200 films at the Radiology Installation of Dentistry Radiology, Faculty of Dentistry, University of North Sumatra (FKG USU) Medan.

Q: What are the main findings of this study?

A: The main findings of this study are that Fixer A was able to dissolve more silver compared to Fixer B. The average amount of silver dissolved in Fixer A reached 1,3911 grams, while Fixer B only dissolved 0.9211 grams.

Q: What is the significance of this study?

A: This study is significant because it shows that the use of fixer A is not only more effective in the film processing but also provides better radiographic results.

Q: What is the role of ammonium thiosulphate in the fixer solution?

A: Ammonium thiosulphate acts as a developer agent that enhances the ability of the fixer solution in dissolving silver contained in the film radiography.

Q: Why is the selection of the right type of fixer solution important?

A: The selection of the right type of fixer solution is crucial in achieving high-quality radiographic images.

Q: What are the implications of this study for clinical practice?

A: The findings of this study have significant implications for clinical practice, as they suggest that the use of fixer A can improve the quality of radiographic images, leading to more accurate diagnoses and better treatment outcomes.

Q: What are the limitations of this study?

A: The limitations of this study include a small sample size, a controlled environment, and the use of only two fixer solutions.

Q: What are the future directions for this research?

A: Future studies can build on the findings of this study by investigating the effects of different concentrations of ammonium thiosulphate on the solubility of silver and the effects of different fixer solutions on the quality of radiographic images.

Q: What are the recommendations for clinical practice based on this study?

A: The recommendations for clinical practice based on this study are to use fixer A, select the right type of fixer solution, and further research is needed to investigate the effects of different concentrations of ammonium thiosulphate on the solubility of silver.

Q: What are the potential applications of this study?

A: The potential applications of this study are in the field of dentistry radiology, where the use of fixer A can improve the quality of radiographic images, leading to more accurate diagnoses and better treatment outcomes.

Q: What are the potential benefits of this study?

A: The potential benefits of this study are improved radiographic image quality, more accurate diagnoses, and better treatment outcomes.

Q: What are the potential limitations of this study?

A: The potential limitations of this study are the small sample size, the controlled environment, and the use of only two fixer solutions.

Q: What are the potential future directions for this research?

A: The potential future directions for this research are to investigate the effects of different concentrations of ammonium thiosulphate on the solubility of silver and the effects of different fixer solutions on the quality of radiographic images.

Q: What are the potential recommendations for clinical practice based on this study?

A: The potential recommendations for clinical practice based on this study are to use fixer A, select the right type of fixer solution, and further research is needed to investigate the effects of different concentrations of ammonium thiosulphate on the solubility of silver.