The infections caused by bacteria are often treated with antibiotics. The first antibiotic that was widely available in the 1940s was Penicillin. Since then, experts have developed various antibiotics to treat different infections caused by bacteria. It includes infection of the throat, ear, nose, chest, and respiratory system. But the important question here is that how long do antibiotics stay in your system

The specific type of antibiotics is only effective for different problems. Hence health care professionals prescribe each type to cure specific kinds of bacterial infections. 

The antibiotics are now present in capsules, tablets, intravenous formulas, ointments, and in powdery form for liquid suspensions. However, antibiotics are only available to the people that own a prescription. 

Antibiotics are a common prescription for strep throat, sinus infections, ear infections, skin infections, or pneumonia. Furthermore, it is important to understand that antibiotics do not work against viral or fungal infections. It is crucial to consult a doctor as some bacterias develop resistance against antibiotics. So, there is a chance it may not prove effective for you and only worsen the illness. 

How Long Do Antibiotics Stay in Your System and How do they Work? 

Ideally, antibiotics work in two different ways that treat infections. The bactericidal agents cause the cell death of bacterias, whilst the bacteriostatic agents inhibit the asexual reproduction and growth of bacterias. Penicillin and Amoxicillin are the bactericidal agents responsible for the breakdown of bacterial cells. 

The antibiotics are quick and efficient to work as soon as they are consumed. Different types of antibiotics stay in your system for different periods. If you want to know how long do antibiotics stay in your system amoxicillin – stays for about 24 hours in your system. However, Azithromycin stays in your body for about 15 days after the last dose. In addition to this, a common question is how long do iv antibiotics stay in your system? Studies show they stay in your system for 7 to 8 hours after the last dose is taken. To find out more about the life of various antibiotics, contact your doctor or nearby pharmacist. 

How Long Do Antibiotics Stay in Your System and their Intake

It is crucial to ensure that you take the prescribed antibiotics on time. Different antibiotics are effective in your system for different lengths. Hence, you must follow the prescription accurately to cure the infections. 

Unusually, doctors recommend taking antibiotics after every 8 to 12 hours. In addition, ask your healthcare professional whether to take it on an empty stomach or not

  • Precautions 

Furthermore, if you miss a dose by mistake, do not take two doses at once to make up for it. Talk to your doctor about any confusion you have regarding your medication. It is recommended to not share your prescribed antibiotics with others or use theirs as well. It can cause a lot of different side effects

Moreover, do not take antibiotics for a longer time than prescribed. Also, do not throw and flush away the expired antibiotics. Instead, ask your pharmacist about the best way to dispose of old medicines

  • Storage 

In general, the antibiotics must be stored in a cool and dry place. Make sure to read the instructions on the drug label and follow them as well. Ensure to check the expiration dates of your medicines as well. As they may cause you harm and lead to antibiotic resistance. 

  • Side Effects

Antibiotics are powerful drugs that you should not misuse. However, the side effects of antibiotics are not generally very strong but if they persist for a long time. In such events, you should consult a doctor. Some side effects include diarrhea, stomachache, headache, fungal infections, and nausea. 

How Long Do Antibiotics Stay in Your System – Conclusion

This was a brief overview of all that you needed to know about antibiotics. Make sure to take them on time and not consume them without a prescription. As then it may lead to the significant health risk of antibiotic resistance.