ResistiCure - Solving antibiotic resistance - Ideaz

ResistiCure - Solving Antibiotic Resistance One Enzyme at a Tim

Have you ever fallen sick, went to the doctor and ended up with a strip of antibiotics with no idea why you were given it in the first place? Me too, and this overprescription of antibiotics is the leading cause for the antibiotic resistance epidemic. This increases cost of hospital stays, medicinal cost and chances of permanent organ damage!

The Modern Problem

Ever since penicillin was discovered, bacteria have gotten more and more resistant to its efficacy and mode of action.
Penicillin is a B-Lactam antibiotic and is one of the more simpler antibiotics in modern medicine, but bacteria are finding new and improved methods to resist and bypass its mode of action by mutations, causing an epidemic of antibiotic resistance.
Once mutated bacteria gain resistance they form superbugs which spread like wildfire in hospitals causing severe public health threats. One might go to the hospital for treatment and end up getting infected by one of these 'superbugs' which have an extremely high mortality rate.
To treat these resistant infections, more and stronger antibiotics are prescribed which ironically lead to development of resistance for the stronger variations of the antibiotics. (https://youtu.be/DqfAqIlZDQE?si=XXE_p0cBYO2aeGST)

The Gap

The main gap in the products to overcome antibiotic resistance are - i) Low efficacyii) High rates of mutations to new solutions which limit long term effectiveness of the new therapeutics synthesised.iii) Lack of efficient drug delivery systems and specificity.

The Solution

Broad spectrum inhibition: Creating inhibitors which bind to multiple types of B-lactamases ensuring effectiveness against diverse resistant strains, which directly addresses the specificity issue.
Improved drug delivery: Using nano-carriers and cell penetrating peptides which help enzyme inhibitors cross bacterial cell walls.
Using AI to design inhibitors for high specificity and low toxicity which quickly responds to resistant mutations. Making the drug highly personalized.

Why it matters to me:

Furthering progress in this area is vital for us as a society to thrive in this modern era of mutating resistant pathogens.
As a biotechnology student who wants to eventually go into the field of immunology and clinical research this topic is highly important and dear to me.

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Comments

Ishrat October 14, 2025 at 7:08pm

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Love the ambition — mixing biotech and AI hits the sweet spot. But turning theory into a working drug? That’s where the real resistance begins.
Lalit Agarwal October 14, 2025 at 4:32pm

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Great concept — tackling antibiotic resistance with AI and smart delivery is bold. Just remember, bacteria mutate faster than grant proposals get approved, so staying ahead will be the real game.
Chinmay Joshi October 14, 2025 at 6:24am

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Truly innovative idea, I hope it succeeds and becomes a practical option against current pharmaceutical alternatives!
Parvathi Kishan October 13, 2025 at 10:54pm

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I'm not a biology student but this seems like a geniune breakthrough in the field of antibiotic resistance, hopefully it comes to fruition and a physical product is produced for this widespread epidemic.
Amala K. October 8, 2025 at 5:36am

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I have a very basic understanding of biology but whatever I have read sounds so cool and interesting! Would definitely like to know more and see this idea come to fruition. Allopathy is a solution that comes with its own drawbacks and I feel like this is a step that comes closer to perfecting it. Amazing idea!
Ankita Kumari October 6, 2025 at 6:07am

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I think this is a wonderful and much-needed idea, especially considering how the COVID-19 pandemic showed us the dangers of rapidly evolving viruses and the importance of being prepared for future health crises. A lot of us don’t really think twice about taking antibiotics, so your idea could really help spread awareness and encourage people to use them more responsibly.
Aarna SE24UCAB014 September 21, 2025 at 4:41am

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ResistiCure feels like a fresh take on a massive, often abstract problem! it zeroes in on enzymes, drug delivery, and AI-designed inhibitors instead of just “new antibiotics.” I like how it connects broad-spectrum inhibition with personalized approaches. The hard part will be translating the tech from lab to clinic, but if it works, it could genuinely shift the fight against superbugs. Good Luck!
Aditi Se24ubit040 September 19, 2025 at 9:23am

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This is such a smart approach! Using broad inhibitors, AI design, and advanced delivery to tackle antibiotic resistance effectively is so interesting.
Kushal Pandey SE24UCSE068 September 19, 2025 at 7:19am

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Great idea Advait! Your idea is compelling, but one doubt arises: how will you ensure that bacteria don’t eventually develop resistance to these new AI designed inhibitors as well? I mean, even the most advanced therapeutics face evolutionary pressure.
- Advait Suratran SE24UBIT028 > Kushal Pandey SE24UCSE068 September 20, 2025 at 6:36am
  
  Yes, mutations are a problem, even with ResistCure. However, using nanodrug delivery systems to directly deliver the payload is a new method for which developing resistance will take a long time. Most resistance acquired is by changing the protein where the antibiotic locates and binds etc. ResistiCure is not just based on one method but a combination of delivery systems and inhibitors. Eventually the bacteria are going to catchup but here we have a chance to be a step ahead, and constantly change and improve while constantly monitoring resistance trends in real time.

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