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young girl treating and cleaning her minor wound

Small injuries will always be a part of our lives. From getting a skinned knee as a child to minor accidents in the kitchen, you’re bound to get them every now and then. In fact, one study shows you can even get up to 9,672 minor injuries within your lifetime1


While you can’t avoid them, the next best thing you can do is treat them properly to support wound healing and help prevent further complications, such as sepsis2 — a life-threatening disease caused by infection that can shut down your organs. 


One major thing to consider is what to treat your wounds with. Alcohol may be the first thing to come to mind, but the sting that comes with it can be a turn off for a lot of people. We’ve also noted other issues that come with disinfecting with alcohol in a previous blog3


In this article, we provide a wound disinfectant alternative to alcohol when it comes to sting-free, proper wound care.


Key takeaways

  • Minor injuries are unavoidable and can lead to serious complications like sepsis if poorly managed.

  • Alcohol causes pain because it triggers pain-detecting nerve endings in the same way heat does.

  • No-sting alternatives to treat wounds exist.

  • Unlike alcohol, which cannot eliminate bacterial spores5, povidone-iodine provides a sting-free, no-alcohol solution9 that kills a wide range of germs based on lab testing.


Why Does Alcohol Sting?


If you’ve ever tried to disinfect your wounds with alcohol, you might have noticed how painful it is upon contact. 


That’s because alcohols like ethanol react with nerve endings that detect pain, called nociceptors4. When you place alcohol on a wound, these pain receptors register it in the same way they register heat, thus creating alcohol’s characteristic sting.


Alcohol vs Povidone-Iodine for Wounds


Fortunately, not all disinfectants have that effect during wound treatment. And aside from lacking the characteristic sting, they can also help prevent infection in ways alcohol may not.


According to the Centers for Disease Control and Prevention (CDC)5, alcohol can kill active bacteria, fungi, and viruses. However, it may not eliminate bacterial spores, which are structures that help bacteria survive in extreme conditions and stay relatively dormant6.


On the contrary, iodophors — or iodine solutions like povidone-iodine — kill bacteria, viruses, and fungi, even certain bacterial spores over prolonged exposure7. While they do contain iodine, they don’t carry its irritating effects because iodine is gradually released from the povidone-iodine complex. So aside from being able to curb germs from reproducing, povidone-iodine is also less likely to sting when applied to wounds. 


Povidone-iodine products, then, don’t just clean and disinfect wounds. They also help treat and protect them from further germ growth to help them heal properly.


Proper Wound Care with Povidone-Iodine (BETADINE®)


Aside from lacking the sting, Povidone-Iodine (BETADINE®) Wound Care also provides four wound treatment steps in one: 


  1. Cleans: Aside from wound treatment, Povidone-Iodine (BETADINE®) can also be used to clean your wounds.

  2. Disinfects: It’s clinically-proven to kill 99.99% of bacteria, fungi and viruses in as early as 30 seconds (based on in-vitro data)7.

  3. Protects: Its antiseptic property helps protect your wounds against infection.

  4. Treats: Povidone-Iodine (BETADINE®) can also help the wound healing process by potentially accelerating tissue repair8.


Note: Povidone-Iodine (BETADINE®) is not recommended for use in children below 2 years of age.

If symptoms persist, consult your doctor. 

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Povidone-Iodine Betadine Antiseptic Wound Solution 120mL bottle against white background

TOP SELLING

POVIDONE-IODINE (BETADINE®) 10% ANTISEPTIC SOLUTION

References:

  1. Fung B. Infographic: the average person gets 9,672 minor injuries in a lifetime. The Atlantic. Published May 30, 2012. Accessed October 23, 2025. https://www.theatlantic.com/health/archive/2012/05/infographic-the-average-person-gets-9-672-minor-injuries-in-a-lifetime/257777/.

  2. Arora J, Mendelson AA, Fox-Robichaud A. Sepsis: network pathophysiology and implications for early diagnosis. Am J Physiol Regul Integr Comp Physiol. 2023;324(5):R613-R624. doi:10.1152/ajpregu.00003.2023.

  3. Betadine Philippines. Debunking 4 common myths about the use of alcohols for wounds. Betadine Philippines website. Accessed October 23, 2025. https://ph.betadine.global/en/ph/knowledge-hub/article/debunking-4-common-myths-about-the-use-of-alcohols-for-wounds.

  4. Trevisani, M., Smart, D., Gunthorpe, M. J., Tognetto, M., Barbieri, M., Campi, B., Amadesi, S., Gray, J., Jerman, J. C., Brough, S. J., Owen, D., Smith, G. D., Randall, A. D., Harrison, S., Bianchi, A., Davis, J. B., & Geppetti, P. (2002). Ethanol elicits and potentiates nociceptor responses via the vanilloid receptor-1. Nature Neuroscience, 5(6), 546–551. https://doi.org/10.1038/nn0602-852 

  5. Centers for Disease Control and Prevention. Chemical disinfectants: guideline for disinfection and sterilization in healthcare facilities (2008). Centers for Disease Control and Prevention website. Updated May 24, 2024. Accessed October 23, 2025. https://www.cdc.gov/infection-control/hcp/disinfection-sterilization/chemical-disinfectants.html.

  6. ScienceDirect. Bacterial spore. ScienceDirect Topics. Accessed April 15, 2026. https://www.sciencedirect.com/topics/immunology-and-microbiology/bacterial-spore.

  7. Tan et al. Comparative in vitro evaluation of the antimicrobial activities of povidone-iodine and other commercially available antiseptics against clinically relevant pathogens. GMS Hygiene and Infection Control 2021,Vol. 16, ISSN 2196-5226

  8. Leaper DJ, Durani P. “Topical antimicrobial therapy of chronic wounds healing by secondary intention using iodine products.” International Wound Journal 2008; 5:361-368.

  9. Ripa S, Bruno N, Reder RF, Casillis R, Roth RI. Clinical applications of povidone-iodine as a topical antimicrobial. In: Paulson DS, editor. Handbook of topical antimicrobials: Industrial applications in consumer products and pharmaceuticals. New York, NY: Marcel Dekker, Inc.; 2002. pp. 78-99.