Low or deficient vitamin C status can matter more than people realize because it can show up as everyday problems they already have, like bleeding gums when they brush or cuts and scrapes that seem slow to heal. Low vitamin C weakens collagen formation, making blood vessels in the gums and skin more fragile and increasing the risk of bleeding gums, easy bruising, and rough, dry skin. Clinical periodontal studies also show that ascorbic acid used alongside standard care can improve bleeding on probing, plaque and gingival indices, clinical attachment level, pocket depth, and gum aesthetics, supporting its role in healthier gums and more efficient healing of both oral tissues and skin. This medication is commonly used for Stomach Acid.
Murererehe J, Uwitonze AM, Nikuze P, Patel J and Razzaque MS (2022) Beneficial Effects of Vitamin C in Maintaining Optimal Oral Health. Front. Nutr. 8:805809. Ruzijevaite G, Acaite E, Jagelaviciene E. Therapeutic Impact of Ascorbic Acid on Oral and Periodontal Tissues: A Systematic Literature Review. Medicina (Kaunas). 2024 Dec 11;60(12):2041. Al-Niaimi F, Chiang NYZ. Topical Vitamin C and the Skin: Mechanisms of Action and Clinical Applications. J Clin Aesthet Dermatol. 2017 Jul;10(7):14-17. Epub 2017 Jul 1. Fitzpatrick, R.E. and Rostan, E.F. (2002), Double-Blind, Half-Face Study Comparing Topical Vitamin C and Vehicle for Rejuvenation of Photodamage. Dermatologic Surgery, 28: 231-236. Lassig AAD, Wilson AC, Jungbauer WN, Joseph AM, Lindgren B, Odland R. The Effects of Supplemental Vitamin C in Mandibular Fracture Patients: A Randomized Clinical Trial. Recent Progress in Nutrition 2023. Tajari F, Toloue Ghamari B, Jafari Kafiabadi M, Shariatzade H, Biglari F, Mahmoudi Nasab O, Salavati Mohammadi N, Najd Mazhar F. Effect of Vitamin C Injection on Flexor Tendon Healing in Zone II: A Randomized Controlled Trial. Cureus. 2026 Jan 22;18(1):e102075.
Some side effects may be linked to nutrient depletion caused by this medication.
Studies find that proton pump inhibitors (PPIs) may increase your risk of magnesium deficiency. A large study involving over 100,000 participants found a significant association between PPI use and lower magnesium levels (hypomagnesemia). PPIs work by reducing stomach acid production, which can also play a role in magnesium absorption. Individuals taking PPIs, particularly long-term use, should consider magnesium supplementation to help protect against deficiency.
Long-term use of PPIs might raise the risk of calcium deficiency and weaken bones. A potential mechanism for this is chronic hypergastrinemia, a condition where the stomach produces excess gastrin due to PPI use. This can lead to parathyroid hyperplasia, where the parathyroid glands overproduce a hormone that pulls calcium from bones. Additionally, PPIs significantly reduce stomach acid production, which can hinder calcium absorption from food in the intestines. Individuals taking PPIs, especially individuals at higher risk of bone issues or those on long-term PPI therapy, should consider calcium supplementation to help protect against deficiency.
There is evidence that proton pump inhibitors (PPIs) might decrease vitamin C levels in the body. A study showed that even a short course of omeprazole, a common PPI, reduced vitamin C levels in healthy volunteers, regardless of their dietary intake. This suggests that PPIs may reduce the bioavailability of vitamin C, meaning the body has a harder time absorbing and using it. Vitamin C plays a crucial role in immune function and antioxidant defenses and therefore individuals using PPI therapy should consider supplementation with vitamin C to protect against a deficiency.