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Copyright ©The Author(s) 2022.
World J Crit Care Med. Nov 9, 2022; 11(6): 349-363
Published online Nov 9, 2022. doi: 10.5492/wjccm.v11.i6.349
Table 1 Biological effects of vitamin C
Biological effects of vitamin C
Mechanisms of action
Antioxidant propertiesReduced production of reactive oxygen species; Reduced production of endothelial nitric oxide
Prevention of mitochondrial dysfunctionReduction of oxidation injury; Reduces apoptosis
Prevention of septic cardiomyopathyReduction of oxidation injury; Increased carnitine synthesis; Reduces apoptosis
Prevention of micro and macro vascular dysfunctionActs as a co-factor for synthesis of catecholamines (epinephrine, norepinephrine) and vasopressin; Inhibition of iNOS expression
Anti-inflammatory effectsSupresses activation of nuclear factor kappa-B (NF-κB); Inhibits tumor necrosis factor-α; Reduces pro-inflammatory cytokines like high mobility group box-1; Lowers histamine levels
Immune enhancing effectsT-cell maturation and modulation; Improves neutrophil chemotaxis and phagocytosis; Enhances oxidative killing; Promotes proliferation of lymphocytes; Stimulates interferon production; Increased antibody production
Table 2 Randomized Trials of vitamin C in sepsis
No.
Title
Ref.
Acronym
Country of origin
Study design
Sample size in control arm
Sample size in intervention arm
Intervention summary
Results in brief
Studies using isolated vitamin C
1Intravenous Vitamin C in Adults with Sepsis in the Intensive Care UnitLamontagne et al[20], 2022LOVIT TrialCanadaRCT437435Intravenous vitamin C (at a dose of 50 mg/kg body weight) 6 hourly for 96 hThis trial reported significantly higher composite primary outcome (risk of mortality OR persistent organ dysfunction at 28 d) in vitamin C group. One patient had a severe hypoglycemic episode and another had a serious anaphylaxis event.
2Intravenous vitamin C administration to patients with septic shock: a pilot randomised controlled trialRosengrave et al[19], 2022New ZealandRCT2020Intravenous vitamin C (at a dose of 25 mg/kg of body weight every 6 h) for up to 96 h, or until death or dischargeTreatment with intravenous vitamin C did not result in reduction of mean dose and duration of vasopressor infusion. Both the groups were comparable for rise in inflammatory markers, length of ICU stay, length of hospital stay, and mortality.
3Early use of high-dose vitamin C is beneficial in treatment of sepsisLv et al[18], 2020ChinaRCT5661Intravenous vitamin C 3.0 g in 5% dextrose (100 ml/time, 2 times/d)Treatment with vitamin C resulted in a significant reduction in the 28-d mortality. There was a significant reduction in SOFA score at 72 h and duration of vasopressor use, also there was increased clearance of procalcitonin.
4Effect of Vitamin C Infusion on Organ Failure and Biomarkers of Inflammation and Vascular Injury in Patients With Sepsis and Severe Acute Respiratory Failure: The CITRIS-ALI Randomized Clinical TrialFowler et al[17], 2019CITRIS-ALI RCTUnited StatesRCT8384Intravenous infusion of vitamin C (50 mg/kg in dextrose 5% in water, n = 84) every 6 h for 96 hThere was no significant difference in SOFA score at 96 h, and levels of marker of inflammation (CRP) and vascular injury (thrombomodulin) at 168 h.
5Effect of vitamin C administration on neutrophil apoptosis in septic patients after abdominal surgeryFerrón-Celma et al[21], 2008SpainPD interventions RCT study1010The vitamin C group received 450 mg/d of the vitamin in 3 dosesVitamin C treatment in postoperative septic abdominal surgery patients have an antiapoptotic effect on peripheral blood neutrophils, reducing caspase-3 and PARP levels, and increasing BCL-2 levels. However this effect is not maintained all the time.
Studies using vitamin C in combination therapy
6Effect of Supplementation of Vitamin C and Thiamine on the Outcome in Sepsis: South East Asian RegionAp et al[27], 2022IndiaRCT2020 + 20 + 20Intervention group received vitamin C, thiamine, both, and neither, respectively. Vitamin C (2 g 8 hourly) and thiamine (200 mg 12 hourly) were given intravenously for 5 dIntervention with vitamin C and thiamine did not reduce mortality. The vitamin C level and thiamine level were significantly lower than those in healthy controls.
7Biomarker Analysis for Combination Therapy of Vitamin C and Thiamine in Septic Shock: A Post-Hoc Study of the ATESS TrialPark et al[34], 2022Post hoc ATESSSouth KoreaRCT (post hoc analysis)5245Intravenous vitamin C (50 mg/kg, maximum single dose 3 g) and thiamine (200 mg) administration every 12 h for a total of 48 hBaseline biomarker levels (IL-6, IL-10, AP2, and S100β) at 72 h were not significantly different between the treatment and the placebo groups, also the rate of reduction was not significantly different between the two groups.
8Effect of Vitamin C, Thiamine, and Hydrocortisone on Ventilator- and Vasopressor-Free Days in Patients With Sepsis: The VICTAS Randomized Clinical TrialSevransky JE et al[25], 2021VICTAS TrialUnited StatesRCT252249Vitamin C (1.5 G), thiamine (100 mg), and hydrocortisone (50 mg) every 6 hIn patients with sepsis and septic shock, treatment with combination therapy did not reduce ventilator days and vasopressor use. Mortality at 30 d was also comparable between the groups.
9Vitamin C Therapy for Routine Care in Septic Shock (ViCTOR) Trial: Effect of Intravenous Vitamin C, Thiamine, and Hydrocortisone Administration on Inpatient Mortality among Patients with Septic ShockMohamed et al[33], 2020ViCTOR TrialIndiaRCT4345Intravenous combination of vitamin C (1.5 g every 6 h), thiamine (200 mg every 12 h), and hydrocortisone (50 mg every 6 h) within 6 h of onset of septic shock admissionThis trial found no difference in all-cause mortality in the two groups. The data reported earlier reversal of septic shock but no difference in improvement of SOFA score at 72 h, use of vasoactive substances, or use of mechanical ventilation.
10Combined Treatment with Hydrocortisone, Vitamin C, and Thiamine for Sepsis and Septic Shock: A Randomized Controlled TrialChang et al[32], 2020HYVCTTSSSChinaRCT4040Combination therapy with hydrocortisone (50 mg every 6 h for 7 d), vitamin C (1.5 g every 6 h for 4 d), and thiamine (200 mg every 12 h for 4 d)Combination therapy did not reduce 28 d all-cause mortality in sepsis and septic shock patients. However, it was associated with 72-h change in Sequential Organ Failure Assessment score improvement. The treatment group exhibited more incidents of hypernatremia.
11Usefulness of Antioxidants as Adjuvant Therapy for Septic Shock: A Randomized Clinical TrialAisa-Alvarez et al[28], 2020MexicoRCT1818 + 18 + 18 + 18Enterally administered tablets of NAC 600 mg every 12 hourly. Further, 50 mg of MT in capsules of 5 mg were given to patients once a day, and 1 mg vitamin C tablets were administered every 6 h. Vitamin E capsules of 400 units were given every 8 h for 5 dAntioxidant therapy helps to regulate inflammation in septic patients with shock. Vitamin C therapy in pulmonary sepsis increases vitamin C serum levels and decreases levels of inflammatory marker like CRP, PCT, and NO3−/NO2−.
12Effect of Ascorbic Acid, Corticosteroids, and Thiamine on Organ Injury in Septic Shock: The ACTS Randomized Clinical TrialMoskowitz et al[24], 2020ACTS RCTUnited StatesRCT102103Parenteral vitamin C (1500 mg), hydrocortisone (50 mg), and thiamine (100 mg) every 6 h for 4 dCombination therapy with ascorbic acid, corticosteroids, and thiamine did not lead to a significant reduction of SOFA score in septic shock patients during the first 72 h after enrolment. Data from this trial do not support routine use of combination therapy in septic shock.
13Combination therapy of vitamin C and thiamine for septic shock: a multi-centre, double-blinded randomized, controlled studyHwang et al[26], 2020ATESS TrialSouth KoreaRCT5853Vitamin C (50 mg/kg, maximum single dose 3 g) and thiamine (200 mg) administration every 12 h for a total of 48 h intravenouslyVitamin C therapy and thiamine administration did not improve organ function and need for organ support despite improvement in levels of these vitamins in early phase of septic shock.
14Outcomes of Metabolic Resuscitation Using Ascorbic Acid, Thiamine, and Glucocorticoids in the Early Treatment of Sepsis: The ORANGES TrialIglesias et al[29], 2020ORANGES trialUnited StatesRCT6968Ascorbic acid 1500 mg q6h, thiamine 200 mg every 12 h, and hydrocortisone 50 mg q6h for a maximum of 4 dCombination therapy resulted in quicker reversal of shock; however, no difference was found in reversal of organ dysfunction or other secondary outcomes.
15Effect of Vitamin C, Hydrocortisone, and Thiamine vs Hydrocortisone Alone on Time Alive and Free of Vasopressor Support Among Patients With Septic Shock: The VITAMINS Randomized Clinical TrialFujii et al[23], 2020VITMAINS RCTJapanRCT107109Intravenous vitamin C (1.5 g every 6 h), hydrocortisone (50 mg every 6 h), and thiamine (200 mg every 12 h), given in intervention group and intravenous hydrocortisone (50 mg every 6 h) alone in comparison group until shock resolution or up to 10 dFindings from this trial suggest that combination therapy does not lead to rapid resolution of septic shock in comparison to hydrocortisone alone with no significant improvement in overall mortality with intervention. No serious adverse events were reported.
16Combination of vitamin C, thiamine and hydrocortisone added to standard treatment in the management of sepsis: results from an open label randomised controlled clinical trial and a review of the literatureWani et al[30], 2020IndiaRCT5050Combination of vitamin C (1.5 g q6h for 4 d), thiamine (200 mg q12h for 4 d), and hydrocortisone (50 mg q6h for 7 d/ICU discharge, taper over 3 d)Combination therapy does not improve in hospital mortality and mortality at 30 d. However, lactate clearance was faster and vasopressor use was lower in intervention group.
17The effects of intravenous antioxidants in patients with septic shockGalley HF al[31], 1997United KindomRCT1416Antioxidants (n-acetylcysteine 150 mg/kg for 30 min then 20 mg/kg/h plus bolus doses of 1 g ascorbic acid and 400 mg α-tocopherol)Basal vitamin C was low and redox-reactive iron was elevated in all patients. Levels of vitamin C were increased but overall antioxidant capacity was unaffected after supplementation. Heart rate cardiac index increased and systemic vascular resistance index decreased in patients treated with antioxidants.
AP2: Angiopoietin-2; CRP: C-reactive Protein; DOI: Digital object identifier; ICU: Intensive care unit; IL-10: Interleukin-10; IL-6: Interleukin-6; MT: Melatonin; NAC: N-acetyl cysteine; NO2: Nitrite; NO3: Nitrate; PARP: Poly (ADP-ribose) polymerase; PCT: Procalcitonin; PMID: PubMed unique identifier; S100β: S100 calcium-binding protein B; SOFA: Sequential organ failure assessment score.
Table 3 Non randomized studies of vitamin C in sepsis
No.
Title
Ref.
Country of origin
Study design
Sample size in control arm
Sample size in intervention arm
Intervention summary
Results in brief
Studies using isolated vitamin C
1High dose intravenous vitamin C treatment in Sepsis: associations with acute kidney injury and mortalityMcCune et al[35], 2021United StatesCohort study (retrospective cohort)1178212Cohort of patients who have received at least one dose of 1.5 g IV vitamin CVitamin C therapy was associated with significant chances of AKI and death.
2Effect of high-dose intravenous vitamin C on point-of-care blood glucose level in septic patients: a retrospective, single-center, observational case seriesHe et al[38], 2020ChinaObservational case series82Patients with septic shock on admission received 100 mg/kg/d, while other patients received < 100 mg/kg/dHigh-dose vitamin C therapy may interfere with point-of-care glucose testing results.
3Pharmacokinetic data support 6-hourly dosing of intravenous vitamin C to critically ill patients with septic shockHudson EP et al[36], 2019AustraliaObservational PK study11Patients received 1.5 g intravenous vitamin C every 6 hInjectable vitamin C 1.5 g every 6 h helps in correction of vitamin C deficiency and hypovitaminosis C, and it also provides appropriate dosing schedule for vitamin C supplementation in septic shock.
4Accuracy of Point-of-Care Blood Glucose Level Measurements in Critically Ill Patients with Sepsis Receiving High-Dose Intravenous Vitamin CSmith et al[37], 2018United StatesObservational PK study5Patients who have received vitamin C 1500 mg intravenously two or more doses and had point of care blood glucose checked and laboratory venous BG levels measured within 1 h of each other during vitamin C therapyThe accuracy and agreement of POC BG did not have significant interreference during vitamin C treatment in sepsis.
5Phase I safety trial of intravenous ascorbic acid in patients with severe sepsisFowler et al[39], 2014United StatesPhase I safety trial24 total in 1:1:1 ratioPatients with severe sepsis in the medical intensive care unit were randomized 1:1:1 to receive intravenous infusions every 6 h for 4 d of ascorbic acid: Lo-AscA (50 mg/kg/24 h, n = 8), or Hi-AscA (200 mg/kg/24 h, n = 8), or placebo (5% dextrose/water, n = 8)Intravenous vitamin C infusion is safe and tolerated well and may have a positive impact on endothelial injury, the extent of multiple organ failure, and levels of inflammatory biomarkers.
Studies using combination therapies including vitamin C
6Adding vitamin C to hydrocortisone lacks benefit in septic shock: a historical cohort studyChang et al[40], 2020CanadaCohort study (retrospective cohort)8852Retrospective cohorts of vitamin C with hydrocortisone and hydrocortisone therapies for 72 h were compared in patients with sepsis or septic shockOutcomes for hospital mortality, ICU mortality, ventilator free days, vasopressor free days, dialysis use, and duration of ICU admission were comparable between the groups.
7Hydrocortisone, Vitamin C, and Thiamine for the Treatment of Severe Sepsis and Septic Shock: A Retrospective Before-After StudyMarik et al[22], 2017United StatesCohort study (before and after study)4747Intravenous vitamin C (1.5 g q6h for 4 d or until ICU discharge), hydrocortisone (50 mg q6h for 7 d or until ICU discharge followed by a taper over 3 d) as well as intravenous thiamine (200 mg q12h for 4 d or until ICU discharge)Results of this study suggest that the early use of intravenous vitamin C, together with corticosteroids and thiamine, prevents progressive organ dysfunction, including acute kidney injury, and reduces the mortality of patients with severe sepsis and septic shock.
Other studies
9Plasma Cortisol, Aldosterone, and Ascorbic Acid Concentrations in Patients with Septic Shock Do Not Predict Treatment Effect of Hydrocortisone on Mortality. A Nested Cohort StudyCohen et al[42], 2020Australia and NZCohort Study (nested cohort study)Levels of total and free plasma cortisol and aldosterone were measured along with quantitatively measured vitamin C levelsIn patients with septic shock, plasma aldosterone and ascorbic acid concentrations are not associated with outcome.
10Vitamin C levels amongst initial survivors of out of hospital cardiac arrestGardner et al[43], 2020United StatesObservational study3425 post arrest, 25 post sepsisObservationalVitamin C levels are lower in cardiac arrest patients in comparison to healthy patients.
11Hypovitaminosis C and vitamin C deficiency in critically ill patients despite recommended enteral and parenteral intakesCarr et al[8], 2017New ZealandObservational study2024Patients with septic shock and non-septic aetiology Critically sick patients have low levels of vitamin C, and septic shock patients have significantly depleted levels.
12Colistin-associated Acute Kidney Injury in Severely Ill Patients: A Step Toward a Better Renal Care? A Prospective Cohort StudyDalfino et al[41], 2015ItalyCohort (prospective cohort)39 non AKI31 AKIIntervention cohort patients have received colistin at a median daily dose of 9 million IUIndependent renal-protective role emerged for ascorbic acid among other factors responsible for higher chances of AKI.
AKI: Acute kidney injury; Hi-AscA: High dose ascorbic acid; ICU: Intensive care unit; Lo-AscA: Low dose ascorbic acid; POC BG: Point of care blood glucose.
Table 4 Meta-analyses of trials on vitamin C in sepsis
No.
Title
Ref.
Country of origin
Study design
Included studies
Included sample size
Intervention summary
Results in brief
Studies with isolated vitamin C therapy
1IV Vitamin C in Critically Ill Patients: A Systematic Review and Meta-AnalysisPatel et al[45], 2022United StatesMeta-analysis15 RCTs2490 participantsCompared intravenous vitamin C at high and low doses with placebo among pooled study participantsIntravenous vitamin C therapy is associated with a trend toward reduced overall mortality. Data further reveals that High-dose IV vitamin C was associated with a significant reduction in overall mortality. None of the included trials reported an increase in adverse events related to IV vitamin C therapy.
2Efficacy of intravenous vitamin C intervention for septic patients: A systematic review and meta-analysis based on randomized controlled trialsLi et al[47], 2021ChinaMeta-analysis of RCTs10 RCTs1400 patientsStudies that have intravenous vitamin C supplementation were includedData from this meta-analysis reports improved SOFA score within 72 h but no significant improvement in short term (28-30 d) mortality, long term mortality (90 d), hospital stay, ventilator-free days, ICU-stay in sepsis or septic shock patients.
3Effect of vitamin C in critically ill patients with sepsis and septic shock: A meta-analysisFeng et al[48], 2021ChinaMeta-analysis of RCTs9 RCTs584 patientsStudies with vitamin C treatment in critically sick sepsis and septic shock patients were includedData from this study finds significant differences in 28-d mortality and dose of vasopressors. However, the ICU length of stay was the same between the two groups.
4Efficacy of vitamin C in patients with sepsis: An updated meta-analysisWei et al[46], 2020ChinaMeta-analysis6 RCTs and 6 observational studies1176 in control groupThis analysis included data from RCTs and observational studies that evaluated the effect of vitamin C in patients with sepsisThis study reports no significant improvement in 28-d or in-hospital mortality. There was also no difference in vasopressor duration and ICU or hospital stay.
Vitamin C as a combination therapy
5Thiamine, Ascorbic Acid, and Hydrocortisone As a Metabolic Resuscitation Cocktail in Sepsis: A Meta-Analysis of Randomized Controlled Trials With Trial Sequential AnalysisAssouline B et al[49], 2021SwitzerlandMeta-analysis8 RCTs1335 patientsCombination of thiamine, ascorbic acid, and hydrocortisone compared to in patients with sepsis or septic shockData in this study was homogenous and intervention led to improved change in SOFA score at 72 h; however, there was no difference in ICU mortality and renal composite outcome (incidence of AKI 3 or need for Renal replacement therapy).
6The Efficacy of vitamin C, thiamine, and corticosteroid therapy in adult sepsis patients: a systematic review and meta-analysisSomagutta et al[50], 2021United StatesMeta-analysis15 studies (8 RCTs and 7 cohort studies)67349 patientsCombination of HAT treatment in patients with sepsisMeta-analysis from RCTs concluded that hospital mortality, ICU stay, hospital stay, and renal replacement therapy was not significant. Results from cohort studies have also concluded that hospital mortality, ICU mortality, ICU length of stay, length of hospital stay, change in SOFA score, the use of renal replacement therapy, or vasopressor duration was not significant.
7Vitamin C, Thiamine, and Hydrocortisone in the Treatment of Sepsis: A Meta-Analysis and Trial Sequential Analysis of Randomized Controlled TrialsZayed et al[51], 2021United StatesMeta-analysis 6 RCTs839 patientsVitamin C, thiamine, and steroid in combination for sepsis and septic shockData from this study concluded that there is no significant difference in long term mortality, ICU mortality, incidence of acute kidney injury, hospital length of stay, ICU length of stay, and ICU free days on day 28 between the intervention and control groups. However, there was a significant reduction in SOFA score on 3rd day.
8Mortality in septic patients treated with vitamin C: a systematic meta-analysisScholz et al[52], 2021GermanyMeta-analysis 17 studies (randomized and non-randomized, blinded and unblinded, prospective and retrospective, and single- and multi-centre studies)3133 patientsVitamin C 1.5 g every 6 h, 100 mg thiamine every 6 h, and 50 mg hydrocortisone every 6 h. However, initiation and duration of the intervention differed considerably within the studiesPooled analysis in this study indicated no mortality benefit; however, a subgroup analyses revealed an improved survival, if vitamin C treatment was applied for 3-4 d.
9Effect of adjunctive vitamin C, glucocorticoids, and vitamin B1 on longer-term mortality in adults with sepsis or septic shock: a systematic review and a component network meta-analysisFujii et al[53], 2021JapanMeta-analysis (network meta-analysis)43 RCTs10257 patientsCompared networked interventions of very high dose vitamin C, high dose vitamin C, vitamin C, vitamin B1, and glucocorticoidsThis study found that metabolic resuscitation with vitamin C, glucocorticoids, vitamin B1, or combinations of these drugs have no difference in long term mortality. Also they did not find effect of vitamin C or B1 on organ dysfunction or ICU length of stay. However, adding glucocorticoid to the combination therapies reduces the duration of vasopressor therapy and ICU stay.
10Steroid, ascorbic acid, and thiamine in adults with sepsis and septic shock: a systematic review and component network meta-analysisFong et al[54], 2021Hong KongMeta-analysis (component network meta-analysis)33 RCTs9898 patientsAdditive network meta -analysis was performed, adding vitamin C, glucose corticoid, and thiamine sequentiallyData from this study reveals that combination of glucocorticoid and fludrocortisone improved short-term and longer-term mortality in sepsis and septic shock patients. Steroids shortened the time to resolution of shock and duration of mechanical ventilation. However, there was no evidence to support use of thiamine and vitamin C in sepsis and septic shock.
11Effect of Combined Hydrocortisone, Ascorbic Acid and Thiamine for Patients with Sepsis and Septic Shock: A Systematic Review and Meta-AnalysisWu et al[55], 2021ChinaMeta-analysis of RCT and observational studies6 RCTs and 7 observational studies1559 participants.This study compared hydrocortisone, thiamine, and ascorbic acid use to usual care or hydrocortisoneCombination therapy associated with significant reductions in duration of vasopressor in RCTs, but not in observational studies. It was associated with lower SOFA score at 72 h both in RCTs and observational studies. Combination therapy associated with lower hospital mortality and higher PCT clearance in observational studies.
12Thiamine combined with vitamin C in sepsis or septic shock: a systematic review and meta-analysisGe et al[56], 2021ChinaSystematic review and meta-analysis7 RCTs868 patientsThiamine combined with vitamin C in patients with sepsis or septic shockData from this study found no significant differences for in hospital mortality, but have shorter duration of vasopressor use and reduced SOFA score during 72 h.
HAT: Hydrocortisone; ascorbic acid and thiamine combination; ICU: Intensive care unit; IV: Intravenous; RCT: Randomized control trial; SOFA: Sequential organ failure assessment score.