Intravenous iron sucrose versus oral iron administration for the postoperative treatment of post-bariatric abdominoplasty anaemia: an open-label, randomised, superiority trial in Brazil.

BACKGROUND: Anaemia and iron deficiency are common after post-bariatric abdominoplasty, which can involve removal of large areas of skin with associated blood loss. Because the oral absorbability of iron is reduced after bariatric surgery (through reduced intake, reduction of gastric acid secretion for conjugation of iron, and separation of the iron-absorptive areas of the duodenum and jejunum), it has been hypothesised that postoperative intravenous iron supplementation might be used to treat anaemia and iron deficiency in patients submitted to post-bariatric plastic surgeries. We aimed to assess whether intravenous iron administered postoperatively in post-bariatric abdominoplasty could result in increased blood haemoglobin concentrations compared with oral iron supplementation. METHODS: In this open-label, randomised, superiority trial, we recruited women aged 18-55 years undergoing post-bariatric abdominoplasty at two public tertiary referral hospitals in São Paulo, Brazil. Eligible women had been treated for previous obesity with bariatric surgery using the vertical banded gastroplasty technique with Roux-en-Y gastric bypass by laparotomy; had grade III contour deformity via the Pittsburgh rating scale; and had a post-bariatric body-mass index (BMI) lower than 32 kg/m2, with stabilised weight loss for at least 6 months. Women were randomly assigned (1:1) to receive postoperative iron supplementation with two intravenous infusions of 200 mg of iron sucrose (intravenous group) or 100 mg of iron polymaltose complex orally twice a day for 8 weeks (oral group). The primary outcome in both groups was blood haemoglobin concentration at postoperative day 56 after abdominoplasty, with a minimum clinically relevant difference of 1·5 g/dL. Analyses were performed on an intention-to-treat basis. This trial is registered with ClinicalTrials.gov, number NCT01857011, and the Brazilian Clinical Trials Registry, number RBR-2JGRKQ. The trial is completed. FINDINGS: From April 7, 2014, to June 27, 2016, 102 post-bariatric patients were assessed for eligibility. 56 patients were eligible and were randomly assigned, with 28 allocated to each group. Mean baseline haemoglobin concentration was slightly higher in the oral group than in the intravenous group (12·71 g/dL [SD 1·06] vs 12·24 g/L [1·09]), and by post-operative day 56 was 12·54 g/dL (SD 1·18) and 12·80 g/dL (0·81), respectively (mean difference of 0·26 g/dL, 95% CI -0·28 to 0·80; p=0·009 in favour of the intravenous group). The minimum clinically relevant difference in concentrations was not reached. No adverse events were recorded in the intravenous group, whereas in the oral group, constipation was recorded in five (18%) patients, diarrhoea in three (11%), and nausea in one (4%) patient. INTERPRETATION: Postoperative intravenous administration of iron increased haemoglobin concentrations at 56 days post-operatively and reduced iron deficiency, without adverse events. Although superiority of intravenous iron was not shown, intravenous administration might be useful in post-bariatric patients, especially in those who have body-contouring treatment involving a second surgery within a short period of time. Larger trials, and trials using higher intravenous doses of iron, are needed to further assess the potential efficacy and safety of intravenous iron administration after post-bariatric plastic surgery. FUNDING: The São Paulo Research Foundation (FAPESP).

Postoperative intravenously administered iron sucrose versus postoperative orally administered iron to treat post-bariatric abdominoplasty anaemia (ISAPA): the study protocol for a randomised controlled trial.

BACKGROUND: Anaemia and iron deficiency are common complications following post-bariatric abdominoplasty. Given the low oral absorbability of iron resulting from bariatric surgery, it has been hypothesised that postoperative intravenously administered iron supplementation could be used to treat anaemia and to prevent the development of iron deficiency in these patients. METHODS/DESIGN: In this multicentre open-label randomised clinical trial, 56 adult women undergoing post-bariatric anchor-line abdominoplasty will be allocated at a ratio of 1:1 for postoperative supplementation with two intravenously administered applications of 200 mg of iron saccharate or postoperative supplementation with 100 mg of iron polymaltose complex administered orally, twice a day for 8 weeks. The primary outcome is the difference in mean haemoglobin levels between the two groups at eight postoperative weeks. Secondary outcomes evaluated at one, four and eight postoperative weeks include iron profile, reticulocyte count, overall quality of life measured using the Short-Form 36 Health Survey (SF-36) questionnaire, fatigue measured using the Functional Assessment of Chronic Illness Therapy - Fatigue (FACIT-F), adverse effects and postoperative complications. DISCUSSION: This randomised clinical trial aims to evaluate the haematopoietic effectiveness of intravenously administered iron supplementation in patients undergoing post-bariatric abdominoplasty. A more effective recovery of haemoglobin levels could help improve the patients' quality of life and could provide an improved haematological status in preparation for the subsequent and frequent plastic surgeries these patients undergo. TRIAL REGISTRATION: Clinicaltrials.gov Identifier: NCT01857011 (8 May 2013), Universal Trial Number U111-1169-6223, Brazilian Clinical Trials Registry (REBEC): RBR-2JGRKQ .

Nitrosative Stress and Apoptosis by Intravenous Ferumoxytol, Iron Isomaltoside 1000, Iron Dextran, Iron Sucrose, and Ferric Carboxymaltose in a Nonclinical Model.

Iron is involved in the formation as well as in the scavenging of reactive oxygen and nitrogen species. Thus, iron can induce as well as inhibit both oxidative and nitrosative stress. It also has a key role in reactive oxygen and nitrogen species-mediated apoptosis. We assessed the differences in tyrosine nitration and caspase 3 expression in the liver, heart, and kidneys of rats treated weekly with intravenous ferumoxytol, iron isomaltoside 1000, iron dextran, iron sucrose and ferric carboxymaltose (40 mg iron/kg body weight) for 5 weeks. Nitrotyrosine was quantified in tissue homogenates by Western blotting and the distribution of nitrotyrosine and caspase 3 was assessed in tissue sections by immunohistochemistry. Ferric carboxymaltose and iron sucrose administration did not result in detectable levels of nitrotyrosine or significant levels of caspase 3 vs. control in any of the tissue studied. Nitrotyrosine and caspase 3 levels were significantly (p<0.01) increased in all assessed organs of animals treated with iron dextran and iron isomaltoside 1000, as well as in the liver and kidneys of ferumoxytol-treated animals compared to isotonic saline solution (control). Nitrotyrosine and caspase 3 levels were shown to correlate positively with the amount of Prussian blue-detectable iron(III) deposits in iron dextran- and iron isomaltoside 1000-treated rats but not in ferumoxytol-treated rats, suggesting that iron dextran, iron isomaltoside 1000 and ferumoxytol induce nitrosative (and oxidative) stress as well as apoptosis via different mechanism(s).