Roux-en-Y gastric bypass excludes the duodenum and proximal jejunum, however these sites are where iron and zinc are most absorbed. Therefore, they are among the nutrients whose digestive and absorptive process can be impaired after surgery. The aim of the present study was to investigate the iron and zinc plasma response to a tolerance test before and after bariatric surgery. The study was performed at São Paulo University School of Medicine of Ribeirão Preto, Brazil. In a longitudinal paired study, 9 morbidly obese women (body mass index ≤40 kg/m(2)) underwent an iron and zinc tolerance test before and 3 months after surgery. The iron and zinc levels were determined at 0, 1, 2, 3, and 4 hours after a physiologic unique oral dose. The mineral concentrations in the plasma and 24-hour urine sample were assayed using an atomic absorption spectrophotometer. The anthropometric measurements and 3-day food record were also evaluated. A linear mixed model was used to compare the plasma concentration versus interval after the oral dose, before and after surgery. The pre- and postoperative test results revealed a significantly lower plasma zinc response (P <.01) and a delayed response to iron intake after surgery. The total plasma iron concentration area, during the 4 hours, was not different after surgery (P >.05). The 24-hour urinary iron and zinc excretion did not differ between the pre- and postoperative phases. The present data showed a compromised response to the zinc tolerance test after gastric bypass surgery, suggesting an impaired absorption of zinc. More attention must be devoted to zinc nutritional status after surgery.

 

The number of people requiring bariatric surgery in the western world is constantly growing. In 1997 the World Health Organization (WHO) defined obesity as a plague and one of greatest public health hazards of our time. The National Institution of Health (NIH) declared that surgery is the only long-term solution for obesity. Today there are four different types of bariatric surgery. Each variation has different implications on the nutritional status of bariatric surgery patients. Bariatric surgery candidates are at risk of developing vitamin and mineral nutritional deficiencies in the post-operative stage, due to vomiting, decrease in food intake, food intolerance, diminution of gastric secretions and bypass of absorption area. It is easier and more efficient to treat nutritional deficiencies in the preoperative stage. Therefore, preoperative detection and correction are crucial. Blood tests before surgery to detect and treat nutritional deficiencies are crucial. In the postoperative period, blood tests should be conducted every 3 months in the first year after operation, every six months in the second year and annually thereafter. Multivitamin is recommended to prevent nutritional deficiencies in all bariatric surgery patients. Furthermore, iron, calcium, Vitamin D and B12 are additionally recommended for Roux-en-Y Gastric Bypass patients. Patients with Biliopancreatic diversion and Duodenal Switch should also take fat soluble vitamins.

According to a review article by Ammor N, et al. [Rev Med Suiss; 2009; 5(196):676-9], overall 98% of patients undergoing gastric bypass develop multiple micronutrient deficiencies. The list of minerals that have been shown to become deficient due to malabsorption after the bariatric surgeries include:

The potential seriousness of this malabsorption after bariatric surgery is exacerbated by the fact that most obese patients already have some mineral deficiencies. Iron deficiency anemia is seen in all forms of bariatric surgery, with an incidence as high as 67% seen in combined procedures, such as Roux-en-Y gastric bypass. Iron deficiency in bariatric surgical cases is made even more difficult to treat due to the high prevalence of anemia of chronic inflammation seen in the obese. Zinc deficiency, like iron deficiency is one of the most common mineral deficiencies associated with the bariatric surgeries. According to the study by Salle’, A, et al [Obes Surg. 2010; 20(12):1660-70], concerning 324 morbidly obese patients who had one of three forms of bariatric procedures (gastric bypass, sleeve gastrecglycinate tomy, or duodenal switch), 42 .5% were zinc deficient at month 12 post surgical. The patients who were given the duodenal switch procedure had an incidence of zinc deficiency at month 12 of an astonishing 91.7%. Research has also shown that in premenopausal women undergoing Roux-en-Y gastric bypass, there is calcium malabsorption that contributes to the development of secondary hyperparathyroidism in these patients. Some rarely seen deficiencies are occurring post bariatric surgery. Selenium deficiency induced cardiomypathy has been reported subsequent to bariatric surgery. It has been noted that the nutritional complications of bariatric surgery have been found 20 years post surgery, and that these patients should be under life long nutritional follow up.

 

The mineral deficiencies due to the bariatric surgical procedures can be due to the decrease in food volume, decrease in digestive time, lack of sufficient digestive juices, as well as the bypassing of key mineral absorptive spaces in the upper duodenum seen in some of the bariatric surgeries.

 

Given the overall effect that bariatric surgery has on the ability to digest and absorb minerals, trying to correct the associated mineral deficiencies becomes an imposing challenge. Most minerals, like the typical salt forms (sulfates, carbonates, citrates, and oxides) require acidification, in order to be absorbed. In addition, these types of minerals are absorbed in a very limited space high up in the duodenum. The very space that is often bypassed in the combination bariatric form of surgery.

 

The selection of what form of mineral to use in supplementing the post bariatric surgical patient would seem to be an important decision. In certain forms of bariatric surgery, like the combination form and the duodenal switch, it is even more of a concern. The properties of the mineral glycinate chelates (Albion TRAACS) make them one of the best forms of mineral for the bariatric supplementation formulas. These mineral glycinate chelates (more accurately bisticularly gastrecglycinate) do not require acidification to set them up for absorption, and they are absorbed over a much longer segment of the small intestine. The mineral glycinate chelates are absorbed in the ileum and jejunum, giving the bariatric post surgical patient a much larger surface area for absorption.

Albion's Mineral Glycinate Chelates Are