Vitamin B12 in Foods, Food Supplements, and Medicines—A Review of Its Role and Properties with a Focus on Its Stability

Rakuša, Žane Temova; Roškar, Robert; Hickey, Neal; Geremia, Silvano

doi:10.3390/molecules28010240

Cited by 36 publications

(25 citation statements)

References 221 publications

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“…There are however concerns with the healthfulness [ 70 – 74 ] of hawker foods; many are high in fat, sodium and carbohydrates, while being low in dietary fibre [ 75 – 77 ]. Hawker food preparation—often involving high heat, gravy or soups— could lead to B12-folate thermal degradation, or these water-soluble vitamins’ leaching into the cooking water respectively [ 78 , 79 ]. Nevertheless, these concerns are often outweighed by hawker foods’ convenience and affordability [ 71 ].…”

Section: Discussionmentioning

confidence: 99%

Determinants of vitamin B12 deficiency in patients with type-2 diabetes mellitus — A primary-care retrospective cohort study

Wee

Sultana

2023

BMC Prim. Care

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Background Like many developed nations, the prevalence of both older people and type-2 diabetes mellitus (T2DM) in Singapore is rising. This demographic shift predisposes the population to greater risks of both frailty and its complications that can be further aggravated by vitamin B12 deficiency —a highly prevalent associated variable that is potentially modifiable. Indeed, B12 deficiency adversely impacts the neuro-cognitive, haematological, and even the immune systems; jeopardizing our aspirations for successful aging. Despite this, many patients with T2DM in primary care remain unscreened due to a lack of clear guidelines for regular B12 screening. We therefore investigated the determinants of B12 deficiency in community-dwelling patients with T2DM, with the aim of profiling patients most in need of B12-deficiency screening. Methods B12 deficiency was evaluated using a retrospective cross-sectional cohort of 592 primary-care patients with T2DM, recruited from 2008 to 2011 from a Polyclinic in Singapore. Results B12 deficiency (serum B12 < 150 pmol/L) was present in 164 (27.7%) patients and was associated with a higher “metformin daily dose” (OR = 2.79; 95% CI, 2.22–3.48, P < 0.001); “age ≥ 80 years” (OR = 2.86; 95% CI, 1.31–6.25, P = 0.008); “vegetarianism” (OR = 21.61; 95% CI, 4.47–104.44, P < 0.001); and “folate deficiency” (OR = 2.04; 95% CI, 1.27–3.28, P = 0.003). Conversely, “Prescribed B12 supplementation” was associated with a lower odds of B12 deficiency (OR = 0.37; 95% CI: 0.22–0.61, P < 0.001). The area under the receiver operating characteristic curve was 0.803 (95% CI: 0.765–0.842). “Metformin daily dose” correlated interchangeably with “Metformin 1-year cumulative dose” (r = 0.960; P < 0.01), and also associated linearly with “duration of diabetes” (B = 0.113, P < 0.0001). Independent of the duration of T2DM, 29.3% of the B12-deficient patients needed > 1 screening test before the detection of B12 deficiency. Conclusions Primary-care screening for B12 deficiency should be part of the annual laboratory review of patients with T2DM regardless of the duration of T2DM —especially when they are prescribed ≥ 1.5 g/day of metformin; ≥ 80 years old; vegetarian; and not prescribed B12 supplementation. Concurrent evaluation for associated folate (vitamin B9) deficiency is essential when addressing T2DM-associated B12 deficiencies. Current “Metformin daily dose” is an accurate proxy of both cumulative metformin exposure and duration of T2DM.

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Section: Discussionmentioning

confidence: 99%

Determinants of vitamin B12 deficiency in patients with type-2 diabetes mellitus — A primary-care retrospective cohort study

Wee

Sultana

2023

BMC Prim. Care

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“…In fact, thiol/Cbl interactions have been researched and described to the extent that a possible pathway of CN‐B12 decomposition in the heated non‐fat milk may be outlined as follows: (a) the heat‐induced exposure of cysteine thiol groups (by protein unfolding and by cystine disulphide cleavage) enables thiolate complexation with CN‐B12(III) [where the complex is CysCN‐B12(III)], (b) hydrolysis of CysCN‐B12(III) yields CN‐B12(II) and cystine disulphide (Dereven'kov et al ., 2016), (c) CN‐B12(II) is oxidized (by O 2 in aerobic media) to OH‐B12(III) (Ansari et al ., 2004; Schnellbaecher et al ., 2019) and (d) OH‐B12(III) is irreversibly oxidized by H 2 O 2 (and/or other ROS) to biologically inactive oxidation products (Ahmad & Hussain, 1993; Ansari et al ., 2004; Monajjemzadeh et al ., 2014; Schnellbaecher et al ., 2019; Rakusa et al ., 2023), which include stable yellow corrinoids (“SYCs”, hydroxylated, chromophore‐altered derivatives of B12) (Salnikov et al ., 2021). The participants in this hypothesized pathway are CN‐B12, (heat‐exposed) cysteine, O 2 and transition metal‐generated H 2 O 2 , such that the pathway may be expected to proceed in B12‐fortified foods that contain cysteine (free or protein‐bound) and transition metals, when heated in the presence of O 2 at neutral or alkaline pH (foods that include the non‐fat milk evaluated in the present study).…”

Section: Discussionmentioning

confidence: 99%

“…CN‐B12 loss in fortified, extruded rice was found to increase linearly ( R 2 = 0.975) from 23% to 64% over the temperature range 126–180 °C, and extensive losses of B12 (30%–100%) have been reported for milk sterilized at 110–115 °C for 20–40 min, for baked bread, for cooked beef and herring, for UHT milk stored for 20 weeks at 24 °C, for wheat flour stored in paper bags at 25 °C and 65% relative humidity for 1.5 M, and for multivitamin (with B1 = B6 >> B12) parenteral solutions stored at 25–28 °C for 12 M and at 40 °C for 9 weeks. By contrast, no significant B12 loss occurred in pasteurized milk, in cooked vacuum‐packed herring, or in wheat flour packaged in moisture/oxygen impermeable multilayer PET/aluminium bags, only minor losses of CN‐B12 losses were reported for extrusion at 91–95 °C (3%) and for boiled (100 °C) CN‐B12 fortified rice (11%), and CN‐B12 recoveries were ≥95% in single vitamin (B12 only) parenteral solutions stored at 25–28 °C for 12 M and at 40 °C for 9 weeks (Rolls & Porter, 1973; Bennink & Ono, 1982; Oamen et al ., 1989; Andersson & Oeste, 1992; Ahmad & Hussain, 1993; Watanabe et al ., 1998; Czernichow et al ., 2003; Riaz et al ., 2009; Nishioka et al ., 2011; Monajjemzadeh et al ., 2014; Wieringa et al ., 2014; Gille & Schmid, 2015; Edelmann et al ., 2016; Bajaj & Singhal, 2019; Hemery et al ., 2020; Rakusa et al ., 2023). The results of these and related studies have implicated temperature, time, oxygen, redox active agents (including ascorbic acid, thiols, polyphenols, bisulphite, ferrous salts and hydrogen peroxide), other vitamins (B1, B2, B3 and B6), pH and light as potentially significant contributors to B12 decomposition (Schnellbaecher et al ., 2019; Rakusa et al ., 2023).…”

Section: Introductionmentioning

confidence: 99%

“…Among the twenty‐eight nutrients assigned U.S. Food and Drug Administration (USFDA) Reference Daily Intake (RDI) values, vitamin B12 (B12) has the lowest quantities, ranging from 0.5 μg for infants to 2.8 μg for pregnant and lactating women (USFDA, 2016). Despite these low amounts (0.4–2.1 nanomoles/day), it has been estimated that 6% of humans are B12 deficient and therefore vulnerable to consequent haematological, neurological, cognitive, immunological and inflammatory disorders (Allen et al ., 2010; Azzini et al ., 2021; Vincenti et al ., 2021; Rakusa et al ., 2023). Regarded as the highest risk for B12 deficiency are the elderly (decreased digestibility), breastfed infants of B12‐deficient mothers, individuals with gastrointestinal problems resulting in B12 malabsorption and vegans (since B12 occurs naturally only in animal‐derived foods, most notably meat, fish, eggs and milk) (Lamers, 2022; Rakusa et al ., 2023).…”

Section: Introductionmentioning

confidence: 99%

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Effects of redox active agents on cyanocobalamin stability in heated milk

Ding,

Lim,

Goh

et al. 2023

Int J of Food Sci Tech

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SummaryReducing agents and oxidising agents have been identified as contributors to vitamin B12 losses associated with food processing and/or storage. We evaluated the effects of redox active agents on cyanocobalamin stability in heat‐treated nonfat milk and neutral pH buffers. The largest average cyanocobalamin losses occurred in the presence of an added thiol (glutathione, cysteine, dithiothreitol, and the thiamine decomposition product 2‐methyl‐3‐furanthiol) or dithionite, whereas cyanocobalamin recoveries generally increased in the presence of an added oxidising agent. Cyanocobalamin instability in the heat‐treated, nonfat milk (~40% loss after 90 min at 100 °C) was attributed to a combination of heat, cystine/cysteine, oxygen, and a low‐level presence of transition metals, a combination also found in many other foods for which B12 instability has been reported. The proposed cyanocobalamin decomposition pathway – complexation with heat‐exposed cysteine thiolate, cobalt reduction, hydrolysis of the complex, conversion to hydroxocobalamin, and irreversible oxidation – follows the sequence described by others.

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“…Cyanide-stabilized cobalamin, cyanocobalamin, is the most common B12 supplement [ 50 , 57 , 58 , 59 ]. Cyanocobalamin releases a cyanide group for every molecule of B12 that is used.…”

Section: Question One: What Is Your Preferred Source Of Vitamin B12?mentioning

confidence: 99%

Nutritional Assessment of the Symptomatic Patient on a Plant-Based Diet: Seven Key Questions

Plotnikoff¹,

Dobberstein²,

Raatz

2023

Nutrients

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Plant-based diets, both vegan and vegetarian, which emphasize grains, vegetables, fruits, legumes, nuts, and seeds are increasingly popular for health as well as financial, ethical, and religious reasons. The medical literature clearly demonstrates that whole food plant-based diets can be both nutritionally sufficient and medically beneficial. However, any person on an intentionally restrictive, but poorly-designed diet may predispose themselves to clinically-relevant nutritional deficiencies. For persons on a poorly-designed plant-based diet, deficiencies are possible in both macronutrients (protein, essential fatty acids) and micronutrients (vitamin B12, iron, calcium, zinc, and vitamin D). Practitioner evaluation of symptomatic patients on a plant-based diet requires special consideration of seven key nutrient concerns for plant-based diets. This article translates these concerns into seven practical questions that all practitioners can introduce into their patient assessments and clinical reasoning. Ideally, persons on plant-based diets should be able to answer these seven questions. Each serves as a heuristic prompt for both clinician and patient attentiveness to a complete diet. As such, these seven questions support increased patient nutrition knowledge and practitioner capacity to counsel, refer, and appropriately focus clinical resources.

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Vitamin B12 in Foods, Food Supplements, and Medicines—A Review of Its Role and Properties with a Focus on Its Stability

Cited by 36 publications

References 221 publications

Determinants of vitamin B12 deficiency in patients with type-2 diabetes mellitus — A primary-care retrospective cohort study

Determinants of vitamin B12 deficiency in patients with type-2 diabetes mellitus — A primary-care retrospective cohort study

Effects of redox active agents on cyanocobalamin stability in heated milk

Nutritional Assessment of the Symptomatic Patient on a Plant-Based Diet: Seven Key Questions

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