Safe and Effective Delivery of Supplemental Iron to Healthy Volunteers

The forms of iron currently available have serious adverse effects that limit their use in
addressing prevalent iron deficiency. Iron-supplementation programs have been frustrated by
the serious side effects of inorganic forms of iron, which, due to low enteric absorptive
efficiency, must be given in relatively high levels (5-20 fold effective levels of heme-iron
in foods). Those adverse effects include infectious diarrhea, changes in the gut microbiome
and increased serious morbidity among iron-replete children in malaria-endemic areas. The
underlying causes of these effects are thought to involve stress on the gut due to excess
unabsorbed iron, which can be pro-oxidative and pro-inflammatory. In addition, unabsorbed,
soluble iron can be used by the gut microbiome and favor the proliferation of pathogenic
enteric bacteria which can contribute to the inflammatory response that leads to
down-regulation of iron absorption. Lack of a safe and effective treatment leaves large
numbers of children iron deficient, many with associated anemia. Thus, the burden of disease,
which includes growth, cognitive and physical performance deficits as well as increased risk
of infection, continues to climb in this age group.

The overall goal of this project is to generate evidence to support development of a modality
of providing bioavailable iron that does not or produces less adverse effects in iron-replete
individuals. The investigators will employ the commonly used iron supplement FeSO4 to compare
with two novel forms of iron with features that suggest each may be a useful nutritional
source of iron with fewer side effects than FeSO4. The first novel form of iron is a
nanoparticulate formulation of iron hydroxide adipate tartrate (IHAT). The second novel form
of iron is an organic fungal iron metabolite, Aspiron, which has recently been developed by
using a food-grade Aspergillus oryzae cultured in iron-fortified media.

The investigators will evaluate these forms of iron using a randomized clinical trial
approach that will robustly test the formal hypotheses and yield useful answers to the
primary questions about the relative safety and efficacy of these novel forms of iron in
iron-replete subjects. This study is divided to two phases. In Phase I, the investigators
will determine of effects of form of low-dose, supplemental iron. Three forms of iron
administered at the dose of 60 mg Fe/d will be evaluated against the primary outcomes of ex
vivo malarial infectivity, bacterial proliferation potential (also assessed ex vivo) and gut
inflammation, and other relevant outcomes in adults. In this protocol the investigators refer
to this set of indicators as the "safety profile". The justification for providing 60 mg Fe/d
is based on the World Health Organization (WHO) recommendation for daily supplementation for
non-anemic, pregnant women with 30-60 mg Fe/d. In addition, the effects on those outcomes of
ferrous sulfate administered daily (60 mg Fe/d) vs. weekly (420 mg Fe administered in one
weekly dose) will be compared. There is great practical value in addressing this hypothesis
of whether a weekly dose can be administered without adverse effects. Nested within this
design will be a second comparative study of effects in iron-replete children and adults to
validate the applicability of data obtained in adults to children.

Inclusion Criteria:

- Age range: 50-80 years

- BMI range: 18-35

- Men and post-menopausal women (defined as no menses for > 1year or S/P hysterectomy
with bilateral oopherectomy)

- Typical bowel pattern: at least 1 stool every other day

- Willing to take iron and be randomized into study intervention group

- Willing to abstain from recreational drug use and consumption > 2 alcoholic drinks per
day during study participation

- Will not be undergoing colonoscopy in the 2 months before, or during the course of the
study

Exclusion Criteria:

- Any major illness or condition that may interfere with study outcomes at the
discretion of the study MD

- Personal history of G-6-P (glucose-6-phosphate dehydrogenase) deficiency

- Diabetes Type 1 & Type 2 or use of any pharmacological treatment for diabetes

- Endocrine disorders including diabetes, unstable thyroid disease (dose adjustment of
thyroid replacement in the past 6 months), adrenal disease, pheochromocytoma or
parathyroid disease

- Recent history of inflammatory diseases (for example: rheumatoid arthritis, lupus)

- Use tumor necrosis factor (TNF) blockade medication, methotrexate, or other
immune-modulating drugs

- Steroid use (except for non-prescription topical and nasal steroids, e.g. Flonase)

- If participant is on hormone replacement therapy with estrogen, testosterone or growth
hormone, has the dosage regimen changed in the past month, or expected to change
during course of study

- History of myocardial infarction, stroke or transient ischemic attack (TIA), coronary
artery bypass graft, stenosis >50% diagnosed within the past 1 year or acute unstable
cardiovascular disease.

- Clotting/bleeding disorders or ongoing anticoagulant use: coumadin (warfarin),
Eliquis, Xarelto, Pradaxa

- GI diseases, conditions or medications known to influence GI absorption including
active peptic ulcer disease or inflammatory bowel disease (such as ulcerative colitis,
Crohn's disease), pancreatic insufficiency, celiac disease, malabsorption disorders
(other than lactose intolerance)

- Hx of stomach or bowel resection (other than appendectomy), gastric bypass or other
bariatric weight loss procedure

- Regular use (> 2 times per week) of acid lowering medication: antacids, proton pump
inhibitors (PPI), H2 blockers

- History of eating disorder anorexia, bulimia or binge-eating in the past 5 years

- Actively undergoing dialysis

- Inadequately controlled hypertension (HTN) @ the discretion of study MD or Registered
Nurse

- Certain psychiatric disorders including schizophrenia, bipolar major depression or
psychosis (depression OK, if stable on treatment regimen for > 6 months)

- Immunodeficiency condition, HIV or AIDS

- Cancer of any type (except for non-melanoma skin) in past year

- Actively using cancer chemotherapeutic agents

- Regular use of acetylsalicylic acid (ASA); NSAIDs; Cox-2 inhibitors. However,
infrequent NSAID use (not on a regular scheduled basis) allowed if able to hold NSAIDs
x 72 hours prior to all blood draws

- Infection or febrile illness within 2wks prior to study or study blood draws, may
rescheduled >2wks after resolution of symptoms

- Hx of malaria; or vaccination or treatment for malaria, or antimalarial prophylaxis in
past 3 months

- Seizure disorders (OK if well managed with medication: no seizure activity x 3 yrs)

- Hx splenectomy

- Chronic liver disease such as hepatitis B, C or cirrhosis

- Use of fiber supplements, laxatives or stool softeners, unless willing to maintain
consistent dose for 2 weeks prior to entry and for duration of study

- Colonoscopy procedure or prep within 2 months prior to or during study

- Antibiotic use (including dental prophylaxis use within 3 months prior to or during
study participation). Non-prescription topical antibiotics OK.

- If using probiotic or prebiotic foodstuffs or pills/capsules, will dosage regimen
change during course of study?

- Inability to deliver stool sample to center within 18 hours of bowel movement

- Alcohol use on average > 2 servings/day or > 14 servings/wk (Serving size: 12oz
beer/4oz wine/2oz hard liquor) or self-reported binge drinking

- Current use of iron supplement or other nutritional supplements containing iron

- Use of dietary supplements containing vitamins (except Ca+, Vit D), minerals, herbal
other plant-based preparations, fish oil supplements (including cod liver oil) or
homeopathic remedies x 2 weeks prior to or during study. If individual wishes to
participate, must stop these supplements >2 weeks prior to study.

- Inadequate venous access or history of a bilateral mastectomy with nodal dissection

- Participation in other research study during the same time period

- No social security number (required for stipend payment)

- Iron saturation outside of normal range

- Hemoglobin (Hgb) < 11.7 (females) < 13.2 (males)

- Serum creatinine > 1.5 mg/dl

- Fasting blood sugar >126 mg/dL

- Serum glutamic oxaloacetic transaminase (SGOT) > 1.5x upper range of normal

- Serum glutamic-pyruvic transaminase (SGPT) > 1.5x upper range of normal mg/dl in
absence of benign cause, i.e.: Gilbert's syndrome