During my search for answers on why I‘m not getting enough and what the difference is between supplements, I was frustrated at the lack of clear answers. Hopefully my research will help others struggling to work out the same thing. I’m a designer not a doctor, but that might make me the perfect person to explain things simply.
http://campusnews.uni-trier.de/ucl/Lo-Mosk-v-RB-Sal-de1.html
http://campusnews.uni-trier.de/ucl/Lo-Mosk-v-RB-Sal-de2.html
http://campusnews.uni-trier.de/ucl/Lo-Mosk-v-RB-Sal-de3.html
http://campusnews.uni-trier.de/ucl/l-v-s2.html
http://campusnews.uni-trier.de/ucl/s-v-m1.html
http://campusnews.uni-trier.de/ucl/s-v-m2.html
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https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-02.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-03.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-04.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-05.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-06.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-07.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-08.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-09.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-10.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-11.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-12.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-13.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-14.html
https://lasallelalaguna.es/ucl/Shakhtar-v-Real-Madrid-en-viv-15.html
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https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-02.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-03.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-04.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-05.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-06.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-07.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-08.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-09.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-10.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-11.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-12.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-13.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-14.html
https://www.atca.org/ucl/rexx/Shakhtar-v-Real-Madrid-en-viv-15.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-01.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-02.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-03.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-04.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-05.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-06.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-07.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-08.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-09.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-10.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-11.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-12.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-13.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-14.html
https://shopcoralgables.com/cop/Shakhtar-v-Real-Madrid-en-viv-15.html
https://lasallelalaguna.es/ucl/sha-v-real-tv1.html
https://lasallelalaguna.es/ucl/sha-v-real-tv2.html
https://lasallelalaguna.es/ucl/sha-v-real-tv3.html
https://lasallelalaguna.es/ucl/video-ata-vs-midt-tv1.html
https://lasallelalaguna.es/ucl/video-ata-vs-midt-tv2.html
https://lasallelalaguna.es/ucl/video-ata-vs-midt-tv3.html
https://mrdeals.it/ucl/sha-v-real-tv1.html
https://mrdeals.it/ucl/sha-v-real-tv2.html
https://mrdeals.it/ucl/sha-v-real-tv3.html
https://mrdeals.it/ucl/video-ata-vs-midt-tv1.html
https://mrdeals.it/ucl/video-ata-vs-midt-tv2.html
https://mrdeals.it/ucl/video-ata-vs-midt-tv3.html
https://www.atca.org/ucl/rexx/sha-v-real-tv1.html
https://www.atca.org/ucl/rexx/sha-v-real-tv2.html
https://www.atca.org/ucl/rexx/sha-v-real-tv3.html
https://www.atca.org/ucl/rexx/video-ata-vs-midt-tv1.html
https://www.atca.org/ucl/rexx/video-ata-vs-midt-tv2.html
https://www.atca.org/ucl/rexx/video-ata-vs-midt-tv3.html
http://rivista.clamerinforma.it/ucl/cast/A-M-hena01.html
http://rivista.clamerinforma.it/ucl/cast/A-M-hena02.html
http://rivista.clamerinforma.it/ucl/cast/A-M-hena03.html
http://rivista.clamerinforma.it/ucl/cast/A-M-hena04.html
http://rivista.clamerinforma.it/ucl/cast/A-M-hena05.html
https://mrdeals.it/ucl/b-in-hhg6.html
https://mrdeals.it/ucl/b-in-hhg7.html
https://mrdeals.it/ucl/b-in-hhg8.html
https://mrdeals.it/ucl/b-in-hhg9.html
https://mrdeals.it/ucl/b-in-hhg10.html
https://lasallelalaguna.es/ucl/b-in-hhg1.html
https://lasallelalaguna.es/ucl/b-in-hhg2.html
https://lasallelalaguna.es/ucl/b-in-hhg3.html
https://lasallelalaguna.es/ucl/b-in-hhg4.html
https://lasallelalaguna.es/ucl/b-in-hhg5.html
https://www.atca.org/ucl/rexx/b-in-hhg6.html
https://www.atca.org/ucl/rexx/b-in-hhg7.html
https://www.atca.org/ucl/rexx/b-in-hhg8.html
https://www.atca.org/ucl/rexx/b-in-hhg9.html
https://www.atca.org/ucl/rexx/b-in-hhg10.html
https://www.atca.org/ucl/rexx/b-in-hhg11.html
https://www.docukit.nl/UEFA/inter-borus-tvst01.html
https://www.docukit.nl/UEFA/inter-borus-tvst02.html
https://www.docukit.nl/UEFA/inter-borus-tvst03.html
https://www.docukit.nl/UEFA/inter-borus-tvst04.html
http://www.skylineoffices.co.uk/cnn/inter-borus-tvst05.html
http://www.skylineoffices.co.uk/cnn/inter-borus-tvst06.html
http://www.skylineoffices.co.uk/cnn/inter-borus-tvst07.html
http://www.skylineoffices.co.uk/cnn/inter-borus-tvst08.html
https://lauing.de/RTL/Lo-Mosk-v-RB-Sal-de1.html
https://lauing.de/RTL/Lo-Mosk-v-RB-Sal-de2.html
https://lauing.de/RTL/Lo-Mosk-v-RB-Sal-de3.html
https://lauing.de/RTL/l-v-s1.html
https://lauing.de/RTL/l-v-s2.html
https://lauing.de/RTL/s-v-m1.html
https://lauing.de/RTL/s-v-m2.html
https://www.docukit.nl/UEFA/bayern-atletico-im01.html
https://www.docukit.nl/UEFA/bayern-atletico-im02.html
https://www.docukit.nl/UEFA/bayern-atletico-im03.html
https://www.docukit.nl/UEFA/bayern-atletico-im04.html
https://www.docukit.nl/UEFA/bayern-atletico-im05.html
https://lasallelalaguna.es/ucl/bayern-atletico-im01.html
https://lasallelalaguna.es/ucl/bayern-atletico-im02.html
https://lasallelalaguna.es/ucl/bayern-atletico-im03.html
https://lasallelalaguna.es/ucl/bayern-atletico-im04.html
https://lasallelalaguna.es/ucl/bayern-atletico-im05.html
https://www.atca.org/ucl/rexx/bayern-atletico-im05.html
https://www.atca.org/ucl/rexx/bayern-atletico-im05.html
https://www.atca.org/ucl/rexx/bayern-atletico-im05.html
https://www.atca.org/ucl/rexx/bayern-atletico-im05.html
https://www.atca.org/ucl/rexx/bayern-atletico-im05.html
http://rivista.clamerinforma.it/ucl/cast/bayern-atletico-im01.html
http://rivista.clamerinforma.it/ucl/cast/bayern-atletico-im02.html
http://rivista.clamerinforma.it/ucl/cast/bayern-atletico-im03.html
http://rivista.clamerinforma.it/ucl/cast/bayern-atletico-im04.html
http://rivista.clamerinforma.it/ucl/cast/bayern-atletico-im05.html
https://mrdeals.it/ucl/bayern-atletico-im01.html
https://mrdeals.it/ucl/bayern-atletico-im02.html
https://mrdeals.it/ucl/bayern-atletico-im03.html
https://mrdeals.it/ucl/bayern-atletico-im04.html
https://mrdeals.it/ucl/bayern-atletico-im05.html
http://campusnews.uni-trier.de/ucl/bayern-atletico-im01.html
http://campusnews.uni-trier.de/ucl/bayern-atletico-im02.html
http://campusnews.uni-trier.de/ucl/bayern-atletico-im03.html
http://campusnews.uni-trier.de/ucl/bayern-atletico-im04.html
http://campusnews.uni-trier.de/ucl/bayern-atletico-im05.html
https://shopcoralgables.com/cop/bayern-atletico-im01.html
https://shopcoralgables.com/cop/bayern-atletico-im02.html
https://shopcoralgables.com/cop/bayern-atletico-im03.html
https://shopcoralgables.com/cop/bayern-atletico-im04.html
https://shopcoralgables.com/cop/bayern-atletico-im05.html
http://www.skylineoffices.co.uk/cnn/bayern-atletico-im01.html
http://www.skylineoffices.co.uk/cnn/bayern-atletico-im02.html
http://www.skylineoffices.co.uk/cnn/bayern-atletico-im03.html
http://www.skylineoffices.co.uk/cnn/bayern-atletico-im04.html
http://www.skylineoffices.co.uk/cnn/bayern-atletico-im05.html
http://www.skylineoffices.co.uk/cnn/sha-v-real-tv1.html
http://www.skylineoffices.co.uk/cnn/sha-v-real-tv2.html
http://www.skylineoffices.co.uk/cnn/sha-v-real-tv3.html
http://www.skylineoffices.co.uk/cnn/video-ata-vs-midt-tv1.html
http://www.skylineoffices.co.uk/cnn/video-ata-vs-midt-tv2.html
http://www.skylineoffices.co.uk/cnn/video-ata-vs-midt-tv3.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-01.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-02.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-03.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-04.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-05.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-06.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-07.html
http://rivista.clamerinforma.it/ucl/cast/Sha-Don-Real-Mad-dewd-08.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-01.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-02.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-03.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-04.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-05.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-06.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-07.html
https://www.atca.org/ucl/rexx/Sha-Don-Real-Mad-dewd-08.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-01.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-02.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-03.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-04.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-05.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-06.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-07.html
https://mrdeals.it/ucl/Sha-Don-Real-Mad-dewd-08.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-01.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-02.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-03.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-04.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-05.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-06.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-07.html
http://campusnews.uni-trier.de/ucl/Sha-Don-Real-Mad-dewd-08.html
https://leviancom.blob.core.windows.net/bara/Lo-Mosk-v-RB-Sal-de1.html
https://leviancom.blob.core.windows.net/bara/Lo-Mosk-v-RB-Sal-de2.html
https://leviancom.blob.core.windows.net/bara/Lo-Mosk-v-RB-Sal-de3.html
https://leviancom.blob.core.windows.net/bara/l-v-s1.html
https://leviancom.blob.core.windows.net/bara/l-v-s2.html
https://leviancom.blob.core.windows.net/bara/s-v-m1.html
https://leviancom.blob.core.windows.net/bara/s-v-m2.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-01.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-02.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-03.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-04.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-05.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-06.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-07.html
https://www.docukit.nl/UEFA/Sha-Don-Real-Mad-dewd-08.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-01.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-02.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-03.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-04.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-05.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-06.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-07.html
https://shopcoralgables.com/cop/Sha-Don-Real-Mad-dewd-08.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-01.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-02.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-03.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-04.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-05.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-06.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-07.html
http://www.skylineoffices.co.uk/cnn/Sha-Don-Real-Mad-dewd-08.html
First a couple of important terms:
The box sizes are in proportion with the population of each group so you can see how massive the problem is. Women and children make up the bulk of cases. Source: WHO from here and here.
A good start starting point is considering how we absorb it.
More info & references document for iron absorption
Why balance is crucial
Chances are that you’re already aware of the consequences of low iron. The main ones being physical and mental fatigue that comes from not having enough iron, the crucial ingredient for dna, dopamine, white blood cells and hemoglobin for oxygen transport. It likely affects kids development and can have particularly negative consequences if you’re pregnant.
Iron overload however can be worse.
Iron can be a reactive little element when it isn’t properly bound, and can release free radicals which cause oxidative stress to tissues. For this reason our body tries to keep iron locked up in a stable form, however if we increase iron too quickly or over time saturate our normal ways of dealing with it then we end up with iron overload.
Excess iron is stored in our organs, so long periods of high iron can cause nasty things like liver and pancreas damage, heart disease and reproductive problems. The people most at risk of iron overload are people with the genetic disorder hemochromatosis. This disorder causes the body to absorb too much iron from the diet and it is fairly common if you’re of Northern European ancestry — like 1 in every 200–300 people. Without this disease you’re not that likely to overload from food, but it can happen through accidental overdosing on iron supplements. Children are especially at risk of this.
Increased risk of infection
There is another thing to be aware of with iron. As much as we need iron to grow, so do microorganisms. People with a lot of free iron floating around are generally more susceptible to bacterial infections and other related diseases like diabetes, Alzeheimer’s and multiple sclerosis.
So get tested
Both iron deficiency and overload can make you tired (as well as lots of other things) so self diagnosis is definitely not recommended. The test is a simple blood test. The lab will indicate the healthy range, but here’s what the different measurements mean.
Ferritin
Only a fraction of the ferritin in your body is in the blood, but measuring this ferritin gives a good indication of your overall iron storage. Ferritin is the first iron to deplete so it‘s the early warning sign of iron deficiency.
There are tester kits (1, 2) on the market where you can check your own ferritin levels.
Serum iron
The amount of iron attached to transferrin is an indicator of how much iron is in your body. As well as measuring the serum iron, usually another test is done to check that transferrin is working properly (TIBC or direct transferrin test). Using these two tests you’re given Transferrin Saturation(TS)%.
Hemoglobin (Hb)
This measures the amount of hemoglobin in the blood which is needed to transport oxygen around the body. Low Hb is the final stage of iron deficiency and is an indicator for anemia. Low iron isn’t the only thing that causes anemia, which is why all the tests are needed for the full picture.
Choosing sources of iron
There are two factors that make up how much iron you’re getting:
It’s not so hard finding the iron content of things but determining bioavailability is a challenge.
Bioavailability of food
With all that uncertainty I guess it’s not surprising that there are so few figures on the bioavailability of iron in food. One figure bandied about is the bioavailability of heme iron which is often given as 10–35% . Note that heme makes up only part of the iron in meat and cooking and freezing can further reduce the heme.
Source from here. I don’t like that it has no details on how they got the figures but it’s one of the only sources I could find.
Plants contain only non-heme iron but aren’t any easier to figure out. In general they have a lower bioavailability than meat at somewhere between 1–15%. A difference of up to 15 times is quite a lot, and it’s due to the large effects of enhancers, inhibitors and cooking.
Enhancers
The plant food types that have high bioavailaiblity are generally the ones that contain high amounts of natural acids. Ascorbic acid (also known as vitamin C) is the most effective enhancer, which helps iron by protecting the iron from inhibitors, keeping it soluble and in the ferrous state. Other natural acids like citric, malic, tartaric and lactic acid also enhance iron but to a lesser extent. How much acid is needed is often given as 20mg ascorbic acid for 3mg of iron, but that’s provided there aren’t too many inhibitors. With high amounts of inhibitors then double that is needed.
The acids don’t help heme iron get absorbed, however meat tissue enhances all types of iron. This ‘meat factor’ isn’t fully understood, but its enhancing effect is less than ascorbic. One study found the effects of 30g muscle tissue to be equivalent to 25 mg ascorbic. These two enhancers aren’t additive, so if iron has been fully enhanced by acid, meat can’t enhance it further.
Reference doc for enhancers
Inhibitors
Inhibitors form a compound with iron that stops it getting absorbed. Phytate is the main inhibitor of plant food which is found mostly in legumes and cereal grains. A bit annoying seeing as legumes are especially high in iron. Preparations like soaking, sprouting and fermenting can greatly reduce the phytate content and therefore increase their bioavailability.
Polyphenols (used to be called vegetable tannins) are another category of inhibitors. They’re found in lots of tasty things like teas, coffee, red wine and cocoa. There are different types of polyphenols with different inhibitory strength, for example tea polyphenols inhibit more than coffee or wine ones.
Certain proteins like whey and casein found in milk, and egg proteins inhibit non-heme iron. The protein in soy beans has also been found to inhibit iron.
The last inhibitor usually cited is calcium, which unlike the others affects both heme and non-heme iron. There is debate around how much calcium affects iron directly, and how much it affects it by blocking phytates from releasing or due to the proteins it’s often taken with. So at this stage it’s a maybe.
Reference doc for inhibitors
Comparing iron supplements
Looking for ways to get all your iron needs from food is ideal, but if it’s not happening for you or you need a quick boost then supplements are a proven option. Comparing the bioavailability of supplements is a lot more difficult than I anticipated. In addition to all the problems with measuring bioavailability listed above, supplements don’t require any clinical trials to test their effectiveness. There is so little relevant data especially on the newer iron types.
Rather than skip this important comparison, I’ve put the data I found into a best approximation. So treat this as such and check out my source documents if you’d like to see what clinical trials were used. Throughout I’m always comparing the elemental weight of iron in each supplment. This is the weight of Fe, not the weight of the whole compound.
Reference document for price and toxicity. Bioavailability and side effect references are separated into the supplements and attached below.
Ferrous sulfate (FS)
Ferrous sulfate (also spelt sulphate) is the most common iron supplement, and for good reason. It’s very soluble so it’s fast working, it has good bioavailability and is the cheapest form. When overall bioavailability has been measured for ferrous sulphate it seems around the 20% mark, but going up towards 40% for anemic people and with enhancers, and towards zero for people with sufficient iron and inhibitors present. Most studies use relative bioavailability (RBV) as a measurement in order to cancel out some of the fluctuations, in which case sulfate is the reference and is set at 100%.
The usual complaint with sulfate is due to it being quite reactive. Like all the ferrous salts it’s mostly fine at low doses, but at high amounts it may cause stomach irritation. Taking it with food can lessen the irritation but this isn’t recommended because of the wide range of inhibitors that affect it. Instead smaller doses more often, or a smaller dose with enhancers seems to be the way to go. Another thing to keep in mind is its higher toxicity. This is generally fine for adults, but a fair amount of children each year are poisoned by accidental iron overdose.
Reference doc for ferrous sulfate
Ferrous gluconate
Ferrous gluconate is a soluble iron salt that seems to be less bioavailable than ferrous sulfate but not by much — like around 90% of sulfate levels. When comparing the same dose, there weren’t any reported differences in side effects between gluconate and sulfate. Supplement doses tend to be smaller in gluconate though, which could be why it is viewed as gentler on the stomach. Especially in formulations like Floradix which people talk about being gentle on the stomach, the amount of gluconate is only 10mg per serving. Like the other iron salts, gluconate is prone to the effects of enhancers and inhibitors so care needs to be taken with what it’s consumed with.
Reference doc for ferrous gluconate
Ferrous fumarate
Ferrous fumarate is the least soluble out of these ferrous salts. This means it’s a little more reliant on gastric acid to dissolve and takes a little longer to absorb. Ferrous fumarate is often referred to as having less bioavailability than sulfate and gentler on the stomach. This makes sense due to its lower solubility, but I haven’t found the studies to back that up. Most rate its bioavailability and side effects the same as sulfate. Inhibitors and enhancers affect it, but one thing to note is that unlike sulfate, it isn’t enhanced by Na2EDTA. Na2EDTA is often added to processed foods to stop oxidation, so that’s one source of enhancers that fumarate misses out on.
Reference doc for ferrous fumarate
Ferrous succinate
There aren’t many studies on this iron salt despite it being around in the 50’s, so I left it off the chart but it’s worth a mention. It tends to get used in combination supplements rather than on it’s own which might have to do to with its fairly low solubility. One study put its bioavailability relative to sulfate as 92% in tablet, and 122% in liquid. So pretty good and maybe more bioavailable than sulfate in liquid form. The problem is the lack of information on it. People report it as being gentler on the stomach compared to sulfate which makes sense for a less soluble form, but I haven’t seen any data to back that up.
Ferrous bis-glycine chelate (FeBC)
FeBC is a type of iron amino acid chelate with a structure of one molecule of iron bound by two molecules of glycine. There are other types of iron amino acid chelates but FeBC is the main one, often going by the brand name of Ferrochel®. It’s a very soluble and stable form of iron, so compared to sulfate it’s less likely to cause irritation during digestion. It is still affected by inhibitors, but this is estimated at about half as much as sulfate. Most studies conclude its bioavailability is the same as sulfate either at the same dose or at half the dose. Not sure why the lower does the same job, but it implies that it could have a higher bioavailability. It needs more studies to confirm this.
Reference doc for FeBC
Ferritin
Ferritin is what we and nearly all organisms use to store iron. It’s a protein with an “iron core” of up to 4500 ferric iron molecules inside. Although ferritin can come from both plant and animal sources, bovine ferritin is what is used most in studies. The number of ferric molecules inside ferritin can vary, and animal sources tend to have higher concentrations compared to plant sources. It was originally thought that all the ferritin we consume is absorbed in the normal non-heme way, where the protein opens up during digestion and the ferric iron is released. Many studies have now shown that as well as this method of absorption it also has its own pathway where it can get absorbed into intestinal cells whole. Which of these two pathways ferritin takes seems to depend on the conditions of the stomach such as gastric acids and stomach pH. If the ferritin stays whole through digestion then inhibitors don’t affect it. Unlike all other non-heme iron, ascorbic acid seems to have a negative effect on it unless it is enteric coated.
There is a bit of a divide with studies measuring the bioavailability of ferritin. Older studies that use extrinsic labeling put the bioavailability quite low. Newer studies use intrinsic labeling which claim to be more accurate, and show that ferritin has the same bioavailability as ferrous sulfate. So ferritin seems like it could be a pretty good source of iron, but there are few commercial supplements of it. Infact I could only find one expensive product that has little information about it. How this supplement compares to ferritin in existing studies is unknown. In terms of side effects, there are few studies on it but it is generally considered to have low side effects which makes sense due to its stable structure and naturally slow release.
Reference doc for ferritin
Iron Protein Succinylate (IPS)
IPS (sometimes called ITF282) is a form of ferric iron bound to milk protein. This protein casing protects it from being solubilised in the stomach, and instead it opens up in the intestines. This translates into good tolerability, and studies tend to put it at around half the side effects of sulfate. In terms of its bioavailability, it’s generally put at a little less than ferrous sulfate. Interestingly, a couple of studies show it overtaking sulfate in effectiveness after prolonged use. It is speculated that this could be because it causes less irritation, which is known to inhibit future absorption. There’s not much information about how it’s affected by inhibitors and enhancers, but it would make sense that it would be affected less while in the stomach, and when the ferric iron has been released it would be acted on in the usual way.
Reference doc for IPS
Polysaccharide Iron Complex (PIC)
There are different types of PIC, but generally this complex is made from a carbohydrate and ferric iron. Like the other larger synthetic complexes, the idea is that the carbohydrate stabilizes the iron while it’s in the stomach so it is less likely to react and cause irritation. Once in the small intestines it releases the ferric iron so it can be converted to ferrous iron and absorbed. That’s the idea, but it’s hard to say how well it does this due to a lack of good studies on it. It appears that its bioavailability is a bit less than ferrous sulfate and that it has less negative side effects. There’s not much information on the enhancers and inhibitors, but it seems like they affect it a bit less than sulfate.
Reference doc for PIC
Carbonyl
Carbonyl is a highly purified form of iron. The difference between it and other elemental iron powders isn’t the iron but rather the manufacturing process and in particular the size of iron particles. Carbonyl is the most bioavailable of all the iron powders, but when compared against ferrous sulfate it is generally considered around 75% as bioavailable. Carbonyl needs stomach gastric acids to solubilize it before it can be absorbed which makes it quite susceptible to the negative effects of food. Wheat especially seems to decimate its absorption. This requirement of gastric acids means that it is naturally slowly released, which makes it very safe and also translates into low gastro side effects.
In studies for children it seems to do a bit better than adults, which is probably due to the smaller dose and/or differences in gastric acids. As well as the safety aspect, another feature that could make it appealing as a choice for children is the small pill size and its availability in a chewable form.
Reference doc for carbonyl
Heme Iron peptide (HIP)
HIP is classified as a medical food rather than a supplement, but I think it’s worth lumping it with the rest for comparison. The heme iron in HIP generally comes from bovine hemoglobin, although it is possible to get heme iron from plant sources like soy. Unlike all the other supplements, it gets absorbed through the heme pathway which means that it stays whole through digestion and isn’t affected by most of the enhancers and inhibitors. Its only enhancer is meat tissue, and it is possibly inhibited by calcium. Because HIP isn’t that affected by inhibitors, it’s easy to get wildly different results when comparing it against other supplements depending on what food it’s taken with. From looking at the small selection of studies on it, I’d put it about twice as bioavailable as ferrous sulfate but that’s just a best guess. So HIP seems to be an effective supplement with the flexibility of being able to be taken with food and with low levels of side effects. The negatives are that it’s expensive and there is a lack of studies on the commercial HIP products. They may perform differe
