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Kris Loves Chocolate asks: "Could there be any truth to drinking pickle juice to dissolve a kidney stone? "
First let me say that I am a food chemist, not a pharmacist. By rights, I have no right to answer medical questions and any answer is based more on logic than medical knowledge.
Now, having said that, let me say this:
Kidney stones are things that have deposited, crystallised, from your urine. There are several types of kidney stones, so no one thing will cure them all.
For something like pickle juice, basically vinegar, to dissolve them it would need to get past your stomach and intestinal system and have an influence on the composition of your urine. Not impossible, by all accounts something in cranberries makes the passage and has a remedial effect with regard to urinary tract infections. But I am not convinced that acetic acid, the acid in pickle juice, will do that. Most body fluids are pretty tightly controlled for their pH.
More plausible is that drinking more fluids may lower the concentration of the salts in the urine that lead to the stones and then they may redissolve.
May.
I see no reason why pickle juice cannot be this fluid but water would be more palatable.
For more informed information, visit the Mayo Clinic site.
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Sunday, June 7, 2009
Tuesday, May 26, 2009
Do birds burp?
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Chairman Bill asks "My son keeps wanting to feed seagulls with bread laced with baking soda. Does it blow them up?"
I don't think so.
See here.
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Chairman Bill asks "My son keeps wanting to feed seagulls with bread laced with baking soda. Does it blow them up?"
I don't think so.
See here.
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Sunday, May 17, 2009
Grey Egg Whites
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Anonymous asked "I whipped egg whites in a Kitchen Aid mixer bowl & they turned a greyish color with a grey liquid. What kind of reaction was that? And is it still safe to eat? "
I can't be sure about a Kitchen Aid bowl but whipping egg whites in an aluminium bowl will produce a grey result as small particles of aluminium are rubbed off the bowl by the beaters.
Safe? Probably but best to avoid it if you can.
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Anonymous asked "I whipped egg whites in a Kitchen Aid mixer bowl & they turned a greyish color with a grey liquid. What kind of reaction was that? And is it still safe to eat? "
I can't be sure about a Kitchen Aid bowl but whipping egg whites in an aluminium bowl will produce a grey result as small particles of aluminium are rubbed off the bowl by the beaters.
Safe? Probably but best to avoid it if you can.
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Alkaline Water
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Anonymous (and Honest Abe) asked: "Can you comment on the current fad of drinking alkaline water. People are spending thousands of dollars on machines that use electrolysis to make alkaline water. I can't see how this is real, nor can I understand how any alkaline water could be useful in the acidic environment of the stomach. "
Well, no, not really, not much. The mouth is alkaline and the stomach is acidic. The advantage of this is that, having an alkaline mouth, your teeth don't dissolve.
Beyond that, I can see no advantage of alkaline water.
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Anonymous (and Honest Abe) asked: "Can you comment on the current fad of drinking alkaline water. People are spending thousands of dollars on machines that use electrolysis to make alkaline water. I can't see how this is real, nor can I understand how any alkaline water could be useful in the acidic environment of the stomach. "
Well, no, not really, not much. The mouth is alkaline and the stomach is acidic. The advantage of this is that, having an alkaline mouth, your teeth don't dissolve.
Beyond that, I can see no advantage of alkaline water.
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Monday, April 13, 2009
Curry Powder
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Sara asked about curry powder.
There is absolutely nothing wrong with curry powder. It has been safely used for many centuries, following time honoured and well proven practices.
But what if those practices are not followed?
First, let's look at what curry powder is. It is the ground mixture of spices, seeds of a variety of plants. Seeds that have been exposed to the environment. There is nothing abnormal in that but, because of their origin, the seeds that go into curry powder will bring with them a variety of organisms from the environment. Notably Salmonella.
Now, how is curry traditionally prepared? You heat oil in a pan and cook the powder in this oil. Ostensibly to 'bring out the flavour' but, by a happy coincidence, it also sterilises the powder. You then add meat, vegetables, whatever and continue with making your curry.
What happens if you deviate from this long proven, survival enhancing, cooking practice? What if you are a new age cook and make a curried pasta salad where you just mix the warm (!) pasta, mayonnaise, vegetables, cream and curry powder and stir? Nothing much if you eat it straight away. But bacteria will double roughly every 20min at room temperature; what if you make your salad early and leave it for a few hours before eating? Not a good idea - the salad is warm, moist and protein rich - happy times for the bacteria.
Because of the risk, spices are one of the few things that are permitted to be irradiated to sterilise them. But this does not teach people safe handling practices for a potentially dangerous food. People will just be ignorant of the dangers and at risk from spices that are not irradiated.
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Sara asked about curry powder.
There is absolutely nothing wrong with curry powder. It has been safely used for many centuries, following time honoured and well proven practices.
But what if those practices are not followed?
First, let's look at what curry powder is. It is the ground mixture of spices, seeds of a variety of plants. Seeds that have been exposed to the environment. There is nothing abnormal in that but, because of their origin, the seeds that go into curry powder will bring with them a variety of organisms from the environment. Notably Salmonella.
Now, how is curry traditionally prepared? You heat oil in a pan and cook the powder in this oil. Ostensibly to 'bring out the flavour' but, by a happy coincidence, it also sterilises the powder. You then add meat, vegetables, whatever and continue with making your curry.
What happens if you deviate from this long proven, survival enhancing, cooking practice? What if you are a new age cook and make a curried pasta salad where you just mix the warm (!) pasta, mayonnaise, vegetables, cream and curry powder and stir? Nothing much if you eat it straight away. But bacteria will double roughly every 20min at room temperature; what if you make your salad early and leave it for a few hours before eating? Not a good idea - the salad is warm, moist and protein rich - happy times for the bacteria.
Because of the risk, spices are one of the few things that are permitted to be irradiated to sterilise them. But this does not teach people safe handling practices for a potentially dangerous food. People will just be ignorant of the dangers and at risk from spices that are not irradiated.
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Monday, April 6, 2009
Egg whites & Copper bowls
Woodfired asked: Whisking egg whites to the correct stiffness seems to challenge many. There is plenty of advice about how to make your whites stiff. An old one, and one that seems to be supported by professional chefs, is to whisk them in a copper bowl. Can you think of any likely reason why this would help?
Well, no, I had no idea. I thought it may be related to bowl cleanliness as this can influence whipping of egg whites. So I went hunting.
References:
http://en.wikipedia.org/wiki/Egg_white
http://chemistry.about.com/od/howthingsworkfaqs/f/copperbowl.htm
Well, no, I had no idea. I thought it may be related to bowl cleanliness as this can influence whipping of egg whites. So I went hunting.
The bowl you use makes a difference when you are whipping egg whites. When air is whisked into egg whites, the mechanical action denatures the proteins in the whites. The denatured proteins coagulate, stiffening the foam and stabilizing the air bubbles.
A copper bowl assists in creating a tighter bond in reactive sulfur items such as egg whites. The bond created is so tight that the sulfurs are prevented from reacting with any other material. Copper bowls produce a yellowish, creamy foam that is harder to overbeat than the foam produced using glass or stainless steel bowls. When you whisk egg whites in a copper bowl, some copper ions migrate from the bowl into the egg whites. The copper ions form a yellow complex with one of the proteins in eggs, conalbumin. The conalbumin-copper complex is more stable than the conalbumin alone, so egg whites whipped in a copper bowl are less likely to denature (unfold).
If the foam is overbeaten in a non-copper bowl, eventually the proteins become completely denatured and coagulate into clumps. There is no going back from the clumpy mess to nice foamy whites, so overbeaten whites are usually discarded.
A silver plated bowl will have the same result as the copper bowl. Drawbacks of the copper bowl include the expense of the bowl itself, as well as the fact that the bowls are difficult to keep clean. Copper contamination from the bowl is minimal as a cup of foam will contain a tenth of one's daily normal intake level.
Although the iron and zinc found in other metal bowls also form complexes with conalbumin, these complexes don't make the foam more stable.
Cream of tartar (potassium bitartrate) is an acidic salt that can be used to change the pH of the egg white to an acidic range by boosting the number of free-floating hydrogen ions in the egg white. This has the effect of stabilizing the foam, and is therefore an alternative to using a copper bowl.
References:
http://en.wikipedia.org/wiki/Egg_white
http://chemistry.about.com/od/howthingsworkfaqs/f/copperbowl.htm
Onions as bacteria magnets.
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Pauline asked: there is an email circulating claiming that cut onions are "magnets for bacteria" and should never be stored for later use (even in the fridge for a few days) as they will cause food poisoning. True?
Snopes (here) rates it as "undetermined".
I am willing to go out on a limb and say "false".
Reason 1: Nothing is a bacteria magnet. Firstly, bacteria have minimal mobility. They usually travel in water droplets, if at all. Sneezes, for example. Moulds can release spores which get blown around but bacteria usually grows in moist environments and are slimy, making getting airborne difficult. Secondly, if there was such a thing as a 'bacteria magnet' it would be enormously useful in the medical field for drawing bacteria away from the ill and infirmed. Not such use has been made of onions.
Contact with unclean hands can introduce bacteria to new surfaces but they need a surface that will support growth, otherwise they will just stay there without multiplying or die.
Reason 2: Bacteria like moist, neutral environments. Not many acidic things grow bacteria. That's why vinegar is used for preserving. The surface of a cut onion is acidic due to the production of sulphuric acid (this is what makes your eyes water). There are some moulds that will tolerate acidic conditions and grow on onions but they are not high risk, they are visible, and any normal person would cut them off or ditch the onion.
Reason 3: High risk foods are usually high in protein and available moisture. Onions are low protein, verging on nil, and what moisture they have is contained in their cellular structure. The surface, as well as being acidic, dries soon after cutting and will not support bacterial growth.
Reason 4: If onions are attracting bacteria, where are they coming from? Somewhere else in your fridge? Perhaps it is time to clean the fridge.
Reason 5: In the 20 odd years I worked in a food laboratory, onions were never mentioned as even a suspect in a food poisoning case.
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Footnote: we did have some onions brought to the laboratory as a food poisoning complaint once. A guy had eaten them and ended up in hospital. Only problem was, they weren't onions.
They were daffodil bulbs.
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Pauline asked: there is an email circulating claiming that cut onions are "magnets for bacteria" and should never be stored for later use (even in the fridge for a few days) as they will cause food poisoning. True?
Snopes (here) rates it as "undetermined".
I am willing to go out on a limb and say "false".
Reason 1: Nothing is a bacteria magnet. Firstly, bacteria have minimal mobility. They usually travel in water droplets, if at all. Sneezes, for example. Moulds can release spores which get blown around but bacteria usually grows in moist environments and are slimy, making getting airborne difficult. Secondly, if there was such a thing as a 'bacteria magnet' it would be enormously useful in the medical field for drawing bacteria away from the ill and infirmed. Not such use has been made of onions.
Contact with unclean hands can introduce bacteria to new surfaces but they need a surface that will support growth, otherwise they will just stay there without multiplying or die.
Reason 2: Bacteria like moist, neutral environments. Not many acidic things grow bacteria. That's why vinegar is used for preserving. The surface of a cut onion is acidic due to the production of sulphuric acid (this is what makes your eyes water). There are some moulds that will tolerate acidic conditions and grow on onions but they are not high risk, they are visible, and any normal person would cut them off or ditch the onion.
Reason 3: High risk foods are usually high in protein and available moisture. Onions are low protein, verging on nil, and what moisture they have is contained in their cellular structure. The surface, as well as being acidic, dries soon after cutting and will not support bacterial growth.
Reason 4: If onions are attracting bacteria, where are they coming from? Somewhere else in your fridge? Perhaps it is time to clean the fridge.
Reason 5: In the 20 odd years I worked in a food laboratory, onions were never mentioned as even a suspect in a food poisoning case.
-------
Footnote: we did have some onions brought to the laboratory as a food poisoning complaint once. A guy had eaten them and ended up in hospital. Only problem was, they weren't onions.
They were daffodil bulbs.
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