sodium dietary intake

[JORDYSMOM]

The sweat test may have been developed for testing children, but that is not because they have a different diet than adults. It's just that CF is caused by mutated genes,which happens at conception, and symptoms usually occur at birth or shortly after. Sweat tests were designed to indicate whether or not the CFTR is functioning properly. Diet does not change that fact.

Stacey

 

[JORDYSMOM]

The sweat test may have been developed for testing children, but that is not because they have a different diet than adults. It's just that CF is caused by mutated genes,which happens at conception, and symptoms usually occur at birth or shortly after. Sweat tests were designed to indicate whether or not the CFTR is functioning properly. Diet does not change that fact.

Stacey

 

[JORDYSMOM]

The sweat test may have been developed for testing children, but that is not because they have a different diet than adults. It's just that CF is caused by mutated genes,which happens at conception, and symptoms usually occur at birth or shortly after. Sweat tests were designed to indicate whether or not the CFTR is functioning properly. Diet does not change that fact.

Stacey

 

[JORDYSMOM]

The sweat test may have been developed for testing children, but that is not because they have a different diet than adults. It's just that CF is caused by mutated genes,which happens at conception, and symptoms usually occur at birth or shortly after. Sweat tests were designed to indicate whether or not the CFTR is functioning properly. Diet does not change that fact.

Stacey

 

[JORDYSMOM]

The sweat test may have been developed for testing children, but that is not because they have a different diet than adults. It's just that CF is caused by mutated genes,which happens at conception, and symptoms usually occur at birth or shortly after. Sweat tests were designed to indicate whether or not the CFTR is functioning properly. Diet does not change that fact.

Stacey

 

[AnD]

And this one says that excess salt is removed by the kidneys:


<a target=_blank class=ftalternatingbarlinklarge href="http://www.bbc.co.uk/schools/gcsebitesize/biology/humansasorganisms/6homeostasisrev6.shtml">another link</a>

 

[AnD]

And this one says that excess salt is removed by the kidneys:


<a target=_blank class=ftalternatingbarlinklarge href="http://www.bbc.co.uk/schools/gcsebitesize/biology/humansasorganisms/6homeostasisrev6.shtml">another link</a>

 

[AnD]

And this one says that excess salt is removed by the kidneys:


<a target=_blank class=ftalternatingbarlinklarge href="http://www.bbc.co.uk/schools/gcsebitesize/biology/humansasorganisms/6homeostasisrev6.shtml">another link</a>

 

[AnD]

And this one says that excess salt is removed by the kidneys:


<a target=_blank class=ftalternatingbarlinklarge href="http://www.bbc.co.uk/schools/gcsebitesize/biology/humansasorganisms/6homeostasisrev6.shtml">another link</a>

 

[AnD]

And this one says that excess salt is removed by the kidneys:


<a target=_blank class=ftalternatingbarlinklarge href="http://www.bbc.co.uk/schools/gcsebitesize/biology/humansasorganisms/6homeostasisrev6.shtml">another link</a>

 

[NoExcuses]

so your chloride channel in each and every one if your cells is unable to successfully transport chloride across the cell membrane.

therefore no matter how much sodium <b> chloride </b> aka salt you eat, your chloride channel will still be defective.

 

[NoExcuses]

so your chloride channel in each and every one if your cells is unable to successfully transport chloride across the cell membrane.

therefore no matter how much sodium <b> chloride </b> aka salt you eat, your chloride channel will still be defective.

 

[NoExcuses]

so your chloride channel in each and every one if your cells is unable to successfully transport chloride across the cell membrane.

therefore no matter how much sodium <b> chloride </b> aka salt you eat, your chloride channel will still be defective.

 

[NoExcuses]

so your chloride channel in each and every one if your cells is unable to successfully transport chloride across the cell membrane.

therefore no matter how much sodium <b> chloride </b> aka salt you eat, your chloride channel will still be defective.

 

[NoExcuses]

so your chloride channel in each and every one if your cells is unable to successfully transport chloride across the cell membrane.

therefore no matter how much sodium <b> chloride </b> aka salt you eat, your chloride channel will still be defective.

 

[madencanada]

thanks for the info..... bummer!!!!

 

[madencanada]

thanks for the info..... bummer!!!!

 

[madencanada]

thanks for the info..... bummer!!!!

 

[madencanada]

thanks for the info..... bummer!!!!

 

[madencanada]

thanks for the info..... bummer!!!!