You say: "Hyperventilation
causes a loss of carbon dioxide from our body which makes the blood more alkaline."

How much more alkaline, and can you quantify this? What pH would suggest that someone is hyperventilating? I thought that pH was difficult to disrupt in the absence of various metabolic and other disorders or serious respiratory disorders - particularly as we have renal compensation mechanisms etc. that tend to return pH towards normal. So, I would appreciate your guidance on this. Similarly, what is "the normal size breath of air" to which you refer? Is there a guideline on this, because it is presumably not the normal amount for someone who is hyperventilating?

When you refer to an alkaline environment, I'm not sure when you are referring to respiratory alkalosis, metabolic alkalosis, serological alkalosis or intra- or extra- cellular alkalosis. When you are talking about diabetes and kidney disease and the possible role of hyperventilation as the body's countermeasure to correct pH, are you referring to acute crises or something that is a lower-level chronic metabolic acidosis?

Again, with your comments about calcium, I am not clear whether you are describing acute or chronic conditions. I also don't know which alkalosis you are referring to, although I would guess it is serological?

Diaphragmatic breathing does seem to be helpful where it is practical. Do you have any guidance for people who are obese or who have levels of intra-abdominal fat that produces splinting or difficulty in using the diaphragm?

Best - Breathless

What exactly does it mean when you have both alkalosis and acidosis?  If there are opposing forces causing either acidemia or alkalemia then you are correct, however this is the case at all times as our bodies constantly have a + and - flux...  But, in the general terminology, you don't have "combined" alkalosis and acidosis.

Using a capnograph is the easiest way to measure hyperventilation.  I am no expert on this but I believe that anything below PaCO2 of 30mmHg is considered hyperventilating, although possibly depending on symptoms even 32mmHg could be considered hyperventilating.  I don't think there is any magic number.

When I was talking about a "normal" sized breath, I meant not to take in more air than usual.  In my experience, when you ask someone to take in a breath of air, they usually exaggerate the breath, often expanding more into the chest than they normally would.  "Normal" in this case is the patient's normal.  I am in no way talking about norms. 

Hyperventilation in this context is a chronic thing - people develop a neural pattern that is incorrect, whatever the cause (psychological, physical etc.), and they over-breathe all the time. 

For the most part, I was talking about blood alkylosis.  My understanding is that renal compensation is not adequate to overcome chronic hyperventilation.  Look at my last reference for further info on that.

As for diaphramatic breathing, I think this is vital to health, and that even people that are obese can learn how to do this.  If they are splinting their abdomen, they have a dysfunctional deep core, and they need to be referred to someone trained in helping them find their transversus abdominis and pelvic floor, so that they can replace their splinting stabilization strategy with the correct one, and once they stop using their obliques to grip their ribcage which stops it from moving, they will be able to learn to breathe properly.  This is a motor control issue that probably has led to the poor breathing pattern.  As far as I am concerned, the only segment of the population that has a real excuse for not being physically able to diaphramatically breathe, would be women in their third trimester, where the baby is now big enough to be able to prevent the lungs from descending.

I think you will find my last reference listed very helpful to you and may answer your questions much better than I possibly can. 

I hope you find this helpful, and sorry for the delay in my response.

Vreni Gurd

Health and Vitality Coach
CHEK 3, NLC 2
www.wellnesstips.ca

I have not found the pH number you are asking me about yet.  I will ask the practitioner that I know that does the capnograph work whether she knows what the exact pH levels are and get back to you when she gets back to me.  

You are certainly correct that it is difficult to find trainers that a) know how to retrain the motor control systems properly to correct core function and breathing, and b) feel comfortable working with people of that size, and I acknowledge that that is a very significant stumbling block.  And finding physiotherapists that have access to Real Time Ultrasound to assist in core retraining and a capnograph to train the breathing pattern is no picnic either.  Access is a big problem.  That said, I do think that if they did have access, and they were motivated, they would be able to make the changes necessary over time.  (Always hopeful!) The motor-control exercises I am talking about do not need any equipment, and therefore do not need to be done in a gym, but can be done in the comfort of their own home.  

My thinking is that if someone's normal breathing pattern is to breathe very rapidly - so rapidly that they have to force the breath out by contracting their abdominals in order to take in the next breath as soon as they would like, and when I bring them out for testing on the capnograph to find that they are below 30mmHg, I would suggest that that is possibly a rather chronic hyperventilation pattern.  Their neural pattern is currently set to breathe in this fashion.  In my experience, changing a breathing pattern is not easy, so it is unlikely that this is an occasional thing, unless they just finished exercising or are overly stressed for some reason, which would accellerate their breathing and possibly create temporary hyperventilation.

Perhaps I need to be more careful with my wording - "all the time" is probably pretty extreme.  I'm more looking at overall patterns - not necessarily a 24/7 thing.  But if someone is commonly an apical breather, I think it is worth trying to change the pattern if they are having any kind of symptoms.  I just feel that breathing abnormalities are very common, and can be a contributing issue, if not the cause of many other problems, and my sense is that it is rarely considered.  My goal for the article was more to bring awareness to the issue, and to encourage physicians, physical therapists, and other health practitioners to check breathing patterns rather than overlook it, if they have someone presenting with symptoms.  I am sorry if I offended you in any way.

Vreni :)

Hello, Breathless,

I haven't had a lot of time to look into this, but here are two studies that  I've found so far. 

http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=1902283&dopt=Abstract   Chronic respiratory alkalosis.  The effect of sustained hyperventilation on
renal regulation of acid-base equilibrium

http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&dopt=AbstractPlus&list_uids=1405350&query_hl=6&itool=pubmed_docsum
Chronic respiratory alkalosis induces renal PTH-resistance, hyperphosphatemia and hypocalcemia in humans

I hope you find this helpful.  I also want to thank you for pushing me - I am not trying to be a doctor, but am very interested in how the body works, so your questions force me to look in more detail, which is a good thing. 

My goal is to challenge people to back up and look at possible foundational causes of problems from a holistic perspective, rather than immediately trying to treat minute symptoms.   In my opinion, breathing is foundational, and incorrect breathing patterns can cause a whole host of problems in the body, and it makes more sense to address the breathing pattern than treat each symptom separately.

Vreni Gurd

Health and Vitality Coach
CHEK 3, NLC 2
www.wellnesstips.ca

Don't worry about feeling short of breath after an intense bout of exercise.  This is not considered hyperventilation - your blood actually becomes acidic with exercise rather than alkaline.  If the exercise is very intense, you are using anaerobic metabolism, which means you are exercising without oxygen, and this causes the accumulation of lactic acid.  You are breathing hard because you are in oxygen debt from the previous bout of exercise, and you need your aerobic system to help your body return to a resting state.  This happens to everyone that exercises anaerobically.  If you watch Olympic athletes that are doing short term activities - figure skaters after their program for example, you will notice that they are out of breath too.

Vreni Gurd

Health and Vitality Coach
CHEK 3, NLC 2
www.wellnesstips.ca

I do appreciate you getting back to me.

My understanding is that 7.44 pH is still within the normal physiological range (upper part of the range is 7.45 pH) - being a logarithmic scale, it would take a lot to shift it further above that. So - other things being equal, it seems as if hyperventilation wouldn't necessarily disturb the pH out of the normal physiological range.

The 1st reference involves normal human subjects in whom acidosis had been induced with ammonium chloride and altitude-induced hypobaric hypoxia to bring about respiratory alkalosis: it is not really the sort of 'naturally occuring' chronic hyperventilation and respiratory alkalosis that you discuss. I accept that the researchers report the blood hydrogen ion concentration decreased by about 0.4 nmol per liter for every decrease of 1 mm Hg (0.13 kPa) in PaCO2 but this still gives me no feeling for an alteration in the pH.

The 2nd reference is about changes to mineral levels etc. but not about pH and it is about hypobaric-hypoxia-induced hyperventilation. Unless I don't understand what PTH has to do with pH?

I haven't been able to find references about normobaric chronic hyperventilation and pH - aren't there any?

I agree about the importance of the breathing pattern rather than the symptoms. I wonder if it is just over-stating the matter to claim that hyperventilation under normobaric conditions has any impact on pH that disturbs it other than within the normal physiological range?

Breathless

Hi there,

I teach a slight pelvic floor contraction on the exhale, with the emphasis being on "slight", so don't squeeze it to death. Try gently squeezing the anus rather than trying to stop urination - maybe this will reduce the irritation. Your bladder should not be bothered by this, as the pelvic floor is meant to be slightly contracted all the time in order to stabilize your pelvis and low back. If this problem continues after more correctional sessions with your physio, he/she may refer you to someone who can check why your bladder is being irritated. Good luck!

Vreni Gurd

Health and Vitality Coach
BPHE, CHEK 3, HLC 2
www.wellnesstips.ca