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Speaker
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Topic Details
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Abstract  |
Alexy U |
Potential renal acid load in the diet of German children and adolescents: Impact of food groups and trends. |
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Abstract |
Altland K |
Mild acidosis destabilizes human transthyretin and may increase the risk for amyloidosis. |
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Abstract |
Arnett TR |
Regulation of bone cell function by extracellular pH. |
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Abstract |
Ball D |
The effect of sodium acetate ingestion on acid-base balance and resting metabolism in man. |
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Berkemeyer S |
The renal net acid excretion capacity across various age-groups. |
| Abstract |
Burckhardt P |
The effect of bicarbonate in mineral water on bone metabolism: interventional studies. |
| Abstract |
Bushinsky DA |
Metabolic acidosis induces bone resorption via proton receptor-mediated activation of inositol phosphate-dependent calcium signaling. |
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Catterick J |
Provision of dietary alkali in the UK diet: a pilot study to examine the effects of supplementation with ‘Horlicks’ on estimates of potential renal acid load (PRAL) and net acid excretion indirect (NAEIndirect) in postmenopausal women. |
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Clarys P |
Acid-base balance in vegetarians and non-vegetarians. |
| Abstract |
Cseuz RM |
Alkaline mineral supplementation decreased pain in rheumatoid arthritis: a randomized, controlled study. |
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Demigné C |
Could minor cations and anions or other constituents such as fibers, contribute to the alkalinising properties of plant foods ? |
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Frassetto LA |
Dietary NaCl induces low-grade hyperchloremic metabolic acidosis in healthy humans. |
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Frings P |
Bone loss because of high sodium intake: is there a connection to the acid-base balance? |
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Gannon RHT |
Estimation of the dietary acid generating potential of the elderly British population: analysis of the National Diet and Nutrition Survey (NDNS) adults aged 65 years and over using estimates of net acid excretion indirect (NAEind) and net rate of endogenous non-carbonic acid production (NEAP). |
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Ginty F |
How important is dietary acid-base balance for bone health in different age groups? |
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Hardcastle AC |
The association of dietary acidity with bone mineral density in postmenopausal women. |
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Heer M |
Osmotically inactive sodium retention is correlated with low-grade metabolic acidosis. |
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Kalhoff H |
Food composition and acid-base balance: alimentary acid load and clinical implications in neonates. |
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Kiwull-Schöne H |
Food composition and acid-base balance: experimental observations on alimentary alkali depletion in herbivores. |
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Lanham-New SA |
Does the skeleton play a role in acid-base homeostasis? Current evidence: future perspectives. |
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Macdonald HM |
Is acid-base balance important for bone health in postmenopausal women? Evidence from cohort and intervention studies in Aberdeen. |
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MacLeay JM |
Ovariectomy and dietary induced metabolic acidosis both result in decreased bone quality through different mechanisms: experience with an ovine model. |
| Abstract |
Remer T |
Associations of biomarkers of acid load and cortisol secretion with potentially bioactive free glucocorticoids in healthy lean adults: a pilot study. |
| Abstract |
Remer T |
PRAL-independent diet effects on NEAP: acid base considerations in stone-age sweet potato eaters, modern-day sweet potato eaters, and high-protein consumers. |
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Robergs RA |
Lactic acid is not the source of protons in metabolic acidosis. |
| Abstract |
Rylander R |
Drinking water composition and disease - is acidity a key factor? |
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Tucker KL |
Acid-base dietary components, bone mineral density, and fracture risk in the Framingham Osteoporosis Study. |
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Tylavsky F |
Dietary indicators of acid base balance and bone accrual in pubertal children. |
| Abstract |
Welch A |
Urinary pH is an indicator of dietary acid-base load in a population: results from the EPIC-Norfolk cohort study. |
2nd Int. Acid-Base Symposium 
