HOMEPRODUCTSCOMPANYCONTACTFAQResearchDictionaryPharmaSign Up FREE or Login

Respiratory Alkalosis

A state due to excess loss of carbon dioxide from the body. (Dorland, 27th ed)
Also Known As:
Alkalosis, Respiratory; Alkaloses, Respiratory; Respiratory Alkaloses
Networked: 518 relevant articles (8 outcomes, 31 trials/studies)

Relationship Network

Disease Context: Research Results

Related Diseases

1. Hypoxia (Hypoxemia)
2. Acidosis
3. Alkalosis
4. Hypocapnia
5. Lactic Acidosis

Experts

1. Batlle, Daniel: 3 articles (09/2017 - 11/2006)
2. Kaila, Kai: 3 articles (01/2016 - 07/2006)
3. Ainslie, Philip N: 2 articles (01/2022 - 01/2020)
4. Tymko, Michael M: 2 articles (01/2022 - 01/2020)
5. Celi, Pietro: 2 articles (02/2018 - 01/2016)
6. Liu, Fan: 2 articles (02/2018 - 01/2016)
7. Funk, Georg-Christian: 2 articles (11/2017 - 06/2005)
8. Schneeweiss, Bruno: 2 articles (11/2017 - 06/2005)
9. Adrogué, Horacio J: 2 articles (12/2013 - 01/2003)
10. Schmitz, Dietmar: 2 articles (11/2011 - 07/2006)

Drugs and Biologics

Drugs and Important Biological Agents (IBA) related to Respiratory Alkalosis:
1. Lactic Acid (Lactate)FDA LinkGeneric
2. Acetazolamide (Diamox)FDA LinkGeneric
09/01/1981 - "[Effect of acetazolamide on acute respiratory alkalosis (author's transl)]."
10/16/1975 - "It could be established that Acetazolamide does influence the symptoms, the man effect seems to be a reduction of the respiratory alkalosis, which is found in control persons in high altitudes. "
01/01/1990 - "Increased sensitivity to CO2 would reverse the suppressive effect of respiratory alkalosis on hypoxic ventilatory drive following rapid ascent to high altitude, and this probably accounts for the efficacy of acetazolamide in the prophylaxis of acute mountain sickness. "
05/31/2010 - "Therefore, the question remains as to whether acetazolamide prevents the facilitation of ABs during hypoxia by offsetting the effects of respiratory alkalosis, or alternatively by suppressing carotid body afferent activity. "
09/01/1975 - "In order to investigate whether or not there is a causal relationship between the metabolic acidosis and the ocular hypotension induced by acetazolamide, we undertook to correlate over a period of time the blood-acidifying and ocular-hypotonizing effects of administering the lowest intravenous effective dose of acetazolamide; to treat the metabolic acidosis induced by acetazolamide by means of the intravenous introduction of bases, and pulmonary hyperventilation (respiratory alkalosis); to evaluate the effects on the intraocular pressure (IOP) by neutralizing the acetazolamide-induced metabolic acidosis by means of a continuous infusion of sodium bicarbonate; to determine the relationship between the metabolic acidosis induced by blood-acidifying agents, which do not inhibit carbonic anhydrase, and the IOP; and to determine the changes in the acid-base status of the aqueous humor induced by acetazolamide and other blood-acidifying drugs. "
3. EmulsionsIBA
4. AcidsIBA
5. Parathyroid Hormone (Parathormone)IBA
6. Phosphates (Orthophosphate)IBA
7. Carbon DioxideIBA
8. Oxygen (Dioxygen)IBA
9. ElectrolytesIBA
10. GasesIBA

Therapies and Procedures

1. Therapeutics
2. Cardiopulmonary Resuscitation (CPR)
3. Drug Therapy (Chemotherapy)
4. X-Ray Film
5. Punctures