Normalizing CO2 in Chronic Hyperventilation by a Novel Breathing Mask: A Pilot Study
HyperventilationChronic Idiopathic Hyperventilation2 moreBackground: Chronic Idiopathic Hyperventilation (CIH) is a form of dysfunctional breathing which has proven hard to treat effectively. The investigators hypothesised that by periodically inducing normocapnia over several weeks, it would be possible to raise the normal resting level/set point of CO2 and achieve a reduction of symptoms. Methods: Six CIH patients were treated two hours a day for four weeks with a novel breathing mask. The mask was used to induce normocapnia in these chronically hypocapnic patients. Capillary blood gases (PcCO2, pH, Standard Base Excess (SBE) etc.) were measured at baseline and once each week at least three hours after mask use, as well as spirometric values, breath holding tolerance and hyperventilation symptoms as per the Nijmegen Questionnaire (NQ),.
Comparison of Transcutaneous Vs End-tidal CO2 Pressure Measurements in Hyperventilation Syndrome...
Hyperventilation SyndromeHypocapnia3 moreHyper Ventilation Syndrome is a frequent disease affecting adults whose diagnosis is often belated or even unrecognized due to the lack of "gold standard" criteria. Its diagnosis currently relies on the Nijmegen score associated with a PetCO2 assesment using a hyperventilation provocation test. Correlation between Nijmegen Questionnaire scores and PetCO2 appears highly variable. PtcCO2 monitoring is a noninvasive alternative method providing a continuous estimation of arterial CO2 pressure (PaCO2) which could represent an advantageous alternative to PetCO2 measurements. Several reports have demonstrated that PtcCO2 monitoring reflects more faithfully PaCO2 than PetCO2, no study have evaluated its value in this indication. The primary aim of the study is to compare the diagnostic value of PtcPCO2 monitoring with PetCO2, the method currently used. Included patient will be invited to fill in the Nijmegen questionnaire and an ambient air gas measurement will be performed. PtcCO2 (mmHg) will be simultaneously measured during hyperventilation test. Nijmegen score signs reproduced by the test will be analysed. HVS diagnosis will be assessed by usual criteria (PetCO2 <30 mmHg at the end of hyperventilation test or under the PetCO2 value at rest, Nijmegen score> 23). PtcCO2 data will be blinded interpreted later. We will compare if PetCO2 and PtcCO2 leads to the same diagnosis or not.
Evaluation of Respiratory Function in Fibromyalgia
FibromyalgiaRespiratory Alkalosis and Metabolic Acidosis1 moreThis study will evaluate respiratory function in people with fibromyalgia and whether or not breathing patterns in this patient group can be explained by stress, emotional or biomechanical variables. In addition, examine the relationship between physical ability and lactate values.
Non Carbonic Buffer Power of Critical Ill Patients With Sepsis
Acid-Base ImbalanceRespiratory Acidosis1 moreAlterations of acid-base equilibrium are very common in critically ill patients and understanding their pathophysiology can be important to improve clinical treatment. The human organism is protected against acid-base disorders by several compensatory mechanisms that minimize pH variations in case of blood variations in carbon dioxide content. The aim of the present study is to quantify the buffer power, i.e. the capacity to limit pH variations in response to carbon dioxide changes, in critically ill septic patients and compare these results with data collected from healthy volunteers.
Determination of the Dissociation Constant (Ka) of Plasma and Whole Blood in Septic Patients
SepsisSeptic Shock4 moreAlterations of acid-base equilibrium are very common in critically ill patients and understanding their pathophysiology can be important to improve clinical treatment.
Cerebrospinal Acid-base in Pregnant and Non-pregnant Fertile Women
Acid-Base ImbalanceRespiratory Alkalosis2 moreThe third trimester of pregnancy is typically characterized by the development of a marked respiratory alkalosis. The possible role of pregnancy-induced variations of cerebrospinal fluid (CSF) acid-base characteristics on the development of hypocapnic alkalosis is still unknown. Aim of this study is to characterize, according to Stewart's approach, the acid-base equilibrium of CSF and arterial plasma of pregnant women and compare the results with data obtained from fertile, non-pregnant women.