Your search keyword '"Zuur, JK"' showing total 8 results

1. Der Airway Climate Explorer (ACE): eine Neuentwicklung zur Forschung des intratrachealen Klimas nach totaler Laryngektomie und des Einflusses von Wärme- und Feuchtigkeitsaustauscher

Author

Hilgers, F, Zuur, JK, Muller, S, de Jongh, F, van der Horst, M, Shehata, M, van Leeuwen, J, Sinaasappel, M, Hilgers, F, Zuur, JK, Muller, S, de Jongh, F, van der Horst, M, Shehata, M, van Leeuwen, J, and Sinaasappel, M

Published

2007

2. The influence of a heat and moisture exchanger on tracheal climate in a cold environment.

Author

Zuur JK, Muller SH, Vincent A, Sinaasappel M, de Jongh FH, and Hilgers FJ

Subjects

Aged, Aged, 80 and over, Cross-Over Studies, Environment, Controlled, Female, Humans, Humidity, Laryngectomy, Male, Middle Aged, Quality Control, Respiration, Artificial methods, Cold Temperature, Hot Temperature, Respiration, Artificial instrumentation, Trachea physiology, Water metabolism

Abstract

Objective: The incidence of pulmonary complaints, severe tracheitis and lung function deterioration is increased during wintertime in laryngectomized individuals. We analyzed how a heat and moisture exchanger (HME) performs in cold and dry ambient circumstances, and how its efficiency in this environmental climate might be improved., Study Design: Randomized crossover., Methods: Intra-tracheal temperature and humidity were measured in 10 laryngectomized patients with and without HME, in a cold (mean, 4.7 degrees C) and dry (mean, 4.5 mgH2O/L) room., Results: Presence of an HME causes the intra-tracheal mean humidity minima and maxima to increase with 4.2 mgH2O/L (95%CI: 3.3-5.0 mgH2O/L; p<0.001) and 2.4 mgH2O/L (95%CI: 1.7-3.1 mgH2O/L; p<0.001), respectively. The intra-tracheal mean temperature minima and maxima increased with 3.9 degrees C (95%CI: 2.7-5.1 degrees C; p<0.001) and 1.2 degrees C (95%CI: 0.8-1.2 degrees C; p<0.001), respectively. In the majority of patients, the calculated relative humidity values appear to reach well above 100% during inspiration., Conclusion: In a cold environment, presence of an HME significantly increases both inspiratory and expiratory temperature and humidity values. Relative humidity calculations suggest the formation of condense droplets during inspiration. To further increase its effectiveness, improvement of the HME's thermal capacity should be aimed for.

Published

2009

3. Endotracheal temperature and humidity measurements in laryngectomized patients: intra- and inter-patient variability.

Author

Scheenstra RJ, Muller SH, Vincent A, Sinaasappel M, Zuur JK, and Hilgers FJ

Subjects

Aged, Aged, 80 and over, Female, Heating methods, Humans, Humidity, Male, Middle Aged, Reproducibility of Results, Respiratory Mechanics physiology, Temperature, Laryngectomy, Trachea physiopathology

Abstract

Unlabelled: This study assesses intra- and inter-patient variability in endotracheal climate (temperature and humidity) and effects of heat and moister exchangers (HME) in 16 laryngectomized individuals, measured repeatedly (N = 47). Inhalation Breath Length (IBL) was 1.35 s without HME and 1.05 s with HME (P < 0.0001). With HME, end-inspiratory (minimum) humidity values increased 5.8 mg H(2)O/L (P < 0.0001) and minimum temperature values decreased 1.6 degrees C (P < 0.0001). For the temperature and humidity minimums, the inter-patient variability was much smaller than the short- and long-term intra-patient variability. For exhalation breath length and full breath length, the opposite was the case., Conclusions: (1) Because inter-patient variability is smaller than intra-patient variability, investigating endotracheal climate in a limited number of laryngectomized subjects is justified, provided repeated measurements per patient are accomplished; (2) main contributor to intra-patient variability is the positioning of the catheter tip in the trachea; (3) an HME leads to a shortened IBL which enhances the HME effect.

Published

2009

4. Assessment of tracheal temperature and humidity in laryngectomized individuals and the influence of a heat and moisture exchanger on tracheal climate.

Author

Zuur JK, Muller SH, Vincent A, Sinaasappel M, de Jongh FH, and Hilgers FJ

Subjects

Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Body Temperature physiology, Humidity, Laryngectomy, Respiratory Therapy instrumentation, Trachea physiology

Abstract

Background: The beneficial function of heat and moisture exchangers (HMEs) is undisputed, but knowledge of their effects on intra-airway temperature and humidity is scarce. The aim of this study was to evaluate the clinical applicability of a new airway climate explorer (ACE) and to assess the HME's influence on tracheal climate., Methods: Intratracheal temperature and humidity were measured with and without HME in 10 laryngectomized patients., Results: An HME causes the intratracheal mean humidity minima to increase with 3.2 mg H(2)O/L (95% CI: 1.5-4.8 mg H(2)O/L; p <.001), from 21.4 to 24.6 mg H(2)O/L, and the mean temperature minima to decrease with 1.6 degrees C (95% CI: 0.9-2.4 degrees C; p <.001) from 28.5 degrees C to 26.9 degrees C. Relative humidity values suggest that the tested HME keeps inspired air (nearly) fully saturated during the full course of inspiration., Conclusion: Assessment of intratracheal temperature and humidity, and evaluation of HME effectiveness is feasible with the ACE. The tested HME significantly increases the intratracheal humidity, but decreases the intratracheal temperature. Relative humidity calculations suggest that increasing the thermal capacity of this rehabilitation device can further increase the heat and moisture exchange efficiency.

Published

2008

5. Influence of heat and moisture exchanger respiratory load on transcutaneous oxygenation in laryngectomized individuals: a randomized crossover study.

Author

Zuur JK, Muller SH, Sinaasappel M, Hart GA, van Zandwijk N, and Hilgers FJ

Subjects

Aged, Aged, 80 and over, Airway Resistance, Cross-Over Studies, Female, Filtration instrumentation, Humans, Male, Middle Aged, Respiration, Blood Gas Monitoring, Transcutaneous, Hot Temperature, Humidity, Laryngectomy, Tracheostomy instrumentation

Abstract

Background: High-resistance heat and moisture exchangers (HMEs) have been reported to increase transcutaneous oxygenation (tcpO(2)) values in laryngectomized individuals and to negatively influence patient compliance. The goal of the present study was to validate earlier published results on short-term transcutaneous oxygenation changes by high-resistance HMEs., Methods: We conducted a randomized crossover study, monitoring the influence of an HME on tcpO(2) over a 2-hour time interval in 20 subjects., Results: No evidence of an immediate HME effect (95% CI: -14.9-13.3 mm Hg, p = .91), or a time-dependent HME effect (95% CI: -.121 - .172 mm Hg/minute, p = .74), on tcpO(2) was found. After fitting the statistical model without time dependency, again no evidence of HME presence was seen (95% CI: -.5 mm Hg - 3.6 mm Hg, p = .15)., Conclusion: In contrast to earlier suggestions, there is no evidence of increased tcpO(2) levels by high-resistance HMEs in laryngectomized individuals. Thus, using such HMEs has no added clinical value in this respect.

Published

2007

6. A newly developed tool for intra-tracheal temperature and humidity assessment in laryngectomized individuals: the Airway Climate Explorer (ACE).

Author

Zuur JK, Muller SH, de Jongh FH, van der Horst MJ, Shehata M, van Leeuwen J, Sinaasappel M, and Hilgers FJ

Subjects

Calibration, Equipment Design, Hot Temperature, Humans, Humidity, Monitoring, Physiologic instrumentation, Pilot Projects, Body Temperature, Laryngectomy, Postoperative Care instrumentation, Trachea physiopathology

Abstract

The aim of this study is to develop a postlaryngectomy airway climate explorer (ACE) for assessment of intratracheal temperature and humidity and of influence of heat and moisture exchangers (HMEs). Engineering goals were within-device condensation prevention and fast response time characteristics. The ACE consists of a small diameter, heated air-sampling catheter connected to a heated sensor house, containing a humidity sensor. Air is sucked through the catheter by a controlled-flow pump. Validation was performed in a climate chamber using a calibrated reference sensor and in a two-flow system. Additionally, the analyser was tested in vivo. Over the clinically relevant range of humidity values (5-42 mg H2O/l air) the sensor output highly correlates with the reference sensor readings (R2 > 0.99). The 1-1/e response times are all <0.5 s. A first in vivo pilot measurement was successful. The newly developed, verified, fast-responding ACE is suitable for postlaryngectomy airway climate assessment.

Published

2007

7. The physiological rationale of heat and moisture exchangers in post-laryngectomy pulmonary rehabilitation: a review.

Author

Zuur JK, Muller SH, de Jongh FH, van Zandwijk N, and Hilgers FJ

Subjects

Hot Temperature, Humans, Humidity, Respiratory Function Tests, Laryngectomy rehabilitation, Respiratory Physiological Phenomena, Respiratory Therapy instrumentation

Abstract

Total laryngectomy results in a permanent disconnection of the upper and lower airways and inevitably leads to chronic pulmonary complaints like frequent involuntary coughing, increased sputum production and repeated daily forced expectoration to clean the airway. Heat and moisture exchangers (HMEs), applied in an attempt to compensate for the lost functions of the upper respiratory tract, have been found to diminish these symptoms and improve the quality of life significantly. An HME has three physical properties that might be responsible for these improvements. First, its heat and moisture exchanging capacity improves intra-airway preservation of heat and water. Since the condensation and evaporation of moisture are accompanied by the release and uptake of thermal energy, these parameters are inseparable. Secondly, the HME's resistance may reduce dynamic airway compression, thereby improving ventilation. Thirdly, to some extent, an HME might filter out particles, thereby cleaning inspiratory breathing air. This article summarizes our present knowledge of changes in respiratory physiology after total laryngectomy and the influence of the HME by reviewing the physiological impact of these three physical properties separately for in vitro and in vivo data.

Published

2006

8. Role of magnesium in the reduction of ischemic depolarization and lesion volume after experimental subarachnoid hemorrhage.

Author

van den Bergh WM, Zuur JK, Kamerling NA, van Asseldonk JT, Rinkel GJ, Tulleken CA, and Nicolay K

Subjects

Animals, Brain Infarction pathology, Brain Ischemia physiopathology, Cortical Spreading Depression physiology, Disease Models, Animal, Electrophysiology, Magnetic Resonance Imaging, Male, Rats, Rats, Wistar, Subarachnoid Hemorrhage physiopathology, Time Factors, Brain Infarction drug therapy, Brain Infarction etiology, Brain Ischemia drug therapy, Brain Ischemia etiology, Calcium Channel Blockers therapeutic use, Cortical Spreading Depression drug effects, Magnesium Sulfate therapeutic use, Subarachnoid Hemorrhage complications, Subarachnoid Hemorrhage drug therapy

Abstract

Object: Ischemia-induced tissue depolarizations probably play an important role in the pathophysiology of cerebral ischemia caused by parent vessel occlusion. Their role in ischemia caused by subarachnoid hemorrhage (SAH) remains to be investigated. The authors determined whether ischemic depolarizations (IDs) or cortical spreading depressions (CSDs) occur after SAH, and how these relate to the extent of tissue injury measured on magnetic resonance (MR) images. In addition, they assessed whether administration of MgSO4 reduces depolarization time and lesion volume., Methods: By means of the endovascular suture model, experimental SAH was induced in 52 rats, of which 37 were appropriate for analysis, including four animals that underwent sham operations. Before induction of SAH, serum Mg++ levels were measured and 90 mg/kg intravascular MgSO4 or saline was given. Extracellular direct current potentials were continuously recorded from six Ag/AgCl electrodes, before and up to 90 minutes following SAH, after which serum Mg++ levels were again measured. Next, animals were transferred to the MR imaging magnet for diffusion-weighted (DW) MR imaging. Depolarization times per electrode were averaged to determine a mean depolarization time per animal. No depolarizations occurred in sham-operated animals. Ischemic depolarizations occurred at all electrodes in all animals after SAH. Only two animals displayed a single spreading depression-like depolarization. The mean duration of the ID time was 41 +/- 25 minutes in the saline-treated controls and 31 +/- 30 minutes in the Mg++-treated animals (difference 10 minutes: p = 0.31). Apparent diffusion coefficient (ADC) maps of tissue H2O, obtained using DW images approximately 2.5 hours after SAH induction, demonstrated hypointensities in both hemispheres, but predominantly in the ipsilateral cortex. No ADC abnormalities were found in sham-operated animals. The mean lesion volume, as defined on the basis of a significant ADC reduction, was 0.32 +/- 0.42 ml in saline-treated controls and 0.11 +/- 0.06 ml in Mg++-treated animals (difference 0.21 ml; p = 0.045). Serum Mg++ levels were significantly elevated in the Mg++-treated group., Conclusions: On the basis of their data, the authors suggest that CSDs play a minor role, if any, in the acute pathophysiology of SAH. Administration of Mg++ reduces the cerebral lesion volume that is present during the acute period after SAH. The neuroprotective value of Mg++ after SAH may, in part, be explained by a reduction in the duration of the ID of brain cells.

Published

2002