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Intermittent Mandatory Ventilation (intermittent + mandatory_ventilation)

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Medical Sciences100%

Selected Abstracts

Safe Criteria and Procedure for Kangaroo Care With Intubated Preterm Infants

JOURNAL OF OBSTETRIC, GYNECOLOGIC & NEONATAL NURSING, Issue 5 2003
FAAN professor, Susan M. Ludington-Hoe CNM
Kangaroo care (KC) was safely conducted with mechanically ventilated infants who weighed less than 600 grams and were less than 26 weeks gestation at birth. These infants, ventilated for at least 24 hours at the time of the first KC session, were considered stable on the ventilator at low settings (intermittent mandatory ventilation < 35 breaths per minute and FiO2 < 50%), had stable vital signs, and were not on vasopressors. A protocol for implementation of KC with ventilated infants that uses a standing transfer, with two staff members assisting to minimize the possibility of extubation, is presented. Also discussed is the positioning of the ventilator tubing during KC. This protocol was implemented without any accidental extubation throughout an experimental research study. The criteria and protocol were compared to those available in published reports and revealed many similar elements, providing additional support for the recommended protocol. No adverse events occurred with the criteria and protocol reported here, suggesting that they can be adopted for broader use. [source]

Arterial oxygen tension increase 2,3 h after hyperbaric oxygen therapy: a prospective observational study

ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 1 2007
B. Ratzenhofer-Komenda
Background:, Inhalation of hyperbaric oxygen (HBO) has been reported to decrease arterial oxygen tension (PaO2) in the early period after exposure. The current investigation aimed at evaluating whether and to what extent arterial blood gases were affected in mechanically ventilated intensive care patients within 6 h after HBO treatment. Methods:, Arterial blood gases were measured in 11 ventilated subjects [nine males, two females, synchronized intermittent mandatory ventilation (SIMV) mode] undergoing HBO therapy for necrotizing soft tissue infection (seven patients), burn injury (two patients), crush injury (one patient) and major abdominal surgery (one patient). Blood gases were obtained with the patients in the supine position under continuous analgesia and sedation before the hyperbaric session (baseline), during isopression, after decompression, after each transport, and 1, 2, 3 and 6 h after exposure. Heart rates and blood pressures were recorded. Intensive care unit (ICU) ventilator settings remained unchanged. Transport and chamber ventilator settings were adjusted to baseline with maintenance of tidal volumes and positive end-expiratory pressure (PEEP) levels. The hyperbaric protocol consisted of 222.9 kPa (2.2 absolute atmospheres) and a 50-min isopression phase. The paired Wilcoxon's test was used. Results:, Major findings (median values, 25%/75% quantiles) as per cent change of baseline: PaO2 values decreased by 19.7% (7.0/31.7, P < 0.01) after 1 h and were elevated over baseline by 9.3% (1.5/13.7, P < 0.05) after 3 h. SaO2, alveolar-arterial oxygen tension difference and PaO2/FiO2 ratio behaved concomitantly. Acid-base status and carbon dioxide tension were unaffected. Conclusion:, Arterial oxygen tension declines transiently after HBO and subsequently improves over baseline in intensive care patients on volume-controlled mechanical ventilation. The effectiveness of other ventilation modes or a standardized recruitment manoeuvre has yet to be evaluated. [source]

Volume targeted ventilation (volume guarantee) in the weaning phase of premature newborn infants

PEDIATRIC PULMONOLOGY, Issue 10 2007
F. Scopesi MD
Abstract Objective Several options are currently available in neonatal mechanical ventilation: complete breathing synchronization (patient triggered ventilation, synchronized intermittent positive pressure ventilation,SIPPV); positive pressure flow-cycled ventilation (pressure support ventilation, PSV); and volume targeted positive pressure ventilation (volume guarantee, VG). The software algorithm for the guarantee volume attempts to deliver a tidal volume (Vt) as close as possible to what has been selected by the clinician as the target volume. Main objectives of the present study were to compare patient,ventilator interactions and Vt variability in premature infants recovering from respiratory distress syndrome (RDS) who were weaned by various ventilator modes (SIMV/PSV,+,VG/SIPPV,+,VG and SIMV,+,VG). Methods This was a short-term crossover trial in which each infant served as his/her own control. Ten premature infants born before the 32nd week of gestation in the recovery phase of RDS were enrolled in the study. All recruited infants started ventilation with SIPPV and in the weaning phase were switched to synchronized intermittent mandatory ventilation (SIMV). Baseline data were collected during an initial 20-min period of monitoring with the infant receiving SIMV alone, then they were switched to SIPPV,+,VG for a 20-min period and then switched back to SIMV for 15 min. Next, they were switched to PSV,+,VG for the study period and switched back to SIMV for a further 15 min. Finally, they were switched to SIMV,+,VG and, at the end of monitoring, they were again switched back to SIMV alone. Results Each mode combined with VG discharged comparable Vts, which were very close to the target volume. Among the VG-combined modes, mean variability of Vt from preset Vt was significantly different. Variability from the target value was significantly lower in SIPPV and PSV modes than in SIMV (P,<,0.0001 and P,<,0.04 respectively). SIPPV,+,VG showed greater stability of Vt, fewer large breaths, lower respiratory rate, and allowed for lower peak inspiratory pressure than what was delivered by the ventilator during other modes. No significant changes in blood gases were observed after each of the study periods. Conclusions With regards to the weaning phase, among combined modes, both of the ones in which every breath is supported (SIPPV/PSV) are likely to be the most effective in the delivery of stable Vt using a low working pressure, thus, at least in the short term, likely more gentle for the neonatal lung. In summary, we can suggest that the VG option, when combined with traditional, patient triggered ventilation, adheres very closely to the proposed theoretical algorithm, achieving highly effective ventilation. Pediatr Pulmonol. 2007; 42:864,870. © 2007 Wiley-Liss, Inc. [source]

Episodes of hypoxemia during synchronized intermittent mandatory ventilation in ventilator-dependent very low birth weight infants

PEDIATRIC PULMONOLOGY, Issue 1 2005
Steve R.E. Firme MD
Abstract Distinct patterns of asynchrony, and episodes of hypoxemia, may occur in a spontaneously breathing preterm infant during conventional intermittent mandatory ventilation (IMV) on traditional time-cycled, pressure-limited ventilators. Synchronized IMV (SIMV) and assist/control ventilation are frequent modes of patient-triggered ventilation used with infant ventilators. The objective of this study was to use computerized pulse oximetry to quantify the occurrence of episodes of hypoxemia (oxygen desaturation) during SIMV vs. IMV, in preterm infants ,1,250 g who required mechanical ventilation at ,14 days of age. We performed a randomized, crossover study with each infant being randomized to IMV or SIMV (Infant Star ventilator) for initial testing for a 1-hr period. Patients were subsequently tested on the alternate modality after a stabilization period of 10 min at the same ventilator and fractional inspired oxygen concentration (FiO2) settings. Pulse oximetry data were obtained with a Nellcor N-200 monitor, a microcomputer, and a software program (SatMaster). An investigator blinded to the randomized assignment evaluated all measurements. Eighteen very low birth weight (VLBW) infants with a birth weight of 777,±,39 g (mean,±,SEM) and gestational age 25.1,±,0.3 weeks were studied. The average pulse oximeter oxygen saturation (SaO2) was higher on SIMV than IMV (P,<,0.01). During SIMV, these infants had significantly fewer episodes of hypoxemia (duration of episodes of oxygen desaturation as a percentage of scorable recording time) to 86,90% SaO2 (P,<,0.01), 81,85% SaO2 (P,<,0.01), and 76,80% SaO2 (P,<,0.05) when compared to IMV. There was also a significant decrease in percentage of time of desaturation to SaO2,<,90% (P,=,0.002),,<,85% SaO2 (P,=,0.003), and <80% SaO2 (P,=,0.02) during SIMV vs. IMV. Our preliminary findings indicate that the use of SIMV in a population of VLBW ventilator-dependent infants (,14 days of age) results in better oxygenation and decreased episodes of hypoxemia as compared to IMV. © 2005 Wiley-Liss, Inc. [source]

Inhaled corticosteroid therapy reduces cytokine levels in sputum from very preterm infants with chronic lung disease

ACTA PAEDIATRICA, Issue 1 2009
Rie Honda
Abstract Aim: To evaluate the effects of inhaled corticosteroid therapy and high-frequency oscillatory ventilation (oscillation) on preterm infants with chronic lung disease (CLD). Methods: Ten infants with CLD who received inhaled corticosteroid therapy were enrolled. Week 1 was defined as the first week of therapy. The concentrations of interleukin (IL)-8, tumour necrosis factor-, (TNF-,), IL-1,, IL-6, IL-10 and IL-12p70 in serial sputum specimens from the infants were determined using a cytometric bead array. Results: The sputum concentrations of IL-8 obtained from the infants during week 3,4 were significantly lower than those obtained before therapy and during week 1,2. The sputum concentrations of TNF-,, IL-6 and IL-10 during week 3,4 were significantly lower than the concetrations during week 1,2. The ratio of IL-8 levels during week 1,2 to those before therapy in infants who received oscillation (n = 4) was significantly lower than in those who received intermittent mandatory ventilation (n = 6). Conclusion: Inhaled corticosteroids may be associated with a decrease in pro-inflammatory cytokine levels in sputum from infants with CLD from 2 weeks after the start of therapy. Our further investigations suggest that therapy with oscillation modulated airway inflammation earlier than therapy with intermittent mandatory ventilation. [source]

Survey of neonatal respiratory support strategies

ACTA PAEDIATRICA, Issue 8 2007
Atul Sharma
Abstract Aim: To survey current practice regarding neonatal respiratory support strategies to determine whether it reflected evidence from randomised trials. Methods: A questionnaire (in Supplementary Material online) survey of all U.K. neonatal units was undertaken to determine what modes of ventilation, types of endotracheal tube, lung function monitoring and oxygen saturation levels were used. Results: There was an 80% response rate. Most (73%) units used in prematurely born infants (in the first 24 h) the intermittent positive pressure ventilation, and other respiratory modes included: CPAP (2%), triggered ventilation with or without volume guarantee (22%) and high frequency oscillation (2%). Only 15% of units used assist control mode for weaning; the preferred weaning mode was synchronous intermittent mandatory ventilation (73%). Few units used shouldered endotracheal tubes (3%) or lung function measurements (25%) to aid choice of ventilator settings. Oxygen saturation levels from 80% to 98% were used, levels greater or equal to 95% were used by 11% of units for infants with acute respiratory disease but by 34% of units for BPD infants (p < 0.001). Conclusion: Many practitioners do not base their choice of neonatal respiratory support strategies on the results of large randomised trials; more effective methods are required to ensure evidence-based practice. [source]