P Pr ri im ma ar ri il ly y n na as sa al l o or ri ig gi in n o of f e ex xh ha al le ed d n ni it tr ri ic c o ox xi id de e a an nd d a ab bs se en nc ce e i in n K Ka ar rt ta ag ge en ne er r' 's s s sy yn nd dr ro om me e NO was almost absent (98% reduced) in air sampled directly from the nose in four children with Kartagener's syndrome (4±1 parts per billion (ppb)), compared to age-matched controls (221+14 (ppb)). Tracheostomized adult subjects had considerably higher NO values in nasally (22±3 ppb) and orally (14±2 ppb) exhaled air, compared to levels in air exhaled through the tracheostomy (2±0 ppb). Treatment with intranasal corticosteroids for 14 days, or with antibiotics for 1 week, did not affect exhaled NO.These results clearly show that, basically, all NO in exhaled air of healthy subjects originates from the upper respiratory tract, with only a minor contribution from the lower airways. Furthermore, the absence of nasal NO in children with Kartagener's syndrome could be of use as a simple noninvasive diagnostic test. Eur Respir J., 1994,
Vecuronium-induced partial paralysis cause pharyngeal dysfunction and increased risk for aspiration at mechanical adductor pollicis TOF ratios < 0.90. Pharyngeal function is not normalized until an adductor pollicis TOF ratio of > 0.90 is reached. The upper esophageal sphincter muscle is more sensitive to vecuronium than is the pharyngeal constrictor muscle.
Partial neuromuscular paralysis caused by atracurium is associated with a four- to fivefold increase in the incidence of misdirected swallowing. The mechanism behind the pharyngeal dysfunction is a delayed initiation of the swallowing reflex, impaired pharyngeal muscle function, and impaired coordination. The majority of misdirected swallows resulted in penetration of bolus to the larynx.
Congenital high-airway obstruction syndrome (CHAOS) is due to rare malformations and has been reported previously in only few cases. If the diagnosis can be made prenatally, the ex utero intrapartum treatment (EXIT) procedure may be life-saving. A healthy 28-year old nulli-para was referred because of isolated ascites found at gestational week 16 during routine ultrasound scan. Repeated scans showed overdistended hyperechogenic lungs with inverted diaphragm and a dilated trachea, which was interpreted as a CHAOS resulting from laryngeal atresia. The ascites eventually disappeared. An EXIT procedure was performed at 35 weeks of gestation. Anesthesia of the mother was induced with thiopental, succinylcholine and fentanyl followed by intubation, and maintained with isoflurane and nitrous oxide. A low abdominal midline incision was performed followed by a low transverse incision of the uterus. The fetal head, right arm and shoulder were delivered and intramuscular anesthesia was administered to the fetus. Immediate laryngoscopy confirmed the diagnosis and a tracheostomy was therefore performed. Surfactant was given after a few minutes of ventilation. Compliance improved and when the fetus was easy to ventilate, it was delivered. The baby is developing normally at 18 months of age. Surgical correction of the malformation will be performed after two years of age. It is concluded that some fetuses with a prenatal diagnosis of CHAOS can benefit from the EXIT procedure at delivery. This necessitates a multidisciplinary management team.
Co-ordination of breathing and swallowing is essential for normal pharyngeal function and to protect the airway. To allow for safe passage of a bolus through the pharynx, respiration is interrupted (swallowing apnoea); however, the control of airflow and diaphragmatic activity during swallowing and swallowing apnoea are not fully understood. Here, we validated a new airflow discriminator for detection of respiratory airflow and used it together with diaphragmatic and abdominal electromyography (EMG), spirometry and pharyngeal and oesophageal manometry. Co-ordination of breathing and spontaneous swallowing was examined in six healthy volunteers at rest, during hypercapnia and when breathing at 30 breaths min -1 . The airflow discriminator proved highly reliable and enabled us to determine timing of respiratory airflow unambiguously in relation to pharyngeal and diaphragmatic activity. During swallowing apnoea, the passive expiration of the diaphragm was interrupted by static activity, i.e. an 'active breath holding', which preserved respiratory volume for expiration after swallowing. Abdominal EMG increased throughout pre-and post-swallowing expiration, more so during hyper-than normocapnia, possibly to assist expiratory airflow. In these six volunteers, swallowing was always preceded by expiration, and 93 and 85% of swallows were also followed by expiration in normo-and hypercapnia, respectively, indicating that, in man, swallowing during the expiratory phase of breathing may be even more predominant than previously believed. This co-ordinated pattern of breathing and swallowing potentially reduces the risk for aspiration. Insights from these measurements in healthy volunteers and the airflow discriminator will be used for future studies on airway protection and effects of disease, drugs and ageing.
Subhypnotic concentrations of propofol, isoflurane, and sevoflurane cause an increased incidence of pharyngeal dysfunction with penetration of bolus to the larynx. The effect on the pharyngeal contraction pattern was most pronounced in the propofol group, with markedly reduced contraction forces.
Neuronal death does not occur within 1 month postlesion as a result of resection of the RLN in the adult rat, and neuroprotective substances should therefore be of minor value after RLN injury. Glial reactions appear in a similar fashion as after other peripheral nerve lesions not causing neuronal loss.
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