Current
Respiratory Medicine Reviews
ISSN: 1573-398X
Current Respiratory Medicine
Reviews
Volume 4, Number 3, August 2008
Contents
Editorial:
Pp.156
New Insights in Congenital Diaphragmatic Hernia Pp.
157-173
Olivier Boucherat, Alexandra Benachi, Laurent
Storme and Jacques R. Bourbon
[Abstract]
Pulmonary Neuroendocrine Cell System in Health and
Disease Pp. 174-186
Ernest Cutz, Herman Yeger, Jie Pan and
Takaaki Ito
[Abstract]
Surgical Treatment of the Sleep Apnea Syndrome
in the Twenty-First Century Pp. 187-207
Xavier Barceló, Rosa M. Mirapeix
and Christian Domingo
[Abstract]
Beta-2 Agonists in Asthma: Medicine or Murderer?
Pp. 208-216
Vasanti Patel, Dipika Patel, Natvarbhai Patel and
Priyanshee Gohil
[Abstract]
Pleural Fluid Analysis for Evaluating Pleural Effusions
Pp. 217-225
José M. Porcel and Richard
W. Light
[Abstract]
Systemic Sclerosis-Related Interstitial Lung Disease
Pp. 226-232
Samay Dalal, Aryeh Fischer and Jeffrey J. Swigris
[Abstract]
Abstracts
[Back to top]
Editorial: Genetic Pathways,
Antenatal Care and Congenital Diaphragmatic Hernia: Are We
There Yet?
[Back to top]
New Insights in Congenital Diaphragmatic Hernia
Olivier Boucherat, Alexandra Benachi, Laurent
Storme and Jacques R. Bourbon
Congenital diaphragmatic hernia (CDH) is a 1 out of 2500
live-born disease with a persistent 30-40% mortality rate,
consecutively to severe pulmonary hypoplasia and hypertension.
The etiology of CDH remains unknown, although recent studies
have identified genes potentially involved. The classical
view that unclosure of pleuroperitoneal canals is responsible
for the occurrence of CDH has been challenged by recent work
in transgenic mice. Recent studies on the pathophysiology
of CDH provided a closer evaluation of formerly debated pulmonary
consequences, especially for alveolarization and surfactant
production. Recent advances in prenatal ultrasonography have
largely improved the determination of prognosis, allowing
reliable evaluation of pulmonary hypoplasia to be achieved
through the simultaneous use of Lung-over-Head Ratio, liver
position, and/or fetal lung volume measured by 3D ultrasound
and MRI, although it remains difficult to predict the functionality
of CDH lungs. Open fetal surgery to correct the diaphragmatic
defect has been abandoned, but fetal tracheal occlusion used
to force lung expansion and growth, after a number of pre-clinical
studies in animals, has been applied to the human fetus with
encouraging results. Last, post-natal care of CDH neonates
was also improved with the use of high-frequency ventilation
and vasodilators, particularly inhaled nitric oxide.
[Back to top]
Pulmonary Neuroendocrine Cell System in Health
and Disease
Ernest Cutz, Herman Yeger, Jie Pan and
Takaaki Ito
Pulmonary neuroendocrine cell (PNEC) system
consists of solitary cells and innervated clusters, neuroepithelial
bodies (NEB), widely distributed throughout the airway mucosa
of mammalian lungs. These cells are numerous in fetal/neonatal
lungs and produce amine (serotonin, 5-HT) as well as a variety
of neuropeptides (e.g. bombesin). The potential role and significance
of these highly specialized lung cells in normal and diseased
lung is only now beginning to be appreciated. The multifaceted
role(s) of PNEC system include lung development, neonatal
adaptation and during postnatal airway homeostasis as guardians
of stem cell niche. Recent advances in cellular and molecular
biology of PNEC system particularly their ontogeny and mechanisms
of neuroendocrine differentiation in developing lung are reviewed.
The evidence for the role of NEB as hypoxia-sensitive airway
chemoreceptors is presented including identification and characterization
of O2 sensor molecular complex that is activated by hypoxia
leading to release of amine and peptide mediators acting locally
or via NEB neural connections. Thus NEB are postulated
to function as O2 sensitive airway sensors involved in respiratory
control, especially during adaptation to extrauterine life.
Hyperplasia of PNEC/NEB cells, suggesting altered function,
has been identified in a number of perinatal/pediatric lung
disorders including bronchopulmonary dysplasia, central hypoventilation
syndrome, Sudden Infant Death Syndrome and Neuroendocrine
Hyperplasia of Infancy as well as Cystic Fibrosis and pediatric
asthma. In the adults, PNEC/NEB may be involved in the pathogenesis
of tobacco induced airway disease, pulmonary fibrosis and
lung carcinogenesis.
[Back to top]
Surgical Treatment of the Sleep Apnea
Syndrome in the Twenty-First Century
Xavier Barceló, Rosa M. Mirapeix
and Christian Domingo
Sleep apnea syndrome is a disease of high prevalence
and high morbidity, for which surgery used to be the only
possible therapeutic approach. Uvulo-palatopharyngoplasty
(UPPP) was the technique used until the nineteen eighties.
However, surgery has largely been abandoned since the introduction
of nasal continuous positive airway pressure (CPAP), which
has become the main treatment option today. Surgery remains
an alternative for patients who do not tolerate nasal CPAP.
Since the range of surgical techniques available is wide,
patients must be carefully evaluated with fiberoptic naso-pharyngoscopy
and lateral cephalometric radiograph to determine the level
of the obstruction. In almost 98% of sleep apnea patients
the soft tissue structures of the upper airway and the underlying
maxillo-mandibular skeleton are disproportionate. Therefore,
the choice of surgical procedure depends on the site of obstruction
(nose, retropalatal or retrolingual region, or a combination).
Here we review the various surgical procedures available and
their efficacy when performed alone or in combination. These
procedures are: classical uvulopalatopharyngoplasty and its
modifications, genioglossus advancement techniques combined
with UPPP, and retropalatal and maxillo-mandibular advancement,
a highly aggressive technique which treats retropalatal and
retrolingual regions simultaneously and is effective in 95%
of cases, but has a high morbidity. We also discuss nasal
surgical procedures (though they are unlikely to solve the
problem), radiofrequency, and palatal implants.
We assess the efficacy of these methods, bearing in mind;
a) the differences in the criteria used for defining surgical
success and b) the fact that they are often applied simultaneously
or sequentially.
[Back to top]
Beta-2 Agonists in Asthma: Medicine or Murderer?
Vasanti Patel, Dipika Patel, Natvarbhai Patel and
Priyanshee Gohil
Asthma is a chronic inflammatory disorder of
the respiratory system characterised by recurrent “reversible”
obstruction of the airwflow in the airway. Various agents
have been used in the treatment of asthma out of which inhaled
beta-2 agonists have been mainstay of bronchodilator therapy
of asthma for more than 40 years. Short-acting beta-2 agonists
are still recommended for relieving the acute episode of bronchoconstriction.
Long-acting beta-2 agonists (LABAs), alongwith inhaled corticosteroides
are used as a first line anti-inflammatory therapy. The recent
evidence suggested that the ability of short-acting and long-acting
beta-2 agonists to protect the airways against bronchoconstrictor
stimuli and to promote bronchodilatation may be partially
lost with time following long-term use. The long-term use
of beta-2 agonist is associated with an increased incidence
of asthma exacerbations and other markers of morbidity and
mortality. In this article, we try to address some of the
current controversies as well as propose various mechanisms
behind beta-2 agonist induced morbidity and mortality in asthmatic
patients. On the basis of this article, we recommended that
clinicians have to refine the use of beta-2 agonists in asthma
management guidelines to avoid the beta-2 agonists induced
asthma exacerbations.
[Back to top]
Pleural Fluid Analysis for Evaluating Pleural Effusions
José M. Porcel and Richard
W. Light
Virtually all patients with a newly discovered pleural
effusion should undergo thoracentesis to aid in diagnosis
and management. Pleural fluid (PF) samples should be collected
into heparinized tubes to prevent clot formation. The routine
PF evaluation usually includes cell count and differential,
protein, lactate dehydrogenase, glucose, adenosine deaminase,
cytology and, if infection is a concern, pH as well as bacterial
and mycobacterial cultures. Distinguishing transudates from
exudates through Light’s criteria is a pragmatic first
step. If the effusion is an exudate, various PF tests have
proven diagnostic utility: adenosine deaminase levels >
40 U/L usually indicate tuberculosis in lymphocytic-predominant
PFs or empyema in neutrophilic-predominant PFs; pH < 7.2
and glucose < 60 mg/dL allow the clinician to identify
complicated parapneumonic effusions and guides their initial
management; and conventional cytology may demonstrate malignant
cells in 60% of the patients with malignant effusions.
A number of optional PF tests may complement the diagnostic
approach to an undiagnosed pleural effusion. For example,
natriuretic peptide assays significantly improve the accuracy
of the diagnosis of cardiac pleural effusions; PF mesothelin
levels greater than 20 nM are highly suggestive of mesothelioma;
and new molecular techniques have improved the identification
of the causative organisms in pleural infections.
[Back to top]
Systemic Sclerosis-Related Interstitial Lung
Disease
Samay Dalal, Aryeh Fischer and Jeffrey J. Swigris
Systemic sclerosis is a multisystem autoimmune disease
with potential lung manifestations that include pulmonary
vascular and interstitial disease. Not only is interstitial
lung disease the most common pulmonary manifestation, it is
a major cause of morbidity and mortality in patients with
systemic sclerosis. The risk of systemic sclerosis patients
developing progressive interstitial lung disease is strongly
associated with the presence of certain autoantibodies The
most common lung injury pattern observed in systemic sclerosis-related
interstitial lung disease is the fibrotic variant of non-specific
interstitial pneumonia. Because scleroderma renal crisis can
now be effectively treated, recently, focus has turned toward
how best to treat systemic sclerosis-related interstitial
lung disease. Therapy usually involves an immunomodulatory
regimen consisting of a steroid-sparing agent with or without
glucocorticoids, and response to therapy is variable.
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