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In ventilatory failure

Respiratory acidosis is characterized by a reduced arterial pH, a primary increase in the arterial PaC02 and, when present for sufficient time, a compensatory rise in the HCOf concentration. Because increased C02 is a potent respiratory stimulus, respiratory acidosis represents ventilatory failure or impaired central control of ventilation as opposed to an increase in C02 production. As such, most patients will have hypoxemia in addition to hypercapnia. The most common etiologies of respiratory acidosis are listed in Table 25-6. [Pg.428]

In order to effectively treat respiratory acidosis, the causative process must be identified and treated. If a cause is identified, specific therapy should be started. This may include naloxone for opiate-induced hypoventilation or bronchodilator therapy for acute bronchospasm. Because respiratory acidosis represents ventilatory failure, an increase in... [Pg.428]

Emergency use Nalmefene is not the primary treatment for ventilatory failure. In most emergency settings, treatment with nalmefene should follow, not precede, the establishment of a patent airway, ventilatory assistance, administration of oxygen, and establishment of circulatory access. [Pg.382]

In critically ill patients who have ventilatory failure from various causes (eg, severe bronchospasm, pneumonia, chronic obstructive airway disease), it may be necessary to control ventilation to provide adequate gas exchange and to prevent atelectasis. In the ICU, neuromuscular blocking drugs are frequently administered to reduce chest wall resistance (ie, improve thoracic compliance) and ineffective spontaneous ventilation in intubated patients. [Pg.590]

Respiratory stimulants have a much reduced role in the management acute ventilatory failure, with the ready availability of mechanical methods for assisting respiration. Situations where they may still be encountered are ... [Pg.552]

The seven serotypes of botulinum toxin produced by Clostridium botulinum are the most toxic substances known. They are associated with lethal food poisoning after the consumption of canned foods. This family of toxins was evaluated by the United States as a potential biological weapon in the 1960s and is believed to be an agent that could be used against our troops. Unlike other threat toxins, botulinum neurotoxin appears to cause the same disease after inhalation, oral ingestion, or injection. Death results from skeletal muscle paralysis and resultant ventilatory failure. Because of its extreme toxicity, the toxin typically cannot be identified in body fluids, other than nasal... [Pg.652]

Along with airaray problems, breathing difficulties are the major cause of morbidity and death in patients with poisoning or drug overdose. Patients may have one or more of the following complications ventilatory failure, hypoxia, or bronchospasm. [Pg.6]

A Assessment Ventilatory failure has multiple causes, including failure of the ventilatory muscles, central depression of respiratory drive, and severe pneumonia or pulmonary edema. Examples of drugs and toxins that cause ventilatory failure and the causative mechanisms are listed in Table 1-1. [Pg.6]

B. Complications. Ventilatory failure is the most common cause of death in poisoned patients. [Pg.7]

B. Complications. Severe bronchospasm may result in hypoxia and ventilatory failure. [Pg.9]

Santiago RM, Scharnhorst D, Ratkin G, et al. Respiratory muscle weakness and ventilatory failure in AL amyloidosis with muscular pseudohypertrophy. Am J Med 1987 83(1) 175-178. [Pg.805]

Respiratory failure may be classified as hypoxemic (type 1) or hypercapnic (type II or ventilatory failure) (3), either of which may be acute and chronic. Hypoxemic respiratory failure is due to failure of the lungs, caused by acute (cardiogenic pulmonary edema, pneumonia, acute respiratory distress syndrome) or chronic (emphysema, interstitial limg disorders) diseases (Tables 1 and 2). It is characterized by hypoxemia with normocapnia or hypocapnia. In these conditions central respiratory drive is high and there is sufficient alveolar ventilation (VA) to eliminate CO2 and prevent hypercapnia. [Pg.2]


See other pages where In ventilatory failure is mentioned: [Pg.165]    [Pg.165]    [Pg.411]    [Pg.392]    [Pg.578]    [Pg.1052]    [Pg.2585]    [Pg.150]    [Pg.383]    [Pg.240]    [Pg.1]    [Pg.5]    [Pg.8]   
See also in sourсe #XX -- [ Pg.7 ]




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Ventilatory failure

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