CHAPTER 15 Anesthesia for Respiratory Diseases





Introduction


Respiratory illnesses often complicate anesthetic management of patients in elective as well as emergency surgeries. Patients with respiratory diseases are at risk of desaturation, laryngospasm, and bronchospasm during the perioperative period. Anesthetists need to be acquainted with commonly encountered respiratory illnesses and acquire appropriate airway skills to provide optimal patient care. This chapter will discuss the following respiratory illnesses in detail, including anesthetic considerations:




  • Asthma.



  • Chronic obstructive pulmonary disease (COPD).



  • Restrictive lung disease.



  • Tuberculosis.



  • Respiratory tract infection (RTI).



  • Thoracotomy and pneumonectomy.



Asthma


Asthma is characterized by episodes of recurrent wheezing, dyspnea, and dry cough caused by airway obstruction, airway inflammation, and airway hyperresponsiveness.



Preoperative Assessment


Preoperative evaluation should focus on:




  • Duration and frequency of symptoms.



  • Sputum amount and its characteristics.



  • Current medications.



  • Asthma precipitating triggers, for example, dust, smoke, exercise, drugs, or any RTI.



  • Activity level.



  • History of airway complications in prior anesthesia exposure.



  • History of hospital admission for asthma exacerbations.



Physical Examination


It should focus on the assessment of wheeze, the presence of prolonged expiratory wheeze, and signs of respiratory distress. Cyanosis and drowsiness should be noted and documented. Oxygenation status should be confirmed using pulse oximeter and blood gas analysis
(if required).



Investigations




  • Pulmonary function tests (PFT).



  • Forced expired volume in the first second (FEV1)/peak expiratory flow rate (PEFR) ratio.



  • PEFR variability.



Preparation for Surgery


Patients should take all asthma medications on the morning of surgery.



Anesthetic Management


The goal of anesthetic management is to avoid airway manipulations to the minimum, ensure adequate depth of anesthesia as well as analgesia during airway handling, and use anesthetic drugs with maximal bronchodilation properties. Induction of general anesthesia (GA), airway manipulation, and emergence from anesthesia represent the most critical times for potential airway complications during a general anesthetic. The effects of various anesthetic agents and airway devices on the airway are as follows:




  • Fentanyl is preferred over morphine due to the histamine-releasing property of the latter.



  • All volatile anesthetics have direct bronchodilation properties except desflurane. Halothane followed by sevoflurane is the most effective bronchodilator.



  • Desflurane is an airway irritant and is avoided in asthmatics.



  • Propofol is superior to etomidate and thiopental in terms of lowering airway resistance but has inferior bronchodilator properties compared to volatile anesthetics.



  • Ketamine has a direct bronchodilation activity and blunts airway reflex; bronchoconstriction, although coming at the cost of increased secretions, can complicate airway management.



  • Neuromuscular blocking drugs (NMBDs) improve intubating conditions in adults. Preferred ones are rocuronium and vecuronium. Atracurium has histamine-releasing properties.



  • The use of noninvasive such as supraglottic airway (SGA) carries a lower risk of postoperative hypoxemia and coughing compared to the endotracheal tube (ETT) in adults.



  • In patients with airflow obstruction, prolongation of the expiratory phase of ventilation occurs. Increase the inspiratory:expiratory (I:E) ratio to allow ample time for expiration, in order to avoid dynamic hyperinflation (autopositive end-expiratory pressure [PEEP] or breath stacking).



  • Extubation in a deep plane of anesthesia should theoretically decrease the risk of bronchospasm caused by the stimulus of the ETT.



Chronic Obstructive Pulmonary Disease


COPD is a chronic progressive, an irreversible inflammatory condition resulting in expiratory airflow limitation. It includes:




  • Emphysema.



  • Chronic bronchitis.



  • Small airway disease.


Risk factors for COPD include:




  • Cigarette smoking.



  • Increased airway responsiveness to various exogenous stimuli.



  • Respiratory infections.



  • Occupational exposures (coal mining, gold mining, and cotton textile dust).



  • Ambient air pollution.



  • Genetic: Severe antitrypsin (α1 AT) deficiency.



Preoperative Evaluation




  • History should focus on exercise tolerance, change in trend of symptoms, addition of new medication or escalation of previous medications, number of hospitalizations related to exacerbations, need of mechanical ventilation, and presence of any comorbid illness.



  • Physical examination:




    • Nutritional status: Body mass index (BMI), outside the normal range, increases the risk of pulmonary complications.



    • Auscultation: The presence of diminished breath sounds, prolonged expiration, wheeze, and rhonchi are predictors of postoperative pulmonary complications.



    • Fever, purulent sputum, worsening cough, and dyspnea also add to the risk of complications.



  • Investigations:




    • Routine preoperative blood tests.



    • Electrocardiogram: To rule out right-sided heart disease or concomitant ischemic heart disease.



    • Chest X-ray: For hyperinflated lung fields.



    • Spirometry: For COPD diagnosis and assessment of severity.



    • Formal exercise testing: The functional status of patients.



    • A baseline arterial blood gas (ABG).



Preoperative Preparation


Preoperative preparation should target on smoking cessation. Smoking cessation anytime before surgery has been found to reduce complications (e.g., pneumonia, length of intensive care stay, and need for mechanical ventilation), but maximum benefit is seen with at least 8 weeks of abstinence before surgery. Chest physiotherapy is warranted in patients with a large volume of sputum to optimize patient outcomes.



Anesthetic Management


GA with tracheal intubation is associated with laryngospasm, bronchospasm, cardiovascular instability, barotraumas, and hypoxemia, resulting in increased rates of postoperative pulmonary complications. Therefore, regional anesthesia (RA) is preferred.



General Anesthesia



  • Preinduction


    Preoxygenation should be used in any patient who is hypoxic on-air before induction. The use of continuous positive airway pressure (CPAP) during induction may be used to improve the efficacy of preoxygenation and reduce the development of atelectasis in patients with severe hypoxia. Ventilatory management is an essential consideration in a patient of COPD, and the following points are noteworthy:




    • Avoid auto-PEEP: It can be achieved by reducing the frequency of breaths or I:E ratio. Exhalation time should be more to prevent breath stacking.



    • Application of PEEP: Extrinsic PEEP (usually 80% of intrinsic PEEP) helps to decrease the work of breathing.



    • Treatment of bronchospasm: It can be treated with any of the following:




      • Use of inhaled bronchodilators.



      • Deepening the plane of anesthesia with either propofol or increasing concentration of inhaled anesthetic.


At the end of the surgery, extubation should be done cautiously and preferably in the presence of an experienced anesthetist. Before extubation, oxygenation and reversal of the neuromuscular blockade must be ensured. Switching from tracheal intubation to noninvasive ventilation (NIV) may lessen the work of breathing and air trapping in select high-risk patients.

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Dec 11, 2022 | Posted by in ANESTHESIA | Comments Off on CHAPTER 15 Anesthesia for Respiratory Diseases

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