时间:2024-12-25
Mi Hwa Park,Min Jeong Kim,Ah Jin Kim,Man-Jong Lee,Jung-Soo Kim
Mi Hwa Park,Min Jeong Kim,Jung-Soo Kim,Division of Pulmonology,Department of Internal Medicine,Inha University Hospital,Incheon 22332,South Korea
Ah Jin Kim,Man-Jong Lee, Division of Critical Care Medicine,Department of Internal Medicine,Inha University Hospital,Incheon 22332,South Korea
Abstract
Key words:Acute exacerbation of chronic obstructive pulmonary disease;Noninvasive ventilation;Helmet;Case report
Acute exacerbation of chronic obstructive pulmonary disease(AECOPD)is defined as sustained worsening of condition from the stable state to beyond normal day-to-day variations possibly warranting additional treatment[1].AECOPD has negative impacts on quality of life,accelerates disease progression,and results in higher hospital admission and death rates than those associated with COPD without frequent exacerbations[2-4].The incidence of AECOPD per person per year has been estimated to range between 0.65 and 1.40[3].AECOPD therapy includes β-agonists,anticholinergics,corticosteroids,and antibiotics.Furthermore,noninvasive ventilation(NIV)may be preferred to invasive mechanical ventilation in patients with hypercapnic respiratory failure[5,6].
NIV reduces the need for intubation,mortality rates,and lengths of hospital and intensive care unit(ICU)stays in cases of acute or acute-on-chronic hypercapnic respiratory failure[4].NIV has proven to be useful for breathing support,but complications such as air leaks,skin breakdown,and discomfort result in treatment failure[7].Helmet-based NIV is better tolerated than oronasal mask-based NIV,and thus,can be maintained for longer periods at higher pressure with fewer air leaks.Furthermore,in a previous study,the NIV failure rate was lower for AECOPD patients treated using an oronasal mask and a helmet sequentially than using an oronasal mask alone[8].
Here,we report a case of AECOPD with hypercapnic respiratory failure in a 73-year-old male.In this case,the use of helmet-based NIV as a salvage treatment,which reduced hypercapnic respiratory failure,whereas high intensity oronasal mask-based NIV failed to do so.
A 73-year-old man was admitted to our medical ICU with chief complaints of cough,sputum,and dyspnea of several days' duration.
Initially,the patient visited our emergency room because of cough,sputum and breathing difficulties of 2 d duration.He refused admission and was discharged on antibiotics and systemic steroid,which improved his symptoms.Nonetheless,2 d later,he was admitted to our medical ICU because of dyspnea and decreased consciousness.
In 2007,the patient was diagnosed to have pneumothorax and COPD stage 4,and in August 2017,he was admitted with recurrent pneumothorax.In April 2018,he was admitted with AECOPD and treated by invasive mechanical ventilation with systemic steroid.After discharge,he was hardly able to perform anything alone because of dyspnea(modified medical research council dyspnea scale IV).He was maintained on oxygen at home by day and by oronasal mask-based NIV at night.He regularly used formoterol/budesonide and umeclidinium inhalers and salbutamol as needed.He had quit smoking for a year,but before that,he had smoked a pack per day for 50 years.
There was no relevant personal or family history.
Initial physical examination showed he breathed with respiratory accessory muscles and lung sounds were diminished.
Arterial blood gas analysis of a blood sample taken when he visited our emergency room showed;pH 7.20,PCO260.8 mmHg,PO260.6 mmHg,and O2saturation 86.1%.In addition,it revealed signs of infection,i.e.,white blood cell count(10.39×103/μL),C-reactive protein(5.98 mg/dL),and procalcitonin(1.41 ng/mL).However,sputum gram staining and culture,blood culture,and urine antigens tests failed to identify any causative organism.
Chest radiography revealed infiltration of the right lower lung field.
The final diagnosis reached was AECOPD by community-acquired pneumonia.
At admission,he was treated with intravenous methylprednisolone,antibiotics,shortacting inhaled beta2-agonist,and an anticholinergic.However,dyspnea,consciousness level,and hypercapnia worsened.His Richmond Agitation-Sedation Scale score was -3,indicating movement response to voice but no eye contact.He was already using oronasal mask-based NIV for about 8 h/d.When we applied higher positive end-expiratory pressure(PEEP)and inspiratory positive pressure than ever applied,air leak increased,and the patient reported it was unbearable.The maximal peak pressure that the patient could withstand was 14 cmH2O during oronasal maskbased NIV.At higher PEEP,respiratory failure was not improved.Although invasive mechanical ventilation was believed necessary,the patient had previously declined invasive mechanical ventilation and completed a“Do Not Resuscitate” form.Helmetbased NIV was applied at higher positive inspiratory pressure,PEEP than those used for oronasal mask-based NIV.After changing to helmet-based NIV,no air leak occurred and inspiratory positive pressure and PEEP were maintained at 12 and 10 cmH2O,respectively,which the patient tolerated.After 5 h of helmet-based NIV,hypercapnia and level of consciousness were not improved.However,helmet-based NIV was maintained until the next morning,when hypercapnia and level of consciousness were improved.Thus,helmet-based NIV was applied for three consecutive days at 24 h/d(Table 1).
Three days after admission,consciousness level and arterial blood gas parameters recovered to pre-hospitalization level.Helmet-based NIV was switched to oronasal mask-based NIV.He was discharged to home on hospital day 14 and instructed to adopt the same oronasal mask-based NIV and the home oxygen procedure used prior to admission.
Some patients with AECOPD need invasive mechanical ventilation.However,our patient refused invasive mechanical ventilation,and thus,other treatment options were considered.Because oronasal mask-based NIV had failed to address hypercapnia,we administered helmet-based NIV at higher intensity,which elicited recovery.
NIV reduces hospital stays and mortality by 50% in AECOPD patients[9],and in a previous study,the treatment failure rate for the sequential use of an oronasal mask and a helmet was lower than that of an oronasal mask alone[8].Other studies have reported lower hospital mortalities and intubation complication rates for helmetbased NIV than for oronasal mask-based NIV in cases of acute respiratory failure[7,10,11].
NIV treatment failures are caused by intolerance,uncontrolled air leaks,and lack of gas exchange improvement.Helmet-based NIV is better tolerated than oronasal maskbased NIV,and thus,allows longer treatment periods,maintains higher inspiratory positive pressures and PEEP with fewer air leak[12].Based on the patient's opinion and these previously reported results,we chose helmet-based NIV as a salvage treatment rather than invasive mechanical ventilation.In our patient,during the early phase,helmet-based NIV was ineffective at improving hypercapnic respiratory failure.Nevertheless,we persisted and hypercapnia and consciousness level began to improve after 15 h,and after 63 h of helmet-based NIV,these recovered to the prehospital level,when we switched to oronasal mask-based NIV and a high flow nasal cannula.
Table 1 Physiological parameters during helmet-based noninvasive ventilation
The helmet-based NIV can be applied continuously for a long time,because of less discomfort even under high pressure and because it can be continued during Levin tube feeding.Also,helmet-based NIV can deliver higher pressures without air leakage than oronasal mask-based NIV.In our opinion,these benefits and characteristics enable patient recovery from hypercapnic respiratory failure more effectively.We suggest helmet-based NIV be considered as a salvage treatment for AECOPD patients that have declined invasive mechanical ventilation.
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