Clinics and Practice 2011; volume 1:e70
Pneumomediastinum and bilateral pneumothorax following near drowning in shallow water Santhiya Govindaraj, Stalin Viswanathan Pondicherry Institute of Medical Sciences, Kalapet, Pondicherry, India
Abstract We report pneumomediastinum, bilateral pneumothorax and acute respiratory distress syndrome in a victim of near drowning who was intoxicated and did not have thoracic or neck trauma. Chest radiograph revealed the above findings, later confirmed by computed tomography. He was in shock and also had gastrointestinal (GI) bleeding and renal dysfunction. With adequate resuscitative measures including fluids, blood transfusions, intercostal tube drainage and mechanical ventilation he made a complete recovery. Good prognostic indicators in near drowning patients include higher Glasgow Coma Scale, short submersion time and quick resuscitative measures even in the presence of serious cardiorespiratory or hemodynamic compromise.
Introduction Unintentional drowning accounts for about 8% of injuries related deaths. A majority of these drowning related deaths occur in developing and under developed countries.1 About 86000 deaths related to drowning had been reported in India (in 2000), with a mortality rate of 8.5%.1 The lack of sufficient education in drowning prevention and resuscitation has resulted in thousands of unnecessary deaths. Here we report a case of secondary pneumomediastinum, bilateral pneumothorax and acute respiratory distress syndrome (ARDS) in a male with near drowning that recovered with conservative therapy.
Case Report This 24-year-old college student was brought to the emergency with history of drowning in a fresh water pond. He had been waist-deep in the pond drinking alcohol, while his friends who were swimming had been unaware when he had slipped into the water. He was immediately rescued when his absence was noted and taken to a nearby hospital within thirty min-
utes. En route, they had noticed that he was barely conscious, able to follow a few commands and had shallow breathing. He was nasally intubated and brought to our institution about three hours later. On examination he had tachycardia 130/min, tachypnea 26/min and systolic blood pressure of 60 mm Hg. Bilateral air entry was reduced albeit with crackles basally, and he was awake, obeying commands with no focal neurological deficits. His investigations were: hemoglobin 21.4 g/dL, haematocrit 60, urea 10.7 mmol/L, creatinine 176.6 µmol/L, potassium 2.6 mEq/L, metabolic acidosis, sinus tachycardia on electrocardiogram, and bilateral lung infiltrates, bilateral pneumothorax and pneumomediastinum on chest radiography (Figure 1A). His central venous pressure was 6cm of saline following which fluids and inotropes (dopamine and dobutamine) were administered. The patient also had upper gastrointestinal (GI) bleeding following which he was transfused two units of red blood cells (RBCs). On the second day subcutaneous emphysema over neck was noticed and a computed tomography of the chest was performed to rule out chest trauma. Echocardiography was normal; a left sided intercostal chest tube was placed and removed on day 4 of admission. Inotropes were tapered and stopped on the third day. His renal function improved with fluid management and he was discharged on day 10 with the presence of a small pneumothorax on the right side. On a follow up visit two weeks later his chest x-ray (CXR) was normal and he remained symptom free.
Discussion Drowning is suffocation arising from submersion in a liquid medium, generally water and near drowning is at least temporary survival following drowning that enables a patient to obtain health care.2 Near drowning is much more common than drowning. Most such incidents are under-reported, although up to half a million deaths occur worldwide due to drowning.3 Ninety percent of near drowning incidents are wet drowning wherein small to large amounts of fluid are aspirated into the lungs along with temporary laryngospasm.2 Wet drowning with fresh or sea water generally disrupts surfactant lining and hence alveolar collapse, adult respiratory distress syndrome, hypoxemia and cerebral hypoxia occur. Drug intoxications, arrhythmias, depression, epilepsy, head injuries and accidental falls are common causes of near drowning.2,4 About 20-25% of young adult (especially males) deaths associated with water recreation activities are seen with alcohol use4 as in our patient. Serum sodium may be altered depending on whether fresh or seawater was aspirated, but our [Clinics and Practice 2011; 1:e70]
Correspondence: Stalin Viswanathan, Department of internal medicine, Pondicherry Institute of Medical Sciences, Kalapet, Pondicherry-605014, India. Tel: 91.0413.3051111. E-mail: [email protected] Key words: near drowning; pneumomediastinum; acute respiratory distress syndrome; complications. Contributions: SG, manuscript writing and final approval; SV, manuscript conceiving, literature searching, reviewing and final approval. Conflict of interest: the authors report no conflicts of interest. Received for publication: 27 August 2011. Accepted for publication: 19 September 2011. This work is licensed under a Creative Commons Attribution NonCommercial 3.0 License (CC BYNC 3.0). ©Copyright S. Govindaraj and S. Viswanathan, 2011 Licensee PAGEPress, Italy Clinics and Practice 2011; 1:e70 doi:10.4081/cp.2011.e70
patient’s sodium was normal. Hypokalemia is seen in 50% of fatal drowning incidents.5 Hemoconcentration is generally seen in sea water drowning,4 but our patient who drowned in a pond presented with elevated hematocrit and low central venous pressure (CVP). His upper GI bleeding probably contributed
A
C
B
Figure 1. A) Chest x-ray (CXR) at admission showing bilateral pneumothorax, pneumomediastinum; B) computed tomography (CT) thorax revealing pneumothorax, pneumomediastinum, crazy pavement pattern of collapsed lung segments; C) CXR with bilateral pneumothorax and pneumomediastinum reduced markedly following chest tube insertion.
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Case Report towards his contracted intravascular volume and shock. Computed tomography (CT) findings of near drowning including pneumomediastinum, crazy pavement appearance, groundglassing as reported in a study were also seen in our patient6 (Figure 1B). Pneumomediastinum is presence of free air in the mediastinum, that originates from the alveolar space or airways.7 Pneumomediastinum had been reported initially in 1819 and has been described in the setting of labor and child birth, reactive airway diseases, surgeries to the neck and tonsils, blunt chest trauma and illicit drug inhalation.8,9 CT did not reveal trauma to the neck due to nasal intubation. Pneumomediastinum and pneumothorax are the common manifestations of pulmonary barotrauma. Shallow diving has been reported once, to cause pneumomediastinum.7 Apart from barotrauma, coughing and breath holding during the drowning process that possibly occurred in our patient, can also lead to pneumomediastinum due to elevation of intraalveolar pressures and subsequent alveolar rupture. Most cases of pneumomediastinum can be managed conservatively. Due to presence of pneumothorax and haemodynamic instability, a left sided chest tube drain was placed (Figure 1C). The right sided pneumothorax improved on its own. Factors governing prognosis in drowning incidents include time submerged, timely and quality resuscitation, water temper-
[page 146]
ature, depth of water and nature of the water.10 Complications arising from submersion include aspiration, chest trauma, arrhythmias, pulmonary edema, dehydration, dyselectrolytemia, renal failure and rhabdomyolysis.4 CT chest revealed no trauma, while hypokalemia, renal failure and pulmonary edema were seen in our patient. Good prognostic indicators in the emergency include GCS>5/15, short submersion time and spontaneous respiration and cardiac activity2 all of which were observed in our patient. In conclusion, we report a case of pneumomediastinum in near drowning that followed slipping into the water in an intoxicated state which has not been previously reported. Presence of shock, upper GI bleeding, pneumomediastinum, pneumothorax were not poor prognostic indicators when the sensorium was normal and could be treated conservatively.
3.
4.
5.
6.
7.
8.
References 1. Drowning. In: World Health Organization Injuries & Violence Prevention- NonCommunicable Diseases and Mental Health World Health Organization:1-8. http://www.who.int/violence_injury_prevention/ Accesssed: 14 June 2011. 2. Meacher S. Managing near drowning of
[Clinics and Practice 2011; 1:e70]
9.
10.
adults within the emergency department. Austral Emerg Nurs J 2006;9:3-9. Papa L, Hoelle R, Idris A. Systematic review of definitions for drowning incidents. Resuscitation 2005;65:255-64. Moon RE, Long RJ. Drowning and neardrowning. Emerg Med (Fremantle) 2002;14:377-86. Oehmichen M, Hennig R, Meissner C. Near-drowning and clinical laboratory changes. Leg Med (Tokyo) 2008;10:1-5. Kim KI, Lee KN, Tomiyama N, et al. Near drowning: thin-section CT findings in six patients. J Comput Assist Tomogr 2000;24: 562-6. Shah S, Thomas S, Gibb E. Pneumomediastinum after shallow water diving. J Emerg Med 2009;36:76-7. Koullias GJ, Korkolis DP, Wang XJ, Hammond GL. Current assessment and management of spontaneous pneumomediastinum: experience in 24 adult patients. Eur J Cardiothorac Surg 2004;25: 852-5. Marioni G, De Filippis C, Tregnaghi A, et al. Cervical emphysema and pneumomediastinum after tonsillectomy: it can happen. Otolaryngol Head Neck Surg 2003;128:298300. Harries M. Near drowning. BMJ 2003;327: 1336-8.
Pneumomediastinum and bilateral pneumothorax following near drowning in shallow water Santhiya Govindaraj, Stalin Viswanathan Pondicherry Institute of Medical Sciences, Kalapet, Pondicherry, India
Abstract We report pneumomediastinum, bilateral pneumothorax and acute respiratory distress syndrome in a victim of near drowning who was intoxicated and did not have thoracic or neck trauma. Chest radiograph revealed the above findings, later confirmed by computed tomography. He was in shock and also had gastrointestinal (GI) bleeding and renal dysfunction. With adequate resuscitative measures including fluids, blood transfusions, intercostal tube drainage and mechanical ventilation he made a complete recovery. Good prognostic indicators in near drowning patients include higher Glasgow Coma Scale, short submersion time and quick resuscitative measures even in the presence of serious cardiorespiratory or hemodynamic compromise.
Introduction Unintentional drowning accounts for about 8% of injuries related deaths. A majority of these drowning related deaths occur in developing and under developed countries.1 About 86000 deaths related to drowning had been reported in India (in 2000), with a mortality rate of 8.5%.1 The lack of sufficient education in drowning prevention and resuscitation has resulted in thousands of unnecessary deaths. Here we report a case of secondary pneumomediastinum, bilateral pneumothorax and acute respiratory distress syndrome (ARDS) in a male with near drowning that recovered with conservative therapy.
Case Report This 24-year-old college student was brought to the emergency with history of drowning in a fresh water pond. He had been waist-deep in the pond drinking alcohol, while his friends who were swimming had been unaware when he had slipped into the water. He was immediately rescued when his absence was noted and taken to a nearby hospital within thirty min-
utes. En route, they had noticed that he was barely conscious, able to follow a few commands and had shallow breathing. He was nasally intubated and brought to our institution about three hours later. On examination he had tachycardia 130/min, tachypnea 26/min and systolic blood pressure of 60 mm Hg. Bilateral air entry was reduced albeit with crackles basally, and he was awake, obeying commands with no focal neurological deficits. His investigations were: hemoglobin 21.4 g/dL, haematocrit 60, urea 10.7 mmol/L, creatinine 176.6 µmol/L, potassium 2.6 mEq/L, metabolic acidosis, sinus tachycardia on electrocardiogram, and bilateral lung infiltrates, bilateral pneumothorax and pneumomediastinum on chest radiography (Figure 1A). His central venous pressure was 6cm of saline following which fluids and inotropes (dopamine and dobutamine) were administered. The patient also had upper gastrointestinal (GI) bleeding following which he was transfused two units of red blood cells (RBCs). On the second day subcutaneous emphysema over neck was noticed and a computed tomography of the chest was performed to rule out chest trauma. Echocardiography was normal; a left sided intercostal chest tube was placed and removed on day 4 of admission. Inotropes were tapered and stopped on the third day. His renal function improved with fluid management and he was discharged on day 10 with the presence of a small pneumothorax on the right side. On a follow up visit two weeks later his chest x-ray (CXR) was normal and he remained symptom free.
Discussion Drowning is suffocation arising from submersion in a liquid medium, generally water and near drowning is at least temporary survival following drowning that enables a patient to obtain health care.2 Near drowning is much more common than drowning. Most such incidents are under-reported, although up to half a million deaths occur worldwide due to drowning.3 Ninety percent of near drowning incidents are wet drowning wherein small to large amounts of fluid are aspirated into the lungs along with temporary laryngospasm.2 Wet drowning with fresh or sea water generally disrupts surfactant lining and hence alveolar collapse, adult respiratory distress syndrome, hypoxemia and cerebral hypoxia occur. Drug intoxications, arrhythmias, depression, epilepsy, head injuries and accidental falls are common causes of near drowning.2,4 About 20-25% of young adult (especially males) deaths associated with water recreation activities are seen with alcohol use4 as in our patient. Serum sodium may be altered depending on whether fresh or seawater was aspirated, but our [Clinics and Practice 2011; 1:e70]
Correspondence: Stalin Viswanathan, Department of internal medicine, Pondicherry Institute of Medical Sciences, Kalapet, Pondicherry-605014, India. Tel: 91.0413.3051111. E-mail: [email protected] Key words: near drowning; pneumomediastinum; acute respiratory distress syndrome; complications. Contributions: SG, manuscript writing and final approval; SV, manuscript conceiving, literature searching, reviewing and final approval. Conflict of interest: the authors report no conflicts of interest. Received for publication: 27 August 2011. Accepted for publication: 19 September 2011. This work is licensed under a Creative Commons Attribution NonCommercial 3.0 License (CC BYNC 3.0). ©Copyright S. Govindaraj and S. Viswanathan, 2011 Licensee PAGEPress, Italy Clinics and Practice 2011; 1:e70 doi:10.4081/cp.2011.e70
patient’s sodium was normal. Hypokalemia is seen in 50% of fatal drowning incidents.5 Hemoconcentration is generally seen in sea water drowning,4 but our patient who drowned in a pond presented with elevated hematocrit and low central venous pressure (CVP). His upper GI bleeding probably contributed
A
C
B
Figure 1. A) Chest x-ray (CXR) at admission showing bilateral pneumothorax, pneumomediastinum; B) computed tomography (CT) thorax revealing pneumothorax, pneumomediastinum, crazy pavement pattern of collapsed lung segments; C) CXR with bilateral pneumothorax and pneumomediastinum reduced markedly following chest tube insertion.
[page 145]
Case Report towards his contracted intravascular volume and shock. Computed tomography (CT) findings of near drowning including pneumomediastinum, crazy pavement appearance, groundglassing as reported in a study were also seen in our patient6 (Figure 1B). Pneumomediastinum is presence of free air in the mediastinum, that originates from the alveolar space or airways.7 Pneumomediastinum had been reported initially in 1819 and has been described in the setting of labor and child birth, reactive airway diseases, surgeries to the neck and tonsils, blunt chest trauma and illicit drug inhalation.8,9 CT did not reveal trauma to the neck due to nasal intubation. Pneumomediastinum and pneumothorax are the common manifestations of pulmonary barotrauma. Shallow diving has been reported once, to cause pneumomediastinum.7 Apart from barotrauma, coughing and breath holding during the drowning process that possibly occurred in our patient, can also lead to pneumomediastinum due to elevation of intraalveolar pressures and subsequent alveolar rupture. Most cases of pneumomediastinum can be managed conservatively. Due to presence of pneumothorax and haemodynamic instability, a left sided chest tube drain was placed (Figure 1C). The right sided pneumothorax improved on its own. Factors governing prognosis in drowning incidents include time submerged, timely and quality resuscitation, water temper-
[page 146]
ature, depth of water and nature of the water.10 Complications arising from submersion include aspiration, chest trauma, arrhythmias, pulmonary edema, dehydration, dyselectrolytemia, renal failure and rhabdomyolysis.4 CT chest revealed no trauma, while hypokalemia, renal failure and pulmonary edema were seen in our patient. Good prognostic indicators in the emergency include GCS>5/15, short submersion time and spontaneous respiration and cardiac activity2 all of which were observed in our patient. In conclusion, we report a case of pneumomediastinum in near drowning that followed slipping into the water in an intoxicated state which has not been previously reported. Presence of shock, upper GI bleeding, pneumomediastinum, pneumothorax were not poor prognostic indicators when the sensorium was normal and could be treated conservatively.
3.
4.
5.
6.
7.
8.
References 1. Drowning. In: World Health Organization Injuries & Violence Prevention- NonCommunicable Diseases and Mental Health World Health Organization:1-8. http://www.who.int/violence_injury_prevention/ Accesssed: 14 June 2011. 2. Meacher S. Managing near drowning of
[Clinics and Practice 2011; 1:e70]
9.
10.
adults within the emergency department. Austral Emerg Nurs J 2006;9:3-9. Papa L, Hoelle R, Idris A. Systematic review of definitions for drowning incidents. Resuscitation 2005;65:255-64. Moon RE, Long RJ. Drowning and neardrowning. Emerg Med (Fremantle) 2002;14:377-86. Oehmichen M, Hennig R, Meissner C. Near-drowning and clinical laboratory changes. Leg Med (Tokyo) 2008;10:1-5. Kim KI, Lee KN, Tomiyama N, et al. Near drowning: thin-section CT findings in six patients. J Comput Assist Tomogr 2000;24: 562-6. Shah S, Thomas S, Gibb E. Pneumomediastinum after shallow water diving. J Emerg Med 2009;36:76-7. Koullias GJ, Korkolis DP, Wang XJ, Hammond GL. Current assessment and management of spontaneous pneumomediastinum: experience in 24 adult patients. Eur J Cardiothorac Surg 2004;25: 852-5. Marioni G, De Filippis C, Tregnaghi A, et al. Cervical emphysema and pneumomediastinum after tonsillectomy: it can happen. Otolaryngol Head Neck Surg 2003;128:298300. Harries M. Near drowning. BMJ 2003;327: 1336-8.
