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Revista Peruana de Ginecología y Obstetricia

versión On-line ISSN 2304-5132

Rev. peru. ginecol. obstet. vol.68 no.2 Lima abr./jun. 2022  Epub 06-Jul-2022

http://dx.doi.org/10.31403/rpgo.v68i2418 

Case report

Primary spontaneous pneumothorax during pregnancy

Duly Torres-Cepeda1  , Doctor in Medical Sciences
http://orcid.org/0000-0002-9937-1850

Martha Rondón-Tapia1  , Physician
http://orcid.org/0000-0001-9366-6343

Eduardo Reyna-Villasmil1  , Doctor in Clinical Medicine
http://orcid.org/0000-0002-5433-7149

1. Specialist in Gynecology and Obstetrics. Obstetrics and Gynecology Service, Hospital Central "Dr. Urquinaona", Maracaibo, Zulia State, Venezuela

ABSTRACT

Primary spontaneous pneumothorax is an extremely rare condition during pregnancy and can occur at any time. Rupture of an apical ampulla or subpleural bulla is the most common cause in young pregnant women. It is thought to be due to increased respiratory activity associated with the peripartum period. Early detection and prompt diagnosis of this condition are important for the prevention of some serious complications. The therapeutic methods used in pregnancy do not differ essentially from those used in non-pregnant patients. Ambulatory drainage of the thorax has been recommended in treatment. Delivery in these women can be performed vaginally, with a second phase of labor without effort. We present a case of primary spontaneous pneumothorax that occurred at 35 weeks of gestation in a healthy 34-year-old primigravida. Its onset was described as pleuritic chest pain and dyspnea of sudden onset. The diagnosis was made by plain chest radiography. The patient was successfully treated with chest tube placement.

Key words: Primary spontaneous pneumothorax; Pregnancy

Introduction

Acute pneumothorax during pregnancy is potentially fatal. Primary spontaneous pneumothorax (PSP) is characterized by the presence of air in the pleural cavity resulting in lung collapse. It is more common in men than in women and is rare during pregnancy. In addition, it is rarely associated with malignant tumors during pregnancy1. The true incidence of this condition is unknown2. The most common cause is rupture of a subpleural apical bulla or bleb in a patient with otherwise healthy lungs3. A case of primary spontaneous pneumothorax during pregnancy is presented.

Case report

This is a 34-year-old patient, gestation 4, para 3, 35 weeks pregnant, who came to the emergency room with right-sided pleuritic pain of sudden onset radiating to the right upper limb and back, shortness of breath and dry cough that occurred while she was sleeping. The patient had no fever, nausea, hemoptysis, vomiting or trauma. She denied smoking, illegal or recreational drug use, allergies, bronchial asthma and personal or family history of pulmonary disease.

On physical examination the patient was afebrile, with moderate shortness of breath and no cyanosis, lying left lateral decubitus and unable to sit up due to pain and dyspnea. No tracheal deviation or use of accessory respiratory muscles was observed. Physical examination revealed blood pressure of 100/50 mmHg, heart rate of 110 beats per minute, respiratory rate of 20 breaths per minute and body temperature of 37.8°C. No paradoxical pulse was found. Pulmonary auscultation showed decreased right-sided air entry along with decreased vesicular murmur and heart sounds. Hyperresonance of the right hemithorax to percussion was also found. Peripheral pulse oximetry showed oxygen saturation of 95% with room oxygen. Posteroanterior plain chest radiograph with abdominal guarding showed right pneumothorax with pulmonary margin approximately 6 centimeters from the chest wall, no deviation of the mediastinum and trachea and no evidence of blisters, bullae or cysts (Figure 1). Abdominal examination revealed uterus according to gestational age with fetus in cephalic presentation and fetal heart rate of 143 beats per minute. The cervix was closed, with no evidence of bleeding.

Figure 1 Chest X-ray showing pneumothorax with the pulmonary margin approximately 6 centimeters from the chest wall. 

On admission, oxygen via nasal cannula and chest tube on the right side in the fifth intercostal space over the mid-axillary line were placed and connected to a closed system with a water seal. The patient gradually improved and complete re-expansion of the right lung was noted on radiological evaluation. Clinical improvement was evident after 3 days and the chest tube was removed. Due to the clinical improvement and that the lung remained expanded, the patient was discharged 7 days after admission.

Subsequently, the patient was admitted at 40 weeks of pregnancy, in spontaneous labor, delivering a live male newborn of 3,200 grams with Apgar scores of 7 and 9 points at one minute and 5 minutes, respectively. Labor lasted 5 hours and 30 minutes and the second stage of labor was shortened to limit the Valsalva maneuver. No signs of pneumothorax were observed during the immediate and mediate puerperium. Re-evaluation was performed 3 months after delivery and the chest X-ray was normal. No further intervention was planned. The patient has remained asymptomatic two years after delivery.

Discussion

Increased minute ventilation in pregnancy and the Valsalva maneuver during labor can precipitate the rupture of a subpleural bleb or bulla subpleuralis. Oxygen consumption increases in pregnancy by 20% and up to 50% during labor. Fetal tolerance to hypoxemia is low, as the partial pressure of oxygen in the umbilical vein is 35 to 40 mmHg. Therefore, any reduction in maternal oxygenation may adversely affect the fetus4. Other reported risk factors for the occurrence of PSP during pregnancy include underlying respiratory infection, bronchial asthma, hyperemesis gravidarum, previous history of pneumothorax, cocaine and ecstasy abuse, iatrogenic causes (central venous line insertion), and endotracheal intubation with positive pressure ventilation5. In a review of cases of PSP in pregnancy, 46% occurred in the first and second trimester and 54% in the third trimester and puerperium6.

Typical symptoms of PSP, regardless of the cause, include pleuritic pain associated with dyspnea7. Tachypnea, tachycardia, cyanosis or decreased ipsilateral breath sounds may be observed on physical examination. Chest radiography is necessary for definitive diagnosis. The potential risks associated with radiologic examination must be weighed against the potential benefits of the study. When the diagnosis of PSP is suspected in a pregnant woman, it is safe to perform standard chest radiography without placing the fetus at substantial risk from ionizing radiation if the abdomen is shielded. The radiation dose from a single standard chest radiograph is 1 millirad, which is well below the level safely permissible during pregnancy (5 rads)8. CT scanning with shielding is also useful, as it can define the underlying anatomical abnormality and help plan the surgical approach when indicated6.

The main differential diagnosis in pregnant women is pulmonary lymphangioleiomyomatosis. This occurs in young women of reproductive age and often causes PSP. On computed tomography images of the chest, multiple rounded cysts can be seen in almost all lung fields. Definitive diagnosis must be made by biopsy of the cysts7.

PSP is well tolerated due to the absence of underlying lung disease. Secondary spontaneous pneumothorax is an indicator of morbidity and mortality. Common causes include bronchial asthma, chronic obstructive pulmonary disease, cystic fibrosis, pneumonia, pulmonary neoplasms, and tuberculosis. The risk of recurrence in the absence of treatment is 50%8.

PSP is not associated with significant physiologic compromise unless tension pneumothorax develops. Generally, the same treatment criteria used in non-pregnant patients are used. Cases of small PSP without dyspnea can be treated conservatively. This air in the pleural cavity is absorbed at a rate of 1.5% / day with room oxygen9. Administration of supplemental oxygen at high concentrations via partial breathing mask increases the reabsorption rate fourfold and is therefore an effective method to accelerate resolution of the clinical picture. It also reduces morbidity and duration of hospitalization and the need for invasive drainage procedures. However, conservative management has a 30-40% risk of recurrence2.

When dyspnea is severe or the PSP is large, thoracic drainage should be performed, since it is safer, less painful and is not associated with a higher risk of recurrence. It should also be considered in those cases with persistent air leak4. The use of prolonged drainage is a safe and effective measure for treatment, especially in late pregnancy3. Other therapeutic options include needle aspiration and decompression, pleurodesis, tube thoracostomy, thoracotomy and thoracoscopy, especially for recurrent, persistent, or bilateral cases10-12. Surgical treatment during pregnancy carries the risk of hypoxemia, postoperative pain and preterm delivery6. The advantages of thoracoscopic surgical treatment compared to thoracotomy are decreased anesthetic exposure time, rapid lung expansion, decreased postoperative pain, potentially shorter postoperative period, and decreased pain10-15.

Spontaneous vaginal delivery after surgical treatment appears safe. In patients who have not undergone definitive surgical therapy, the use of regional anesthesia and forceps is recommended to avoid increased intrathoracic pressure secondary to expulsive effort during the second stage of labor and possible aggravation or recurrence of PSP3. Cesarean section is reserved for obstetric indications.

It has been proposed that women with a history of PSP during pregnancy, delivery or puerperium are at risk of recurrence in subsequent pregnancies and deliveries. The use of computed tomography has been suggested to identify and define bullae and apical blisters in the lung and to plan surgery13-15. However, detection of such structures is not necessarily predictive of risk. Although surgery is often considered after the first recurrence, specific criteria for surgical intervention are lacking4.

In conclusion, primary spontaneous pneumothorax should be considered in those pregnant women with chest pain or dyspnea and should be confirmed by radiological studies to distinguish it from other diseases or conditions. The condition or its treatment does not produce serious adverse effects during pregnancy or delivery, but diagnostic suspicion in certain conditions is essential to avoid complications.

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Ethical statements

Ethical responsibilities: Protection of persons. We the authors declare that the procedures followed conformed to the ethical standards of the responsible human experimentation committee and in accordance with the World Medical Association and the Declaration of Helsinki

Confidentiality of data: The authors declare that we have followed the protocols of the Hospital Central "Dr. Urquinaona" on the publication of patient data.

Right to privacy and informed consent: The authors have obtained the informed consent of the patients and/or subjects referred to in the article. This document is in the possession of the corresponding author.

Funding: The authors certify that we have not received financial support, equipment, personnel or in-kind support from individuals, public and/or private institutions for the study.

Cite as: Torres-Cepeda D, Rondón-Tapia M, Reyna-Villasmil E. Primary spontaneous pneumothorax during pregnancy. Rev Peru Ginecol Obstet. 2022;68(2). DOI: https://doi.org/10.31403/rpgo.v68i2418

Received: November 22, 2021; Accepted: February 25, 2022

Corresponding author: Dr. Eduardo Reyna-Villasmil, Hospital Central "Dr. Urquinaona". Final Av. El Milagro. Maracaibo, Estado Zulia, Venezuela 584162605233 sippenbauch@gmail.com.

Acknowledgement of authorship: All authors declare that we have contributed to the idea, study design, data collection, data analysis and interpretation, critical review of the intellectual content, and final approval of the manuscript we are submitting.

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