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Acta Obstétrica e Ginecológica Portuguesa

versión impresa ISSN 1646-5830

Acta Obstet Ginecol Port vol.14 no.2 Coimbra jun. 2020

 

CASE REPORT/CASO CLÍNICO

Spontaneous rupture of splenic artery aneurysm during a multiple pregnancy

Rotura espontânea de aneurisma da artéria esplênica durante uma gravidez múltipla

Catarina Peixinho1, Mafalda Laranjo1, Marta Rodrigues2, Fátima Soares2, Joaquim Silva Mendes3

Hospital Pedro Hispano

1 Interna de Ginecologia e Obstetrícia

2 Assistente Hospitalar, Ginecologia e Obstetrícia

3 Assistente Hospitalar, Cirurgia Geral

Endereço para correspondência | Dirección para correspondencia | Correspondence


 

ABSTRACT

We report a rare case of a 39-year-old woman, twin pregnancy with 32 weeks’ gestation, who underwent an emergency caesarean section and subsequent exploratory laparotomy with splenectomy due to hypovolemic shock secondary to splenic artery aneurysm rupture. The patient was admitted for observation due to suspicion of threatened preterm labour. The final diagnosis was not considered due to its rarity. The postoperative course was favourable for the mother, the newborns died. Spontaneous rupture of splenic artery aneurysm during pregnancy is a life-threatening event. This condition is commonly asymptomatic, and diagnosis is often incidental: during an ultrasound, intraoperatively or at autopsy.

Keywords: Rupture; Splenic artery aneurysm; Pregnancy


 

Corson first described the association of splenic artery aneurysm (SAA) with maternal death in 1869, when he documented the sudden and unexpected death of a 29-year-old multigravida at eight months’ gestation. The diagnosis was made following post-mortem examination1. Since then, SAA has been identified as a rare condition associated with significant maternal and foetal mortality, with rates as high as 75% and 95% respectively2. The patient may present without symptoms or with abdominal pain, a frequent symptom in pregnancy which can mimic other more common pregnancy conditions3. The condition is commonly asymptomatic and as a result, SAA diagnosis is often incidental: at the time of ultrasound examination, intraoperatively during an emergency c-section or at autopsy1. Surgical intervention pre-rupture is rare; most reports describe the identification of the aneurysm post-rupture2.

We report a case of maternal collapse in a twin pregnancy due to spontaneous rupture of a SAA at 32 weeks’ gestation.

Case Report

A 39-year-old Caucasian woman presented at the Gynaecology and Obstetrics emergency department at 32 weeks’ gestation. It had been an uneventful dichorionic diamniotic twin pregnancy. The patient presented with moderate abdominal pain, mainly on the left side. There was no previous trauma history or other additional symptoms. On physical examination, the patient was conscious and oriented. Both skin and mucosa were of normal colouration; vital signs were within normal range: blood pressure 125/70 mmHg, heartbeat 73 bpm, body temperature 36.4ºC. Abdominal palpation revealed subtle abdominal pain on the left side, with no guarding or rebound tenderness. At gynaecological examination a white discharge was present with no evidence of previous or active loss of amniotic fluid; the cervix was soft, 30% effaced and closed. Transvaginal ultrasound showed a 22 mm length cervix without funnelling. At transabdominal ultrasound scan both foetuses were cephalic, with normal foetal heart rate and movements, amniotic fluid volume was normal, with no apparent retroplacental hematomas. Cardiotocography was normal by FIGO classification, with irregular uterine contractions.

Blood tests were performed and revealed haemoglobin 9.8g/dL, leucocytes 13.99/ µL, C-reactive protein 7.5 mg/L, and normal renal and hepatic functions.

Paracetamol and tramadol were administered for initial pain management. This improved but did not completely resolve symptoms, so the patient was admitted to the Maternal Unit for observation, due to suspicion of threatened preterm labour. Dexamethasone for lung maturity was iniated.

The night was uneventful, and the patient reported a slight improvement when she woke.

Vital signs remained within normal range: blood pressure 106/68 mmHg, heartbeat 71 bpm, body temperature 36.6ºC.

Cardiotocography was repeated, which again registered a normal foetal trace, without uterine contractility.

The patient went to the bathroom and after a few minutes was found unconscious and covered in vomit. Skin and mucosa were pale, and she was hypotensive (70/40 mmHg), tachycardic (130 bpm) and O2 saturation was 95%. Consciousness returned in response to pain stimulus. The internal emergency team was activated. It was very difficult to remove the patient from the bathroom but we had transferred her into the labour ward within about seven minutes from finding her unconscious. On physical exam the abdomen was soft and the uterus was not tender. Gynaecologic examination was similar to the initial evaluation with no vaginal bleeding (excluding active labour and possible placental abruption). An abdominal ultrasound scan revealed both foetuses with normal foetal heart rate and intra-abdominal free fluid. Arterial blood gas (ABG) test showed a high level of lactate 13.60 mmol/L and blood sample investigation revealed a haemoglobin drop from 9.8g/mL to 6.2 g/dL, thrombocytopenia (85.000/uL), prolonged partial thromboplastin time (67.5 seconds), low fibrinogen (1.65 g/L). Maternal stabilization was initiated with fluid therapy and oxygen supplementation. The patient’s condition deteriorated rapidly, with blood pressure of 40/20 mmHg, so the patient was immediately transported to the operating room. An emergency C-section under general anaesthesia was performed approximately fifteen minutes after she was initially found unconscious.

Entering the peritoneal cavity with the uterus still intact, about 2L of fresh blood and blood clots were seen. A lower segment uterine incision was performed and both newborns were delivered with no signs of placental abruption. Umbilical cord blood samples were not collected due to maternal haemodynamic instability. Hysterorrhaphy was performed and after that the abdominal cavity was reviewed with collaboration from general surgery. A midline vertical incision extending to the xiphoid was made to allow for better access. There was peripancreatic haematoma and bleeding stemming from the splenic artery and after proper dissection, SAA rupture was confirmed as the cause of massive bleeding. Proximal ligation with aneurysmectomy and splenectomy were performed, but haemostasis was very difficult due to disseminated intravascular coagulation (DIC). General surgery decided to use abdominal packing to control the bleeding and the abdomen was closed. Intraoperatively, ABG test revealed haemoglobin levels of 3g/dL and the patient received 7 units of packed red blood cells, 5L of crystalloids, 6 units of fresh frozen plasma and 2g of fibrinogen. The patient was transferred to the Intensive Care Unit (ICU) with multiorgan dysfunction. Forty-eight hours after C-section, a new laparotomy was performed to remove the packing and review haemostasis status. The patient remained in ICU for 9 days, followed by 7 days in the surgery unit. She was discharged home in stable condition on day 16.

Regarding the newborns, two live preterm infants were delivered: the first delivered weighing 1920g (appropriated for gestational age-AGA), Apgar Score of 2/6/6 and the second weighing 1939g (AGA), Apgar Score of 6/7/8. The first one was immediately intubated, and the second was initially admitted to the Neonatal Intensive Care Unit (NICU) on spontaneous ventilation. Their clinical condition deteriorated in the first two hours of life. The second infant was also put on mechanical ventilation. Both infants required inotropic support and bicarbonate perfusion concerning to severe metabolic acidosis. Neurological deterioration was also seen, with both presenting mydriasis and bilateral clonic-tonic movements of arms and hands (only subsided after more than two doses of anticonvulsant treatment). Serial transfontanelar ultrasound revealed progressive worsening of diffuse hyperechogenicity from the first 24 hours to 72 hours of life. The infants died 72 hours after birth with multiorgan failure and also with a diagnosis oh hypoxic-ischaemic encephalopathy, based on clinical, analytical and imagiological findings.

Final pathology revealed a 173g spleen measuring 11.5 × 6.3 × 5.4 cm with a splenic artery aneurysm and medial artery fibrodysplasia.

Discussion

Splenic artery aneurysm occurs in approximately 0.1% of all adults. It is more common in women between 5th and 6th decades of life (mean age 52 years old)4,5. It is estimated that 6% to 10% of SAA will rupture and 25% to 40% of those ruptures will occur during pregnancy, especially during the 3rd trimester or labor1. SAA rupture is a catastrophic event, usually presented as sudden hypovolemic shock or death. The condition is associated with significant maternal and foetal mortality of around 70% and 95%, respectively1,3. Although the precise aetiology of SAA remains unclear, risk factors include fibromuscular dysplasia, collagen vascular diseases, atherosclerosis, pancreatic and liver diseases, multiple pregnancies, hormonal and local haemodynamic events in pregnancy and portal hypertension6. The mechanisms involved in the formation of this vascular defect are not fully understood. Haemodynamic and hormonal shifts in late stages of pregnancy (oestrogen, progesterone and relaxin) may contribute to increased blood pressure and splenic artery flow, weakening the arterial wall resulting in aneurysmal dilatation1,7. In this case, the patient had multiple risk factors: twin pregnancy, 3rd trimester and fibromuscular dysplasia which was diagnosed upon histologic examination.

SAA is generally asymptomatic but may present as abdominal left upper quadrant/epigastric pain. Diagnosis is usually made by means of radiological methods8. Clinical presentation of SAA rupture is often a constellation of non-specific symptoms and signs such as acute epigastric pain, hypotension, and anaemia. In 25% of cases there is a two-stage rupture: initial rupture occurs into the lesser sac or splenic pedicle, resulting in a tamponade of initial bleeding. Then, after a variable time (6-96 hours) a secondary rupture occurs with exsanguination into the abdominal cavity and patient collapse2,9,10. The initial rupture may provide vital time for diagnosis and preparation for intervention but when rupture of both sacs cause haemorrhaging in the peritoneal cavity the development of symptoms are fast6.

In pregnancy, abdominal pain is a frequent symptom, especially in the third trimester and can be a sign of threatened preterm labour when uterine contractility associated with shortened cervix is observed. Besides that, abdominal/epigastric pain associated with hypotension, and anaemia can mimic hypovolemic shock caused by placental abruption or uterine rupture6,11.

We received a twin pregnancy at the emergency room with left abdominal pain. At the vaginal ultrasound, a 22 mm-long cervix was observed and contractions were recorded in cardiotocography. This clinical presentation, which was interpreted as a possible threatened preterm labour and led to patient admission, was a possible manifestation of the initial rupture into the lesser sac or splenic pedicle, which result in a temporary tamponade. The secondary rupture corresponded with the patient’s collapse. SAA, being such a rare diagnosis, was not considered in this situation, and a possible opportunity to intervene was lost.

In symptomatic SAA rupture during pregnancy, the aim is immediate resuscitation via a caesarean laparotomy and splenectomy or splenopancreatectomy and ligation of the splenic artery. Urgent surgical treatment for haemorrhage control is the priority, together with the fluid replacement12,13. The surgical technique usually depends on the location of the SAA (80% located in the distal portion of the splenic artery)14. Since SAA rupture is a catastrophic event, the question is: “could we prevent the high rates of morbimortality associated with SAA in pregnancy?”. McMahon DP et al performed a review to ascertain the possible benefit of screening pregnant women for SAA, in which the authors concluded that routine screening during pregnancy is not warranted due to the rarity of the condition, but that the identification of those at greater risk of harbouring an asymptomatic SAA, along with the early institution of treatment may prevent maternal and foetal mortality15. They continued to specify that further studies are needed to determine which high-risk population would benefit the most from screening and if demanding screening tools such as splenic artery duplex ultrasound would be sensitive enough to diagnose an asymptomatic SAA15. This patient is a very rare example of a potential cause of a persistent abdominal pain.

Maternal collapse is uncommon in pregnancy but requires a prompt and organized response from all health care professionals involved in patient management to achieve the best outcome possible16. Due to the rarity of these events in a Maternal Units, implementation of continuous training with simulations, other exercises and the formation of rapid-response teams is key. Knowledge regarding differential diagnosis to the most common causes of maternal collapse, such as rupture of SAA, is crucial as the collaboration from other specialities may be necessary and without clinical suspicion their inclusion on the case may be delayed17,18.

 

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Endereço para correspondência | Dirección para correspondencia | Correspondence

Catarina Peixinho

Hospital Pedro Hispano

E-mail: catarina.peixinho1989@gmail.com

 

Conflicts of interest: none

Hospital’s ethics approval: confirmed

Patient Consent: confirmed

 

Recebido em: 25/11/2019. Aceite para publicação: 01/05/2020

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