Trauma during pregnancy

Algorithm of Traumatic Brain Injury in Pregnancy (Perspective on Neurosurgery)

BACKGROUND

The maternal deaths due to obstetrical cases declined, but the maternal deaths that caused by nonobstetrical cases still increase. The study reported that traumatic cases in pregnancy are the highest causes of mortality in pregnancy (nonobstetrical cases) in the United States. Another study reported that 1 in 12 pregnant women that experienced traumatic accident and as many as 9.1% of the trauma cases were caused by traumatic brain injury (TBI). The female sex hormone has an important role that regulates the hemodynamic condition. Anatomical and physiological changes during pregnancy make the examination, diagnosis, and treatment of TBI different from non-pregnant cases. Therefore, it is very important to lead the algorithm for each institution based on their own resources.

CASE SERIES

A 37-year-old woman with a history of loss of consciousness after traffic accident. She rode a motorbike then hit the car. She was referred at 18 weeks' gestation. Glasgow Coma Scale (GCS) E1V1M4, isochoric of the pupil, reactive to the light reflex, and right-sided hemiparesis. The non-contrast head computed tomography (CT) scan revealed subdural hematoma (SDH) in the left frontal-temporal-parietal region, SDH of the tentorial region, burst lobe intracerebral hemorrhage, and cerebral edema. There was not a fetal distress condition. The next case, a 31 years old woman, in 26 weeks gestation, had a history of unconscious after motorcycle accident then she fell from the height down to the field about 3 m. GCS E1V1M3, isochoric of the pupil, but the pupil reflex decreased. Noncontrast CT scan revealed multiple contusion, subarachnoid hemorrhage, and cerebral edema. She had a good fetal condition.

DISCUSSION

We proposed the algorithm of TBI in pregnancy that we already used in our hospital. The main principle of the initial management must be resuscitating the mother and that also the maternal resuscitation. The primary and secondary survey is always prominent of the initial treatment.

CONCLUSION

The clinical decision depends on the condition of the fetal, the surgical lesion of the intracranial, and also the resources of the neonatal intensive care unit in our hospital.

The unborn fetus: The unrecognized victim of trauma during pregnancy

BACKGROUND

Trauma is the leading cause of non-obstetric death in pregnancy. While maternal management is defined, few studies have examined the effects on the fetus.

METHODS

Following IRB approval, all pregnant females (2010-2017) at a level-1 trauma center were retrospectively reviewed. Maternal and fetal demographics, interventions, and clinical outcomes were analyzed.

RESULTS

There were 188 pregnancies in 5654 females. Maternal demographics were 26 ± 7 years old, gestational age at trauma 21 ± 12 weeks, 81% blunt mechanism, and maternal mortality 6%. Forty-one (22%) fetuses were immediately affected by the trauma including 20 (11%) born alive, 12 (7%) fetal demise, and 9 (5%) stillbirths. Of those that initially survived (n = 20), 5 (25%) expired during neonatal hospitalization. Two mothers returned immediately after trauma discharge with stillbirths for an overall infant mortality of 14% (n = 26). There were 84 patients with complete data to delivery including the 41 born at trauma and 43 born on a subsequent hospitalization. Those born at the time of trauma had significantly more delivery/neonatal complications and worse outcomes. Overall trauma burden to the fetus (preterm delivery, stillbirth, delivery/neonatal complication, or long-term disability) was 66% (56/84).

CONCLUSIONS

Trauma during pregnancy has significant immediate mortality and delayed effects on the unborn fetus. This study has uncovered a previously hidden burden and mortality of trauma during pregnancy.

LEVEL OF EVIDENCE

Level III.

The impact of minor trauma on pregnancy

Purpose

To determine the impact of a single episode of minor trauma during pregnancy on maternal and fetal outcomes.

Methods

This is a retrospective cohort study of pregnant women who experienced minor trauma at ≥24 weeks gestation between 2004 and 2014. The subjects who experienced minor trauma (minor trauma group) were matched by gestational age at the time of minor trauma, body mass index, and age to a cohort of women who did not experience trauma in pregnancy (control group). The primary obstetrical outcome was preterm delivery and the primary neonatal outcomes were APGAR scores and neonatal intensive care unit admission.

Results

There were no significant differences between the two groups with respect to demographics or other risk factors for preterm delivery. Average gestational age at the time of delivery was 39 weeks regardless of whether a woman experienced minor trauma. Preterm delivery occurred more often in the control group (11.8% versus 7.9%, p = 0.0428) as did the rate of neonatal intensive care unit admissions (8.6% versus 5%, p = 0.0273). A subgroup analysis was performed excluding patients with a medically indicated delivery and there was no difference in the rate of preterm delivery (6.4% in the control group, 4% in the minor trauma group, p-value 0.9052). Among women with a spontaneous preterm delivery, the rates of preterm labor (3.0% control versus 2.0% minor trauma, p-value 0.75) and preterm premature rupture of membranes were found to be similar between the two groups (3.8% control versus 2.0% minor trauma PPROM, p-value 0.75).

Conclusions

One episode of minor trauma in pregnancy does not increase the risk for preterm delivery, premature rupture of membranes, or poor neonatal outcomes.

Guidelines for the Management of a Pregnant Trauma Patient

OBJECTIVE

Physical trauma affects 1 in 12 pregnant women and has a major impact on maternal mortality and morbidity and on pregnancy outcome. A multidisciplinary approach is warranted to optimize outcome for both the mother and her fetus. The aim of this document is to provide the obstetric care provider with an evidence-based systematic approach to the pregnant trauma patient.

OUTCOMES

Significant health and economic outcomes considered in comparing alternative practices.

EVIDENCE

Published literature was retrieved through searches of Medline, CINAHL, and The Cochrane Library from October 2007 to September 2013 using appropriate controlled vocabulary (e.g., pregnancy, Cesarean section, hypotension, domestic violence, shock) and key words (e.g., trauma, perimortem Cesarean, Kleihauer-Betke, supine hypotension, electrical shock). Results were restricted to systematic reviews, randomized control trials/controlled clinical trials, and observational studies published in English between January 1968 and September 2013. Searches were updated on a regular basis and incorporated in the guideline to February 2014. Grey (unpublished) literature was identified through searching the websites of health technology assessment and health technology-related agencies, clinical practice guideline collections, clinical trial registries, and national and international medical specialty societies.

VALUES

The quality of evidence in this document was rated using the criteria described in the Report of the Canadian Task Force on Preventive Health Care (Table 1).

BENEFITS, HARMS, AND COSTS

This guideline is expected to facilitate optimal and uniform care for pregnancies complicated by trauma. Summary Statement Specific traumatic injuries At this time, there is insufficient evidence to support the practice of disabling air bags for pregnant women. (III) Recommendations Primary survey 1. Every female of reproductive age with significant injuries should be considered pregnant until proven otherwise by a definitive pregnancy test or ultrasound scan. (III-C) 2. A nasogastric tube should be inserted in a semiconscious or unconscious injured pregnant woman to prevent aspiration of acidic gastric content. (III-C) 3. Oxygen supplementation should be given to maintain maternal oxygen saturation > 95% to ensure adequate fetal oxygenation. (II-1B) 4. If needed, a thoracostomy tube should be inserted in an injured pregnant woman 1 or 2 intercostal spaces higher than usual. (III-C) 5. Two large bore (14 to 16 gauge) intravenous lines should be placed in a seriously injured pregnant woman. (III-C) 6. Because of their adverse effect on uteroplacental perfusion, vasopressors in pregnant women should be used only for intractable hypotension that is unresponsive to fluid resuscitation. (II-3B) 7. After mid-pregnancy, the gravid uterus should be moved off the inferior vena cava to increase venous return and cardiac output in the acutely injured pregnant woman. This may be achieved by manual displacement of the uterus or left lateral tilt. Care should be taken to secure the spinal cord when using left lateral tilt. (II-1B) 8. To avoid rhesus D (Rh) alloimmunization in Rh-negative mothers, O-negative blood should be transfused when needed until cross-matched blood becomes available. (I-A) 9. The abdominal portion of military anti-shock trousers should not be inflated on a pregnant woman because this may reduce placental perfusion. (II-3B) Transfer to health care facility 10. Transfer or transport to a maternity facility (triage of a labour and delivery unit) is advocated when injuries are neither life- nor limb-threatening and the fetus is viable (≥ 23 weeks), and to the emergency room when the fetus is under 23 weeks' gestational age or considered to be non-viable. When the injury is major, the patient should be transferred or transported to the trauma unit or emergency room, regardless of gestational age. (III-B) 11. When the severity of injury is undetermined or when the gestational age is uncertain, the patient should be evaluated in the trauma unit or emergency room to rule out major injuries. (III-C) Evaluation of a pregnant trauma patient in the emergency room 12. In cases of major trauma, the assessment, stabilization, and care of the pregnant women is the first priority; then, if the fetus is viable (≥ 23 weeks), fetal heart rate auscultation and fetal monitoring can be initiated and an obstetrical consultation obtained as soon as feasible. (II-3B) 13. In pregnant women with a viable fetus (≥ 23 weeks) and suspected uterine contractions, placental abruption, or traumatic uterine rupture, urgent obstetrical consultation is recommended. (II-3B) 14. In cases of vaginal bleeding at or after 23 weeks, speculum or digital vaginal examination should be deferred until placenta previa is excluded by a prior or current ultrasound scan. (III-C) Adjunctive tests for maternal assessment 15. Radiographic studies indicated for maternal evaluation including abdominal computed tomography should not be deferred or delayed due to concerns regarding fetal exposure to radiation. (II-2B) 16. Use of gadolinium-based contrast agents can be considered when maternal benefit outweighs potential fetal risks. (III-C) 17. In addition to the routine blood tests, a pregnant trauma patient should have a coagulation panel including fibrinogen. (III-C) 18. Focused abdominal sonography for trauma should be considered for detection of intraperitoneal bleeding in pregnant trauma patients. (II-3B) 19. Abdominal computed tomography may be considered as an alternative to diagnostic peritoneal lavage or open lavage when intra-abdominal bleeding is suspected. (III-C) Fetal assessment 20. All pregnant trauma patients with a viable pregnancy (≥ 23 weeks) should undergo electronic fetal monitoring for at least 4 hours. (II-3B) 21. Pregnant trauma patients (≥ 23 weeks) with adverse factors including uterine tenderness, significant abdominal pain, vaginal bleeding, sustained contractions (> 1/10 min), rupture of the membranes, atypical or abnormal fetal heart rate pattern, high risk mechanism of injury, or serum fibrinogen < 200 mg/dL should be admitted for observation for 24 hours. (III-B) 22. Anti-D immunoglobulin should be given to all rhesus D-negative pregnant trauma patients. (III-B) 23. In Rh-negative pregnant trauma patients, quantification of maternal-fetal hemorrhage by tests such as Kleihauer-Betke should be done to determine the need for additional doses of anti-D immunoglobulin. (III-B) 24. An urgent obstetrical ultrasound scan should be undertaken when the gestational age is undetermined and need for delivery is anticipated. (III-C) 25. All pregnant trauma patients with a viable pregnancy who are admitted for fetal monitoring for greater than 4 hours should have an obstetrical ultrasound prior to discharge from hospital. (III-C) 26. Fetal well-being should be carefully documented in cases involving violence, especially for legal purposes. (III-C) Obstetrical complications of trauma 27. Management of suspected placental abruption should not be delayed pending confirmation by ultrasonography as ultrasound is not a sensitive tool for its diagnosis. (II-3D) Specific traumatic injuries 28. Tetanus vaccination is safe in pregnancy and should be given when indicated. (II-3B) 29. Every woman who sustains trauma should be questioned specifically about domestic or intimate partner violence. (II-3B) 30. During prenatal visits, the caregiver should emphasize the importance of wearing seatbelts properly at all times. (II-2B) Perimortem Caesarean section 31. A Caesarean section should be performed for viable pregnancies (≥ 23 weeks) no later than 4 minutes (when possible) following maternal cardiac arrest to aid with maternal resuscitation and fetal salvage. (III-B).

Blunt abdominal trauma to a pregnant woman resulting in a child with hemiplegic spastic cerebral palsy and permanent eye damage

Background

In today's life trauma is a common and important complication of pregnancy and remains one of the major contributors to maternal and fetal morbidity and mortality.

Case presentation

The authors reported a case of 4 years old child with hemiplegic spastic cerebral palsy and permanent left eye damage due to antenatal trauma. He was an off spring to a 33 years old woman gravida 6 para 5 from western Sudan, who sustained a domestic blunt abdominal trauma during her routine daily activities. The abdominal trauma occurred during the third trimester at 36^th week gestation of the pregnancy when the mother hit herself by the woody part of an axe non intentionally.

Conclusions

The findings from this case conclude that relatively minor trauma can have significant adverse effects on the fetus and can be devastating.

Motor vehicle safety during pregnancy

Motor vehicle crashes during pregnancy are the leading cause of traumatic fetal mortality and serious maternal injury morbidity and mortality in the United States, injuring approximately 92,500 pregnant women each year. Little is known about the circumstances surrounding these crash events and the maternal characteristics that may increase women's vulnerability to crash-related injuries during pregnancy. Even less is known about the effects of crashes on fetal outcomes. Crash simulation studies using female anthropomorphic test devices and computational models have been conducted to better understand the mechanisms of maternal and fetal injuries and death resulting from motor vehicle crashes. In addition, several case reports describing maternal and fetal outcomes following crashes have been published in the literature. Only a few population-based studies have explored the association between motor vehicle crashes and adverse maternal and/or fetal outcomes and even fewer have examined the effectiveness of seat belts and/or airbags in reducing the risk of these outcomes. This paper reviews what is presently known about motor vehicle crashes during pregnancy, their effects on maternal and fetal outcomes, and the role of vehicle safety devices and other safety approaches in mitigating the occurrence and severity of maternal crashes and subsequent injuries. In addition, this paper suggests interventions targeted towards the prevention of crashes during pregnancy.

Trauma care and managing the injured pregnant patient

Trauma is the leading cause of maternal death in the United States. Nurses must optimize the well-being of 2 patients in the pregnant trauma patient. Rapid assessment, initiating immediate interventions for life-threatening injuries, and transport to a trauma center are critical to optimize maternal and fetal outcome. Understanding these factors can facilitate an effective resuscitation and optimize the outcome for both mother and baby.

Trauma in pregnancy

Although serious trauma during pregnancy is uncommon, it remains a major cause of maternal and fetal death and presents a variety of patient care challenges. The anatomic and physiologic changes of pregnancy can affect both the nature of an injury and the body's response to it. Here, the author describes the mechanisms of traumatic injury during pregnancy, discusses the normal changes of pregnancy and their implications in the care of pregnant trauma patients, and offers strategies for assessment and treatment.

Trauma in the obstetrical patient

Trauma complicates approximately 6-7% of all pregnancies and is associated with significant maternal and fetal morbidity and mortality. While the majority of trauma is minor, it is minor trauma that contributes to the majority of fetal mortality. Since virtually every organ system is affected anatomically and physiologically by pregnancy, it is important for healthcare providers who care for trauma victims to be aware of these changes. While assessment and resuscitation considers the existence of two patients, stabilization of the mother takes priority. Diagnostic and radiologic procedures should be used as indicated, with fetal exposure to radiation limited as much as possible. Management of the pregnant trauma victim requires a multidisciplinary approach in order to optimize outcome for mother and fetus. This review discusses the epidemiology, assessment and treatment of pregnant trauma patients and reviews areas where prevention efforts may be focused.

The epidemiology of pregnancy-associated emergency department injury visits and their impact on birth outcomes

OBJECTIVE

Describe the demographics, injury types, mechanisms, and intents of emergency department (ED) injury visits by pregnant women and to quantify their risk of adverse birth outcomes.

METHODS

Through a retrospective cohort study design, Utah ED, birth, and fetal death records were probabilistically linked to identify women seen in an ED with an injury during pregnancy among births and fetal deaths from 1999 to 2002. Logistic regression was used to assess the effect of having an injury-related ED visit on various adverse pregnancy outcomes.

RESULTS

7350 (3.9%) women experienced an injury-related ED visit during pregnancy. Motor vehicle occupant injuries were the leading mechanism of ED injury visits (22.4%). Controlling for known risks, pregnant women with an injury-related ED visit were more likely than non-injured pregnant women to experience preterm labor (OR=1.22, 95% CI=1.12-1.34), placental abruption (OR=1.33, 95% CI=1.08-1.65), and cesarean delivery (OR=1.27, 95% CI=1.19-1.36). Infants born to women who were injured during pregnancy were more likely to be born preterm (OR=1.23, 95% CI=1.12-1.34) and have low birth weight (OR=1.22, 95% CI=1.1-1.35).

CONCLUSIONS

Most injured pregnant women are treated and released from the ED; however, significant increased risks remain for several maternal complications and birth outcomes.

The pregnant trauma patient in the intensive care unit: collaborative care to ensure safety and prevent injury

The pregnant woman who has experienced trauma will need to be transferred to an appropriate setting once she is stabilized. Nursing has evolved into many specialty areas with specific sets of skills developed to care for women in these areas. The trauma team and the intensive care unit team will most likely be uncomfortable with the pregnant woman. The perinatal team may be uncomfortable with the injuries or illness that brought the woman to the trauma unit. Together the combined knowledge of all teams can provide for safe care of the woman and fetus and prevent injury occurring to them. Collaborative care is part of the overall plan of care, which follows a formal plan already established by the leadership teams of the 2 units. The purpose of this article is to review collaborative care in the intensive care unit and to provide an overview of the nursing skill sets necessary to care for the pregnant trauma woman.