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A 32 yo woman involved in a trauma

CASE- Try the Quiz

A 32 year old woman is brought into the emergency department by ambulance, following a high speed motor vehicle accident. She has sustained a head injury, with a small scalp laceration and has right lateral chest wall tenderness to palpation. There is an obvious tibial abnormality.......Oh... and she's 24 weeks pregnant.
We need to remember that all female patients of child bearing age, should be considered to be pregnant unless proven otherwise. Investigation should be with a urine pregnancy test or blood beta hCG. History alone is not reliable in determining pregnancy.
​Why is this important? See what you think below.
what is the rate of incidental pregnancy presenting to the emergency department?
(a) 3%
(b) 7%
(c) 11%
(d) 24%
(e) 35%
ANSWER
(c) 

This patient needs to be assessed in the same way as a non-pregnant patient would be. However the details of some of the assessment and management will change depending on the gestational age. One of the first questions we need to ask is.. Is the fetus viable?
match the survival with the gestational age
Gestational Age:
24 weeks
25 weeks
​26 weeks
Survival: Up to
5%
15%
25%
35%
70%
​90%
ANSWER
24 weeks: Up to 35%
25 weeks: Up to 70%
​26 weeks: Up to 90%

Airway/Breathing

Which of the following is incorrect in respect to the obstetric patieNt's airway and breathing?
(a) The maternal respiratory tract become oedematous
(b) Failed intubations are 8 times more likely
(c) There is a decrease in functional residual capacity
(d) There is decreased desaturation due to decreased basal oxygen consumption
(e) There is delayed gastric emptying
answer
(d)
read more on airway
There are some important points in respect to airway and breathing in the obstetric patient.
The foetus is very sensitive to hypoxia and it is imperative to maintain saturations at >95%
In many cases, securing the airway in the pregnant trauma patient early, is important.
​Some key facts about airway and breathing that will affect the management of these patients.
  1. The foetus is very sensitive to hypoxia, so adequate oxygenation is paramount ie saturations should be kept at > 95%.
  2. The maternal respiratory tract becomes oedematous
  3. There is a decrease in the functional residual capacity.
    • This begins in the second trimester and can be as much as 20%
  4. There is an increase in oxygen requirements, with an increase in basal oxygen consumption.
  5. Failed intubations are 8 times more likely(2)
    • Use a smaller tube size
    • Intubate early
  6. There is an increased risk of regurgitation ( consider placing a NGT)
    • There is delayed gastric emptying
    • There is compression of the upper GIT
  7. If a chest tube is needed aim to insert 1-2 intercostal spaces higher(3)
    • The diaphragm rises by approximately 4cm
    • The chest diameter increases
    • This all results in an increased substernal angle

Circulation

which Of these changes in the obstetric trauma patient  is true?
(a) The maternal heart rate can increase by 30%
(b) Tachycardia and hypotension may not appear early
(c) Vena Cava compression can decrease cardiac output by 70%
(d) In contrast to the non-obstetric trauma patient, pressors should be given early in obstetric trauma.
(e) The best way to monitor the fetus is to see what the mother's vitals are doing.
answer
(b)
Fluid and blood should be given as for any other trauma patient.
If the patient is >22 weeks gestation( you may need to decide the exact gestational age, in your institution), initiate fetal heart rate monitoring as early as possible. This should be cardiotocography (CTG), so that uterine contractions and fetal heart rate can be monitored.
READ More on circulation
Specific things to consider in the obstetric trauma patient:
  1. The heart rate increases by about 15% in pregnancy
  2. There is an increase in blood volume in pregnancy, so tachycardia and hypotension may not appear early(4)
  3. Vena cava compression can decrease cardiac output by 30%(5). Therefore, from mid-pregnancy onwards, tilt the patient, usually right side up, or place a wedge under the spinal board, or manually displace the uterus..
  4. Administration of vasopressors in trauma is controversial and an area of great interest at present, in the general trauma literature. In the obstetric trauma patient, pressors should be given as an absolute last resort, because placental perfusion can be detrimentally affected, secondary to utero-placental vasculature being very sensitive to pressor effects(6).
  5. Fetal heart rate monitoring is important, as maternal vital signs may be preserved, whilst utero-placental perfusion is impaired(7). Fetal heart rate monitoring can help us detect and act on fatal hypoxaemic injury early.
in terms of CTG monitoring, which is correct?
(a) Fetal heart rate monitoring should occur for a minimum for 1 hour.
(b) A minimum of 4 hours is needed for minor trauma
(c) Significant trauma requires 24 -48 hours of CTG monitoring
​(d) Uterine contractions on CTG, occur in 80% of trauma
(e) Loss of variability in fetal heart rate monitoring shows a perfused fetus
answer
(b)
read more on fetal heart rate monitoring
Fetal Heart Rate Monitoring: How long to monitor for.
This is a controversial area. It is agreed that a minimum of 4 hours of CTG monitoring is needed. This may be sufficient for minor trauma such as falls(8,9), where it has been found that at 4 hours, if uterine contractions have ceased, especially after minor injury then the patient can be taken off monitoring. For more significant trauma, 24 – 48 hours of monitoring is needed(10).

Fatal Heart Rate Monitoring: What are we looking for?

​CTG monitoring gives us information on:
  1. Uterine Activity(contractions)
    • These are a common finding, occurring in about 40% of trauma cases. Most resolve with no adverse fetal effects.
    • The basal uterine tone and the frequency and intensity of contractions is important
  2. Fetal Heart Rate
    • Compromised fetal perfusion and oxygenation presents with abnormal fetal heart rate(11)
    • The absolute rate is important ie both bradycardia or tachycardias
    • Deceleration patterns are also important as is
    • Loss of variability.
Blood Products in pregnancy
When giving blood products, give O-ve blood, to avoid Rh sensitisation in the Rh -ve patient.
Fetal-maternal haemorrhage occurs in about 30% of pregnant trauma patients. It is rarely massive, but when it is, there is a high rate of fetal mortality(12). Most fetal-maternal haemorrhage is small and subclinical, as only 0.001mL of fetal blood is needed for sensitisation of a Rh -ve mother.
Anti-D IgG should be given to all Rh-ve mothers, within the first 72 hours(13).
list 3 things that might make you suspicious for placental abruption?
answer
  • Tenderness over the uterus
  • Vaginal bleeding
  • Pre-term labour.
  • Most placental abruptions occur in the first few hours after injury and almost all within the first 24 hours.
  • They may occur following relatively minor injury and are the most common cause of fetal death in blunt trauma.
  • When severe, rapid caesarean section is necessary.
read more on blunt trauma
The traditional physical examination of the abdomen, may not help in ruling out suspected abdominal injury(14). However, any tenderness over the uterus, may suggest placental abruption. It can also be associated with vaginal bleeding and pre-term labour. Most placental abruptions occur in the first few hours after injury and almost all within the first 24 hours.(15,16). They may occur following relatively minor injury and are the most common cause of fetal death in blunt trauma. When severe, rapid caesarean section is necessary.
If there is vaginal bleeding in obstetric trauma with a viable fetus, no speculum or vaginal examination should be performed without prior ultrasound, as we need to rule out a placenta previa.
Ultrasound is very sensitive at detecting placenta previa, but not as good in detecting placental abruption. CTG is the investigation of choice for detecting abruption.
Beware physical irregularities in the abdomen, as these may represent fetal parts outside the uterus in a uterine rupture. Uterine rupture is rare in trauma and presents as an irregular uterine contour, abdominal distension and maternal shock. Fetal mortality is 100%.
Direct fetal injury is rare in blunt trauma, occurring in <1% of cases. It can occur in deceleration injury, but tends to be in the form of fetal skull fracture secondary to maternal pelvic fracture(17).
in terms of falls in the obstetric patient, which is true?
(a) They are associated with significant maternal or fetal complications in less than 10% of cases.
(b) Placental abruption does not occur
(c) Placental rupture does not occur
(d) Preterm labour does not occur
(e) Fetal mortality is 0%

answer
(a)
in terms of laboratory investigations which is true?
(a) The white cell count is lowered.
​(b) D-dimer is often falsely negative in pregnancy
(c) CO2 is usually increased in pregnancy 
(d) Creatinine levels increase in pregnancy
(e) ALP is secreted by the placenta, so levels may be twice as high.
answer
(e)
read more on sources of trauma
PENETRATING TRAUMA
After mid-pregnancy, the rate of mortality and visceral injury is lower in the obstetric patient than in the general population, due to the cushioning effect of the uterus.

SOURCES OF TRAUMA

MOTOR VEHICLE ACCIDENTS
Injuries here, will depend on the mechanism involved. Deceleration injuries can cause direct fetal trauma.

The protective devices used in vehicles, can also be a source of injury:
  1. Seat belts worn incorrectly ie over the abdomen, can cause direct abdominal injury
  2. Air bags have been associated with uterine rupture and placental abruption.
FALLS
​Falls occur quite commonly. They are associated with significant maternal or fetal complications in less than 10% of cases(18).
These patients all require fetal heart rate monitoring as the injuries that can occur include:
  • placental abruption
  • placental rupture
  • preterm labour
  • fetal mortality
ELECTRICAL INJURIES
This is not an uncommon injury. The literature reports a high fetal mortality, mostly because amniotic fluid is a good conductor(19). The risk factors for adverse outcomes include:
  1. Magnitude of the current
  2. Pathway of the current: Beware a vertical current path ie., hand to foot as this will pass through the uterus.
INVESTIGATIONS: LABORATORY
There are a few differences in the laboratory results involved in pregnancy
  • The white cell count is elevated as a physiological response to pregnancy.
  • Fibrinogen levels are usually > 4g/L
  • D-dimer is often positive in pregnancy
  • CO2 is usually decreased in pregnancy ie 27-32mmHg
  • Creatinine levels decrease in pregnancy
  • ALP is secreted by the placenta, so levels may be twice as high.
exposure from radiation: match the radiation with the imaging
Our aim is to keep exposure to < 5 rads
​Match the radiation with the imaging modality
Imaging
CXR
CT Brain
CT Lower abdomen
Exposure in rads:
0.005 rad
0.05 rad
3 rad
9 rad
15 rad
​
answer
  • CXR 0.005 rad
  • Pelvic X-ray is approximately 0.4 rad
  • CT brain 0.05 rad,
  • CT upper abdomen  3.0 rad
  • CT lower abdomen 3.0 to 9.0 rad
  • CT abdomen 3.5 rad.
If imaging is needed, it should be done. Be sure that it is done properly, so it does not need to be repeated. There may be variation between machines and centres. The abdomen should be shielded as often as possible.
read more on imaging
IMAGING
ULTRASOUND
All maternal trauma will need an ultrasound done. It is a good investigation for determining:
  • Gestational age
  • Presence of placenta previa
  • Amniotic fluid volume
  • Fetal injury
IONIZING RADIATION
This is one of the most misunderstood and feared areas of investigations in obstetric trauma. The two areas that cause the controversy are teratogenicity and carcinogenic effects.
TERATOGENIC EFFECTS
The highest teratogenic potential is during organogenesis at 5-10 weeks gestation. At a fetal age greater than 10 weeks, large radiation doses can produce CNS and grown retardation effects.
CARCINOGENIC EFFECTS
This is a greatly disputed area. Some studies say that there is no increased risk, whilst others say there is an increased risk at < 8 weeks gestation, even with minor exposure.(20,21)
THE BOTTOM LINE ON RADIATION
Fetal exposure from routine imaging is low. Cummulative  exposure of > 5-10 rads is associated with an increased risk of fatal malformation. Exposure of < 5 rads gives an additional lifetime carcinogenic effect of <2% above the background lifetime risk of about 40%(22,23).
references

  1. Bochicchio GV, Napolitano LM, Haan J, Champion H, Scalea T. Incidental pregnancy in trauma patients. J Am Coll Surg 2001;192:566–9
  2. Ramsay G, Paglia M, Bourjeily G. When the heart stops: a review of cardiac arrest in pregnancy. J Intensive Care Med 2013;28:204–14.
  3. Tsuei BJ. Assessment of the pregnant trauma patient. Injury 2006;37(5):367–73
  4. Norwitz ER, Robinson JN. Pregnancy-induced physiologic alterations. In: Belfort MA, Saade GR, Foley MR, Phelan JP, Dildy GA, eds. Critical care obstetrics. 5th ed. Malden, MA: Wiley-Blackwell; 2010:30–52.
  5. Pearlman M, Faro S. Obstetric septic shock: a pathophysiologic basis for management. Clin Obstet Gynecol 1990;33:482–92.
  6. Sperry JL, Minei JP, Frankel HL, West MA, Harbrecht BG, Moore EE, et al. Early use of vasopressors after injury: caution before constriction. J Trauma 2008;64:9–14.
  7. Scorpio RJ, Esposito TJ, Smith LG, Gens DR. Blunt trauma during pregnancy: factors affecting fetal outcome. J Trauma 1992;32:213–6.
  8. Pearlman MD, Tintinalli JE, Lorenz RP. A prospective controlled study of outcome after trauma during pregnancy. Am J Obstet Gynecol 1990;162:1502–10.
  9. Dahmus MA, Sibai BM. Blunt abdominal trauma: are there any predictive factors for abruptio placentae or maternal-fetal distress? Am J Obstet Gynecol 1993;169:1054–9.
  10. Farmer DL, Adzick NS, Crombleholme WR, Crombleholme TM, Langaker MT, Harrison MR. Fetal trauma: relation to maternal injury. J Pediatr Surg 1990;25:711–4.
  11. Hoff WS, D’Amelio LF, Tinkoff GH, Lucke JF, Rhodes M, Diamond DL, et al. Maternal predictors of fetal demise in trauma during pregnancy. Surg Gynecol Obstet 1991;172:175–80.
  12. Hull SB, Bennett S. The pregnant trauma patient: assessment and anesthetic management. Int Anesthesiol Clin 2007;45(3):1–18.
  13. Fung Kee Fung K, Eason E, Crane J, Armson A, De La Ronde S, Farine D, et al. Prevention of Rh alloimmunization. J Obstet Gynaecol Can 2003;25:765–73.
  14. Epstein FB. Acute abdominal pain in pregnancy. Emerg Med Clin North Am 1994;12:151–65.
  15. Scorpio RJ, Esposito TJ, Smith LG, Gens DR. Blunt trauma during pregnancy: factors affecting fetal outcome. J Trauma 1992;32:213–6.
  16. Shah KH, Simons RK, Holbrook T, Fortlage D, Winchell RJ, Hoyt DB. Trauma in pregnancy: maternal and fetal outcomes. J Trauma 1998;45:83–6.
  17. Fries MH, Hankins GDV. Motor vehicle accidents associated with minimal maternal trauma but subsequent fetal demise. Ann Emerg Med 1989;18:301–4.
  18. Fort A, Harlin R. Pregnancy outcome after noncatastrophic maternal trauma during pregnancy. Obstet Gynecol 1970;35:912–5.
  19. Fatovich DM. Electric shock in pregnancy. J Emerg Med 1993;11:175–7.
  20. Ray JG, Schull MJ, Urquia ML, You JJ, Guttmann A, Vermeulen MJ. Major radiodiagnostic imaging in pregnancy and the risk of childhood malignancy: a population-based cohort study in Ontario. PLoS Med 2010;7:e1000337.
  21. Donnelly EH, Smith JM, Farfán EB, Ozcan I. Prenatal radiation exposure: background material for counseling pregnant patients following exposure to radiation. Disaster Med Public Health Prep 2011;5:62–8.
  22. Puri A, Khadem P, Ahmed S, Yadav P, Al-Dulaimy K. Imaging of trauma in a pregnant patient. Semin Ultrasound CT MR 2012;33:37–45.
  23. Lowe SA. Diagnostic radiography in pregnancy: risks and reality. Aust N Z J Obstet Gynaecol 2004;44:191–6.
  24. De Santis M, Di Gianantonio E, Straface G, Cavaliere AF, Caruso A, Schiavon F, et al. Ionizing radiations in pregnancy and teratogenesis: a review of literature. Reprod Toxicol 2005;20:323–9.

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