Diabetic Ketoacidosis for the OB/GYN

What is DKA?

  • Diabetic ketoacidosis is a metabolic derangement affecting primarily patients with type 1 diabetes mellitus:

    • Typically in response to some sort of stress, an insulin deficiency is encountered

      • Because of the insulin deficiency, glucose cannot be taken up and metabolized → hyperglycemia.

      • Starvation hormone pathways activate, increasing lipolysis in the liver → free fatty acids → ketosis and acidosis.

      • The liver also doesn’t have insulin to effect uptake of excess glucose, and actually begins a process of proteolysis and gluconeogenesis → worsening ketosis and hyperglycemia. 

      • The hyperglycemia will lead to glucosuria (loss of glucose via the urine), and will cause a further loss of free water and electrolytes → ultimately progressing to impaired renal function. 

  • DKA may also occur in a patient with type 2 diabetes, where a severe relative insulin deficiency precipitates DKA or a related condition known as hyperosmolar hyperglycemic state (HHS). 

Diagnosis of DKA

  • T1DM with a precipitating event that may cause metabolic derangement and difficulty with giving insulin therapy:

    • Infections or other acute major illness

    • A new diagnosis of T1DM

    • Non-use (accidental or purposeful) of prescribed insulin therapy

    • Use of drugs which may affect carbohydrate metabolism: steroids, terbutaline, 2nd generation atypical antipsychotic agents

    • Cocaine use

    • Malfunction of insulin pumps - less common with newer systems, but still an important contributor!

  • Presentation is usually rapid onset, <24 hours:

    • Neurologic changes - confusion, stupor, coma, seizures

    • Abdominal pain - nausea, vomiting

    • Signs of volume depletion - tachycardia, dry mucous membranes, hypotension

    • “Fruity odor” due to exhaled acetone

    • “Kussmaul respirations” in severely affected patients - compensatory hyperventilation 

  • Laboratory evaluation:

    • CBC

    • BMP, with anion gap calculation

      • DKA with the production of ketones will produce an anion-gap metabolic acidosis (more on that momentarily)

      • Pseudohyponatremia is often present: correct the Na value (Na concentration falls by 2 mEq/L for each 100 mg/mL increase in glucose)

      • Potassium: will often be normal on serum values, but DKA represents a state of significant relative potassium deficit due to urinary losses and shifting of potassium extracellularly with insulin deficiency

        • When insulin is replaced, potassium is driven back into cells and will lower serum potassium - so must be replaced alongside insulin therapy! 

    • UA/ketones

    • Serum ketones / beta hydroxybutyrate 

    • Urine and serum osmolality

    • ABG - especially if serum bicarbonate is very low, or hypoxia is noted

      • On a VBG or ABG - you’ll see low pH with low bicarbonate value → metabolic acidosis

        • Remember in pregnancy, bicarbonate is typically a little lower due to compensation for chronic respiratory alkalosis -- so be sure to look at that value closely! 

    • Investigation of underlying cause -- ie., cultures/imaging if infection suspected; A1c to assess control over time; amylase/lipase if pancreatitis suspected

Treatment of DKA

Important: most large institutions will have a DKA protocol! Check your institution’s policies/procedures and note that in some places, ICU admission will be required for various levels of DKA. We present some pearls here:

Two primary things to do:

  • 1) Correction of fluid and electrolyte abnormalities

    • Give isotonic fluid (LR or NS) to replete extracellular volume losses and stabilize cardiovascular status.

      • If in shock, will need rapid bolusing.

      • If hypovolemic but not in shock, often start with 15-20 ml/kg lean body weight per hour for a few hours, before slowing down. 

      • If euvolemic, slower fluid infusion as clinically indicated. 

        • Most protocols will call for NS as the primary fluid -- however, the chloride load of NS may actually worsen acidosis initially! 

          • Two RCTs (only one mentioned in the podcast) have been performed in adults comparing LR to NS -- finding LR had a mild trend towards faster improvement, but there were no major differences otherwise. 

          • We bring this up as that trend towards faster improvement of acidosis in pregnancy may be of particular consideration - a faster improvement of pH may improve fetal appearance on monitoring. 

    • Fluid choice is often dictated by electrolyte concentrations:

    • Potassium should also be administered as the deficit will often be present:

      • If K < 3.3, KCl should be given at 20-40 mEq/hr, often added to the saline

      • If K 3.3 - 5.3, KCl 20-30 mEq is added to each liter of fluid ongoing

      • If K > 5.3, potassium does not need to be repleted (yet). 

        • Frequent monitoring of K is required, and may often in the initial stages need to be checked on an hourly basis.  

    • Other electrolytes can be in deficit, particularly phosphate and bicarbonate. However, these should not be directly repleted in most circumstances, with the exception of the most critically ill patients. 

  • 2) Administer insulin

    • IV insulin should be given for all patients alongside potassium repletion as we already described.

      • Remember - K may look normal on the BMP, but often is in deficit!

    • Short acting insulins (aspart, lispro, or regular) are preferred at the outset; long-acting insulins should be held until patient is more stable.

      • In mod-severe disease, often start with IV bolus of regular insulin at 0.1 u/kg, followed within five minutes by an infusion of 0.1u/kg/hr. 

        • Again -- most institutions have protocols that will calculate this out for you and prevent errors in administration! 

        • The effect of these doses are to bring serum glucose down 50-70 mg/dL per hour, which is usually about as fast as it can go!

        • Once glucose is around 200 mg/dL, insulin infusion should decrease to 0.02-0.05 u/kg/hr and fluids for repletion should switch to a dextrose-containing product. 

          • If glucose falls too rapidly below 200 mg/dL, can precipitate cerebral edema/injury. 

    • Once a patient is only in mild DKA or transitioning out of it, can add longer-acting agents back.

Other considerations for pregnancy:

  • Symptoms and treatment for pregnant folks are not different!

  • DKA is unfortunately more common in pregnancy, as: 

    • insulin requirements increase rapidly, predisposing patients more often to potential deficiencies

    • There are more opportunities for decompensation: n/v early pregnancy, food aversions, preterm labor, use of steroids for FLM, UTI/pyelonephritis, social concern for “harming baby” with insulin.

  • Recall normal pregnancy physiology is respiratory alkalosis -- so a pH of 7.36 may seem normal for most patients, but can represent significant acidosis in pregnancy!  

  • Consider LR for resuscitation of the pregnant patient: potentially faster improvement of pH in the first hour of treatment due to less chloride load. 

  • Consider tighter targets for glucose control with DKA (getting to 100-150 mg/dL, rather than 200, counterbalancing this with risk of cerebral edema from overcorrection). 

  • During acute DKA - fetal status is often not reassuring! 

    • If mom’s pH is 6.9, baby’s is the same or worse -- manifests with absent variability, decelerations.

    • May take several hours to resolve 

    • DKA alone is not an indication for delivery!

      • It’s preferred to try to resolve the metabolic derangements before proceeding with delivery - better maternal and fetal outcomes with waiting than proceeding with delivery with unstable maternal condition. 

Espresso: Acute Uterine Bleeding

What causes bleeding?

Remember - PALM-COEIN! We talked about this way back in episode 47. As a quick refresher:

PALM - the structural causes:

  • P - polyp

  • A - adenomyosis

  • L - leiomyoma (fibroids)

  • M - malignancy

COEIN - the non-structural causes

  • C - coagulopathy

  • O - ovulation (i.e., anovulatory)

  • E - endometrial (local endometrial factors)

  • I - iatrogenic 

  • N - not otherwise specified

Your EM colleagues call you STAT! It’s really bad! What should you do?

  • Start ABCs! 

    • Get your vital signs - assess for signs of hemorrhagic shock

    • IV access - 2 large-bore if possible

    • Resuscitate - balanced crystalloid is a good place to start if relatively stable; blood if appearing unstable 

  • Laboratories:

    • Pregnancy test

      • Remember, pregnancy heavy bleeding opens up a whole new can of differential diagnosis and management -- from miscarriages to retained placental fragments.

        • We’ll set that aside for today.

    • CBC - know where you’re starting from. 

      • Note that with an acute bleeding episode, H/H may not accurately reflect actual RBC status as there hasn’t been time to equilibrate.

      • CBC may also clue you into rarer disorders -- i.e., thrombocytopenia due to TTP-HUS or leukemia -- that may result in vaginal bleeding.

    • Coag panel - do you suspect coagulopathy?

      • In the adolescent patient, this may be sign of underlying bleeding disorder like von Willebrand’s disease or hemophilia. 

      • In an older patient without history of bleeding, abnormal coags may point to evolving DIC from very significant bleeding, or acquired coagulopathy (i.e., overdose with warfarin).

    • Type and screen/crossmatch - get blood ready! 

      • A type and screen is always a good place to start, and will be the test that takes the longest.

        • Assuming no antibodies to screen against, a crossmatch can then be had relatively quickly in most large medical centers.

  • History & Exam:

    • History should be directed towards understanding how much, how long, and how frequently.

      • How much - get a sense for the amount of acute blood loss, and whether this is life threatening.

      • How long - understand timing of the bleeding as another marker of amount of blood loss, and how long the episodes have lasted if they have happened in the past.

      • How frequently - understand if this is a one-off acute event versus a recurrent issue.

        • Frequent heavy bleeding events may be suggestive of underlying bleeding disorder in younger patients, versus structural causes of heavy bleeding (i.e., fibroids) in older patients. 

      • Examination may help point towards cause immediately - trauma, prolapsing fibroid/polyp. 

        • Also, exam should help increase or ease your suspicion for life-threatening hemorrhage based on what you find!

      • Imaging and other testing may be warranted:

        • Imaging if patient is stable, and suspect but need to diagnose underlying cause (i.e., pelvic ultrasound)

        • Consider endometrial biopsy in those under age 45 with risk factors (unopposed estrogen).

How do I stop the bleeding?!?!

Medical therapy is most ideal in the moment, though surgical therapy is occasionally required! 

Meds to remember:

  • Conjugated equine estrogen (IV estrogen). 

    • Source: equine (horses)

    • Dose: 25mg IV, every 4-6 hours for 24 hours

    • Avoid in patients with breast cancers, history or risk of thromboembolic disease,

    • Efficacy: excellent

      • Small RCT demonstrated stoppage of bleeding in 72% of women with exposure to IV estrogen over 8 hours (vs 38% with placebo).

    • Requires observation/inpatient administration as IV only, and will ultimately need to transition to a PO medication (can’t use unopposed estrogen forever!)

  • Combined oral contraceptives

    • Suggested dose: 35mcg monophasic combined pill, TID x 7 days.

      • Many alternative regimens that are discussed, likely one exists that is a favorite at your hospital.

    • Avoid in patients who are smokers age 35+, history of or current VTE, migraine with aura, or other major risk factors for VTE (diabetes with vascular complications, recent surgery with immobility, etc).

    • Easy to administer, and patients are generally familiar with OCPs.

    • Side effects generally include nausea from high amount of estrogen - consider coprescription with antiemetic.

    • High efficacy -- 88% stop bleeding within 3 days.

  • Medroxyprogesterone acetate (Provera)

    • Suggested dose: 20mg PO, TID x 7 days

      • Like COCs, many alternative regimens exist, and likely one is a favorite at your hospital.

    • Similar contraindications: avoid in those with past/current history of DVT/PE, breast cancer, or liver disease.

    • High efficacy -- 76% stop bleeding within 3 days.

    • May have improved side effect profile over COCs (less nausea)

  • Tranexemic acid

    • Dose: 1300mg PO TID x 5 days; alternatively, can use IV formulation at max 600mg q8h.

    • Uncertain thromboembolic risk, but follows again that may increase this risk so use with caution in those with significant risk factors.

    • Reduces bleeding in those with chronic AUB 30-55%.

Bleeding disorder suspected?

Get hematology involved! Resuscitation / treatment may be influenced by particular factor deficiencies.

Surgical management

  • D&C, hysteroscopy, etc.

    • May be helpful for known causes (i.e., polyp, submucosal fibroid) but are often just temporizing measures otherwise.

    • Unless cause is truly identified, will not necessarily impact bleeding beyond the current cycle.

  • Balloon tamponade

    • On the small, nonpregnant uterus, use a 26F Foley catheter with 30cc saline in the balloon.

  • Interventional radiology for uterine artery embolization; hysterectomy

    • These can be considered as options, though ideally not in the mega-acute situation. More ideal to have some planning involved first!

Espresso: Shoulder Dystocia

What is shoulder dystocia?

  • After the delivery of the fetal head, the fetal anterior shoulder gets caught on the maternal pubic symphysis.

  • Less common: posterior shoulder is impacted by the maternal sacral promontory 

  • Reported incidence: ranges from 0.2-3% of vaginal deliveries

  • Most often recognized when after delivery of the head, there is not easy delivery of the shoulders with gentle traction on the head. Can often see a “turtle” sign, when there is retraction of the fetal head from the maternal perineum 

  • Risk factors 

    • Fetal macrosomia - and anything else that can cause it

      • Think maternal diabetes - Type I, Type II, or GDM, especially if poorly controlled 

    • History of shoulder dystocia (recurrence rate is 10%) 

    • Unfortunately, nothing has been reliably found to predict shoulder dystocia, including history, presence of diabetes, or even EFW or abdominal circumference to BPD ratio 

Why do we care about shoulder dystocia? 

  • Risks to mom

    • Increased risk of postpartum hemorrhage (11%) 

    • Increased risk of 4th degree laceration (3.8%) 

    • Also performance of certain “heroic measures,” ie. Zavanelli and symphysiotomy (ouch) have significant risk for mom (ureteral injury, uterine rupture, cervical laceration, bladder injury)  

      • Thankfully they are rare !

      • I have never seen it in real life, but there is an … interesting episode with eclampsia, forceps, and shoulder dystocia all in one with Zavanelli’s maneuver on an episode of ER (Love’s Labor Lost, Season 1 Episode 19) from 1995.

  • Risks to baby 

    • Most shoulder dystocias resolve without injury to the baby, but there is a higher overall neonatal injury rate, about 5.2% from a recent multicenter study in 2018 

    • Increased risk of brachial plexus injury from hyperextension of neck one way or the other → Erb palsy, Klumpke palsy 

    • Increased risk of clavicular or humeral fracture 

    • More rare is hypoxic-ischemic encephalopathy (HIE) 

    • Interestingly, the length of shoulder dystocia itself is not an accurate predictor of neonatal asphyxia or death 

How do we manage shoulder dystocia? 

  • Prevention of shoulder dystocia 

    • Again, we cannot accurately predict shoulder dystocia, so unfortunately… it’s not easy to figure out what to do to prevent.

    • There have not been big trials looking at this time, but according to some studies looking at the cost analysis, there is some suggestion that offering primary cesarean for fetuses >5000g in non-diabetic mothers and >4500g in diabetic mothers may be “worth it.”

    • Similarly, you can consider for patients with history of shoulder dystocia where recurrence risk is ~10%.

    • What about induction of labor? 

      • Basically, there have been a lot of studies, but currently, evidence is unclear if there is benefit for earlier induction of labor vs. expectant management alone for shoulder dystocia prevention.

Maneuvers for shoulder dystocia/how to manage a shoulder dystocia

  • Every hospital is going to be different, but this is how we were trained!

    1. Recognize a shoulder: turtling, shoulder not delivery easily despite gentle downward traction on the head 

    2. Communication: let the room know that there is a shoulder dystocia, ie. “We have a shoulder dystocia” - usually this will kick off a series of events 

      • The nurse may call for help, at our current hospital, there is an “emergency lever” that is pulled and help will come  

      • Talk to mom and ask her to stop pushing: “Ms. X, baby’s shoulder is stuck behind the pubic bone. I’m going to ask you to stop pushing while we help baby get out.”   

      • Once you call a shoulder dystocia, usually institutional implementation of someone to be recorder - call time, document maneuvers tried 

    3. Positioning: have nursing/other providers move mom down on the bed so that the perineum is right at the edge of the bed. Then place mom in McRobert’s maneuver, where the hips are flexed back, opening the pelvis.

    4. Maneuvers: there are no randomized controlled trials for what is better, but there are some logical steps to take that are easy to employ (McRobert’s, suprapubic pressure, and posterior arm will relieve 95% of shoulder dystocias in 4 minutes or less) 

      • Suprapubic pressure: another provider places pressure suprapubically to push the impacted shoulder under the pubic symphysis. This needs to be done in the correct direction. Often, we take a moment to figure out which shoulder is impacted and which direction it should go. Then direct the other provider by indicated with your hand or finger (“I want suprapubic pressure in this direction”) instead of verbally, because that can get confusing (ie. which right?) 

      • Posterior arm: some recent studies have shown that delivery of the posterior shoulder leads to a high success rate. This involves placing a hand into the vagina, finding the posterior arm and delivering it first. Sometimes, this may be more difficult, as it involves identifying the arm and hand, flexing it at the elbow, and gently pulling the arm around the head. If there is little room, may also require an episiotomy. 

        • Posterior shoulder sling - thread a catheter under the posterior armpit and deliver posterior shoulder this way 

      • Rubin and Woodscrew Maneuvers: Rubin’s involves placing a hand into the vagina and rotating the posterior shoulder anterior toward the fetal head. Woodscrew involves placing the hand on the anterior surface of the posterior fetal clavicle to turn the posterior shoulder until the anterior shoulder emerges.

      • Gaskin Maneuver: have the woman get on all fours and place pressure on the posterior pressure downward or upward traction on anterior shoulder.

***If these don’t work, try again. A study of 231 cases showed no association between maneuvers and neonatal injury. Try what works !

More aggressive maneuvers

  • Zavanelli’s - when everything else has been tried, if the only other option is abdominal rescue for catastrophic cases, place pressure on the head to go back up through the vaginal canal for cesarean delivery 

  • Symphysiotomy - cutting the symphysis. Not really a modern option in the era of readily available cesarean delivery, but has been performed in lower resourced settings.

  • Breaking fetal clavicle - may decrease AP diameter, but may be difficult to perform. Always break in a manner that is away from the fetal chest (ie. pull clavicle away from body) to avoid damaging underlying structures.

Simulation is key to success in managing shoulder dystocia as a team! - if you don’t have this already, please ask about SIMing a shoulder dystocia at your institution.

  • Not only to make providers more comfortable, but studies have also shown that team training protocols and sim have been associated with reduction in transient brachial plexus injury.

  • Increased evidence-based management of shoulder dystocia.



Sepsis

In today’s podcast, we try to provide an update on sepsis for OB/GYN’s. It’s a long one but hopefully full of lots of good information for your practice and knowledge.

Sepsis definitions have changed recently, put forth in 2016 the Third International Consensus Conference for the Definitions of Sepsis and Septic Shock Task Force. These marked a major departure from previous iterations, which were defined by the “SIRS” or “Systemic Inflammatory Response Syndrome” criteria. This also ushered in a new scoring system for sepsis evaluation, known as the Sequential Organ Failure Assessment tool, and a quick bedside version known as qSOFA.

Common obstetric and gynecologic etiologies include urinary tract infections and pyelonephritis; chorioamnionitis/endometritis; wound infections and necrotizing fasciitis; septic abortions; toxic shock syndrome; and ruptured tuboovarian abscess. Non-obstetric or non-gynecologic causes should also be considered. Some of these more common etiologies include gastrointestinal causes, such as appendicitis, diverticulitis, or peritonitis; respiratory causes, such as influenza or pneumonia; and skin infections including cellulitis. 

In our hospital, we remember the primary interventions for sepsis using the acronym “BLAST”: Blood Cultures, Labs/Lactate, Antibiotics, Saline, Time.

B: Blood Cultures; L: Lactate/Laboratories

With the suspicion for sepsis, laboratory evaluation is essential. CBC, BMP, lactic acid, and blood cultures are often part of the initial workup.

Lactic acid production partially results from the shift of aerobic to anaerobic cellular metabolism, so it functions as a proxy marker of poor tissue perfusion. In sepsis, higher lactic acid levels have been associated with worsened outcomes. Surviving Sepsis Campaign guidelines do recommend guiding resuscitation to lactate normalization.  The SMFM consensus statement does recommend lactate measurement for suspected sepsis in pregnancy.

Blood cultures are important to obtain upfront, prior to the initiation of antibiotic therapy. Even with an initial antibiotic exposure, blood cultures can become useless. Two sets of peripheral blood cultures, with each set consisting of aerobic and anaerobic cultures, are recommended (13). If an infection site is suspected and can be easily accessed for culture in a timely manner, cultures are recommended prior to antibiotic initiation.  

In obstetric patients, the most common causes of sepsis include septic abortion, chorioamnionitis and postpartum endometritis, urinary tract infections, pneumonia, and gastrointestial origins such as appendicitis.

A: Antibiotics

Empiric antimicrobial therapy should be broad in coverage, but also directed towards the most likely source, if one is known. The SMFM consensus statement, the Surviving Sepsis Campaign, and the SEP-1 core measure promote administration of appropriate antibiotic therapy within three hours of presentation. Mortality risk in septic shock appears time-dependent with respect to antibiotic therapy based on observational data.

Combination or “double coverage” therapy for critically ill or neutropenic patients (using two antibiotics to cover the same spectrum of pathogen) is not recommended. However, one notable exception is a source of sepsis more commonly encountered by gynecologists: toxic shock syndrome (TSS).

TSS results from the production of noxious exotoxins by Streptococcus and is described with retained objects, such as tampons, in the vagina. The antibiotic therapy of choice in this case is a combination of penicillin and clindamycin, as clindamycin acts as a transcription inhibitor to the production of bacterial exotoxins.

S: Saline

Crystalloid fluid is the choice for initial resuscitation in severe sepsis or septic shock. The landmark trial on early-goal directed therapy (EGDT), published by Rivers in 2001, randomized patients to standard therapy versus targeted fluid therapy with placement of both central venous and arterial lines, with strict goals for mean arterial pressure (MAP), central venous pressure (CVP,) venous oxygen saturation, hematocrit, and urine output. Fluid administered prior to randomization in both arms was 20-30 cc/kg over 30 minutes. This has ultimately become the standard of care for initial fluid resuscitation.

In pregnancy, this may be overly aggressive, and predispose patients to pulmonary edema; thus, the SMFM consensus statement on sepsis in pregnancy recommends an initial bolus of 1-2 L. Frequent reevaluation of volume status should be performed.

T: Time

The SEP-1 core measure from CMS is predicated on two major time points, with time starting at the time of patient presentation with severe sepsis or septic shock. The SEP-1 bundle requirements at three hours and six hours are shown in Figure 2. The entirety of the “BLAST” protocol covers the initial, “three hour” time point.

The next marker is six hours, which states there should be a redrawn lactate if there was a diagnosis of severe sepsis or septic shock. There also should be a full physical examination, The reexamination can include central venous pressure measurement, central venous oxygen measurement, a bedside cardiovascular ultrasound, or a passive leg raise test as well. For obstetricians and gynecologists, likely the physical examination and passive leg raise are the most easily performed. This may not work in pregnancy due to aortocaval compression; thus, SMFM recommends continued bolus with small fluid volumes (250 - 500 cc) and close monitoring of vital signs to determine if patients are fluid responsive.

If patients in septic shock do not respond to fluid and are persistently hypotensive despite adequate fluid resuscitation, the SEP-1 core measure requires administration of vasopressors by the six hour mark. Norepinephrine is the primary choice in sepsis both in and out of pregnancy. Norepinephrine is associated with lower rates of arrhythmia and overall mortality compared with other vasopressors.

——————————————-

We go into a lot more detail in the podcast on some additional points, but be sure to check out the SMFM Sepsis guideline for all the deep reading on this topic!

Cardiac Arrest in Pregnancy

Today we discuss a topic that we hope you never encounter, but want every OB, EM, and really any other person or medical professional to be prepared for cardiac arrest in pregnancy. The American Heart Association (AHA) Scientific Statement on Cardiac Arrest in Pregnancy can be found here and is essential companion reading.

(c) AHA

In preparation for a maternal cardiac event, a cesarean delivery kit should be available as part of the adult code cart. This at minimum should have a scalpel (#10 blade), betadine splash prep, clamps for cutting the umbilical cord, sponges, absorbable suture, and additional clamps and/or retractors if feasible. A neonatal resuscitation cart should accompany the adult cart if a maternal code is ongoing.

BLS is not different from standard for any other adult resuscitation, except for one key component: leftward displacement of the uterus. This allows for improved venous return to the right heart via the inferior vena cava, which may be compressed to some degree as early as 12 weeks gestation. Otherwise hand positioning, compression technique, and ventilation considerations in the BLS portion do not have any differences.

The ACLS algorithm also proceeds as usual, with the notable exception being performance of resuscitative hysterotomy (aka, peri-mortem cesarean section) at 4 minutes of pulseless arrest. This should be performed at any gestation above 20 weeks (i.e., fundal height at or above the umbilicus). It serves the dual purpose of improving maternal venous return, as well as protecting the fetus from consequences of prolonged anoxia.

Otherwise, ACLS algorithms use the same medications and doses, the same indications for shocks, and actually many times the same etiologies for arrest. However there are some pregnancy-specific considerations all physicians should recall, in a simple mnemonic:

(c) Society of Obstetric Anesthesia and Perinatology