Porphyria

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Background

Heme synthesis with reactions occuring in the cytoplasm and some in the mitochondrion (yellow).

Inherited and/or acquired disorders in which there are enzyme deficiencies involved in heme biosynthesis, resulting in build up of porphyrins (Porphobilinogen and δ-Aminolevulinic acid [ALA])
Heme is a component of many essential hemoproteins, such as hemoglobin, myoglobin and cytochromes, including the cytochrome P450 enzymes
Acute intermittent porphyria is most salient to EM
The first enzyme in the heme production pathway is ALA synthase (ALAS), which controls the rate of heme synthesis in the liver. This enzyme is down-regulated by heme.
The enzyme deficiencies in porphyria limit the capacity of the liver to increase heme synthesis.
When drugs, hormones or other factors that induce ALAS and CYPs are given, ALA and porphobilinogen (PBG) are overproduced and accumulate, and a neurovisceral attack may develop

Triggers

Infection, metabolic stress
Carbohydrate deficiency
Tobacco, ETOH
Porphyrinogenic drugs: sulfonamides, barbiturates, rifampin or metoclopramide

Clinical Features

Urine on the first day (left) compared to urine after three days of sun exposure (right) showing the classic change in color to "port wine-color."

Gastrointestinal symptoms
- Acute abdominal pain (85-90% of attacks)
  - Nausea/vomiting
  - Constipation and/or diarrhea
Port wine-colored urine
Diffuse musculoskeletal pain
Neurologic symptoms
- Headache
- Seizure
- Sensory loss (40%)
  - An indication of a severe and potentially life-threatening attack
  - Neuropathy can progress to respiratory failure in hours or days
- Bladder paresis
Psychiatric symptoms
- Increased risk of schizophrenia and bipolar disorder ^[1]
- Agitation, confusion, combativeness
- Anxiety & depression (55%)^[2]

Differential Diagnosis

Diffuse Abdominal pain

Extra-abdominal Sources of Abdominal pain

MI
Aortic Dissection
PNA
PE
Testicular Torsion
Herpes Zoster
Muscle spasm
Spinal pathology
Strep Pharyngitis (peds)
Mononucleosis
DKA
ETOH Ketoacidosis
Uremia
Sickle Cell Crisis
SLE
Vasculitis
Glaucoma
Hyperthyroidism
Methanol Poisoning
Heavy Metal toxicity
Addison's disease
Porphyria
- Acute intermittent porphyria
Paroxysmal nocturnal hemoglobinuria
Black widow spider bite

Evaluation

Consider porphyria in patients with abdominal pain that is unexplained after an initial workup has excluded common causes (appendicitis, cholecystitis, pancreatitis, etc).

Spot urinary porphobilinogen (sendout at most hospitals)
- Normal = 0-4mg/day
- acute attack, spot urine can be 20-200mg/L
Recurrent attacks in a patient with proven acute porphyria are usually similar and can be diagnosed on clinical grounds without biochemical reconfirmation.
Hyponatremia has been documented in up to 60% of acute attacks & is attributed to elevated levels of antidiuretic hormone^[3]

Management

Opioid analgesia
Avoid/discontinue offending medications
- Most seizure medications are contraindicated
- Acceptable AEDs include: benzodiazepines, gabapentin, levetiracetam, and vigabatrin
- Avoid Reglan
Treat any electrolyte abnormalities
Beta-blockers can be used to treat tachycardia

Decrease heme synthesis

Glucose load
- Decreases porphyrin production
- E.g. D5NS at 2L/hr x 24h^[4]==
- Avoid D5/D10W due to risk of hyponatremia given significant free water load
Hemin (Panhematin®)
- Decreases porphyrin production, significantly more potent than glucose
- Recommended for most cases requiring hospitalization, or any with neurologic symptoms
- 3-4mg/kg IV daily x 4 days
- Can cause significant infusion site phlebitis - minimize by reconstituting in 25% albumin; consider central venous administration
- Very expensive - around $8000 per 313mg vial

Disposition

Admission to a monitored bed

External Links

http://www.porphyriafoundation.com/

References

NR Pimstone, KE. Anderson, B Freilich. (n.d.). Emergency Room Guidelines for Acute Porphyria. American Porphyria Foundation. Retrieved January 11, 2016. From http://www.porphyriafoundation.com/for-healthcare-professionals/emergency-guidelines-for-acute-porphyria#Treatment.
Anderson KE, Bloomer, JR Bonkovsky HL, Kushner JP, Pierach CA, Pimstone NR and Desnick RJ. Recommendations for the Diagnosis and Treatment of the Acute Porphyrias. Ann Intern Med 2005; 142:439-450
Deacon AC, Peters TJ, Identification of acute porphyria: evaluation of a commercial screening test for urinary porphobilinogen. Ann Clin Biochem. 1998;35:726-32

↑ Fredrick, Thomas, M. D., et al. “Turning Purple with Pain.” The New England Journal of Medicine, vol. 385, no. 6, 2021, pp. 549–54, doi:10.1056/NEJMcps2105278.
↑ Fredrick, Thomas, M. D., et al. “Turning Purple with Pain.” The New England Journal of Medicine, vol. 385, no. 6, 2021, pp. 549–54, doi:10.1056/NEJMcps2105278.
↑ Bassett AS, McDonald-McGinn DM, Devriendt K, et al. Practical guidelines for managing patients with 22q11.2 deletion syndrome. J Pediatr. 2011;159(2):332-9.e1. doi:10.1016/j.jpeds.2011.02.039
↑ https://emedicine.medscape.com/article/205220-treatment

Authors:

[1] Fredrick, Thomas, M. D., et al. “Turning Purple with Pain.” The New England Journal of Medicine, vol. 385, no. 6, 2021, pp. 549–54, doi:10.1056/NEJMcps2105278.

[2] Fredrick, Thomas, M. D., et al. “Turning Purple with Pain.” The New England Journal of Medicine, vol. 385, no. 6, 2021, pp. 549–54, doi:10.1056/NEJMcps2105278.

[3] Bassett AS, McDonald-McGinn DM, Devriendt K, et al. Practical guidelines for managing patients with 22q11.2 deletion syndrome. J Pediatr. 2011;159(2):332-9.e1. doi:10.1016/j.jpeds.2011.02.039

[4] ttps://emedicine.medscape.com/article/205220-treatment

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