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Scarlet Fever: A Deadly History and How it Prevails

Jan. 24, 2023

Portrait of Dr. Giovanni Ingrassia.
Portrait of Dr. Giovanni Ingrassia.
Source: Wikimedia Commons.
Scarlet fever is a disease that has significantly evolved in definition and management over the last several hundred years. The disease, which is caused by a toxin produced by the bacteria Streptococcus pyogenes, was once enormously prevalent amongst the global population and associated with . It eventually became effectively managed and relatively easy to treat via antibiotic administration. However, recent outbreaks demonstrate the need to keep the disease front-of-mind to successfully identify and track the pathogen, treat patients and prevent poor outcomes.

Why did scarlet fever used to be such a dangerous disease, and why (although the burden of disease is far less than in years past) do outbreaks continue to occur, even after the development of penicillin?

History of Scarlet Fever

The first notable description of what might have been scarlet fever was documented by the Sicilian physician Giovanni Filippo Ingrassia in 1553. Ingrassia, who was well-known for his , called the disease "rossalia” and described the patient as having "numerous spots, large and small, fiery and red, of universal distribution so that the whole body appeared to be on fire."

Throughout the remainder of the 1500s and most of the 1600s, various scientists and physicians around the world added elements to the definition of the disease, further distinguishing it from other rash-causing illnesses like measles. For example, German physicians described an outbreak of a similar disease to "rossalia” in 1564. They termed it "," noting that it was particularly fatal to infants and that patients presented with a sore throat, violent fever, vomiting and swelling of the parotid glands, in addition to a rash.

Illustrations from 1908 demonstrating the difference between the rashes of measles and scarlet fever.
Illustrations from 1908 demonstrating the difference between the rashes of measles and scarlet fever.
Source: Wikimedia Commons.


In 1578, the French nobleman Jean Cottyar of Poitiers was credited with providing the by tying all previous descriptive elements together and adding a few—namely that purpura appeared in patients on the second or third day, accompanied by a sore throat.

While epidemics of scarlet fever raged through Europe and North America through the 17th and 18th centuries, it was not until the 1920s that the significance of the patient’s sore throat would be fully realized. In 1924, American bacteriologists Gladys and George Dick (S. pyogenes, also called group A streptococci) and that a toxin produced by the organism could cause this severe downstream disease, or even progress to the development of rheumatic fever later in life.

A scarlet fever quarantine sign is displayed in the window of the home of an infected patient in 1940.
A scarlet fever quarantine sign is displayed in the window of the home of an infected patient in 1940.
Source: Wikimedia Commons.
From the 1920s until antibiotics were discovered in the 1940s, clinicians and public health officials could use the signs and symptoms of scarlet fever to isolate patients and prevent the spread of the deadly disease. This was achieved by placing quarantine signs in the windows of the homes of infected patients.

Current Outbreaks

Since September 2022, there has been a significant outbreak of scarlet fever in children in Europe, and more recently, there have been documented increases in cases in the U.S. This outbreak has been unique in that it first appeared out of sync with typical seasonality and has come with higher mortality rates than normal. For example, the outbreak began in late summer and has killed 13 children under 15 in England since September. Between September and November 2022, public health agencies in England , a value significantly higher than the previous 5-year average of 1,294.

While the reasons for the increase in scarlet fever are unclear, include macrolide resistance, weakened herd immunity, environmental factors and the absence of a vaccine for the bacteria that cause the disease (group A strep) Additionally, . This may be attributed to the absence of immunity or the greater risk of crowding indoors during colder months.

The World Health Organization (WHO) has stated that the and the high incidence of circulating respiratory viruses. Additionally, children may be more significantly impacted due to decreased immunity stimulated by group A streptococcal infections during the COVID-19 pandemic years. However, this theory is unsubstantiated at this time.

Importantly, antimicrobial susceptibility test results from routine laboratory surveillance in England did not demonstrate any increased antibiotic resistance among S. pyogenes organisms, indicating that drug resistance is not responsible for increased virulence or spread of the organism in the current outbreak.

Expanded surveillance and research are needed to understand these outbreaks, but the pathogenesis and epidemiology of the disease provide additional context clues.

Who Is Susceptible to Scarlet Fever?

Scarlet fever can occur in people of all ages, however, the disease occurs most often in school-age and adolescent children, due to the ease of transmissibility in classrooms and daycares and lack of immunity to protective antigens of group A strep. While group A strep is not responsible for all cases of pharyngitis (strep throat) in children, it is believed to be the cause of 15-30% of all pharyngitis cases in children 5-15 years of age.

Public health cartoon, 鈥淭he Wall Against Disease.鈥
Public health cartoon, 鈥淭he Wall Against Disease.鈥
Source: Flickr.

Why Do Some People Get Scarlet Fever and Others Don’t?

Not all patients who acquire group A strep pharyngitis will develop invasive streptococcal disease. In fact, in their upper respiratory tract without any signs or symptoms of infection. The extent to which a person will become ill due to a group A strep infection relies on the production of a type of exotoxin called bacterial superantigens (SAgs) and how the patient’s body responds to them.

In some patients, are released from the patient’s T-cells and antigen-presenting cells. This dramatic immune response (otherwise known as a "”) is believed to be responsible for the manifestations of and may include symptoms such as the constriction of blood vessels, low blood pressure, low platelet count and multi-organ failure. The superantigens SpeA, SpeC and SSA have been directly associated with scarlet fever. The development of to the infection.

Epidemiology report of the top causes of mortality in Rhode Island from 1866-1901. Scarlet Fever was the 9th most common cause of death.
Epidemiology report of the top causes of mortality in Rhode Island from 1866-1901. Scarlet Fever was the 9th most common cause of death.
Source: Wikimedia Commons.

How Harmful Is Scarlet Fever?

Importantly, while the scarlet fever rash itself is not harmful, it is an indicator of Group A Strep disease, which can progress to invasive disease (i.e., necrotizing fasciitis or toxic shock syndrome) and be fatal, if left untreated. The Centers for Disease Control (CDC) estimates that in the last 5 years, and that 1,500-3,000 people die yearly from these infections. It is imperative that data on the prevalence of disease are reported to public health agencies regularly and surveillance is performed at the public health level.

Diagnosing Group A Strep and Scarlet Fever

Streptococcus pyogenes growing on a blood agar plate.
Streptococcus pyogenes growing on a blood agar plate.
Source: Wikimedia Commons.
Typically, S. pyogenes is cultured in the clinical microbiology laboratory using solid agar media that contains sheep blood. The organism can readily hemolyze red blood cells, which results in a large zone of beta (clear) hemolysis around the colony of growth on a blood agar plate. In fact, the zone of hemolysis is so significant that it can be quite diagnostic when paired with colony morphology.

that can be used to quickly identify an organism as S. pyogenes. Any one of these tests is sufficient to identify a beta-hemolytic Streptococcus as S. pyogenes. These test methods include:

  • Lancefield antigen determination: Lancefield antigen grouping serum is used to differentiate different types of Streptococci. Agglutination is observed when the organism is applied to serum with antibodies that match the presented antigen.
  • Pyrrolidonyl Arylamidase (PYR) test: This test is performed using paper strips or disks that test for the presence of the enzyme pyrrolidonyl aminopeptidase, which is unique to a few gram-positive organisms, including S. pyogenes. This is a rapid colorimetric method; when the organism is applied to the disk or strip and a reagent is added, a color change will be observed.
  • Bacitracin susceptibility: S. pyogenes can be differentiated from other beta-hemolytic streptococci due to its increased susceptibility to bacitracin. This test is performed by dropping a bacitracin disk on a plate with a pure culture of the organism to be tested. This test requires additional incubation, so it may be less favorable in cases where a faster turnaround time is warranted.

In addition to rapid conventional microbiology methods, S. pyogenes is readily identified using automated identification systems and MALDI-TOF. Despite its continued use to treat group A strep infections over the years, penicillin resistance has not occurred, and penicillin is still the antibiotic of choice to treat these infections. Given this, , unless a patient has a significant allergy to penicillin, and other drugs (such as macrolides) need to be tested.

, as identifying and treating these infections early may prevent invasive Streptococcal disease and other serious downstream outcomes. As always, good respiratory and hand hygiene can help prevent the spread of organisms like S. pyogenes.

Watch Andrea Prinzi explain why scarlet fever used to be such a dangerous disease, and why (although the burden of disease is far less than in years past) outbreaks continue to occur, even after the development of penicillin.


 

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Author: Andrea Prinzi, Ph.D., MPH, SM(ASCP)

Andrea Prinzi, Ph.D., MPH, SM(ASCP)
Andrea Prinzi, Ph.D., MPH, SM(ASCP) is a field medical director of U.S. medical affairs and works to bridge the gap between clinical diagnostics and clinical practice.