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Prontosil

Prontosil is a synthetic sulfonamide compound that marked the advent of modern antibacterial chemotherapy as the first drug proven effective against bacterial infections in humans. Developed in the early 1930s, it consists of a red azo dye linked to a sulfonamide group, specifically 4'-((2,4-diaminophenyl)azo)benzenesulfonamide, and was initially marketed as Prontosil rubrum by the German chemical company IG Farbenindustrie. Its discovery revolutionized medicine by providing a targeted treatment for streptococcal and other bacterial diseases, paving the way for the sulfa drug class that dominated antimicrobial therapy until the widespread availability of penicillin during World War II.^[1]^[2] The compound's development stemmed from systematic research led by pathologist Gerhard Domagk, who was appointed director of Bayer's Institute of Pathology and Bacteriology in 1927. Domagk and chemists Fritz Mietzsch and Josef Klarer screened azo dyes for antimicrobial properties, identifying Prontosil's efficacy in 1932 through experiments on mice infected with Streptococcus pyogenes; in one key test, all 12 infected mice treated with the drug survived, while all 14 untreated controls perished (out of 26 total). Although Domagk's findings were not published until 1935 due to patent considerations, the drug's human trials soon followed, dramatically curing severe infections such as puerperal sepsis—including the case of Domagk's own daughter Hildegard, who recovered from a life-threatening streptococcal wound infection after treatment in 1935.^[2]^[1]^[3] In 1935, researchers at the Pasteur Institute, including Daniel Bovet, elucidated that Prontosil's antibacterial action derived from its metabolically released sulfanilamide component, which inhibits folate synthesis in bacteria—a mechanism that inspired thousands of sulfonamide derivatives. Prontosil and its successors treated a range of conditions, from pneumonia and meningitis to wound infections, with U.S. production scaling to over 10 million pounds annually by 1942 for wartime use. For his pioneering work, Domagk received the 1939 Nobel Prize in Physiology or Medicine, though Nazi authorities initially forced him to decline it; he accepted the medal in 1947. Despite its eventual supersession by safer antibiotics, Prontosil's legacy endures as the catalyst for the antibiotic era, saving countless lives before microbial resistance and toxicity concerns arose.^[4]^[2]^[3]

Chemical and Pharmacological Properties

Chemical Structure and Synthesis

Prontosil, chemically known as 4-[(2,4-diaminophenyl)diazenyl]benzenesulfonamide, possesses the molecular formula C₁₂H₁₃N₅O₂S and features a characteristic red azo dye structure. This consists of a benzene ring bearing a sulfonamide group (-SO₂NH₂) para to an azo linkage (-N=N-), which connects to a second benzene ring substituted with amino groups at the ortho and para positions relative to the azo attachment.^[5]^[6] The compound, also referred to by synonyms such as sulfamidochrysoidine and Streptozon, was first synthesized in December 1932 by Bayer chemists Fritz Mietzsch and Josef Klarer as part of a systematic exploration of azo dyes incorporating sulfonamide moieties. The synthesis involved diazotization of sulfanilamide in acidic conditions to form the diazonium salt, followed by coupling with m-phenylenediamine under mildly basic conditions to yield the azo-linked product. Sulfanilamide serves as the core structural unit, providing the sulfonamide functionality essential to the molecule's design.^[7]^[8] To address solubility limitations of the original insoluble form (Prontosil rubrum), variants were developed for different administration routes. Prontosil soluble, a water-soluble analog with the formula C₁₈H₁₄N₄Na₂O₁₀S₃ and systematic name disodium 6-(acetylamino)-3-{[4-(aminosulfonyl)phenyl]diazenyl}naphthalene-2,7-disulfonate, was prepared by diazotizing sulfanilamide and coupling it with 2-acetamido-8-hydroxy-3,6-naphthalenedisulfonic acid, followed by formation of the disodium salt for injectable use.^[8] In contrast, Prontosil album, the oral formulation, consisted of sulfanilamide itself—a white powder formulated for tablet production—which is the active metabolite released in vivo through reduction of the azo linkage in the parent compound.^[8]

Mechanism of Action and Pharmacokinetics

Prontosil functions as a prodrug, remaining inactive until reduced in vivo to its active metabolite, sulfanilamide, primarily through azoreductase enzymes in the liver and kidneys, with additional contribution from intestinal bacteria.^[9] The antibacterial activity arises from sulfanilamide, a competitive inhibitor of dihydropteroate synthase, the bacterial enzyme that incorporates para-aminobenzoic acid (PABA) into dihydropteroic acid, an essential precursor in the folic acid synthesis pathway required for bacterial DNA and RNA production.^[10] By structurally resembling PABA, sulfanilamide binds to the enzyme's active site, preventing the normal reaction and exerting a bacteriostatic effect.^[11] The inhibited step can be represented as:

\text{Dihydropteroate synthase} + \text{PABA} \rightarrow \text{Dihydropteroic acid}

This mechanism selectively targets bacteria that synthesize their own folic acid, as mammals obtain folate from diet.^[10] Sulfanilamide demonstrates activity against many Gram-positive bacteria, including Streptococcus pyogenes, and certain Gram-negative pathogens such as Haemophilus influenzae, but shows limited efficacy against anaerobes and no effect on viruses.^[10]^[11] Prontosil exhibits poor water solubility, limiting its oral absorption and necessitating parenteral administration or the development of more soluble sulfonamide derivatives for improved bioavailability.^[12] Following reduction to sulfanilamide, the active form is rapidly absorbed from the gastrointestinal tract, achieving 70–100% bioavailability, and distributes extensively to tissues, including cerebrospinal fluid, pleural effusions, and breast milk, at concentrations approximating those in plasma.^[13] As a short-acting sulfonamide, sulfanilamide has a plasma half-life of 4–8 hours, undergoes partial hepatic acetylation to less active metabolites, and is predominantly eliminated unchanged via renal glomerular filtration and tubular secretion, with excretion rates influenced by urine pH and renal function.^[14]^[13]

Discovery and Development

Early Research at Bayer

In the 1920s, following the formation of IG Farbenindustrie in 1925 from a merger of major German chemical firms including Bayer, the conglomerate intensified its focus on synthetic dye chemistry while exploring therapeutic applications amid post-World War I economic pressures and lost international markets.^[15] This shift toward pharmaceuticals was influenced by the success of Paul Ehrlich's 1908 arsenic-based drug salvarsan for syphilis treatment, which demonstrated the potential of synthetic chemicals for selective toxicity against pathogens, prompting IG Farben to investigate azo dyes—vibrant compounds long used in textiles—for antibacterial properties.^[1] The company's dye expertise positioned it to repurpose these substances as chemotherapeutics, addressing the era's unmet needs for treatments against bacterial infections without relying on natural antimicrobials like quinine, which faced wartime shortages.^[2] Key groundwork involved systematic screening of sulfonamide-containing azo dyes, building on their established use in dye production. Around 1927, IG Farben chemists Fritz Mietzsch and Josef Klarer began synthesizing hundreds of such compounds, including sulfonamide variants, specifically for biological evaluation against microbial targets.^[15] These efforts were part of a broader program to identify dyes exhibiting selective toxicity in vitro, where compounds showed promise by inhibiting bacterial growth without harming host cells, laying the foundation for in vivo testing despite the absence of prior antibiotic models.^[1] To advance this research, Gerhard Domagk was appointed in 1927 as director of Bayer's newly established Institute of Experimental Pathology and Bacteriology within IG Farben, tasked with evaluating the synthesized dyes' efficacy against infections in animal models.^[2] Domagk's role integrated pathology with the chemists' synthetic work, focusing on streptococcal and staphylococcal pathogens prevalent in the era, and his laboratory conducted initial assays to correlate in vitro observations with potential therapeutic outcomes.^[15] This collaborative framework, emphasizing empirical testing of azo compounds' antimicrobial potential, set the stage for subsequent breakthroughs in sulfonamide development.

Gerhard Domagk's Experiments and Breakthrough

Gerhard Domagk, working at the I.G. Farbenindustrie laboratories in Elberfeld, Germany, initiated experiments in December 1932 to test the antibacterial potential of various azo dyes, including Prontosil (KL 730), against bacterial infections in animal models.^[16] His experimental design focused on in vivo efficacy, infecting white mice with a virulent strain of beta-haemolytic streptococci (Streptococcus pyogenes) at doses 10 to 100 times the minimum lethal dose for untreated animals. Prontosil was administered subcutaneously in a 2% suspension, typically 1.5 hours after infection, at doses of 20 mg per 20 g body weight. In a pivotal trial on December 20, 1932, all untreated control mice succumbed to the infection within four days, while all Prontosil-treated mice survived without symptoms, demonstrating complete protection against otherwise fatal streptococcal septicemia.^[16] Similar results were observed in rabbits, where low doses of Prontosil eradicated streptococcal infections that had progressed to severe peritonitis.^[4] The breakthrough came in early 1935 when Domagk confirmed Prontosil's curative effects on established infections, building on the 1932 synthesis by chemists Fritz Mietzsch and Josef Klarer. In these tests, mice infected 18 to 24 hours prior—allowing symptoms like paralysis and peritonitis to develop—were treated subcutaneously, resulting in survival rates exceeding 80% compared to 0% in controls, thus validating Prontosil as the first effective chemotherapeutic agent for bacterial infections.^[16] This success was underscored by a personal incident in 1935, when Domagk's six-year-old daughter, Hildegard, suffered a severe streptococcal infection from a needle prick, leading to sepsis and gangrene threatening her arm; off-label administration of Prontosil rapidly resolved the infection, saving her life and providing early evidence of its potential in humans.^[17] Domagk published his findings on February 15, 1935, in the Deutsche Medizinische Wochenschrift, detailing the experiments and emphasizing Prontosil's specific activity against streptococci and some staphylococci, though it showed no bactericidal effect in vitro—a challenge that puzzled researchers initially.^[18] This in vitro inactivity was later explained on November 23, 1935, by a French team at the Pasteur Institute, led by Ernest Fourneau and including Jacques and Thérèse Tréfouël, Federico Nitti, and Daniel Bovet, who demonstrated that Prontosil acts as a prodrug, metabolized in vivo by the liver into the active compound sulfanilamide.^[19] Domagk's work earned him the 1939 Nobel Prize in Physiology or Medicine for discovering the antibacterial effects of Prontosil, but under pressure from the Nazi regime, he was forced to decline the award publicly; he accepted the medal and diploma privately in 1947 after the war.^[3]

Clinical Applications and Impact

Initial Therapeutic Uses

Following its successful preclinical demonstrations, Bayer commercialized Prontosil in 1935, introducing it to the German market in both oral tablet and injectable forms for systemic administration.^[20]^[21] The drug saw rapid adoption in Germany, particularly for treating puerperal fever (also known as childbed fever) and wound infections caused by hemolytic streptococci, where it offered a novel chemotherapeutic option against previously lethal bacterial invasions.^[16] One of the earliest documented human applications occurred in 1936 at Queen Charlotte's Hospital in London, where 38 patients with severe puerperal sepsis due to hemolytic streptococci were treated with Prontosil, resulting in 35 recoveries and only 3 deaths—a marked improvement over prior mortality rates exceeding 20%.^[22] The drug was also promptly applied to other streptococcal conditions, including erysipelas (a skin infection) and bacterial meningitis, where it demonstrated efficacy in reducing systemic spread and promoting recovery in cases that would otherwise be fatal.^[16]^[23] Administration typically began with initial doses often exceeding 5 grams orally or via intravenous or intramuscular injection of the soluble form (Prontosil solubile), followed by oral maintenance dosing of 3 to 6 grams daily using the less soluble red tablets (Prontosil rubrum), adjusted based on clinical response and continued for several days after symptom resolution.^[24]^[25] Common side effects included nausea and crystalluria (crystal formation in urine leading to potential kidney irritation), with rare instances of hemolytic anemia, particularly in patients with underlying sensitivities.^[26]^[14] By 1937, Prontosil's reach expanded globally through licensing agreements, including to the Winthrop Chemical Company in the United States, where it was marketed as Prontylin for similar infectious indications.^[27] This dissemination occurred amid patent disputes, as the active metabolite sulfanilamide was not protected by U.S. patents, enabling competing formulations and accelerating its widespread availability despite legal challenges from Bayer.^[2]

Key Clinical Trials and Efficacy

One of the earliest and most influential clinical trials of Prontosil was conducted by Leonard Colebrook and colleagues at Queen Charlotte's Hospital in London, focusing on puerperal infections caused by beta-hemolytic streptococci. In a 1936 study, 64 consecutive cases were treated with Prontosil, resulting in only three deaths for a mortality rate of 4.7%, compared to a historical rate of 24% in untreated cases from 1931-1935 at the same institution. Among 26 additional severe cases, including those with bacteremia and peritonitis, there were no fatalities, with rapid clinical improvement observed in most patients infected with Group A hemolytic streptococci. This trial demonstrated Prontosil's ability to prevent the spread of infection to pelvic tissues and resolve systemic streptococcal sepsis, marking a significant advancement in treating puerperal fever.^[24] In the United States, clinical trials in the late 1930s further validated Prontosil's efficacy against streptococcal diseases. At Johns Hopkins University and Western Pennsylvania Hospital, studies from 1936-1937 evaluated the drug for pneumonia and scarlet fever, showing substantial reductions in mortality; for instance, sulfa drugs like Prontosil contributed to a 13% decline in pneumonia and influenza deaths and a 52% drop in scarlet fever mortality across broader populations during this period. These trials confirmed the drug's role as a standard treatment for pneumococcal pneumonia and streptococcal infections such as scarlet fever by 1937, with high recovery rates in hospitalized patients.^[28]^[29] Prontosil proved highly effective against beta-hemolytic streptococci, dramatically lowering mortality in severe infections from around 25% in untreated puerperal sepsis to under 10% in treated cases, as evidenced by early European and American studies. However, it showed limited success against staphylococcal infections and was ineffective against Gram-negative bacteria such as Escherichia coli, due to its narrower spectrum targeting primarily Gram-positive organisms. By 1938, reports emerged of sulfonamide resistance in streptococci, with certain strains failing to respond to treatment, highlighting early limitations in long-term efficacy. Additionally, toxicity concerns arose, including cases of acute hemolytic anemia, particularly in patients with glucose-6-phosphate dehydrogenase (G6PD) deficiency, where oxidative stress from the drug triggered red blood cell destruction.^[24]^[30]^[31]^[32] During World War II, Prontosil and related sulfa drugs were widely adopted by Allied and Axis forces for treating wound infections and meningitis outbreaks, significantly reducing mortality before penicillin's availability. Soldiers were instructed to apply sulfa powder directly to wounds, preventing streptococcal sepsis and saving thousands of lives; for example, meningococcal meningitis death rates dropped markedly with sulfonamide therapy. This military application underscored Prontosil's public health impact, curbing infection-related casualties in combat zones until broader antibiotic options emerged in the mid-1940s.^[33]^[34]^[20]

Decline and Historical Legacy

Factors Leading to Obsolescence

The obsolescence of Prontosil by the mid-1940s stemmed primarily from its inherent pharmacological limitations as a prodrug. Prontosil required metabolic activation in the body to release its active component, sulfanilamide, necessitating high doses—often several grams daily—to achieve therapeutic levels, which increased the risk of adverse effects.^[12] Its poor aqueous solubility led to crystallization in the urinary tract, causing kidney stones and potential renal obstruction, a complication documented in early clinical reports from the 1930s and 1940s.^[35] Additionally, sulfonamides like Prontosil exhibited significant allergenicity, manifesting as skin rashes, fever, and severe hypersensitivity reactions in up to 5-10% of patients, further limiting their tolerability.^[36] Although derivatives such as sulfapyridine, introduced in 1938, offered improved efficacy against pneumonia and required lower doses due to better pharmacokinetics, they retained similar solubility and toxicity issues, providing only marginal advancements.^[12] Bacterial resistance emerged rapidly, undermining Prontosil's effectiveness within years of its widespread use. As early as 1937, resistant strains of gonorrhea were reported in clinical settings, and by the mid-1940s, adaptation in streptococci and other pathogens had become prevalent, particularly in wartime wounds where indiscriminate application accelerated selection pressure.^[4] This resistance, driven by mutations in bacterial folate synthesis pathways, reduced cure rates and prompted regulatory scrutiny; the U.S. Food and Drug Administration (FDA), empowered by the 1938 Federal Food, Drug, and Cosmetic Act following the Elixir Sulfanilamide tragedy, began approving safer sulfonamide analogs like sulfadiazine in the early 1940s, which had enhanced solubility to mitigate crystalluria.^[37] However, even these improvements could not fully counteract the growing inefficacy against resistant isolates.^[35] The decisive factor was the advent of superior antibiotics, beginning with penicillin's clinical breakthrough in the 1940s. Discovered by Alexander Fleming in 1928 and developed for therapeutic use by Howard Florey and Ernst Chain starting in 1940, penicillin offered bactericidal activity against a broad spectrum of Gram-positive bacteria—including streptococci—without the metabolic inefficiencies or toxicity of Prontosil, and with far lower resistance at introduction.^[38] Mass production scaled up in 1943 through U.S. industrial efforts, enabling widespread availability by 1945 and rapidly supplanting sulfonamides in treating infections like puerperal fever and wound sepsis.^[39] Further, streptomycin, isolated in 1943 by Selman Waksman and colleagues, addressed gaps in sulfonamide coverage by effectively targeting tuberculosis and Gram-negative pathogens, broadening the antibiotic arsenal and accelerating Prontosil's marginalization.^[40] Post-World War II economic shifts sealed Prontosil's fate. The original sulfanilamide patent, synthesized in 1908, had long expired by the 1930s, allowing numerous manufacturers to produce inexpensive generics that flooded the market and eroded Bayer's monopoly on Prontosil.^[2] Combined with the superior safety profile and efficacy of emerging antibiotics, this led to a sharp decline in sulfonamide prescriptions by the late 1940s, relegating them primarily to niche uses like urinary tract infections where resistance remained lower.^[2]

Influence on Modern Medicine

The discovery of Prontosil initiated the sulfa drug era, sparking a rapid expansion in the development of sulfonamide antibiotics during the 1930s and 1940s. This breakthrough led to the synthesis of over 5,000 sulfonamide derivatives, including compounds like sulfathiazole, which offered improved efficacy and reduced side effects compared to the original dye-based agent. By 1941, sulfonamides were treating 10 to 15 million patients annually worldwide, dramatically reducing mortality from bacterial infections such as pneumonia, scarlet fever, and puerperal sepsis until the advent of penicillin shifted the landscape in the mid-1940s.^[4]^[41] Gerhard Domagk's work on Prontosil earned him the 1939 Nobel Prize in Physiology or Medicine, the first awarded for discoveries in antibacterial chemotherapy, recognizing its role in transforming infectious disease treatment from supportive care to targeted therapy. This accolade, delayed until 1947 due to political pressures, galvanized global research efforts; notably, in 1937, French researchers Jacques and Thérèse Tréfouël, along with Federico Nitti and Daniel Bovet, confirmed that sulfanilamide—the colorless metabolite of Prontosil—was the active antibacterial component, paving the way for cheaper, non-patented alternatives and accelerating sulfonamide adoption across Europe and beyond.^[3]^[42] The sulfa drug era also catalyzed significant regulatory reforms in pharmaceuticals. The 1937 Elixir Sulfanilamide disaster, where over 100 deaths resulted from a toxic solvent in an untested liquid formulation of the drug, exposed critical gaps in safety oversight and directly prompted the U.S. Congress to enact the 1938 Federal Food, Drug, and Cosmetic Act, mandating premarket safety testing and accurate labeling for new drugs. This legislation marked a pivotal shift in the industry, moving pharmaceutical research away from empirical dye chemistry toward systematic, evidence-based development of targeted antimicrobials.^[43] In contemporary medicine, Prontosil's legacy endures through the structural motif of sulfonamides, which forms the basis for non-antibiotic drugs such as the loop diuretic furosemide, used to treat edema and hypertension by inhibiting sodium reabsorption in the kidneys. Moreover, early observations of sulfonamide resistance mechanisms, including plasmid-mediated efflux and target enzyme modifications, have informed modern antimicrobial resistance (AMR) strategies, emphasizing combination therapies and surveillance to mitigate similar evolutionary pressures. As of 2025, researchers are exploring sulfonamide derivatives to combat multidrug-resistant bacteria like methicillin-resistant Staphylococcus aureus (MRSA), leveraging structural modifications to restore potency against resistant strains while minimizing toxicity.^[44]^[45]^[46]

References

[1]
Gerhard Domagk | Science History Institute
Prontosil was the first drug to successfully treat bacterial infections and the first of many sulfa drugs—forerunners of antibiotics. This achievement earned ...
[2]
Prontosil - C&EN - American Chemical Society
Jun 20, 2005 · Prontosil was developed by Gerhard Domagk, working in the Bayer sector of IG Farbenindustrie. In 1927, Domagk was appointed director of Bayer's Institute of ...Missing: antibiotic | Show results with:antibiotic
[3]
Gerhard Domagk – Facts - NobelPrize.org
The challenge was long thought to be impossible, but in 1932 Gerhard Domagk and his colleagues demonstrated in mice experiments that sulfonamides could be used ...
[4]
The history of sulphonamides - What is Biotechnology
In November 1935 a team of French scientists at the Pasteur Institute, led by Daniel Bovet, discovered that the anti-streptococcal action of Prontosil was down ...
[5]
Prontosil - PubChem - NIH
Prontosil, also known as sulfamidochrysoidine, was the first commercially available antibacterial antibiotic, derived from an azo dye.Missing: synthesis | Show results with:synthesis
[6]
Prontosil | C12H13N5O2S - ChemSpider
[IUPAC name – generated by ACD/Name]. Benzenesulfonamide, 4-[2-(2,4-diaminophenyl)diazenyl]-. [IUPAC index name – generated by ACD/Name]. Parazol. Prontosil.
[7]
A brief history of antibiotics and select advances in their synthesis
Jul 5, 2017 · First synthesized as a dye by Fritz Mietzsch and Josef Klarer at Bayer in December 1932, sulfamidochrysoidin (4, Prontosil, Figure 1) was ...
[8]
On the 75th anniversary of Prontosil - ScienceDirect.com
The resulting high activity of sulphanilamide represented a considerable problem to IG Farben: although it was immediately marketed as Prontosil album, no ...
[9]
Mechanisms of gastrointestinal microflora on drug metabolism in ...
Moreover, prontosil injected intraperitoneally can experience gut bacterial metabolism by being excreted into the gastrointestinal tract via the bile.
[10]
Sulfanilamide: Uses, Interactions, Mechanism of Action - DrugBank
Their antibacterial action is inhibited by pus. Mechanism of action. Sulfanilamide is a competitive inhibitor of bacterial enzyme dihydropteroate synthetase.Identification · Pharmacology · Categories · References
[11]
Prontosil - an overview | ScienceDirect Topics
The discovery of Prontosil. Prontosil, a sulfonamide, was the first antibiotic used to treat human infections and the only inhibitor of nutrient biosynthesis ...
[12]
Drugs That Changed Society: History and Current Status of the Early ...
Oct 7, 2021 · Poor aqueous solubility complicates administration of sulfa drugs. Consequently, they are administered as the more water soluble sodium salts.Missing: route | Show results with:route
[13]
Sulfanilamide | C6H8N2O2S | CID 5333 - PubChem - NIH
The largest fraction is excreted in the urine, and the half life of sulfonamides in the body is thus dependent on renal function. Small amounts are ...
[14]
[PDF] Sulfonamides: far from obsolete
Oct 3, 2019 · inhibition of dihydropteroate synthase (DHPS), an enzyme that converts PABA as a substrate to dihydrofolic acid (folic acid). Another enzyme ...
[15]
The Evolving Role of Chemical Synthesis in Antibacterial Drug ...
By 1932, Mietzsch and Klarer had synthesized more than 300 azo compounds, including a series containing sulfonamide substituents, and provided these for testing ...
[16]
Physiology or Medicine 1939 - Presentation Speech - NobelPrize.org
The earliest published experiments with Prontosil were begun in December 1932. The lethal dose, for mice, of a certain strain of haemolytic streptococci, which ...
[17]
Gerhard Domagk – Biographical - NobelPrize.org
Domagk was, however, not satisfied that prontosil, so effective in mice, would be equally effective in man, but it so happened that his own daughter became very ...Missing: child | Show results with:child<|control11|><|separator|>
[18]
A Contribution to the Chemotherapy of Bacterial Infections - jstor
Gerhard Domagk Ein Beitrag zur Chemotherapie der bakteriellen Infektionen. Deutsche medizinische Wochenschrift, 1935, Vol. 61, page. 250-253. These excerpts ...
[19]
[PDF] Gerhard Domagk - Nobel Lecture
The most effective of these had taken their place under the names Prontosil rubrum and Prontosil solubile in the armoury against the streptococcal infections of ...Missing: paper | Show results with:paper
[20]
Gerhard Domagk | Bayer Global
Sep 8, 2025 · In 1927 the attention of Professor Heinrich Hoerlein was drawn to Domagk's post-doctoral thesis entitled "Destroying infectious diseases through ...Missing: appointment | Show results with:appointment
[21]
Tube of Prontosil tablets, Germany, 1935-1950
For the first time some of the serious problems caused by bacteria, such as blood infections, tonsillitis and puerperal fever, could be cured. At first, there ...
[22]
The use of historical controls and concurrent controls to assess ... - NIH
Later there was another form, Prontosil album, which was closely related to Prontosil soluble. This marked the beginning of the experimental use of the ...
[23]
Prontosil - an overview | ScienceDirect Topics
Prontosil, or sulphonamido-chrysoidin, was first synthesized by Klarer and Mietzsch in 1932, and was one of a series of azo dyes examined by Domagk for ...Missing: formula | Show results with:formula
[24]
[PDF] treatment with prontosil of - The James Lind Library
Chir., 1934, xxxix., 72. TREATMENT WITH PRONTOSIL OF. PUERPERAL INFECTIONS. DUE TO HÆMOLYTIC STREPTOCOCCI *. BY ...Missing: commercialization | Show results with:commercialization
[25]
AND ACUTE RHEUMATISM* - Annals of the Rheumatic Diseases
prontosil therapy. The use of the drug is often ... be a daily dose of 2 g. and a total of 64 to 66 g ... Dis., iv, p. 79. 83. SCHLESINGER, B. E. ...
[26]
Prontosil - an overview | ScienceDirect Topics
Moreover, antibiotic treatments of rats receiving oral prontosil reduced the excretion of sulfanilamide significantly in urine,42 further suggesting that ...
[27]
ELIXIR OF SULFANILAMIDEMASSENGILL: CHEMICAL ...
It was introduced into the United States under the proprietary term Prontylin, a brand of sulfanilamide manufactured by the Winthrop Chemical Company. It should ...
[28]
[PDF] NEW EVIDENCE ON THE IMPACT OF SULFA DRUGS Seema ...
We find that sulfa drugs led to a 25% decline in maternal mortality, a 13% decline in pneumonia and influenza mortality, and a 52% decline in scarlet fever ...
[29]
[PDF] Evidence on the Impact of Sulfa Drugs - Seema Jayachandran
• First major clinical trial was in 1936 in Queen Charlotte's Hospital in England. • Prontosil given to 38 women with puerperal fever (complication from ...
[30]
Prontosil - an overview | ScienceDirect Topics
Josef Klarer and Fritz Mietzsch (chemists of Bayer AG, Germany) first synthesized sulphonamide chrysoidine (KI-730, Prontosil), which was tested by Gerhard ...<|control11|><|separator|>
[31]
Insights into the genetic contexts of sulfonamide resistance among ...
Sulfonamide resistance was first reported around 1938, where particular strains of Streptococcus did not respond to the bactericidal effects of sulfonamide ...
[32]
https://jamanetwork.com/journals/jamainternalmedicine/articlepdf/546031/archinte_66_1_012.pdf
[33]
Medical Innovations: Antibiotics | The National WWII Museum
Apr 27, 2020 · In 1933 they found a combination that worked against Streptococcus and Staphylococcus. He named the drug Prontosil. It was active in live ...
[34]
Soldier Sulfa | Science History Institute
Apr 20, 2010 · Prontosil Rubrum was the first drug to cure bacterial infections and the first of many sulfa drugs.
[35]
An exploratory study evaluated the 30 most commonly reported ...
Dec 17, 2024 · Research has shown that factors associated with drug-induced kidney stones include low solubility of the drug, high doses of the drug, prolonged ...Missing: Prontosil | Show results with:Prontosil
[36]
Sulfonamides: Historical Perspectives, Therapeutic Insights ...
Jul 29, 2025 · Their mechanism of action involves the disruption of folate synthesis, which is an essential pathway for DNA and RNA synthesis. Generally, the ...
[37]
Picking One's Poisons - Pyrrhic Progress - NCBI Bookshelf
By the 1940s, many sulfonamides' toxic properties and growing bacterial resistance resulted in a second round of antibacterial research. A growing number of ...
[38]
The Discovery of Penicillin—New Insights After More Than 75 Years ...
At Oxford University, Ernst Chain found Fleming's 1929 article on penicillin and proposed to his supervisor, Howard Florey, that he try to isolate the compound.
[39]
Alexander Fleming Discovery and Development of Penicillin
Florey recognized that large-scale production of penicillin was probably out of the question in Britain, where the chemical industry was fully absorbed in ...
[40]
Selman A. Waksman, Winner of the 1952 Nobel Prize for Physiology ...
Dr. Waksman's studies had led to the discovery of streptomycin, a new antibiotic. Streptomycin was the first effective cure for tuberculosis (TB).
[41]
[PDF] Modern Medicine and the 20th Century Decline in Mortality
Over the next several years, clinical tests provided compelling evidence that various sulfa compounds were effective in treating puerperal fever, pneumonia, ...
[42]
The sulfonamide-diaminopyrimidine story - PubMed
Tréfouël supposed that the in vivo action was due to a metabolite of the drug (sulfanilamide), a hypothesis later proved by Fuller in 1937. Sulfanilamide ...
[43]
Elixirs, Diluents, and the Passage of the 1938 Federal Food, Drug ...
Mar 15, 1995 · The legacy of the Elixir Sulfanilamide tragedy was the successful passage of the 1938 Federal Food, Drug, and Cosmetic Act—regulatory ...
[44]
Absence of Cross-Reactivity between Sulfonamide Antibiotics and ...
The safety of sulfonamide nonantibiotics is unclear in patients with prior allergic reactions to sulfonamide antibiotics.Missing: modern | Show results with:modern<|control11|><|separator|>
[45]
A new strategy to fight antimicrobial resistance: the revival of old ...
We will review here the successful treatment of MDR bacterial infections with the use of old antibiotics and discuss their place in current practice.<|control11|><|separator|>
[46]
Novel Sulfonamide Derivatives as a Tool to Combat Methicillin ...
This review covers recent advances in sulfonamides active against MRSA. Based on the substitution patterns of sulfonamide moieties, its derivatives can be ...Missing: revival | Show results with:revival