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Cysteamine

Cysteamine is a simple organosulfur compound with the chemical formula HSCH₂CH₂NH₂, also known as 2-aminoethanethiol or mercaptamine, featuring both an amine and a thiol functional group that enable its role as a reducing agent and cystine depleter.^[1] It appears as a white, water-soluble solid with a molecular weight of 77.15 g/mol, a melting point of 95–97°C, and solubility in water and alcohols, while it oxidizes in air to form cystamine.^[1] As a pharmaceutical agent, cysteamine is primarily FDA-approved for the treatment of nephropathic cystinosis, a rare autosomal recessive lysosomal storage disorder characterized by cystine accumulation in organs, where it works by converting cystine into cysteine and cysteine-cysteamine mixed disulfides through thiol-disulfide exchange, thereby reducing toxic lysosomal cystine levels.^[2] Oral formulations, such as cysteamine bitartrate (e.g., Procysbi), are indicated for patients aged 1 year and older to manage systemic effects, while ophthalmic solutions like Cystadrops (0.37% cysteamine hydrochloride, approved in 2020) treat corneal cystine crystal accumulation with four daily instillations, minimizing systemic exposure.^[2]^[3] Beyond cystinosis, cysteamine exhibits radioprotective properties by scavenging free radicals and has been investigated for applications in neurodegenerative diseases like Huntington's and Parkinson's, where it mitigates oxidative stress, upregulates brain-derived neurotrophic factor (BDNF), and inhibits transglutaminase 2 in preclinical models, though clinical trials (e.g., CYTE-I-HD for Huntington's) have shown tolerability with gastrointestinal side effects like nausea and vomiting.^[1]^[4] It is also explored for neuropsychiatric conditions such as schizophrenia and autism spectrum disorders, as well as peripheral uses including anti-malarial activity and protection against acetaminophen-induced liver damage, highlighting its broader therapeutic potential as an antioxidant and autophagy modulator.^[4] Common adverse effects include vomiting (up to 35%), anorexia, and diarrhea, with monitoring required for leukopenia and elevated liver enzymes.^[1]

Chemistry

Chemical properties

Cysteamine is an organosulfur compound with the molecular formula C₂H₇NS and a molar mass of 77.15 g/mol. It features the structure of 2-aminoethanethiol, consisting of an ethane chain substituted with an amino group (-NH₂) at the C-2 position and a thiol group (-SH) at the C-1 position, represented as HSCH₂CH₂NH₂.^[1]^[5] The free base of cysteamine appears as a white crystalline powder or colorless crystals. It has a melting point of 95–97 °C and a boiling point of approximately 130 °C, though it decomposes at higher temperatures. Cysteamine is freely soluble in water (miscible) and soluble in organic solvents such as methanol and ethanol, with enhanced solubility in alkaline media.^[6]^[1]^[7] Due to the presence of the thiol functional group, cysteamine exhibits significant chemical reactivity, including oxidation in air to form cystamine (the disulfide dimer) or other disulfide compounds. It readily participates in thiol-disulfide exchange reactions, which contribute to its role in redox processes. The compound is unstable upon exposure to air, oxidizing on standing, but demonstrates sufficient stability under physiological conditions when properly formulated to prevent degradation.^[1]^[8] Common pharmaceutically relevant salt forms of cysteamine include the hydrochloride salt, which presents as a white crystalline powder, and the bitartrate salt, also a white solid. These salts improve handling and stability compared to the free base.^[9]^[2]

Synthesis and preparation

Cysteamine is primarily synthesized industrially through the reaction of ethanolamine with hydrogen sulfide or related sulfur sources, often involving intermediate formation of thiazoline derivatives followed by hydrolysis. One established route entails treating ethanolamine with carbon disulfide to produce 2-mercaptothiazoline, which is then subjected to high-pressure acidolysis with hydrochloric acid under optimized conditions of 0.3 MPa pressure and 7 hours reaction time, yielding cysteamine hydrochloride at 95.6%.^[10] Alternative industrial methods include the ethanolamine-sulfuric acid-cyclohexylamine process or direct reaction with hydrogen bromide, though these may generate more byproducts.^[10] An additional route involves the reduction of cystine, typically using sodium in liquid ammonia or electrochemical methods, but this is less common due to the higher cost of cystine as a starting material.^[11] In laboratory settings, cysteamine preparation mirrors industrial approaches but on smaller scales with precise control for purity. For instance, ethanolamine is reacted with thioacetic acid or hydrogen sulfide in aqueous or alcoholic media at elevated temperatures (around 100–150°C) under pressure, followed by acidification to form the hydrochloride salt, achieving yields of 80–95% depending on conditions.^[12] Purification typically involves distillation under reduced pressure to remove volatiles, followed by recrystallization from ethanol or water-ethanol mixtures to isolate the product as colorless crystals, with melting points around 95–97°C for the free base.^[13] These steps minimize impurities like cystamine, which forms via oxidation, ensuring high-purity cysteamine for research applications. Pharmaceutical formulations of cysteamine commonly employ the bitartrate salt for improved stability and solubility. Cysteamine bitartrate is prepared by liberating the free base from cysteamine hydrochloride through basification with sodium hydroxide in aqueous solution, followed by addition of L-(+)-tartaric acid at controlled pH (around 4–5) and temperature (20–60°C), then cooling to induce crystallization with yields exceeding 90%.^[14] For Cystagon, immediate-release capsules contain cysteamine bitartrate equivalent to 50 or 150 mg of cysteamine free base, formulated by blending the salt with excipients like cellulose and encapsulating directly.^[15] Procysbi's delayed-release granules involve extrusion-spheronization of cysteamine bitartrate pellets, coating them with an enteric polymer (e.g., hypromellose phthalate) via fluidized bed technology to enable twice-daily dosing, with sachets providing 75 mg or 300 mg cysteamine free base equivalents.^[16] Cystadrops eye drops are formulated as a 0.55% cysteamine hydrochloride solution (3.8 mg/mL cysteamine base, equivalent to 5.6 mg/mL hydrochloride), stabilized with carmellose sodium for viscosity and benzalkonium chloride as preservative, manufactured under sterile conditions to a pH of 4.5–5.5.^[17] Due to cysteamine's thiol group, oxidation to cystamine during manufacturing poses a key stability challenge, accelerated by oxygen, light, and elevated temperatures. Protection strategies include conducting reactions and formulations under nitrogen atmosphere, incorporating chelators like 0.01% EDTA to bind trace metals that catalyze oxidation, and storing intermediates at low temperatures (e.g., 4°C or below) to maintain >95% purity for weeks.^[18] In eye drop production, degassing solutions and using opaque packaging further minimize degradation, ensuring less than 10% cystamine formation over the shelf life.^[19]

Pharmacology

Mechanism of action

Cystinosis is an autosomal recessive lysosomal storage disorder caused by mutations in the CTNS gene, which encodes the lysosomal cystine transporter cystinosin, resulting in the intralysosomal accumulation of cystine and subsequent crystal formation in affected organs such as the kidneys and corneas.^[20] Cysteamine, a thiol-containing aminothiol, addresses this defect by penetrating cells and accumulating in lysosomes, where it participates in a thiol-disulfide exchange reaction with accumulated cystine to deplete its levels.^[21] This reaction converts cystine into more soluble and permeable products that can exit the lysosome via alternative transporters, thereby preventing toxic cystine buildup without relying on the defective cystinosin.^[22] The primary biochemical pathway involves the following net reaction:

\text{cystine} + 2 \text{ cysteamine} \rightarrow 2 \text{ cysteine} + \text{cystamine}

In this disulfide interchange, cysteamine's free thiol group (-SH) reduces the disulfide bond in cystine (cysteine-cysteine), forming cysteine and the cysteine-cysteamine mixed disulfide intermediate, which can further react to yield cystamine (the oxidized dimer of cysteamine).^[21] These breakdown products are more readily exported from the lysosome compared to cystine, facilitating their removal from cells and mitigating the crystalline deposits that drive organ damage in cystinosis.^[23] Beyond its cystine-depleting action, cysteamine exhibits secondary antioxidant effects through its thiol moiety, which can scavenge reactive oxygen species and elevate intracellular glutathione levels in cystinotic cells, potentially alleviating oxidative stress. In non-cystinosis applications, these properties may contribute to reducing inflammation and oxidative damage, as explored in contexts like neurodegenerative disorders, though the primary therapeutic specificity remains tied to lysosomal cystine modulation in cystinosis.

Pharmacokinetics

Cysteamine exhibits rapid absorption following oral administration of the immediate-release formulation, with a time to maximum plasma concentration (T_max) of about 1.4 hours. ^[24] The delayed-release formulation, such as Procysbi, shows a prolonged T_max of around 3.1 hours due to enteric coating, allowing for twice-daily dosing while maintaining comparable systemic exposure. ^[25] Topical application as eye drops (e.g., 0.37% solution) achieves high local concentrations in the cornea for cystine crystal depletion with negligible systemic absorption, as the daily ocular dose represents less than 4% of the oral dose. ^[26] The volume of distribution for cysteamine is approximately 2 L/kg, indicating moderate tissue distribution, with about 52% plasma protein binding primarily to albumin. ^[24] It crosses the blood-brain barrier to a limited extent, resulting in low central nervous system exposure. ^[27] Cysteamine accumulates in lysosomes where it interacts with cystine via disulfide exchange. ^[28] Metabolism occurs primarily in the liver through oxidation by cysteamine dioxygenase to hypotaurine, which is further converted to taurine. ^[29] The elimination half-life is 1-2 hours for oral formulations, supporting frequent dosing to maintain therapeutic levels. ^[28] Excretion is predominantly renal, with cysteamine and its mixed disulfides cleared via the kidneys; apparent clearance is about 20-30 mL/min/kg. ^[24] Dose adjustments are recommended in renal impairment due to reduced clearance in cystinosis patients with progressive kidney dysfunction. ^[30] Formulation-specific pharmacokinetics differ notably: immediate-release cysteamine (e.g., Cystagon) achieves peak plasma levels rapidly but requires every-6-hour dosing to sustain cystine depletion, whereas the delayed-release form (e.g., Procysbi) provides a flatter concentration profile with lower peak-to-trough ratios, enabling every-12-hour administration and improved patient adherence. ^[25]^[30]

Medical uses

Indications

Cysteamine is primarily indicated for the treatment of nephropathic cystinosis, a rare autosomal recessive lysosomal storage disorder caused by mutations in the CTNS gene, leading to excessive cystine accumulation in lysosomes and subsequent damage to organs such as the kidneys, eyes, thyroid, and pancreas. By reacting with cystine to form a mixed disulfide that can be transported out of lysosomes, cysteamine reduces intracellular cystine levels and mitigates crystal formation. Long-term clinical trials, including open-label studies and randomized controlled trials, have shown that cysteamine therapy, when initiated early, significantly delays the onset of renal failure, with patients experiencing improved glomerular filtration rates and prolonged time to end-stage kidney disease compared to untreated historical controls.^[23]^[31]^[32] For the ocular manifestations of nephropathic cystinosis, cysteamine ophthalmic solution (Cystadrops, 0.37%) is approved to treat corneal cystine crystal deposition, which causes photophobia, pain, and blurred vision. This topical formulation penetrates the corneal epithelium to deplete cystine crystals directly in the affected tissue. Phase 3 clinical trials have demonstrated its efficacy, with significant reductions in corneal cystine crystal scores after 90 days of treatment and sustained improvements in symptoms like photophobia and ocular discomfort over 5 years of follow-up.^[33]^[34]^[35] Off-label, topical cysteamine cream (5%) is used for dermatological conditions involving hyperpigmentation, such as melasma, post-inflammatory hyperpigmentation, and solar lentigines. Its depigmenting action primarily involves inhibition of tyrosinase, the rate-limiting enzyme in melanogenesis, as well as scavenging of reactive intermediates like dopaquinone and chelation of metal ions essential for melanin production. Randomized controlled trials and meta-analyses have established its efficacy, showing comparable or superior reduction in modified Melasma Area and Severity Index (mMASI) scores to hydroquinone-based treatments after 8-16 weeks, with minimal irritation.^[36]^[37]^[38] Investigational applications of cysteamine extend to other conditions, including neurodegenerative diseases like Huntington's disease, where a phase 2/3 trial of delayed-release cysteamine (RP103) reported slower progression of motor symptoms as measured by the Total Motor Score over 18 months compared to placebo. Preclinical and early-phase studies also suggest potential neuroprotective effects through upregulation of brain-derived neurotrophic factor (BDNF) and reduction of mutant huntingtin aggregates, though no new trials were active as of 2025. For radiation protection, cysteamine's antioxidant properties have been explored in animal models, demonstrating mitigation of radiation-induced DNA damage and tissue injury, but human clinical trials remain limited to historical data without recent advancements. Potential utility in non-cystic fibrosis bronchiectasis stems from its mucolytic and anti-inflammatory actions in preclinical models, but efficacy has not been confirmed in ongoing or completed trials as of 2025.^[39]^[40]^[41] Cysteamine is contraindicated in patients with a history of hypersensitivity reactions, including anaphylaxis, to cysteamine, penicillamine, or any formulation components. It is not indicated for non-nephropathic (ocular or intermediate) cystinosis, as these forms lack systemic organ involvement requiring oral cystine depletion, and therapy is limited to topical ocular treatment for corneal symptoms.^[30]^[33]^[42]

Administration and dosage

Cysteamine is primarily administered orally for the treatment of nephropathic cystinosis, with two main formulations available: immediate-release capsules (Cystagon) and delayed-release capsules or granules (Procysbi). For Cystagon, the recommended maintenance dosage is 1.3 g/m²/day, divided into four doses every 6 hours, while for patients over 12 years and weighing more than 110 pounds (50 kg), it is 2 g/day divided similarly.^[30] For Procysbi, the maintenance dosage is also 1.3 g/m²/day, but divided into two doses every 12 hours, with a maximum of 1.95 g/m²/day if tolerated.^[25] Therapy is initiated at one-fourth to one-sixth of the maintenance dose in cysteamine-naïve patients, with gradual titration over 4 to 6 weeks to minimize gastrointestinal intolerance.^[30]^[25] Dosage adjustments are based on body surface area for pediatric patients, who start at lower doses due to age-related tolerability concerns, and leukocyte cystine levels are monitored to guide titration, targeting less than 1 nmol half-cystine per mg protein.^[30]^[25] No specific renal function-based adjustments are required, as cysteamine dosing aims to maintain therapeutic cystine depletion regardless of kidney status, though monitoring is intensified in patients with renal impairment.^[43] Initial monitoring of leukocyte cystine levels occurs biweekly during titration, followed by monthly assessments for the first three months, then quarterly.^[25] For ophthalmic use in corneal cystine crystal accumulation associated with cystinosis, cysteamine is formulated as a 0.37% ophthalmic solution (Cystadrops), administered as one drop in each eye every 6 hours (four times daily during waking hours).^[44] The solution is viscous to prolong contact time, and the bottle should be discarded 7 days after opening to prevent contamination.^[44] Unopened bottles are stored refrigerated at 2°C to 8°C, while opened bottles are kept at room temperature (20°C to 25°C) in the original carton to protect from light and oxidation.^[44] Topical cysteamine is used off-label for skin hyperpigmentation conditions such as melasma, typically as a 5% cream applied once daily at night to affected areas on clean, dry skin.^[45] The cream is left on for 15 to 30 minutes before rinsing with a gentle cleanser and applying moisturizer, with application time gradually increased after 6 weeks if tolerated to enhance efficacy while minimizing irritation.^[46]^[47] Patient instructions emphasize adherence to timing for optimal efficacy; for oral formulations, Cystagon is preferably taken with food or milk to reduce gastrointestinal upset, while Procysbi is ideally administered on an empty stomach but may be taken with a small amount (up to 4 ounces) of low-fat food if necessary.^[30]^[25] Procysbi capsules or granules can be mixed with applesauce or fruit juice (excluding grapefruit) for patients unable to swallow whole, or administered via gastrostomy tube.^[25] Missed doses should be taken if more than 2 hours remain before the next scheduled dose, without doubling.^[30]

Safety and tolerability

Adverse effects

Cysteamine therapy, particularly the oral form used in nephropathic cystinosis, is associated with a high incidence of gastrointestinal adverse effects, affecting up to 90% of patients in some clinical cohorts. Common manifestations include nausea, vomiting, diarrhea, and abdominal pain, with vomiting reported in 65% of patients on immediate-release formulations. These effects can lead to dehydration, electrolyte imbalances, and reduced compliance; severe cases may result in gastrointestinal ulcers or bleeding, necessitating symptomatic monitoring and dose adjustments.^[20] Systemic side effects are also frequent, occurring in over 70% of treated patients in long-term studies. These encompass leukopenia, which requires regular complete blood count (CBC) monitoring to detect and manage potential bone marrow suppression. Neurological symptoms such as seizures, drowsiness, lethargy, and encephalopathy have been observed, often resolving with dose reduction. An Ehlers-Danlos-like syndrome, characterized by skin laxity, joint hypermobility, vascular lesions, and bone abnormalities like osteopenia or fractures, emerges in some patients on high doses, prompting recommendations to lower the dose if symptoms appear.^[48]^[49] Ophthalmic administration of cysteamine eye drops for corneal cystine crystal deposition commonly causes local irritation, with adverse effects including photophobia, eye pain, redness (ocular hyperemia), blurred vision, and headache reported in more than 10% of users during clinical trials. These symptoms typically occur upon instillation and may decrease with continued use, but persistent discomfort warrants evaluation for corneal abrasions or alternative dosing.^[50]^[51] Topical cysteamine creams, employed for hyperpigmentation disorders like melasma, generally produce mild dermatological reactions such as transient erythema, burning sensation, pruritus, and dryness, affecting approximately 42% of patients in meta-analyses. Severe skin reactions are rare, but users should avoid contact with fabrics, as cysteamine can cause bleaching or discoloration due to its reducing properties.^[38]^[47] Long-term use of oral cysteamine is linked to growth retardation in pediatric patients if not adequately managed, alongside potential thyroid dysfunction, though early initiation reduces hypothyroidism incidence to about 56% compared to 87% in poorly treated patients, per long-term studies. Bone density reduction remains a concern; however, DEXA scans are not recommended in pediatric patients due to limitations in accuracy and reliability for predicting fracture risk, as noted in recent reviews. As of 2025, systematic reviews emphasize the need for improved adherence strategies to mitigate side effects, with emerging therapies under investigation that may offer alternative safety profiles.^[52]^[48]^[53]^[54] The incidence of serious adverse events with delayed-release formulations is similar to or potentially slightly higher than with immediate-release, based on low-certainty evidence from recent reviews. Lifelong surveillance for these effects is essential.^[54]

Drug interactions

Cysteamine, particularly in its delayed-release oral formulations such as Procysbi, may interact with agents that increase gastric pH, including proton pump inhibitors (e.g., omeprazole) and medications containing bicarbonate or carbonate, potentially leading to premature release of the drug and altered pharmacokinetics that could affect white blood cell cystine concentrations. Although a clinical study showed no significant pharmacokinetic changes when Procysbi was co-administered with 20 mg omeprazole, monitoring of cystine levels is recommended during concomitant use to ensure efficacy. Alcohol consumption should be avoided during cysteamine therapy, as it can accelerate the release rate of the drug from delayed-release formulations, potentially increasing gastrointestinal side effects such as nausea, vomiting, and ulceration risk while altering overall effectiveness and safety profile.^[55] Oral solutions of cysteamine often contain sorbitol as an excipient, which can contribute to osmotic diarrhea, particularly in patients sensitive to sugar alcohols or at higher doses; alternative sorbitol-free formulations or dosage adjustments may be considered to mitigate this risk.^[56] Coadministration with other cystine-depleting agents, such as penicillamine, may result in additive effects on cystine reduction, but such combinations are not typically recommended due to overlapping mechanisms and the established preference for cysteamine monotherapy in conditions like nephropathic cystinosis; hypersensitivity to penicillamine is also a contraindication for cysteamine use.^[2] Cysteamine exhibits no significant inhibition of cytochrome P450 enzymes (including CYP1A2, CYP2C9, CYP2D6, and CYP3A4), indicating a low potential for pharmacokinetic interactions via this pathway with other medications metabolized by these enzymes. For the ophthalmic formulation (Cystaran), systemic absorption is minimal, resulting in negligible drug interaction risks compared to oral forms.^[57] Given cysteamine's renal clearance and the underlying kidney involvement in cystinosis, co-administration with drugs that impair renal function or alter clearance (e.g., certain nephrotoxic agents) necessitates close monitoring of cystine levels and potential dose adjustments to maintain therapeutic efficacy and avoid accumulation.^[55]

History and society

Development and discovery

Cysteamine, originally known as β-mercaptoethylamine, was first investigated in the 1950s for its radioprotective properties following reports of its ability to mitigate damage from ionizing radiation in animal models.^[58] Early clinical trials in 1955 explored its use in treating radiation sickness in humans.^[59] During this period, derivatives like WR-638 (cysteamine phosphate) were developed as latent radioprotectors to enhance stability and targeted release in biological systems, shifting initial focus from direct cysteamine administration.^[60] In the late 1960s, research pivoted toward cystinosis after investigators at the US National Institutes of Health identified defective lysosomal cystine efflux as the underlying cause of cystine accumulation in patient cells.^[61] Key contributions came from A.D. Patrick and B.D. Lake, who in 1968 used electron microscopy to confirm the presence of cystine crystals within lysosomes of cystinotic tissues, establishing the lysosomal basis of the disease and prompting exploration of thiol compounds for cystine depletion.^[62] Animal models in the early 1970s further validated these lysosomal effects, showing cysteamine's capacity to reduce cystine levels in rodent tissues affected by similar storage disorders.^[61] Pre-clinical studies in the 1970s demonstrated cysteamine's mechanism through in vitro thiol-disulfide exchange, where it reacts with lysosomal cystine to form a mixed disulfide that can exit the lysosome, effectively depleting intracellular cystine in cultured cystinotic fibroblasts and leukocytes.^[63] This work, led by Jess G. Thoene, Robert G. Oshima, John C. Crawhall, and Jerry A. Schneider, marked a shift from radioprotection to cystinosis therapy, with in vivo rat models confirming sustained cystine reduction without toxicity at therapeutic doses.^[63] Building on these findings, the first human trials began in 1976, administering oral and intravenous cysteamine to cystinosis patients and achieving over 80% reduction in leukocyte cystine levels, as reported by Thoene and colleagues.^[63] A major milestone in the 1980s was the identification of the bitartrate salt form of cysteamine, which improved chemical stability and reduced hygroscopicity compared to the hydrochloride salt, facilitating reliable oral formulations for long-term use in clinical settings.^[64] This development, pursued by Schneider's team at the University of California, San Diego, addressed early challenges with the compound's odor and instability, paving the way for broader therapeutic application.^[65]

Regulatory approvals and availability

Cysteamine bitartrate immediate-release capsules, marketed as Cystagon, received approval from the U.S. Food and Drug Administration (FDA) on August 15, 1994, for the treatment of nephropathic cystinosis in patients aged 12 months and older.^[66] The delayed-release formulation, Procysbi, was approved by the FDA on April 30, 2013, offering twice-daily dosing for the same indication in patients aged 1 year and older.^[67] In 2020, the FDA approved Cystadrops, a 0.37% cysteamine ophthalmic solution, on August 19 for the treatment of corneal cystine crystal accumulation in cystinosis patients aged 1 year and older, providing a more stable alternative to compounded eye drops.^[68] In the European Union, the European Medicines Agency (EMA) granted orphan drug designation to cysteamine bitartrate for nephropathic cystinosis in 2010, recognizing its potential to address an unmet need in a rare condition affecting fewer than 5 in 10,000 people.^[69] Procysbi received centralized marketing authorization from the European Commission on September 6, 2013, for the treatment of proven nephropathic cystinosis, with availability extended across member states shortly thereafter.^[70] Approvals in other regions, such as Canada via Health Canada in 2013 for Procysbi, have followed similar orphan drug pathways to facilitate access for cystinosis patients.^[71] Key brand names for cysteamine formulations include Cystagon (manufactured by Mylan Pharmaceuticals), Procysbi (developed by Horizon Therapeutics and now under Amgen following acquisition in October 2023), and Cystadrops (by Recordati Rare Diseases).^[72]^[73]^[74] As of November 2025, no generic versions of Procysbi or Cystagon are available in the United States due to ongoing patent protections and exclusivity periods, though generic cysteamine bitartrate capsules have entered markets in select regions post-patent expiry for earlier formulations.^[75]^[76] Access to cysteamine remains challenged by its high cost, estimated at approximately $300,000 annually for oral formulations like Procysbi in the U.S., driven by the small patient population and extensive development requirements for orphan drugs.^[77] Patient assistance programs, such as those offered by Horizon Therapeutics and Recordati, provide financial support, copay assistance, and free medication to eligible uninsured or underinsured individuals with cystinosis, helping mitigate barriers in high-income countries.^[78] Cysteamine's development has benefited from U.S. Orphan Drug Act incentives, including seven years of market exclusivity, tax credits for clinical testing, and expedited review processes, which have encouraged investment in treatments for rare diseases like cystinosis.^[79] However, these policies have sparked controversies over pricing, with critics arguing that orphan drug status enables excessive costs—often exceeding $100,000 per patient annually—disproportionately burdening healthcare systems and families despite the drugs' life-extending benefits.^[80] Global disparities persist, as lower-income regions face limited availability due to import challenges and lack of local manufacturing, underscoring ongoing debates about equitable access to orphan therapies.^[81]

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Based on two studies comparing cysteamine with placebo, cysteamine demonstrated superior efficacy in reducing skin hyperpigmentation in patients with melasma, ...
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Cysteamine Protects Neurons From Mutant Huntingtin Toxicity
Cysteamine and its derivate cystamine were shown to reduce neuropathology and prolong lifespan. Human studies have demonstrated safety, and suggestive results ...Missing: 2024 2025 bronchiectasis radiation
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CYSTADROPS is a sterile, viscous, ophthalmic solution containing 3.8 mg/mL of cysteamine. (0.37%) equivalent to 5.6 mg/mL of cysteamine hydrochloride (0.55%).
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A randomised, double-blind, placebo-controlled clinical trial confirmed the efficacy of cysteamine cream in the treatment of epidermal melasma [1]. Note: oral ...
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Cystadrops® (Cysteamine Ophthalmic Solution) Efficacy and Safety
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The content of sorbitol in medicinal products for oral use may affect the bioavailability of other medicinal products for oral use administered concomitantly.
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Oct 27, 2020 · FDA approval history for Cystadrops (cysteamine hydrochloride) used to treat Corneal Cystine Crystal Accumulation.
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Cystadrops® (Cysteamine Ophthalmic Solution) Official Website
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Generic Procysbi Availability. Last updated on Oct 8, 2025. Procysbi is a brand name of cysteamine, approved by the FDA in the following formulation(s): ...
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Compare Procysbi prices, print discount coupons, find manufacturer promotions, copay cards and patient assistance programs.
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