Brief report: treatment of severe colchicine overdose with colchicine-specific Fab fragments

Colchicine poisoning: Case report of three homicides in a family

Background

Colchicine is a common therapeutic agent for inflammatory conditions such as gout, yet its narrow therapeutic range frequently results in cases of overdose and subsequent poisoning. Acute colchicine poisoning can be difficult to identify due to its nonspecific clinical manifestations, posing a diagnostic challenge for emergency physicians without a clear history of colchicine ingestion.

Case presentation

This report describes a tragic case of acute colchicine poisoning that resulted in three familial homicides. The patients presented with fever, abdominal pain, and diarrhea, which rapidly escalated to shock during their emergency department visits. Laboratory tests revealed a marked leukocytosis, mild elevation in procalcitonin (PCT), significantly elevated creatine kinase (CK) and CK-MB levels, and liver function abnormalities. Despite treatment with carbapenem antibiotics and aggressive fluid resuscitation, the patients' condition deteriorated, marked by a progressive decline in leukocytes and neutrophils. Initially misdiagnosed as septic shock, the ineffectiveness of the standard treatment protocols led to a fatal outcome for all three individuals.

Conclusion

Emergency physicians should consider acute colchicine poisoning as a differential diagnosis in patients presenting with shock and the following clinical indicators: (1) pronounced increase in peripheral leukocytes with a disproportionate rise in neutrophils; (2) discordance between the level of serum procalcitonin and the severity of presumed septic shock; (3) early increase in serum creatine kinase (CK) and CK-MB; (4) poor response to antibiotics and resuscitative efforts, accompanied by a continuous decrease in white blood cells and neutrophils. This case underscores the critical need for awareness of colchicine toxicity in the emergency setting, particularly when the clinical presentation mimics septic shock but fails to respond to standard treatments.

Colchicine: the good, the bad, the ugly and how to minimize the risks

Colchicine has an important role in managing various conditions, including gout, familial Mediterranean fever, amyloidosis, Behçet's syndrome, recurrent pericarditis and calcium pyrophosphate deposition disease. The adverse effect profile of colchicine is well understood. However, due to its narrow therapeutic index, colchicine has been associated with overdose and fatalities. When ingested in toxic amounts, the mainstay of management is supportive care. Strategies to minimize the risk of colchicine poisoning can focus on three broad causes: unauthorized access, intentional overdose and inappropriate dosing. Culturally safe and appropriate education about storage and appropriate use of colchicine is essential to minimize the risk of overdose.

CYP3A4/P-glycoprotein inhibitors related colchicine toxicity mimicking septic shock

Colchicine toxicity is uncommon when patients receive a therapeutic dose regularly. However, inadvertent drug interactions can result in unpredicted adverse outcomes. The toxicity of colchicine can manifest in various ways, ranging from mild and non-specific symptoms to severe form known as multiple organ dysfunction syndrome. This case highlights (1) the diagnostic challenge that arises when distinguishing between the severe manifestation of colchicine toxicity and septic shock and (2) concomitant prescription of colchicine with potent CYP3A4 and P-glycoprotein inhibitors (ie, clarithromycin) can lead to colchicine toxicity despite normal renal and hepatic clearance. Unfortunately, specific tests of colchicine toxicity were not routinely available. A high index of clinical suspicion and recognition of drug interactions with their common presentations are crucial for making diagnosis and management. Failure to recognise drug toxicity can result in poor outcomes.

Confirmed Fatal Colchicine Poisoning in an Adolescent with Blood and Bile Concentrations-Implications for GI Decontamination?

INTRODUCTION

Colchicine is commonly used to treat diseases like acute gouty arthritis. However, colchicine has a very narrow therapeutic index, and ingestions of > 0.5mg/kg can be deadly. We report a fatal acute colchicine overdose in an adolescent. Blood and postmortem bile colchicine concentrations were obtained to better understand the degree of enterohepatic circulation of colchicine.

CASE REPORT

A 13-year-old boy presented to the emergency department after acute colchicine poisoning. A single dose of activated charcoal was administered early but no other doses were attempted. Despite aggressive interventions such as exchange transfusion and veno-arterial extracorporeal membrane oxygenation (VA-ECMO), the patient died 8 days later. Postmortem histology was notable for centrilobular necrosis of the liver and a cardiac septal microinfarct. The patient's blood colchicine concentration on hospital days 1 (~30 hours post-ingestion), 5, and 7 was 12ng/mL, 11ng/mL, and 9.5ng/mL, respectively. A postmortem bile concentration obtained during autopsy was 27ng/mL.

DISCUSSION

Humans produce approximately 600mL of bile daily. Assuming that activated charcoal would be able to adsorb 100% of biliary colchicine, using the bile concentration obtained above, only 0.0162mg of colchicine per day would be able to be adsorbed and eliminated by activated charcoal in this patient.

CONCLUSION

Despite supportive care, activated charcoal, VA-ECMO, and exchange transfusion, modern medicine may not be enough to prevent death in severely poisoned colchicine patients. Although targeting enterohepatic circulation with activated charcoal to enhance elimination of colchicine sounds attractive, the patient's low postmortem bile concentration of colchicine suggests a limited role of activated charcoal in enhancing elimination of a consequential amount of colchicine.

In vivo Neutralization of Colchicine Toxicity by a PASylated Anticalin in a Rat Model

We have investigated the pharmacokinetics (PK) and in vivo activity of an Anticalin exhibiting picomolar affinity towards colchicine, a plant toxin with low tolerable dose in humans. PK analysis of the 20-kDa "Colchicalin" protein in male Sprague Dawley rats (n=3) revealed a very short plasma half-life (3.5min), which was prolonged 21-fold via genetic fusion with a 200-residue Pro/Ala sequence (PASylation). The scavenging activity of the PASylated Colchicalin was investigated over 3.5h via stoichiometric application following a sub-toxic i.v. dose of colchicine on anesthetized rats (n=2) leading to a rapid rise in total plasma colchicine concentration. We then established a 14-day intoxication model in rats (n=3) at a 30mg/kg p.o. colchicine dose which was characterized by severe weight loss, elevated neutrophil-to-lymphocyte ratio and shortened survival. Colchicalin administration at 4.2% of the neutralizing dose (125mg/kg/day daily for 12 consecutive days) resulted in faster relief of the symptoms in 2/3 of animals (n=6) compared to the control group without Colchicalin treatment (n=5). Nevertheless, 1/3 of the rats died suddenly after the first Colchicalin injection, probably due to a steep rise in the total colchicine plasma concentration, which suggests further improvement of the dosing scheme prior to potential application in acute human colchicine poisoning.

In-syringe dispersive solid phase filter extraction cleanup followed by liquid chromatography-triple quadrupole mass spectrometry for fast determination of colchicine in plasma/urine

As an effective treatment for acute gouty arthritis and cardiovascular disease, colchicine is also a toxic alkaloid and may cause poisoning or even death in overdose. The study of colchicine elimination and the diagnosis of poisoning etiology need the rapid and accurate quantitative analysis method in biological matrix. An analytical method was developed for colchicine in plasma and urine by in-syringe dispersive solid phase extraction (DSPE) followed by liquid chromatography-triple quadrupole mass spectrometry (LC-MS/MS). Sample extraction and protein precipitation were proceeded with acetonitrile. The extract was cleaned by in-syringe DSPE. An XBridge™ BEH C₁₈ column（100 mm × 2.1 mm, 2.5 µm）was used to separate colchicine by gradient elution with mobile phase of 0.01% (v/v) ammonia-methanol. The amount and filling sequence of magnesium sulfate (MgSO₄) and primary secondary amine (PSA) suitable for in-syringe DSPE were studied. Scopolamine was screened as the quantitative internal standard (IS) for colchicine analysis according to the consistency of recovery rate, chromatographic retention time and matrix effects. The limits of detection for colchicine in plasma and urine were both 0.06 ng mL^-1 and the limits of quantitation were both 0.2 ng mL^-1. The linear range was 0.04 - 20 ng mL^-1 (Equivalent to 0.2-100 ng mL^-1 in plasma or urine) with a correlation coefficient r > 0.999. By IS calibration, the average recoveries at three spiking levels in plasma and urine were 95.3-102.68% and 93.9-94.8% with the relative standard deviations (RSDs) of 2.9-5.7% and 2.3-3.4%, respectively. The matrix effects, stability, dilution effects and carryover for determination of colchicine in plasma and urine were also evaluated. The elimination of colchicine within 72-384 h post-ingestion was studied for a poisoning patient with the doses of 1 mg d^-1 for 39 days and then 3 mg d^-1 for 15 days).

Half-Life Extension and Biodistribution Modulation of Biotherapeutics via Red Blood Cell Hitch-Hiking with Novel Anti-Band 3 Single-Domain Antibodies

Small therapeutic proteins are receiving increased interest as therapeutic drugs; however, their clinical success has been limited due to their rapid elimination. Here, we report a half-life extension strategy via strategy via red blood cell red blood cell (RBC) hitch-hiking. This manuscript details the development and characterization of novel anti-RBC single-domain antibodies (sdAbs), their genetic fusion to therapeutic antibody fragments (TAF) as bispecific fusion constructs, and their influence on TAF pharmacokinetics and biodistribution. Several sdAbs specific to the band 3 antigen were generated via phage-display technology. Binding affinity to RBCs was assessed via flow cytometry. Affinity maturation via random mutagenesis was carried out to improve the binding affinity of the sdAbs. Bi-specific constructs were generated by fusing the anti-RBC sdAbs with anti-tissue necrosis factor alpha (TNF-α) TAF via the use of a glycine-serine flexible linker, and assessments for binding were performed via enzyme-linked immunosorbent assay and flow cytometry. Pharmacokinetics of anti-RBC sdAbs and fusion constructs were evaluated following intravenous bolus dosing in mice at a 1 mg/kg dose. Two RBC-binding sdAbs, RB12 and RE8, were developed. These two clones showed high binding affinity to human RBC with an estimated KD of 17.7 nM and 23.6 nM and low binding affinity to mouse RBC with an estimated KD of 335 nM and 528 nM for RB12 and RE8, respectively. Two derivative sdAbs, RMA1, and RMC1, with higher affinities against mouse RBC, were generated via affinity maturation (KD of 66.9 nM and 30.3 nM, respectively). Pharmacokinetic investigations in mice demonstrated prolonged circulation half-life of an anti-RBC-TNF-α bispecific construct (75 h) compared to a non-RBC binding control (1.3 h). In summary, the developed anti-RBC sdAbs and fusion constructs have demonstrated high affinity in vitro, and sufficient half-life extension in vivo.

Half-Life Extension and Biodistribution Modulation of Biotherapeutics via Red Blood Cell Hitch-Hiking with Novel Anti-Band 3 Single-Domain Antibodies

Small therapeutic proteins are receiving increased interest as therapeutic drugs; however, their clinical success has been limited due to their rapid elimination. Here, we report a half-life extension strategy via strategy via red blood cell red blood cell (RBC) hitch-hiking. This manuscript details the development and characterization of novel anti-RBC single-domain antibodies (sdAbs), their genetic fusion to therapeutic antibody fragments (TAF) as bispecific fusion constructs, and their influence on TAF pharmacokinetics and biodistribution. Several sdAbs specific to the band 3 antigen were generated via phage-display technology. Binding affinity to RBCs was assessed via flow cytometry. Affinity maturation via random mutagenesis was carried out to improve the binding affinity of the sdAbs. Bi-specific constructs were generated by fusing the anti-RBC sdAbs with anti-tissue necrosis factor alpha (TNF-α) TAF via the use of a glycine-serine flexible linker, and assessments for binding were performed via enzyme-linked immunosorbent assay and flow cytometry. Pharmacokinetics of anti-RBC sdAbs and fusion constructs were evaluated following intravenous bolus dosing in mice at a 1 mg/kg dose. Two RBC-binding sdAbs, RB12 and RE8, were developed. These two clones showed high binding affinity to human RBC with an estimated K_D of 17.7 nM and 23.6 nM and low binding affinity to mouse RBC with an estimated K_D of 335 nM and 528 nM for RB12 and RE8, respectively. Two derivative sdAbs, RMA1, and RMC1, with higher affinities against mouse RBC, were generated via affinity maturation (K_D of 66.9 nM and 30.3 nM, respectively). Pharmacokinetic investigations in mice demonstrated prolonged circulation half-life of an anti-RBC-TNF-α bispecific construct (75 h) compared to a non-RBC binding control (1.3 h). In summary, the developed anti-RBC sdAbs and fusion constructs have demonstrated high affinity in vitro, and sufficient half-life extension in vivo.

Use of Colchicine for Pericardial Inflammation: Risks and Toxicities-A Cautionary Tale

Colchicine is commonly used as part of the treatment of acute and recurrent pericarditis. Neuromyopathy is a well-known, but probably underreported, side effect of colchicine. Here we present a unique case of a 56-year-old woman with recurrent episodes of colchicine-induced neuromyopathy over many years. (Level of Difficulty: Beginner.).

Progress in the management of acute colchicine poisoning in adults

Colchicine is a tricyclic, lipid-soluble alkaloid which has long been used to treat gout and many immunological diseases. Due to its narrow therapeutic window and long half-life of elimination, colchicine overdose occurs occasionally. Unfortunately, some patients lost their lives because of colchicine overdose or suicide. Acute colchicine poisoning can lead to original gastrointestinal disorders, shock, progressive multiple organ failure, and myelosuppression. Although many researchers in the world performed lots of research, there are currently no specific antidotes for colchicine poisoning. Meanwhile, there are no management guidelines to treat patients with acute colchicine poisoning until now. Herein, we systematically elaborate on the clinical features and progress in the management of acute colchicine poisoning in adults according to the previous literature. This paper will provide some valuable and available information for clinicians.

[Colchicum poisoning by confusion with wild garlic (Allium ursinum)]

INTRODUCTION

Colchicine poisoning is a life-threatening intoxication.

CASE REPORT

We report a case of food poisosing with Colchicum autumnale by confusion with wild garlic. The clinical presentation is the same as that of colchicine drug intoxication. The evolution can be fatal in case of massive ingestion. The proximity of the place of growth and their similar appearance in spring make Colchicum and wild garlic plants that can easily be confused.

CONCLUSION

Physicians have to be vigilant in case of dysenteric syndrome and biological disturbances in spring and look for the consumption of perennial plant preceding symptoms.

Severe colchicine poisoning treated successfully with kidney replacement therapy and plasmapheresis: a case report

Colchicine is commonly prescribed for treatment of inflammatory conditions but has a narrow therapeutic window and dangerous toxicity profile. Here we describe a case of survival after massive unintentional colchicine overdose treated with plasmapheresis and renal replacement therapy. A 37 year old male with history of pericarditis presented to the Emergency Department with a chief complaint of nausea, vomiting, and diarrhea after unintentionally ingesting 36 mg of colchicine 17 h prior to arrival. An initial colchicine concentration resulted at 5.1 ng/mL (30 h post-ingestion) and peaked at 12 ng/mL (40 h post-ingestion). He was treated with continuous kidney replacement therapy (CKRT) beginning on his first day of hospitalization and with plasmapheresis on hospital days two through four. The patient's course was complicated by multiorgan failure including coagulopathy, respiratory failure, neuropathy, renal failure, pancytopenia, and heart failure. He was discharged to inpatient rehabilitation on hospital day 24. On clinical follow up four months after discharge the patient was found to have no significant persistent morbidity related to colchicine overdose.

Severe Colchicine Intoxication: A Case Report and Review of Literature in Adults

Colchicine is used in the treatment of multiple diseases such as gout and auto-immune diseases. Although cases of multiorgan failure have been described in adults with doses usually higher than 0.8 mg/kg, the epidemiology data are scarce and the intoxication mechanisms are not well-known. The authors present the case of a 66-year-old male patient, with a medical history of depression, admitted to the emergency room (ER) due to intentional colchicine ingestion after taking 90 mg (approximately 1.125 mg/kg) 12 hours prior to medical evaluation. Besides some dizziness and sleepiness, he showed no other alteration in the physical examination. After the administration of activated charcoal, he was transferred to the intensive care unit (ICU). The laboratory findings showed mild hepatic dysfunction, acute kidney injury, and metabolic lactic acidosis. Despite treatment, severe clinical worsening with multiorgan failure, including respiratory failure complicated with multiple episodes of cardiac dysrhythmias and finally with persistent cardiac arrest, lead to the patient’s death after 13 hours of admission in the ER. Among drug intoxications, high doses of colchicine ingestion can lead to rapid multiorgan dysfunction, and patients with a severe overdose can experience irreversible multiorgan failure without presenting the typical initial gastrointestinal symptoms. Thus, it is necessary for the physicians to be alert to these situations and to be aware of the epidemiological data and clinical profile of this specific poisoning that should be managed in ICU. The authors perform a review of the cases of colchicine poisoning reported in adults between 2017 and 2019 and the differences in clinical management and outcomes.

Evidence of Clinically Meaningful Drug-Drug Interaction With Concomitant Use of Colchicine and Clarithromycin

INTRODUCTION

Colchicine is currently approved for the treatment of gout and familial Mediterranean fever, among other conditions. Clarithromycin, a strong inhibitor of CYP3A4 and P-glycoprotein, dramatically increases colchicine's half-life, augmenting the risk of a life-threatening adverse reaction when used inadvertently with colchicine.

OBJECTIVES

The aim of this study was to examine the evidence and clinical implications of concomitant use of colchicine and clarithromycin.

METHODS

Case reports of colchicine-clarithromycin co-administration were searched using the FDA's Adverse Event Reporting System (FAERS) database. PubMed, EMBASE, and Web of Science electronic databases were also searched from January 2005 through November 2019 for articles reporting colchicine-clarithromycin concomitant use. Individual reports were reviewed to identify consequences of coadministration, dose, days to onset of interaction, symptoms, evidence of renal disease, time to resolution of symptoms, and Drug Interaction Probability Scale (DIPS) rating.

RESULTS

The FAERS search identified 58 reported cases, nearly 53% of which were from patients aged between 65 and 85 years. Of 30 reported deaths, 11 occurred in males, and 19 in females. Other frequent complications reported in FAERS included diarrhea (31%), pancytopenia (22%), bone marrow failure (14%), and vomiting (14%). From published literature, we identified 20 case reports of concomitant exposure, 19 of which were rated 'probable' and one 'possible' according to DIPS rating. Of these cases, four 'probable' patients expired. The documented onset of colchicine toxicity occurred within 5 days of starting clarithromycin, and death within 2 weeks of concomitant exposure.

CONCLUSION

Clinical manifestations of colchicine-clarithromycin interaction may resemble other systemic diseases and may be life threatening. Understanding this clinically meaningful interaction can help clinicians avoid unsafe medication combinations.

The Ugly Side of Colchicine

We report a rare case of a 32-year-old male who ingested 32.4 to 54 mg of colchicine and presented after 44 hours. He developed progressive multiple organ failure with shock, acute kidney failure, troponemia, pancytopenia, absolute neutropenia, disseminated intravascular coagulation, acute liver failure, rhabdomyolysis, and lactic acidosis. He also developed electrolyte abnormalities and refractory hypoglycemia. Initial treatment consisted of activated charcoal, fluids, and broad-spectrum antibiotics with supportive treatment of mechanical ventilation, hemodialysis, vasopressors, N-acetylcysteine, colony-stimulating factors, and blood products. Literature shows potential benefit of colchicine-specific Fab fragments for acute toxicity with limited studies and is not currently available in the United States. Further research for N-acetylcysteine protocol for acute liver failure in colchicine toxicity and potential use of colchicine-specific Fab fragments is needed. Our case demonstrates the importance of early use of activated charcoal for ingestion overdose with the incorporation of poison control into multidisciplinary team for coordinated patient care.

[Colchicine: old medication with new benefits : Use in rheumatology and beyond]

Colchicin, das Gift der Herbstzeitlosen, hat verschiedene antiinflammatorische Effekte. Aus diesem Grund kommt es zur Behandlung von rheumatologischen Erkrankungen aus dem autoinflammatorischen Formenkreis, wie z. B. der Arthritis urica oder dem familiären Mittelmeerfieber (FMF), zum Einsatz. Darüber hinaus gibt es erste Daten, die einen positiven Nutzen von Colchicin bei kardiovaskulären Erkrankungen nahelegen. Des Weiteren werden aktuell verschiedene antiinflammatorische Therapieansätze in der COVID-19-Behandlung in Studien erprobt. Hier gibt es ebenfalls erste Publikationen, die einen potenziellen Nutzen von Colchicin in bestimmten Krankheitsphasen der Virusinfektion nahe legen. Dieser Beitrag will einen Überblick über die Wirkweise, den Nutzen und Nebenwirkungen sowie die verschiedenen Einsatzmöglichkeiten von Colchicin in der Rheumatologie geben. Weiterhin soll ein kurzer Ausblick in neue Einsatzgebiete dieses Medikamentes gegeben werden.

Translational PK/PD and model-informed development of JNJ-67842125, a Fab reversal agent for JNJ-64179375, a long-acting thrombin inhibitor

BACKGROUND AND PURPOSE

Antigen-binding fragment (F_ab ) reversal agents were developed to reverse, in bleeding emergency, the long-acting anticoagulant effect of JNJ-64179375 (JNJ-9375), a monoclonal antibody that binds exosite-1 on thrombin.

EXPERIMENTAL APPROACH

The pharmacokinetic and pharmacodynamic (PK/PD) activities of three reversal agents of varying in vitro binding affinities to JNJ-9375 were characterised in cynomolgus monkeys. The time course of JNJ-9375 anticoagulant activity and reversal effects of each agent were evaluated. A mechanism-based PK/PD model, which integrated free serum concentrations of reversal agent, total and free serum concentrations of JNJ-9375, and thrombin time, was developed to quantitatively relate JNJ-9375 neutralisation to reversal of induced thrombin time prolongation. Model-based allometric scale-up of the lead reversal agent and the PK/PD relationship of JNJ-9375 in healthy volunteers were utilised to predict clinical dosing regimens.

KEY RESULTS

Lowering of free JNJ-9375 by the reversal agents corresponded with reversal of thrombin time prolongation. Total JNJ-9375 displayed typical mAb clearance at 2.75 ml·day^-1 ·kg^-1 , whereas reversal agents cleared faster between 1400 and 2400 ml·day^-1 ·kg^-1 . The model-estimated in vivo K_D values for JNJ-9375 reversal agents were 9 nM (ICHB-256), 0.4 nM (ICHB-281) and 13.7 pM (ICHB-164), in rank-ordered agreement of their K_D values determined in vitro. The three reversal agents exhibited different neutralisation characteristics in vivo, governed primarily by their binding kinetics to JNJ-9375. The model predicted a priori free JNJ-9375 kinetics after dosing ICHB-164 (JNJ-67842125) and JNJ-9375 under a different regimen.

CONCLUSION AND IMPLICATIONS

The results enabled selection of JNJ-67842125 as the reversal agent for JNJ-9375.

Dromedary camels as a natural source of neutralizing nanobodies against SARS-CoV-2

The development of prophylactic and therapeutic agents for coronavirus disease 2019 (COVID-19) is a current global health priority. Here, we investigated the presence of cross-neutralizing antibodies against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in dromedary camels that were Middle East respiratory syndrome coronavirus (MERS-CoV) seropositive but MERS-CoV free. The tested 229 dromedaries had anti–MERS-CoV camel antibodies with variable cross-reactivity patterns against SARS-CoV-2 proteins, including the S trimer and M, N, and E proteins. Using SARS-CoV-2 competitive immunofluorescence immunoassays and pseudovirus neutralization assays, we found medium-to-high titers of cross-neutralizing antibodies against SARS-CoV-2 in these animals. Through linear B cell epitope mapping using phage immunoprecipitation sequencing and a SARS-CoV-2 peptide/proteome microarray, we identified a large repertoire of Betacoronavirus cross-reactive antibody specificities in these dromedaries and demonstrated that the SARS-CoV-2–specific VHH antibody repertoire is qualitatively diverse. This analysis revealed not only several SARS-CoV-2 epitopes that are highly immunogenic in humans, including a neutralizing epitope, but also epitopes exclusively targeted by camel antibodies. The identified SARS-CoV-2 cross-neutralizing camel antibodies are not proposed as a potential treatment for COVID-19. Rather, their presence in nonimmunized camels supports the development of SARS-CoV-2 hyperimmune camels, which could be a prominent source of therapeutic agents for the prevention and treatment of COVID-19.

Case Report: Colchicine Toxicokinetic Analysis in a Poisoned Child Requiring Extracorporeal Life Support

Colchicine poisoning is associated with a poor prognosis, especially when leading to shock and multi-organ failure, and management is limited to supportive care, including multiple-dose activated charcoal. At therapeutic concentrations, colchicine elimination occurs mainly through hepatic metabolism and involves an enterohepatic circulation, with a small contribution of renal elimination (10-30%). Colchicine toxicokinetics is however rarely described, especially in children. We present the case of a 4-year-old patient who survived a severe iatrogenic colchicine intoxication with a dose of 0.5 mg/kg. She developed multi-organ failure and shock, but recovered after receiving aggressive resuscitation, including extracorporeal life support. Close monitoring of colchicine blood levels showed a plateau for 6 days, indicating impeded elimination resulting from liver failure. We observed no significant clearance from renal replacement therapy, nor activated charcoal, during this period. Extracorporeal life support may play a supportive role in the management of severe colchicine poisoning. However, extracorporeal techniques do not seem to improve colchicine elimination.

Colchicine overdose: A South African experience, a case report

Introduction

Colchicine overdose is uncommon but is associated with a high mortality rate. It has a narrow therapeutic index and has been described to have a 100% mortality with ingestion of >0.8 mg/kg (Finkelstein et al., 2010; Herran-Monge et al., 2013; Aghabiklooei et al., 2014; Erden et al., 2013).

Case report

This is a case report of a 19-year-old male who ingested 0.4 mg/kg of colchicine in a suicide attempt. He developed multiorgan dysfunction. He was managed supportively, and the dysfunction resolved.

Discussion

The clinical presentation and management should be familiar to all those who work in acute care in order to be able to identify and treat it timeously thus preventing morbidity and mortality. Treatment is largely supportive. To the best of our knowledge this is the first case of colchicine overdose described in Sub-Saharan Africa.

Formulation and evaluation of cubosomes containing colchicine for transdermal delivery

Gout is a common inflammatory disease that is characterized by the deposition of serum urate crystals in the synovial fluids and joints. In spite of high efficiency of colchicine (COL) in treatment of gout, it has potential side effects associated with its oral administration. This study was aimed to enhance COL bioavailability and minimize associated side effects through transdermal delivery of COL-loaded cubosomes. Eight cubosomal dispersions were prepared according to Box-Behnken factorial design and the effect of COL, glyceryl monooleate (GMO), and surfactant (P407) concentrations on particle size distribution, zeta potential, and entrapment efficiency were assessed. The results revealed that the optimum formula exhibited a mean particle size of 73.07 ± 2.18 nm and entrapped 32.40 ± 2.33% of COL. The influence of transdermal application of COL cubosomal gel on the in vivo absorption of the drug was studied in rats compared with oral COL solution. The results of in vivo study showed that transdermal application of COL cubosomal gel significantly improves the drug absorption compared with oral COL solution, with evidence of a relative bioavailability of 4.6 times greater than that of oral COL solution. In conclusion, transdermal application of COL cubosomal gel may be a promising delivery system for enhancing the bioavailability of COL. Graphical abstract.

Colchicine Toxicity: The Fatal Masquerader

Colchicine toxicity results in fatal multiorgan failure. We present a case of colchicine toxicity resulting in transient biventricular failure and cardiogenic shock that were successfully treated with packed red blood cell exchange. (Level of Difficulty: Beginner.)

Acute Colchicine Poisoning Causes Endotoxemia via the Destruction of Intestinal Barrier Function: The Curative Effect of Endotoxin Prevention in a Murine Model

BACKGROUND

Colchicine binds to intracellular tubulin and prevents mitosis. Colchicine is also used as an anti-inflammatory drug. Meanwhile, excess administration of medication or accidental ingestion of colchicine-containing plants can cause acute colchicine poisoning, which initially results in gastrointestinal effects that may be followed by multiorgan dysfunction. However, the mechanism of colchicine poisoning remains unclear, and there are no standard therapeutic strategies.

AIMS

We focused on intestinal barrier function and attempted to reveal the underlying mechanism of colchicine poisoning using an animal model.

METHODS

Colchicine was orally administered to C57Bl/6 mice. Then, we performed histopathological analysis, serum endotoxin assays, and intestinal permeability testing. Additionally, the LPS-TLR4 signaling inhibitor TAK-242 was intraperitoneally injected after colchicine administration to analyze the therapeutic effect.

RESULTS

We observed villus height reduction and increased numbers of apoptotic cells in the gastrointestinal epithelium of colchicine-treated mice. Both intestinal permeability and serum endotoxin levels were higher in colchicine-treated mice than in control mice. Although colchicine-poisoned mice died within 25 h, those that also received TAK-242 treatment survived for more than 48 h.

CONCLUSION

Colchicine disrupted intestinal barrier function and caused endotoxin shock. Therapeutic inhibition of LPS-TLR4 signaling might be beneficial for treating acute colchicine poisoning.

Survival of a dog with accidental colchicine overdose

OBJECTIVE

To describe the treatment and clinical course of a dog accidentally prescribed 10 times the recommended dose of colchicine (0.3 mg/kg/d instead of 0.03 mg/kg/d).

CASE SUMMARY

After glaucoma surgery, a 1-year-old male neutered Pomeranian weighing 6.8 kg was prescribed 1,000 μg colchicine twice a day per os. The dog presented to the emergency department after the first dose with vomiting and was treated as an outpatient. Two colchicine doses later, the dog represented with vomiting, ocular pain, and increased intraocular pressure. The dog's vital signs were normal, and the dog was admitted for rehydration, analgesia, and revision glaucoma surgery the next day. Two hours after revision surgery, the dog developed vomiting and diarrhea. Postoperatively, the dog was hypothermic (36.3°C), persistently hypertensive (227 mm Hg), and bradycardic (60/min). Biochemistry revealed metabolic acidosis and increased hepatic enzyme activities. Mannitol was administered for presumed cerebral edema. Later, the dog developed bradycardia due to second-degree atrioventricular heart block, which responded to atropine. Total hospitalization was 9 days. Treatment included IV fluids, IV lipid emulsion, N-acetylcysteine, activated charcoal, gastroprotectants, antiemetics, opioids, antimicrobials, and barrier nursing due to transient neutropenia.

NEW OR UNIQUE INFORMATION PROVIDED

This is the first report to describe the successful treatment of a dog with colchicine overdose. The systemic effects were presumed to be secondary to colchicine toxicosis rather than diet, infection, or other drug reaction, and may have been compounded by a second anesthetic episode. Gastrointestinal signs, symptoms of cerebral edema, cardiac arrhythmias, and neutropenia were documented. One other report of colchicine overdose in a dog exists, and that patient was euthanized. This report demonstrates that complete recovery with intensive care is possible; however, the prognosis remains guarded.

Clinical outcomes after colchicine overdose: A case report

RATIONALE

Colchicine can inhibit cell division and intracellular transport in affected organs by fixing intracellular tubulin and preventing its polymerization into microtubules. A lethal dose of colchicine is considered to be 0.8 mg/kg. The wide distribution of colchicine through 70% of the body following an overdose makes it difficult to eliminate.

PATIENT CONCERNS

A 56-year-old man with a clear history of colchicine overdose was admitted to our hospital nearly 40 hours after taking 12 mg (0.17 mg/kg) of colchicine. He had a history of gout and chronic kidney disease. As the disease progressed, he showed most of the clinical manifestations and pathological features of colchicine overdose.

DIAGNOSES AND INTERVENTIONS

Colchicine overdose was clear, with symptoms of multiple organ failure including primary gastrointestinal failure, bone marrow hematopoietic inhibition, rhabdomyolysis, cardiac damage, hepatocyte damage. The patient developed secondary septic shock, renal failure, circulatory failure, and respiratory failure. We performed continuous renal replacement therapy and gastric lavage, and administered norepinephrine, frozen plasma, proton-pump inhibitors, adenosylmethionine, antibiotics, granulocyte colony stimulating factor, and total parenteral nutrition.

OUTCOMES

The patient rapidly developed complete hematopoietic function inhibition, gastrointestinal failure, and cardiac damage 32 hours after admission. Sustained severe infection and circulatory instability caused a progressive deterioration of respiratory function. Tracheal intubation was performed but the patient continued to deteriorate, and death occurred approximately 132 hours after admission.

LESSONS

Excessive colchicine levels cause continuous organ damage due to extensive tissue distribution, eventually leading to multiple organ failure. Colchicine metabolism is delayed in patients with liver or kidney dysfunction, and even a low dose of colchicine may result in poisoning in these individuals. Early diagnosis and reduction of colchicine levels is critical to improve prognosis, and colchicine poisoning should be considered in patients with poor liver or kidney function even when the ingested dose is low.

Fatal colchicine intoxication by ingestion of Gloriosa superba tubers

Gloriosa superba is an ornamental herb, wildly found in the tropics especially in the southern parts of India and Sri Lanka. All parts of the plants are toxic, especially the tuberous rhizomes in view of their high content of colchicines and its derivatives. We report a case of fatal ingestion of the tubers of G. superba, with an intention of deliberate self harm, leading to systemic coagulopathy and progressive multiple organ dysfunctions. The patient was managed with intralipid rescue therapy, plasmapheresis, haemodialysis and intensive care. The ease of availability makes plant poisons, a common method of deliberate self-harm in South India. This report reiterates the need for clinician's awareness of common toxidromes associated with plant poisons.

Unsuspected Colchicine Overdose in a Female Patient Presenting as an Acute Abdomen

We report a case of multi-system organ failure as a result of unsuspected colchicine overdose in a patient with known gout and bulimia nervosa. The patient had initially presented with mild gastrointestinal symptoms with rapid progression to fulminant hepatic failure and multiple organ dysfunction before the causative agent was identified. The patient survived with aggressive intensive care support and ongoing medical treatment. Physicians should be aware of the risk assessment based on the ingested dose, that the clinical presentation of colchicine in toxic doses may be nonspecific with high potential for severe morbidity or death and that survival may occur despite multiple organ failure requiring aggressive support.

An engineered lipocalin that tightly complexes the plant poison colchicine for use as antidote and in bioanalytical applications

Colchicine is a toxic alkaloid prevalent in autumn crocus (Colchicum autumnale) that binds to tubulin and inhibits polymerization of microtubules. Using combinatorial and rational protein design, we have developed an artificial binding protein based on the human lipocalin 2 that binds colchicine with a dissociation constant of 120 pm, i.e. 10000-fold stronger than tubulin. Crystallographic analysis of the engineered lipocalin, dubbed Colchicalin, revealed major structural changes in the flexible loop region that forms the ligand pocket at the open end of the eight-stranded β-barrel, resulting in a lid-like structure over the deeply buried colchicine. A cis-peptide bond between residues Phe71 and Pro72 in loop #2 constitutes a peculiar feature and allows intimate contact with the tricyclic ligand. Using directed evolution, we achieved an extraordinary dissociation half-life of more than 9 h for the Colchicalin-colchicine complex. Together with the chemical robustness of colchicine and availability of activated derivatives, this also opens applications as a general-purpose affinity reagent, including facile quantification of colchicine in biological samples. Given that engineered lipocalins, also known as Anticalin® proteins, represent a class of clinically validated biopharmaceuticals, Colchicalin may offer a therapeutic antidote to scavenge colchicine and reverse its poisoning effect in situations of acute intoxication.

A rare case report of heavy dose colchicine induced acute kidney injury

BACKGROUND

Colchicine is a natural alkaloid that is mainly used for the treatment of inflammatory diseases. Effective and toxic doses are very similar, but case reports of higher colchicine doses inducing acute toxicosis is rare.

CASE PRESENTATION

A 19-year-old woman was sent to the emergency room for taking 80 colchicine tablets (0.5 mg per tablet) 44 h previously. The main physical symptom was abdominal pain. Following ingestion, the patient suffered multi-system failure including renal, respiratory, circulatory, and digestive. Continuous renal replacement therapy (CRRT) and other treatment measures were used to remove metabolic wastes and poisons, and to treat other complications. Renal function was restored after a series of treatments.

CONCLUSION

We report a case of an acute kidney injury induced by an overdose of colchicine. CRRT and a series of related treatments were beneficial for the treatment of colchicine poisoning.

Colchicine

Colchicine is an alkaloid which was originally extracted from bulbs of a plant called Colchicum autumnale (meadow saffron). Its active pharmacological component was isolated in 1820 and in 1833 the active ingredient was purified and named colchicine. It consists of three hexameric rings termed A, B, and C. It was first recommended for the treatment of gout by Alexander of Tralles in the sixth century AD. Later it has been employed for suggested and approved indications including primary biliary cirrhosis (PBC), alcohol induced hepatitis, psoriasis, Behçet disease, Sweet syndrome, scleroderma, sarcoidosis and amyloidosis. Perhaps the most effective results have been obtained in the prophylaxis of familial Mediterranean fever (FMF). Colchicine is absorbed in the jejunum and ileum and is trapped in the body tissues. It is metabolized in the liver and the intestine by cytochrome P (CYP) 450 3A4 and P-glycoprotein (PGY) 1. Colchicine is excreted mainly by the biliary system, intestines and the kidneys. It has a narrow therapeutic range, but with normal liver and kidney functions is relatively safe and can be used during pregnancy, nursing and in infants. The main mechanism of action of colchicine is probably through interaction with microtubules affecting leukocyte chemotaxis, thereby suppressing inflammation. The blood level of colchicine may be affected by concomitant drug administration and therefore, caution should be exercised when such medications are added.

Anti-colchicine Fab fragments prevent lethal colchicine toxicity in a porcine model: a pharmacokinetic and clinical study

Background: Colchicine poisoning is commonly lethal. Colchicine-specific Fab fragments increase rat urinary colchicine clearance and have been associated with a good outcome in one patient. We aimed to develop a porcine model of colchicine toxicity to study the pharmacokinetics and efficacy of ovine Fab.

Methods: A Göttingen minipig critical care model was established and serial blood samples taken for colchicine and Fab pharmacokinetics, clinical chemistry, and haematology. Animals were euthanised when the mean arterial pressure fell below 45 mmHg without response to vasopressor, or at study completion.

Results: Initial studies indicated that oral dosing produced variable pharmacokinetics and time-to-euthanasia. By contrast, intravenous infusion of 0.25 mg/kg colchicine over 1 h produced reproducible pharmacokinetics (AUC_0–20 343 [SD = 21] µg/L/h), acute multi-organ injury, and cardiotoxicity requiring euthanasia a mean of 22.5 (SD = 3.2) h after dosing. A full-neutralising equimolar Fab dose given 6 h after the infusion (50% first hour, 50% next 6 h [to reduce renal-loss of unbound Fab]) produced a 7.35-fold increase in plasma colchicine (AUC_0–20 2,522 [SD = 14] µg/L/h), and removed all free plasma colchicine, but did not prevent toxicity (euthanasia at 29.1 [SD = 3.4] h). Earlier administration over 1 h of the full-neutralising dose, 1 or 3 h after the colchicine, produced a 12.9-fold (AUC_0–20 4,433 [SD = 607] µg/L/h) and 6.0-fold (AUC_0–20 2,047 [SD = 51] µg/L/h) increase in plasma colchicine, respectively, absence of free plasma colchicine until 20 h, and survival to study end without marked cardiotoxicity.

Conclusions: Colchicine-specific Fab given early, in equimolar dose, bound colchicine, eliciting its movement into the blood, and preventing severe toxicity. Clinical studies are now needed to determine how soon this antidote must be given to work in human poisoning.

Bronchiolitis Obliterans Organising Pneumonia in a Case of Colchicine Overdose

Colchicine is a commonly prescribed medication. Overdose of colchicine is relatively uncommon but can be fatal. We report a 36-year-old female who survived from severe colchicine poisoning and was subsequently complicated with bronchiolitis obliterans with organizing pneumonia. The patient required a long period of mechanical ventilation but eventually recovered on supportive care.

LC-MS/MS quantification of free and Fab-bound colchicine in plasma, urine and organs following colchicine administration and colchicine-specific Fab fragments treatment in Göttingen minipigs

Clinical evaluation of a colchicine specific antigen-binding fragment (Fab) in order to treat colchicine poisoning required the development of an accurate method allowing quantification of free and Fab-bound colchicine in plasma and urine, and free colchicine in tissues, to measure colchicine redistribution after Fab administration. Three methods have been developed for this purpose, and validated in plasma, urine and liver: total colchicine was determined after denaturation of Fab by dilution in water and heating; free colchicine was separated from Fab-bound colchicine by filtration with 30KDa micro-filters; tissues were homogenized in a tissue mixer. Deuterated colchicine was used as internal standard. Samples were extracted by liquid-liquid extraction and analyzed with a LC-MS/MS. LOQ were 0.5ng/mL in plasma and urine for free and total colchicine and 5pg/mg in tissues. The methods were linear in the 0.5-100ng/mL range in plasma and urine, and 5-300pg/mg in tissues with determination coefficients>0.99. Precision and accuracy of QC samples presented a CV<9.4%. The methods require only 200μL of sample and allow a high throughput due to short analytical run (2min). These methods were successfully applied to a pig intoxicated with colchicine and treated with colchicine specific Fab fragments.

Awareness and knowledge among internal medicine house-staff for dose adjustment of commonly used medications in patients with CKD

Background

Drug dosing errors result in adverse patient outcomes and are more common in patients with chronic kidney disease (CKD). As internists treat the majority of patients with CKD, we study if Internal Medicine house-staff have awareness and knowledge about the correct dosage of commonly used medications for those with CKD.

Methods

A cross-sectional survey was performed and included 341 participants. The outcomes were the awareness of whether a medication needs dose adjustment in patients with CKD and whether there was knowledge for the level of glomerular filtration rate (GFR) a medication needs to be adjusted.

Results

The overall pattern for all post-graduate year (PGY) groups in all medication classes was a lack of awareness and knowledge. For awareness, there were statistically significant increased mean differences for PGY2 and PGY3 as compared to PGY1 for allergy, endocrine, gastrointestinal, and rheumatologic medication classes but not for analgesic, cardiovascular, and neuropsychotropic medication classes. For knowledge, there were statistically significant increased mean differences for PGY2 and PGY3 as compared to PGY1 for allergy, cardiovascular, endocrine, and gastrointestinal, medication classes but not for analgesic, neuropsychotropic, and rheumatologic medication classes.

Conclusions

Internal Medicine house-staff across all levels of training demonstrated poor awareness and knowledge for many medication classes in CKD patients. Internal Medicine house-staff should receive more nephrology exposure and formal didactic educational training during residency to better manage complex treatment regimens and prevent medication dosing errors.

Efficient expression of single chain variable fragment antibody against paclitaxel using the Bombyx mori nucleopolyhedrovirus bacmid DNA system and its characterizations

A single chain variable fragment (scFv), the smallest unit of functional recombinant antibody, is an attractive format of recombinant antibodies for various applications due to its small fragment and possibility of genetic engineering. Hybridoma clone 3A3 secreting anti-paclitaxel monoclonal antibody was used to construct genes encoding its variable domains of heavy (VH) and light (VL) chains. The VH and VL domains were linked to be the PT-scFv3A3 using flexible peptide linker in a format of VH-(GGGGS)5-VL. The PT-scFv3A3 was primarily expressed using the pET28a(+) vector in the Escherichia coli system, and was then further expressed by using the Bombyx mori nucleopolyhedrovirus (BmNPV) bacmid DNA system. Interestingly, the reactivity of PT-scFv3A3 expressed in the hemolymph of B. mori using the BmNPV bacmid DNA system was much higher than that expressed in the E. coli system. Using indirect competitive enzyme-linked immunosorbent assay (icELISA), the PT-scFv3A3 (B. mori) reacted not only with immobilized paclitaxel, but also with free paclitaxel in a concentration-dependent manner, with the linear range of free paclitaxel between 0.156 and 5.00 µg/ml. The PT-scFv3A3 (B. mori) exhibited less cross-reactivity (%) than its parental MAb clone 3A3 against paclitaxel-related compounds, including docetaxel (31.1 %), 7-xylosyltaxol (22.1 %), baccatin III (<0.68 %), 10-deacetylbaccatin III (<0.68 %), 1-hydroxybaccatin I (<0.68 %), and 1-acetoxy-5-deacetylbaccatin I (<0.68 %). With the exception of cephalomannine, the cross-reactivity was slightly increased to 8.50 %. The BmNPV bacmid DNA system was a highly efficient expression system of active PT-scFv3A3, which is applicable for PT-scFv3A3-based immunoassay of paclitaxel. In addition, the PT-scFv3A3 can be applied to evaluate its neutralizing property of paclitaxel or docetaxel toxicity.

Assessment of 17 Pediatric Cases With Colchicine Poisoning in a 2-Year Period

AIM

The aim of the study is to discuss clinical effects, treatments, and outcomes of pediatric colchicine poisoning.

METHOD

This study was designed as an observational case series study. The medical records of children aged between 0 and 18 years, who were hospitalized for colchicine poisoning at the Department of Pediatric Intensive Care Unit, Cumhuriyet University Faculty of Medicine, between January 2010 and January 2012, were retrospectively evaluated.

RESULTS

We presented 17 children with colchicine poisoning. The mean (SD, range) age of patients was 71.5 (69.19, 18-204) months. The period to apply to the hospital after taking the medications was 7.3 hours (7.97, 30 minutes-26 hours) on average. The use of colchicine was due to diagnosis of Familial Mediterranean fever (FMF) in the families of 8 patients, diagnosis of Behçet disease in 1 patient's father, diagnosis of Behçet disease in 1 patient herself, and diagnosis of FMF in 6 patients themselves. Thirteen patients had taken colchicine at the dose of less than 0.5 mg/kg known as subtoxic and 1 patient had taken colchicine at the dose of greater than 0.8 mg/kg, and doses taken by 3 patients were not known. Fourteen patients (82.4%) had involuntary drug intake. Fifty percent of them were symptomatic at the moment of application and all had gastrointestinal complaints. All patients were observed in intensive care unit upon first admission and received supportive care. One of patients showed total alopecia, one showed leucocytosis, and another one showed acute abdomen picture. None of the patients showed mortality.

CONCLUSIONS

Mortality of colchicine toxicity is high and quick assessment is absolutely required. In regions where FMF is common and the use of colchicine is high, clinicians should pay attention to symptoms and findings related to colchicine intoxication and keep them in mind in differential diagnosis.

Benefits of using heterologous polyclonal antibodies and potential applications to new and undertreated infectious pathogens

BACKGROUND

Passive immunotherapy using polyclonal antibodies (immunoglobulins) has been used for over a century in the treatment and post-exposure prophylaxis of various infections and toxins. Heterologous polyclonal antibodies are obtained from animals hyperimmunised with a pathogen or toxin.

AIMS

The aims of this review are to examine the history of animal polyclonal antibody therapy use, their development into safe and effective products and the potential application to humans for emerging and neglected infectious diseases.

METHODS

A literature search of OVID Medline and OVID Embase databases was undertaken to identify articles on the safety, efficacy and ongoing development of polyclonal antibodies. The search contained database-specific MeSH and EMTREE terms in combination with pertinent text-words: polyclonal antibodies and rare/neglected diseases, antivenins, immunoglobulins, serum sickness, anaphylaxis, drug safety, post marketing surveillance, rabies, human influenza, Dengue, West Nile, Nipah, Hendra, Marburg, MERS, Hemorrhagic Fever Virus, and Crimean-Congo. No language limits were applied. The final search was completed on 20.06.2015. Of 1960 articles, title searches excluded many irrelevant articles, yielding 303 articles read in full. Of these, 179 are referenced in this study.

RESULTS

Serum therapy was first used in the 1890s against diphtheria. Early preparation techniques yielded products contaminated with reactogenic animal proteins. The introduction of enzymatic digestion, and purification techniques substantially improved their safety profile. The removal of the Fc fragment of antibodies further reduces hypersensitivity reactions. Clinical studies have demonstrated the efficacy of polyclonal antibodies against various infections, toxins and venoms. Products are being developed against infections for which prophylactic and therapeutic options are currently limited, such as avian influenza, Ebola and other zoonotic viruses.

CONCLUSIONS

Polyclonal antibodies have been successfully applied to rabies, envenomation and intoxication. Polyclonal production provides an exciting opportunity to revolutionise the prognosis of both longstanding neglected tropical diseases as well as emerging infectious threats to humans.

EULAR recommendations for the management of familial Mediterranean fever

Familial Mediterranean fever (FMF) is the most common monogenic autoinflammatory disease, but many rheumatologists are not well acquainted with its management. The objective of this report is to produce evidence-based recommendations to guide rheumatologists and other health professionals in the treatment and follow-up of patients with FMF. A multidisciplinary panel, including rheumatologists, internists, paediatricians, a nurse, a methodologist and a patient representative, was assembled. Panellists came from the Eastern Mediterranean area, Europe and North America. A preliminary systematic literature search on the pharmacological treatment of FMF was performed following which the expert group convened to define aims, scope and users of the guidelines and established the need for additional reviews on controversial topics. In a second meeting, recommendations were discussed and refined in light of available evidence. Finally, agreement with the recommendations was obtained from a larger group of experts through a Delphi survey. The level of evidence (LoE) and grade of recommendation (GR) were then incorporated. The final document comprises 18 recommendations, each presented with its degree of agreement (0–10), LoE, GR and rationale. The degree of agreement was greater than 7/10 in all instances. The more controversial statements were those related to follow-up and dose change, for which supporting evidence is limited. A set of widely accepted recommendations for the treatment and monitoring of FMF is presented, supported by the best available evidence and expert opinion. It is believed that these recommendations will be useful in guiding physicians in the care of patients with FMF.

Progressive Organ Failure After Ingestion of Wild Garlic Juice

BACKGROUND

Wild garlic and related plants are increasingly sought after by fans of natural products. They can be confused with other plants containing colchicine and cause potentially fatal intoxications.

CASE REPORT

We report a case of accidental poisoning by Colchicum autumnale, which was mistaken for wild garlic (Allium ursinum). The patient initially presented with mild gastrointestinal symptoms, but progressed rapidly to agranulocytosis, paraparesis, and delirium before the causative agent was identified. The laboratory tests revealed rhabdomyolysis, coagulopathy, alteration of liver tests, and prerenal azotemia. Botanical examination confirmed the incriminated plant (Colchicum autumnale). Serum and urine analysis confirmed the presence of colchicine. The patient required intensive support therapy, and she fully recovered within 8 weeks. WHY SHOULD AN EMERGENCY PHYSICIAN BE AWARE OF THIS?: Colchicine poisoning should be considered in the differential diagnosis of patients presenting with gastroenteritis after ingestion of wild garlic.

Fab fragments of ovine antibody to colchicine enhance its clearance in the rat

CONTEXT

Colchicine is an anti-inflammatory alkaloid used for the treatment of acute gout, but has a narrow therapeutic index. Colchicine overdoses are relatively rare, but have high mortality requiring rapid treatment.

OBJECTIVE

To evaluate the ability of a newly available ovine fragment antigen-binding (Fab) antibody to colchicine (ColchiFab(™)) to protect rats against renal and other injury 24 h after colchicine ingestion.

MATERIALS AND METHODS

Rats were gavaged with colchicine (5 mg/kg), then 2 h later injected intraperitoneally with 5 ml of sterile saline, or Fab anti-colchicine, a newly available ovine antibody to colchicine. Samples of blood were taken at 1, 2, 5 and 24 h after gavage, and urine was collected from 5 to 24 h after gavage. Concentrations of colchicine in tissue, blood and urine were measured by liquid chromatography/mass spectrometry, concentrations of Fab anti-colchicine, urinary neutrophil gelatinase-associated lipocalin (NGAL) and kidney injury molecule-1 or KIM-1 by enzyme-linked immunosorbent assay or ELISA, while concentrations of creatine kinase and creatinine (Cr) were measured enzymatically.

RESULTS

Colchicine equilibrated rapidly throughout the body and increased serum creatine kinase. Fab anti-colchicine also rapidly redistributed to the blood and remained at high concentrations over 24 h. Fab anti-colchicine caused a rapid 7.1-fold increase in serum colchicine level, followed by excretion of both colchicine and Fab anti-colchicine through the urine. This was associated with the accumulation of colchicine in the kidney, a reversal of colchicine-induced diarrhoea, and increasing urinary NGAL level; from 168 ± 48 to 477 ± 255 ng/mmol Cr [mean ± standard deviation or SD].

DISCUSSION

Fab anti-colchicine greatly increased the clearance of colchicine, although increasing NGAL level suggested the presence of mild kidney damage.

CONCLUSION

These data suggest clinical utility for Fab anti-colchicine in the treatment of colchicine overdose.