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Today (9th October 2008), here is PhD seminar on Orphan drugs. Let’s have a look on what the term orphan exactly refers to, when used in context to Drugs and Disease.
Citation preview
09/10/2008
1
Orphan drugsDoctoral seminar (9-10-2008)Thomas De Rijdt, PharmD
Orphan drugs
Orphan drugs• Definitions• Legislation• Prevalence and evolution• Slicing• Cost• Dispensing• Raw materials• Rare diseases: capita selecta• Conclusions
Definition: “Orphan disease”• The term orphan disease implies two separate but related
concepts.
– To describe diseases that are overlooked by doctors, and has been applied for example to Fabry's disease alveolar echinococcosis variantapplied, for example, to Fabry s disease, alveolar echinococcosis, variant renal cancer, high myopia, and even some common conditions, such as endometrial cancer and tobacco addiction.
– However, more specifically the term orphan disease is used to designate diseases that affect only small numbers of individuals (so-called health orphans).
Aronson, Br J Clin Pharmacol. 2006 March; 61(3): 243–245
Definition: “Orphan disease”• Prevalence less than …
– USA : 1/200,000– Japan : 1/50,000– Australia : 1/2,000– Europe : 5/10,000– WHO : 6.5-10/10,000
Aronson, Br J Clin Pharmacol. 2006 March; 61(3): 243–245
Definition: “Orphan disease”• A disease which has not been "adopted" by the pharmaceutical
industry because it provides little financial incentive for the private sector to make and market new medications to treat or prevent it.
www.medicinenet.com accessed 29-09-2008
• Lists of orphan diseases– 5000 – 8000 known rare disorders– Different organisations
• NORD : National organisation of rare diseases• NIH : National institutes of health• Eurordis : European organisation of rare diseases• Orphanet : Orphan drugs network• …
– Affecting 6-8 % of the population (EU : 25 million patients)
Definition of “orphan drugs”
EMEA/290072/2007
• The term "orphan drug" refers to a product that treats a rare disease affecting fewer than 1 per 200,000 Americans
www.fda.gov , accessed 29-09-2008
09/10/2008
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Where do they come from ?
Target Market
• Intentionally developed (eg Tasigna)• Unintentionally developed (eg Thalidomide)
g
Designer drugsShelf drugsRIPRecreational/malafide use (e.g. PCP)Orphan drugs…
Legislation: orphan drug status
• USA : Orphan drug act (ODA)– Since January 1983
Incentives to encourage companies– Incentives to encourage companies• Tax reductions• Extended marketing exclusivity (+ 7 years)
– Success ?• ‘83 – ’04 : 250 drugs authorised• ‘73 – ’83 : 10 such drugs on market
Haffner, N Engl J Med. 2006 Feb 2;354(5):445-7
Legislation: orphan drug status
• Europe : EMEA – COMP– Committee on orphan medicinal products
Since 2000 (V d i (EG) 141/2000 dd 16 12 1999)– Since 2000 (Verordening (EG) 141/2000 dd 16-12-1999)
– Incentives to encourage companies• Protocol assistance• Financial benefits (fee reduction)• Marketing exclusivity (10 years)• European registration (all countries)
Procedure EMEA/COMP
• EMEA protocol assistance• Start at day 1• Study by COMP• Advice COMP at day 90y• Advice tot EC• Conclusion of EC
– Within 30 days• Publication
– A new orphan drug is born– Not yet authorised for marketing for desired
indication (other procedure)
Orphan Evolution 2001-2007 : ATC
42%34%
ATC/Autorisation date 2001-2003
33%44%
ATC/Authoristion date 2001-2004
33%
38%
5%
ATC/authoristaion date 2001-2005
30%3%
7%
ATC/authoristaion date 2001-2006
27%5%2%
5% 5%
ATC/authorisation date 2001-2007
8%8%8%
Enzyme Antithrombotic Antihypertensive Hypothalamic Antineoplastic
5%6%
6%6%
44%
Enzyme Antithrombotic Cardiac Antihypertensive Hypothalamic Antineoplastic
4%5%
5%5%5%
Enzyme Antithrombotic Cardiac Antihypertensive Urological Hypothalamic Antineoplastic Analgesic
4%3%
7%3%3%
40%
Enzyme Antithrombotic Cardiac Antihypertensive Urologic Hypothalamic Antineoplastic Analgesic Other
3%2%5%
2%2%42%
Enzyme Antithrombotic Cardiac Antihypertensive Urologic Hypothalamic
Antineoplastic Immunosuppressive Analgesic Antiepileptica Other
• It started with enzymetherapy
• Shift toward antineoplastic drugs
09/10/2008
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Authorisation per administration route
51%49%
OraalParenteraal
•No specialised administration necessary in all cases.•Treatment in ambulatory care is possible.
Prevalence …
3.0
3.5
4.0
Prevalence/10.000
0.0
0.5
1.0
1.5
2.0
2.5
… slicing to orphan diseases
• Possible to slice a disease into types• If prevalence small enough …
h diorphan disease.– Leukemia
• Started as 1 disease• AML, CML, ALL, CLL : common known• Now 18 subtypes defined
– Different types recognized as orphan disease and treatedwith orphan drugs (eg. chloretazine, oxaliplatin, …) USA
Y. Waknine, 2004
Rocket science at high cost ?
• Mostly academic research– Subsidized by EC (EMEA)
• Small patient populationsSmall patient populations– Multinational, multicentric research– Lower level of evidence (p<0.05 ??)– Case reports >> RCT
• Financial risk when not protected
Rocket science at high cost ?
• High-tech synthetisation– Enzymes : Aldurazyme, Myozyme, …
• Older products, new name– Thalidomide (Softenon)
• Existing molecule, different route– Pedea (= ibuprofen)
Rocket science at high cost ?
• Simple molecule, same administration– Wilzin (= zinc acetate capsules)
• Treatment of Wilson’s disease
• Existing product, different name– Hydroxycarbamide
• Hydrea versus Siklos– Sildenafil
• Viagra versus Revatio
09/10/2008
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The right price ? The right price ?
• Very expensive therapies-pharmacokinetic challenge to calculate cost-utility (QALY’s) ?
• Can raise ethical questions-EMEA states that every citizen has the right to receive healthcare.
(Maastricht treaty, December 1991)
The right price ?
• Nitisinone : herbicide (low price)
= NTBC (€ 58 / 10 mg)= Orfadin (= 5 8 M€/kg)= Orfadin (= 5,8 M€/kg)
• Hydroxycarbamide– =Hydrea (€ 0.1975 / 500 mg)– =Siklos (€ 600 / month)
400 x
The right price ?
• From orphan to blockbuster– Remicade– Epogen
The Orphan Drug Backlash(Scientific American May 2003:71-77)
• Definition of ultra-orphan drugs– Prevalence less than 0.18 / 10,000
Orphan drugs and the NHS: should we value rarity(McCabe, BMJ 2005;331:1016-1019)
The right price ?
• Wilzin– Zinc acetate capsules– Price € 1.25 / 50 mgg– No UD packing
• Aspirin– Acetyl salicylic acid– Price € 0.08 / 100 mg– UD packing
> 230 x price raw material
The right price ?
• Glivec € 2660 / box• Tasigna € 4226 / box• Myozyme € 556 / vial• Myozyme € 556 / vial• Aldurazyme € 651 / vial• Sprycel € 4528 / box• Savene € 10335 / vial
Who will/can pay ?
09/10/2008
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IPLEX(TM) is a complex recombinant human insulin-like growth factor-I (rhIGF-I) and its predominant binding proteinpredominant binding protein IGFBP-3 (rhIGFBP-3).
Dispensing orphan drugs
• Expensive– Reimbursed medication
• € 7,11 allowance per box• While handling cost = 10 - 20 % of stock costWhile handling cost 10 20 % of stock cost
• Risk management programs– Thalidomide– Revlimid (lenalidomide)– …
Raw materials
• Orphan drugs regulated by EMEA• If producing them is not lucrative
– Not available as orphan drugp g– Not available as pharmaceutical grade– Can be available as chemical grade
primary material– “Orphan raw materials”
• A problem in tertiary care hospitals
Legislation
• Royal Decree 19-12-1997– Pharmacist has to use licensed materials
• Magistral versus officinal preparations• Certificate of analysisCertificate of analysis
– Update 2008 (to be published)• Better quality assurance by distributor• Magistral preparations only with licensed
materials– Request to adapt the RD
• Use of orphan raw materials in hospitals
09/10/2008
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Ethics versus politics• Phosphomannose isomerase deficiency:
– A carbohydrate-deficient glycoprotein syndrome withhepatic-intestinal presentation
– Can be treated by supplying D-mannose to the patientCan be treated by supplying D mannose to the patient– Not available as brand drug nor as raw material
pharmaceutical grade– Available as chemical grade substance (purity > 99.99 %)
– Not allowed by law– Yet it makes the difference in quantity and quality of life
Jaeken et al., A J Hum Genet 62 (1998), pp. 1535–1539
Orphan Diseases Task Force (UZL)
• Survey UZL– Over 100 orphan diseases reported– 18 orphan drugs and 11 orphan raw materials– Total budget € 7,000,000 (2007)
• Requested foundation of “Leuven coordination center for rare diseases and their treatments”– Purpose : administrative support
• e.g. reimbursement by convention
• Soon available: www.weesziektencentrale.be
Autosomal recessive Pompe disease
• Glycogen storage disease type II• Autosomal recessive metabolic disorder• Deficiency in the enzyme acid maltase
– Needed to break down glycogenNeeded to break down glycogen• Build-up of glycogen causes
– progressive muscle weakness (myopathy) and affects various body tissues(particularly in the heart, skeletal muscles, liver and nervous system)
Pompe disease• First described by Johann Pompe in 1932.• Infantile, or early onset
– Noticed shortly after birth– Symptoms: severe lack of muscle tone, weakness, enlarged liver and heart.
Mental function is not affected. Development normal for the first weeks or months but slowly declinesmonths but slowly declines.
– Most children die before age of 2 years by respiratory / cardiac complication.
• Juvenile and adult onset– Symptoms: generalized muscle weakness and wasting of respiratory
muscles in the trunk, lower limbs, and diaphragm, respiratory distress, headache at night. Intellect is not affected.
– A small number lives without major symptoms or limitations.
09/10/2008
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Pompe disease• Therapy
– Alfa-glucosidase• Recombinant human enzyme• Replaces the missing enzyme• Breaks down glycogen.
– Prolongs ventilator-free survival and overall survivalProlongs ventilator free survival and overall survival– Studied by Genzyme– Now commercial available as Myozyme
– Started in a study as alfa-glucosidase• Frozen solution at -80 °C• Cooled solution• Lyophilized powder• Commercial available
Pompe disease• Preparation by pharmacist
– Preparation in LAF by hospital pharmacist– Started as study medication
• 2 hours stable after defrosting patient had to come to hospital• 8 hours stable after defrosting medication transported by taxi8 hours stable after defrosting medication transported by taxi
– Less expensive as hospital admission
• Problem with aggregation during transport– Company suggests no transport– Use of particle inline filter to protect patient– Use of human albumine to buffer problem solved
• 24 hours stable after preparation
• Therapy makes difference between live and dead• Unpredictable prognosis
Fabry disease• Autosomal recessive metabolic disorder• Deficiency in the enzyme alpha-galactosidase• Accumulation of a glycolipid in vessels and
tissue (globotriaosylceramide)
• Symptomatical treatment– Symptoms: skin lesions, cornea verticilla,
renal and cardiac complications• Treatment by enzyme substitution
– Agalsidase alpha (Replagal)– Agalsidase beta (Fabrazyme)
• Infusion every 2-3 weeks
Pulmonary arterial hypertension• Symptoms
– Short breath, diziness, fainting, heart failure
• Arterial hypertensiony– Vasoconstriction– Right ventricle enlargment (pumping)– Heart failure and long fibrosis
• Venous hypertension– Left hearth failure pooling blood in lungs– Treatment : diuretic, betablocker, ace-inhibitor,
valvesurgery
Pulmonary arterial hypertension
09/10/2008
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Pulmonary arterial hypertension• Treatment
– Conventional: lifestyle changes, digoxin, diuretics, oral anticoagulants, and oxygen
– Prostaglandins:• Epoprostenol (Flolan synthetic prostacyclin)• Epoprostenol (Flolan, synthetic prostacyclin)
– Continuous infusion in central venous catheter– Instability (t½ = 5’) : on ice during administration
• Treprostinil (Remodulin)– IV– Oral and inhalation in developping
• Iloprost (Ilomedine) : longer t½– IV– Inhalation : Ventavis (US)
• Beraprost (oral – Japan and Korea)
Pulmonary arterial hypertension• Treatment
– Endothelian receptor antagonist• Bosentan (Tracleer)• Sitaxentan (Thelin)
– Phosphodiesterase inhibitors• Sildenafil (Viagra)• Sildenafil (Revatio)
– Surgery• Lung transplant
– Varia• L-Arginine (Heartbar)
•Very expensive therapy•Surviving until surgery•Partially financed by BSF (limited resources / budget)
Parkinson
• Duodopa (Belgium)
– Need steady level of dopamine– When regular treatment fails
• Severe parkinson on off fluctuations• Severe parkinson, on-off fluctuations• Swith oral intestinal administration
– Variability plasma level : 38 17 %
– Levodopa and carbidopa in intestinal gel– Administration by pump– Stability 15 weeks in fridge; 16 h at 40°C– € 45,000 / year / patient
Wilson disease
• Autosomal recessive genetic disorder• Copper accumulates in tissues• SymptomsSymptoms
– Liver disease (tiredness, hepatic encephalopathy, …)– Neurological and psychiatric problems (cognitive
deterioration, Parkinson-like, migraine, depression, psychosis, …)
– Keyser-Fleischer rings in eyes– Calciumaccumulation in kidneys, cardiomyopathy,
hypoparathyroidism, …
Wilson disease
• Treatment– Low copper diet (mushrooms, nuts, chocolate, …)– Copper chelation by penicillamin to reduce levels– Zinc acetate to maintain low Cu-levels
• Activation of metallothionein, a protein in the gut, that binds copper so it cannot be adsorbed and transported to the liver.
– Liver transplant
09/10/2008
9
Conclusions
• Orphan drugs– Definition depends on continent– Need depends on population– Status versus needs (eg raw materials)– Mostly very expensive therapies– Mostly live saving for a small population– Pharmacist has an important role
• Advising, preparing, dispensing, reimbursement
– EMEA is supporting– Ethical discussions are possible
Reflections
• Orphan drugs have a special status– Prevalence, profit, availability, legislation, …
• Similar ?– Compassionate use– Medical need– Conventions– Clinical trial– Off label use (especially in pediatrics, …)
• “Drug orphans” versus “Orphan drugs”
Orphan drugs in EuropeGeneesmiddel Vorm Actieve stof Firma Telefoon Fax Terugbetaling?
ALDURAZYME fl 500E Laronidase Genzyme nv 02/714.17.10 02/714.17.09 Ja
ATRIANCE vial 250 mg/50ml Nelarabine Glaxo 02.656.26.01 02.656.24.95 Nee
BUSILVEX amp 6 mg Busulfan Pierre Fabre 02/556.49.90 02/522.78.98 Nee
CARBAGLU tabl 200 mg Carglumic acid Orphan Europe 02/461.01.36 02/461.02.36 Ja
CYSTADANE gr poeder Betaïne Orphan Europe Benelux 02/461.01.36 02/461.02.36 NeeDIACOMIT caps 500 mg Stiripentol Biocodex 00 33 141 24 30 00 00 33 141 24 30 04 Nee
EVOLTRA Fl 20 mg Clofarabine Quintiles 00 31 23 567 0910 00 31 23 565 78 26 Nee
EXJADE tabl 125 & 250 & 500 mg
Deferasirox Novartis Pharma 02/246.15.15 02/246.15/00 Ja
FABRAZYME fl inj 35 mg Agalsidase beta Genzyme nv 02/714.17.10 02/714.17.09 Ja
GLIOLAN sir 30 mg/ml 5-Aminolevulinezuur Medac 03 897.19.00 03.897.19.19 Nee
GLIVEC caps 100 & 400 mg Imatinib Novartis Pharma nv 02/246.15.15 02/246.15.00 Ja
INOVELON tabl 100 mg Rufinamide Novartis Pharma nv 02/246.15.15 02/246.15.00 Nee
LITAK amp 10 mg/5 ml Clabridine Lipomed 00 31 413 369 285 Nee
LYSODREN tabl 500 mg Mitotaan Laboratoire HRA Pharma 00 33 140 331 130 00 33 140 331 231 Nee
MYOZYME vial 50 mg Recombinant-human & glucosidase Genzyme NV 02/714 17 10 02/714 17 09 JaMYOZYME vial 50 mg Recombinant-human & glucosidase Genzyme NV 02/714.17.10 02/714.17.09 Ja
NAGLAZYME amp 1 mg/ml Galsufase Biomarin 0477/89.60.40 051/63.53.47 Nee
NEXAVAR tabl 200 mg Sorafenib tosylate Bayer 02/535.65.30 02/539.00.88 Ja
ONSENAL caps 200 mg Celecoxib Pfizer 02/722.03.97 02/721.42.65 Nee
ORFADIN caps 10 mg Nitisinone Orphan Europe 02/461.01.36 02/461.02.36 Ja
PEDEA amp 10 mg/2 ml Ibuprofen Orphan Europe Benelux 02/461.01.36 02/461.02.36 Nee
PHOTOBARR Fl 15 mg/ fl 75 mg Porfimer sodium Nee
PRIALT Fl 100 mg/ml Ziconotide Eisai Pharma 00 44 1932 824123 00 44 1932 824323 Nee
REPLAGAL vial 3,5 mg/3,5 ml Agalsidase alfa TKT – 5S AB 00 46 8 544 964 00 00 46 8 544 964 29 Ja
REVATIO tabl 20 mg Sildenafil Pfizer 02/722.03.97 02/721.42.65 Nee
SAVENE Fl 500 mg Dexrazoxane Topotarget 33 1 41 27 73 45 45 39 17 98 98 Nee
SOMAVERT amp 10mg/15 mg/ 20mg
Pegvisomant Pfizer 02/722.03.97 02/721.42.65 Ja
SPRYCEL tabl 20 & 50 & 70 mg Dasatinib Bristol-Myers-Squibb 02/352.76.11 02/352.75.66 Ja
SUTENT caps 12,5 & 50 mg Sunitinib Pfizer 02/722.03.97 02/721.42.65 Ja
THELIN caps 100 mg Sitaxentan sodium Nee
TRACLEER tabl 62,5 & 125 mg Bosentan Pharma Logistics 02/363.15.70 02/363.15.99 Ja
TRISENOX amp 10 mg/10 ml Arsenic trioxide Cell Therapeutics Ja
VENTAVIS Iloprost Nee
WILZIN caps 25 & 50 mg Zinc acetate Orphan Europe Benelux 02/461.01.36 02/461.02.36 Nee
XAGRID caps 0,5 mg Anagrelide Pharma Logistics 02/363.15.70 02/363.15.99 Ja
XYREM 500 mg/ml Sodium oxybate UCB Pharma 02/559.92.26 Nee
ZAVESCA tabl 100 mg Miglustaat Pharma Logistics 02/363.15.70 02/363.15.99 Ja
Orphan drugs outside EuropeGeneesmiddel Vorm Actieve stof Firma Telefoon Fax Terugbetaling
ADVATE fl inj 5 ml 500E Octocog alfa (recombinante stollingsfactor VIII)
Baxter Hyland 02/650.18.86 02/650.18.55 Ja
ADVATE fl inj 5 ml 1000E Octocog alfa (recombinante stollingsfactor VIII)
Baxter Hyland 02/650.18.86 02/650.18.55 Ja
BERINERT amp 500E C1-esteraseremmer ZLB Behring 016/38.80.81 016/38.80.89 NeeFERRIPROX tabl 500 mg Deferiprone OPG Medico 00 31 102 62 57 63 00 31 102 62 57 60 JaFLOLAN fl IV 500 mcg Epoprostenol Glaxo Smith Kline nv 02/656.26.01 02/656.24.95 NeeFLOLAN fl 1,5 mg + 2x50 ml solv Epoprostenol Glaxo Smith Kline nv 02/656.26.01 02/656.24.95 Nee
HELIXATE NEXGEN fl 250E Octocog alfa (recombinante stollingsfactor VIII)
ZLB Behring 016/38.80.81 016/38.80.89 Ja
HELIXATE NEXGEN fl 500E Octocog alfa (recombinante stollingsfactor VIII)
ZLB Behring 016/38.80.81 016/38.80.89 Ja
HELIXATE NEXGEN fl 1000E Octocog alfa (recombinante stollingsfactor VIII)
ZLB Behring 016/38.80.81 016/38.80.89 ja
ILOMEDINE amp 0,05 mg Iloprost-tromethamine Schering nv 02/712.85.00 02/725.43.00 NeeKOGENATE fl 250IU Octocog alfa (recombinant coagulation
factor VIII)Bayer Pharma 02/535.65.39 02/539.00.88 Ja
KOGENATE fl 500IU Octocog alfa (recombinant coagulation factor VIII)
Bayer Pharma 02/535.65.39 02/539.00.88 Jafactor VIII)
KOGENATE fl 1000IU Octocog alfa (recombinant coagulation factor VIII)
Bayer Pharma 02/535.65.39 02/539.00.88 Ja
NOVOSEVEN 4,8 mg (240KUI) Eptacog alfa (geactiveerd) Novo Nordisk 02/520.62.10 JaNOVOSEVEN 60 KUI (1,2 mg) Eptacog alfa (geactiveerd) Novo Nordisk 02/520.62.10 JaNOVOSEVEN 240 KUI (4,8 mg) Eptacog alfa (geactiveerd) Novo Nordisk 02/520.62.10 JaPROLASTIN fl 40 ml 1000 mg Alpha1-Proteinase Inhibitor (Human) Bayer Pharma 02/535.65.39 02/539.00.88 NeePROLEUKIN fl IV 1 mg 18 milj Recombinant humaan Interleukin-2 Red Swan pharma logistics 02/223.33.30 02/223.34.30 JaPULMOZYME inhal amp 2,5 mg/2,5 ml Dornasum alfa Roche nv 02/525.82.36 02/525.82.66 Ja
REFACTO fl 500E Moroctocog alfa (recombinante coagulatiefactor VIII)
Wyeth Pharmaceuticals nv 010/49.48.50 010/49.46.80 Ja
REFACTO fl 1000E Moroctocog alfa (recombinante coagulatiefactor VIII)
Wyeth Pharmaceuticals nv 010/49.48.50 010/49.46.80 Ja
REFLUDAN fl IV 50 mg Lepirudine Pharma Logistics 02/363.15.70 02/363.15.99 JaRILUTEK tabl 50 mg Riluzole Sanofi Synthelabo nv 015/50.96.43 015/50.96.60 JaSOMATULINE autogel spuit inj 90 mg Lanreotide Ipsen nv 09/243.96.00 09/220.44.73 JaSOMATULINE autogel spuit inj 60 mg Lanreotide Ipsen nv 09/243.96.00 09/220.44.73 JaSOMATULINE autogel spuit inj 120 mg Lanreotide Ipsen nv 09/243.96.00 09/220.44.73 JaSOMATULINE P.R. fl IM 20 mg/ml Lanreotide Ipsen nv 09/243.96.00 09/220.44.73 JaTHALIDOMIDE tabl 50 mg Thalidomide 0800/496.84 0800/496.86 JaTHYROGEN kit 2xvial 1.1 mg + 2x10
ml oplThyrotropine alfa Genzyme nv 02/714.17.10 02/714.17.09 Ja
THYROGEN pulv. vr. inj. 0,9 mg Thyrotropine alfa Genzyme nv 02/714.17.10 02/714.17.09 JaTOBI amp opl vr neb 300 mg/5
mlTobramycinum Solvay Pharma & Cie 02/422.27.11 02/422.27.99 Ja
XENAZYNE tabl 25 mg Tetrabenazine John Bell-Croyden 00 44 20 79 35 55 55 00 44 20 79 35 96 05 Nee
ZEFFIX tabl 100 mg Lamivudine Glaxo Smith Kline 02/656.26.01 02/656.24.95 Ja
Orphan-like drugs in Europe (before 2000)Geneesmiddel Vorm Actieve stof Firma Telefoon Fax Terugbetaling
AMMONAPS gran940mg/g; tabl500mg
Natriumfenylbutyraat Orphan Europe Benelux 02/461.01.36 02/461.02.36 Nee
BENEFIX fl 500E Nonacog alfa (recombinant coagulation factor IX)
Baxter Hyland 02/650.18.86 02/650.18.55 Ja
BENEFIX fl 1000E Nonacog alfa (recombinant coagulation factor IX)
Baxter Hyland 02/650.18.86 02/650.18.55 Ja
BEROMUN fl IV 1 mg Tasonermine Boehringer Ingelheim nv
087/31.50.05 087/31.21.97 Ja
CEREZYME 400E fl pulv. vr. inj. Imiglucerase Genzyme nv 02/714.17.10 02/714.17.09 JaCYSTAGON caps 50 mg Mercaptamine Orphan Europe 02/461.01.36 02/461.02.36 JaCYSTAGON caps 150 mg Mercaptamine Orphan Europe 02/461.01.36 02/461.02.36 NeeORLAAM 10 mg / ml Levomethadyl HCl-acetaat NeeQUADRAMET Samarium lexidronam pentanatrium NeeVITRAVENE 6,6 mg/ml: 0,25 ml Fomivirsen natrium Nee
Thank you foryour attention
Oliver Twist, story by Charles Dickens, 1838
OOOrrrppphhhaaannn dddrrruuugggsss
DDDoooccctttooorrraaalll ssseeemmmiiinnnaaarrr
000999---111000---222000000888
Thomas De Rijdt
UZ Leuven – Ziekenhuisapotheek
Herestraat 49 – B3000 Leuven
Thomas De Rijdt – Doctoral seminar – Orphan drugs
Doctoral seminar of Thomas De Rijdt.
Title : Orphan drugs
Summary : Since medicine and diagnostics have been improved over the years it now is
possible to detect more rare diseases, commonly known as “orphan diseases”. Patients
with these diseases are treated with “orphan drugs” and as there is, by definition, no
commercial benefit in producing this medication it is very expensive to buy on the market
or even very scarse to find in a non-pharmaceutical quality of the raw material for use in
compounding. Nevertheless, in large tertiary care centres these drugs are requested nearly
daily.
As there’s specific legislation for production and registration of orphan drugs and as these
medication package is taking a large amount of money from the national healthcare budget
for a minority of the population, dispensing this products is not obvious.
In this presentation we’ll focus on the definition by EMEA, specific legislation concerning
production and registration, pharmaco-economics and some ethical questions.
Complementary an overview of the most common orphan drugs will be presented.
Thomas De Rijdt
Thomas De Rijdt – Doctoral seminar – Orphan drugs
Orphan drugs
Definition
Some diseases are overlooked by doctors (for example Fabry’s disease, alveolar
echinococcosis, variant renal cancer, high myopia and even common conditions as
endometrial cancer and tobacco addiction) and are therefore described as orphan diseases.
However, the therm “orphan disease” is more specially used to designate diseases that
affect only small number of individuals, the so called health orphans(1).
The definition of orphan diseases depends on the country. In the US orphan diseases have a
prevalence less than 1/200,000 Americans. In Japan prevalence has to be less than 1/50,000
while in Europe it has to be less than 5/10,000 and in Australia 1/2,000 citizens is the limit.
Most of these diseases have not been “adopted” by the pharmaceutical industy because they
provide little financial incentive for the private sector to make and market new medications
to treat or prevent them. Since 25 years different organizations like NORD (National
organization of rare diseases), NIH (National institute of health), Orphanet and Eurordis
(European organization of rare diseases) are listing up data. There are already 5,000 – 8,000
known rare disorders affecting 6 – 8 % of the population. For Europe we’re talking about
25 million patients(2).
All medicinal products intended for diagnosis, prevention or treatment of life-threatening or
chronically debilitating conditions affecting no more than 5 in 10,000 persons in the
European Union at the time of submission of the designation application at the European
Thomas De Rijdt – Doctoral seminar – Orphan drugs
Medicine Agency (EMEA) or when it is unlikely that expected sales of the product would
cover the investment in development without any incentive and if no such method already
exists and the products will be of significant benefit to the patients are designated as an
orphan medicinal product(3). Similar, the Food and Drug Administration (FDA) defined that
orphan drugs refer to products that treats rare diseases affecting fewer than 1 in 200,000
Americans(4).
As mentioned in the doctoral school program “From target tot market” in the development
of new drugs only few molecules make it to the market. Most of the unlucky molecules
become shelf drugs and will be forgotten in time. Sometimes they can live a second life as
recreational drug or orphan drug. Other orphan drugs are intentionally designed to treat a
rare disease.
Legislation
To encourage the pharmaceutical sector to market these products in January 1983 the US
government installed the Orphan Drug Act (ODA) which gives tax reductions and an
extend marketing exclusivity of 7 years to the companies. This act augmented the number
of authorized orphan drugs enormously(5). It took until the year 2000 before the European
Medicine Agency founded its committee on orphan medicinal product (COMP) and created
incentives to encourage companies to do research in the orphan drug segment. Therefore
they provide in protocol assistance, fee reductions, 10 year marketing exclusivity and central
European registration(6). Once the protocol is filed it takes maximum 120 days before the
European community refuses or publishes the status of orphan drug. From then the
Thomas De Rijdt – Doctoral seminar – Orphan drugs
company can request a marketing authorization for the desired indication and discuss a
vending price and eventually reimbursement can be required.
During time there’s been an evolution in therapeutic category of the authorized orphan
drugs. In 2001 – 2003 the majority of the molecules were enzymes and were used for the
treatment of metabolic diseases (42 %), followed by the category of antineoplastic drugs (34
%). Time shifted these numbers in the advantage of antineoplastic drugs while other smaller
groups made their entry. In 2001-2007 the situation was charactersized by antineoplastics
42 % and enzymes 27 %. In 2006 the American top 5 of drugs used in the treatment of rare
diseases showed similar rankings: cancer (38 %), metabolic diseases (37 %), infectious
diseases (23 %), neurologic disorders (18 %) and hematological disorders (16 %)(5).
Cost
As companies are encouraged to market drugs for the treatment of rare diseases it is
theoretically possible to slice a disease until the subtypes have a prevalence of less than 5 in
10,000 to benefit from the specified incentives. In the US chloretazine and oxaliplatin are
recognized as orphan drugs for treatment of leukemia (divided into 18 types)(7), in Europe
we find Glivec, Tasigna and Sprycel for treatment of chronic myeloid leukemia (CML).
The development of orphan drug isn’t rocket science but nevertheless it needs special
attention. Because of the small population research has to be organized international and
multicentric. Sometimes it is hard to proof a sufficient level of evidence and literature
shows often more case reports than fully randomized clinical trials. Some products are
Thomas De Rijdt – Doctoral seminar – Orphan drugs
hard to synthetize (eg enzymes) while others are nearly replica’s of older drugs (eg
thalidomide), aliases (eg Pedea, Siklos) or simple molecules (eg Wilzin).
Because of their orphan drug status these products are often given high vending prices (eg
Savene € 10335/vial, Tasigna € 4226/box, Myozyme € 556/vial, …) leading to enormous
therapy costs. A patient suffering from mucopolysccharidosis and treated with Aldurazyme
costs about € 300,000 / year to the community. In Belgium are 12 known patients. Such
amounts and numbers can be cited for all rare diseases. This huge impact on the budget for
such a little group of patients can lead to ethical discussions. In the Maastricht Treaty of
December 1991 EMEA stated that every citizen has the right to receive all proper needed
healthcare, including expensive treatment for rare diseases.
Nitisinone once was a low cost herbicide. Since it is used for treatment of tyrosinemea it
achieved a orphan drug status and is marketed as Orfadin at the price of € 58 per tablet.
This makes it 400 times more expensive than solid gold. An analog story can be told for
Siklos and Wilzin. Nevertheless this medication is sold a high prices manufacturers are not
always taking best care of packaging. This drugs are distributed in bottles in stead of high
quality unit dose packing.
There’s an important role for the pharmacist in dispensing orphan drugs. For the most
recent drugs the government demanded companies to set up a risk management program
(eg Revlimid, Thalidomide). Applying this program takes time and skills of the pharmacists
while they’re not paid for this work. Only € 7,11 is provided for covering the costs of
purchasing, keeping stock, handling, dispensing and follow-up.
Raw materials
Thomas De Rijdt – Doctoral seminar – Orphan drugs
Even with the European incentives for marketing orphan drugs not all needed molecules are
available as pharmaceutical while they’re needed to threat patients. Especially tertiary care
hospitals are dealing with this problem. Most of these molecules are available as raw
material in chemical or HPLC grade. The Royal Decree of 19-12-1997 stipulates that a
pharmacist can use non licensed materials for magistral compounding if they are analysed by
a certified laboratory. In the 2008 adaptation of the RD this will not be allowed anymore.
On request of the society of hospital pharmacist an addendum will be published to define
the conditions in which a pharmacist is permitted to use this raw materials. Until then a
pharmacist walks on the thin line between law and ethics.
Survey UZ Leuven
In 2007 UZ Leuven started an orphan diseases task force to survey the use of orphan drugs
in the hospital. Over 100 orphan diseases were reported, 18 orphan drugs and 11 orphan
raw materials are used with a budget of € 7,000,000 in the year 2007. UZ Leuven treats
over 2000 patients with orphan drugs. In 2008 the task force advised and requested the
foundation of the “Leuven coordination center for rare diseases and their treatments”
which purpose it is to support the administrative management related to rare diseases
(www.weesziektencentrale.be will be available soon).
Rare diseases: capital selecta
Pompe disease
In 1932 Johann Pompe first described an autosomal recessive metabolic disorder affecting
the enzyme acid maltase. The disease is also known as glycogen storage disease type II
Thomas De Rijdt – Doctoral seminar – Orphan drugs
because glycogen accumulates in the muscles because it cannot be breaked down due to the
enzyme deficiency. The infantile or early onset is noticed shortly after birth and most of the
children will die before the age of two of respiratory or cardiac complications.
Therapy exist in administering a replacing enzyme that can break down glycogen. In 2001
Genzyme coordinated a clinical trial with alpha-glucosidase. Only one patient was included
in Belgium.
Thanks to the therapy the patient could survive but is depended on a wheelchair and special
care. The hospital pharmacist had a big role in finetuning the method of preparation,
administration and was facilitator in studying extended stability of the solution. After 5-6
years the product Myozyme is available as orphan drug.
Fabry disease
A similar autosomal recessive metabolic disorder concerns the deficiency of the enzyme
alpha-galactosidase and leads to the accumulation of globotriaosylceramide, a glycolipid that
causes Fabry disease. For the treatment of this disorder two subtypes of the enzyme
agalsidase are available as Replagal and Fabrazyme.
Pulmonary arterial hypertension
For the treatment of pulmonary arterial disease five orphan drugs are authorized. This
disorder is characterized by an enlarged right ventricle due to difficult bloodflow in the
lungs caused by vasoconstriction and is leading to hearth failure and long fibrosis.
Conventional treatment exists of lifestyle changes, digoxin, diuretics, oral anticoagulants and
administration of oxygen but isn’t sufficient to let the patient survive.
A first breakthrough came with the availability of epoprostenol, a synthetic prostacyclin
(Flolan). With this therapy patients could survive until a donor for lung transplantation was
Thomas De Rijdt – Doctoral seminar – Orphan drugs
found. Besides a high cost to the community the therapy was hard for a patient to be
compliant. The prostaglandins have to be administered by continous infusion via a central
venous catheter. Due to its unstability (t½ = 5 minutes) the solution has to be kept on ice
during administration to slow down decomposition. Special pouches were developed to
carry the pump reservoirs in cooled conditions. Right now other prostaglandins like
treprostinil (Remodulin) and iloprost (Ilomedine) with other farmacokinetic parameters are
available and give patients more comfort and flexibility. In Asia en the USA oral
prostaglandins are available. Also endothelial receptor antagonists are influencing the
symptoms and can be used in therapy. In Belgium bosentan (Tracleer) and sitaxentan
(Thelin) are available for oral administration. In the group of phospdiesterase inhibitors
sildenafil (Viagra and Revatio) are available. Supplements of L-arginin are available as
supporting therapy. In the USA it is marketed as HeartBar, a “medicinal” candy-bar.
Parkinson disease
In some severe degrees of Parkinson disease a patient can have on-off fluctuations. This can
be explained by 38 % variability in plasma levels caused by the small half life of levodopa and
the erratically absorption in the stomach of severe Parkinson patients resulting in peaks and
throughs in the plasma levels. When levodopa and carbidopa are given in the jejunum this
variability drops back to 17 % while the patients on-off fluctuations disappears. The
intestinal gel is given by a CADD-pump through a nasal-jejunal probe (or a button). The
product is marketed as a ready to use solution with a stability of only 15 weeks in the
refridgerator and 16 hours at body temperature. The therapy has a cost of € 45,000 / year
/ patient.
Thomas De Rijdt – Doctoral seminar – Orphan drugs
Wilson disease
In 1912 Samuel Wilson first described an autosomal recessive genetic disorder which is
basically a accumulation of copper in the tissues of the body. The symptoms vary from liver
disease to neurological and psychiatric problems but one of the most typical is the presence
of a Keyser-Fleischer ring in the eyes. Besides copper also calcium is accumulated in the
kidneys. Patients often suffer from cardiomyopathy an hypoparathyroidism. The treatment
of Wilson disease is very simple and exists of a low copper diet combined with copper
chelation by penicillamin. But there’s also a natural way of binding the metal. Zinc acetate
activates methallothionein, a protein in the gut, that binds copper so it cannot be adsorbed
and transported to the liver. But in the end the patient will probably need a liver
transplant.
Conclusions
The definitions of orphan diseases and orphan drugs depend on the country and the need to
grant the status depends on the population. So a certain disease can be common in the
West while it is rare in the East. Once a product is recognized as an orphan drug the
manufacturer gets financial incentives to market the drug. In most cases this is related to a
high vending price resulting in very expensive therapies in which pharmacists play an
important role in advising, preparing, dispensing and managing financials (eg reimbursement).
In Europe EMEA is supporting and facilitating. The transparency of their assessment can be
seen in the online publication of the European Public Assesment Report (EPAR) in which
the full analysis of the request is written down.
In spite of the given incentives not al needed molecules are available as orphan drug. This
leads to problems in tertiary care hospitals where these drugs are needed on a nearly daily
basis to treat the rare patients. The Royal Decree of 1997 will forbid the use of non
Thomas De Rijdt – Doctoral seminar – Orphan drugs
licensed materials. In the 2008 adaptation the conditions in which a hospital pharmacist can
use these orphan raw materials wil be defined leading us out of the twilight zone.
Nevertheless ethical and macro farmaco-economical discussions in this domain will be of all
times.
Reflection
Orphan drugs is just a special status for medication that is needed to treat uncommon
diseases. But what is the difference with compassionate use, medical need, clinical trials,
conventions and off label use … aren’t they all just names to define a way in which people
can be helped when the commonly available medication fails to do the job ?
Thomas De Rijdt – Doctoral seminar – Orphan drugs
References:
1) Aronson, Br J Clin Pharmacol 2006 March; 61(3): 243-245.
2) www.medicinenet.com, accessed 29-09-2008.
3) EMEA guidelines : EMEA/290072/2007.
4) www.fda.gov, accessed 29-09-2008.
5) Haffner, N Engl J Med. 2006 Feb 2;354(5): 445-447.
6) EMEA guidelines : EG 141/2000 dd. 16-12-1999.
7) Y. Waknine, 2004, www.medscape.com, accessed 29-09-2008