The Most Expensive Medicines in the World

The Most Expensive Medicines in the World

Expensive medicines are often innovative therapies with high costs due to the extensive research, development, and manufacturing involved, as well as their effectiveness in treating rare or complex diseases. Here’s a list of the 7 most expensive drugs, along with information on each, including their applications, mechanisms of action, market impact, and unique features.

1. Zolgensma
   Diseases: Spinal Muscular Atrophy (SMA)
   Mechanism: Gene therapy that repairs the defective SMN1 gene.
   Market Change: Introduced a revolutionary approach to treating genetic diseases with a single gene therapy.
   Differential: The first gene therapy cure for SMA.
   Laboratory: Novartis
   Advances Post-Medicine: Increased availability of gene therapies.
   Patient Life Improvement: Cure of SMA in children leads to a near-normal life.
   Cure: Yes
   Life Improvement: Significant

2. Luxturna
   Diseases: Inherited Retinal Degeneration
   Mechanism: Gene therapy that inserts a functional copy of the RPE65 gene into the retina.
   Market Change: Opened the use of gene therapies in ophthalmological diseases.
   Differential: The first gene therapy for an inherited eye disease.
   Laboratory: Spark Therapeutics
   Advances Post-Medicine: Accelerated research in therapies for rare eye diseases.
   Patient Life Improvement: Significant improvement in vision and quality of life.
   Cure: No
   Life Improvement: High

3. Soliris (Eculizumab)
   Diseases: Paroxysmal Nocturnal Hemoglobinuria (PNH), Atypical Hemolytic Uremic Syndrome (aHUS)
   Mechanism: Inhibits the C5 protein in the complement system, preventing red blood cell destruction.
   Market Change: Changed the approach to treating rare blood diseases.
   Differential: The first effective therapy for complement-related diseases.
   Laboratory: Alexion Pharmaceuticals
   Advances Post-Medicine: Development of more effective complement therapies.
   Patient Life Improvement: Reduces severe complications and increases survival.
   Cure: No
   Life Improvement: Significant

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4. Kymriah
   Diseases: Acute Lymphoblastic Leukemia (ALL), Lymphoma
   Mechanism: CAR-T cell therapy that reprograms the patient’s T cells to attack cancer cells.
   Market Change: Paved the way for genetically modified T-cell therapies.
   Differential: Effective treatment for certain types of leukemia and lymphoma.
   Laboratory: Novartis
   Advances Post-Medicine: Advances in T-cell therapies for other types of cancer.
   Patient Life Improvement: Significant increase in remission and cure rates in some patients.
   Cure: Yes (in some cases)
   Life Improvement: High

5. Hemlibra
   Diseases: Hemophilia A
   Mechanism: Replaces coagulation factor VIII to prevent bleeding.
   Market Change: Became an effective and easier-to-administer alternative for hemophilia A patients.
   Differential: More accessible therapy with fewer complications than previous treatments.
   Laboratory: Genentech
   Advances Post-Medicine: Development of more effective therapies for bleeding disorders.
   Patient Life Improvement: Reduces bleeding episodes and improves quality of life.
   Cure: No
   Life Improvement: High

6. Adakveo
   Diseases: Sickle Cell Anemia
   Mechanism: Reduces the adhesion of sickle cells in blood vessels, preventing crises.
   Market Change: Provided a new therapeutic option for a rare and debilitating disease.
   Differential: Alleviates painful crises in sickle cell patients.
   Laboratory: Novartis
   Advances Post-Medicine: Expanded treatment options for hematological diseases.
   Patient Life Improvement: Improved quality of life and reduced hospitalizations.
   Cure: No
   Life Improvement: Significant

7. Blincyto
   Diseases: Acute Lymphoblastic Leukemia (ALL)
   Mechanism: Bispecific antibody that links T cells and leukemia cells, activating the destruction of malignant cells.
   Market Change: Innovation in the treatment of leukemias and lymphomas.
   Differential: Uses the patient’s own immune response to treat cancer.
   Laboratory: Amgen
   Advances Post-Medicine: Increased use of bispecific antibodies in other oncological conditions.
   Patient Life Improvement: Improved remission rates and survival.
   Cure: No
   Life Improvement: High

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Table: Cure and Life Improvement

Medicine	Disease	Cure	Life Improvement
Zolgensma	Spinal Muscular Atrophy (SMA)	Yes	Significant
Luxturna	Inherited Retinal Degeneration	No	High
Soliris	Paroxysmal Nocturnal Hemoglobinuria	No	Significant
Kymriah	Acute Lymphoblastic Leukemia	Yes (in some cases)	High
Hemlibra	Hemophilia A	No	High
Adakveo	Sickle Cell Anemia	No	Significant
Blincyto	Acute Lymphoblastic Leukemia	No	High

1. Zolgensma,

2. Luxturna,

3. Soliris,

4. Kymriah,

5. Hemlibra,

6. Adakveo,

7. Blincyto,

8. Opdivo,

9. Keytruda,

10. Darzalex,

11. Repatha,

12. Spinraza,

13. Nusinersen,

14. Stelara,

15. Nivolumab,

16. Emicizumab,

17. Rybelsus,

18. Tecentriq,

19. Gleevec,

20. Cyramza,

21. Imbruvica,

22. Xarelto,

23. Vitrakvi,

24. Alectinib,

25. Biktarvy,

26. Ocrevus,

27. Kineret,

28. Enbrel,

29. Dupixent,

30. Trodelvy,

31. Regeneron,

32. Vyndaqel,

33. Imfinzi,

34. Vosevi,

35. Kymriah,

36. Darzalex Faspro,

37. Yescarta,

38. Blincyto,

39. Avsola,

40. Tanzeum,

41. Treanda,

42. Nivolumab,

43. Tivdak,

44. Farxiga,

45. Keytruda,

46. Repatha,

47. Eculizumab,

48. Gazyva,

49. Cotellic,

50. Tecfidera,