Rare disease explained

A rare disease is a disease that affects a small percentage of the population. In some parts of the world, the term orphan disease describes a rare disease whose rarity results in little or no funding or research for treatments, without financial incentives from governments or other agencies. Orphan drugs are medications targeting orphan diseases.

Most rare diseases are genetic in origin and thus are present throughout the person's entire life, even if symptoms do not immediately appear. Many rare diseases appear early in life, and about 30% of children with rare diseases will die before reaching their fifth birthdays.[1] With only four diagnosed patients in 27 years, ribose-5-phosphate isomerase deficiency is considered the 2nd rarest known genetic disease being beaten only by Fields Condition affecting two known individuals, Catherine and Kirstie Fields.[2] [3]

No single number has been agreed upon for which a disease is considered rare. Global Genes has estimated that currently approximately 10,000 rare diseases exist globally, with 80% of these having identified genetic origins.[4]

Definition

There is no single, widely accepted definition for rare diseases. Some definitions rely solely on the number of people living with a disease, and other definitions include other factors, such as the existence of adequate treatments or the severity of the disease.

In the United States, the Rare Diseases Act of 2002 defines rare disease strictly according to prevalence, specifically "any disease or condition that affects fewer than 200,000 people in the United States",[5] or about 1 in 1,500 people. This definition is essentially the same as that of the Orphan Drug Act of 1983, a federal law that was written to encourage research into rare diseases and possible cures.

In Japan, the legal definition of a rare disease is one that affects fewer than 50,000 patients in Japan, or about 1 in 2,500 people.[6]

However, the European Commission on Public Health defines rare diseases as "life-threatening or chronically debilitating diseases which are of such low prevalence that special combined efforts are needed to address them".[7] The term low prevalence is later defined as generally meaning fewer than 1 in 2,000 people.[8] Diseases that are statistically rare, but not also life-threatening, chronically debilitating, or inadequately treated, are excluded from their definition.

The definitions used in the medical literature and by national health plans are similarly divided, with definitions ranging from 1/1,000 to 1/200,000.

Definitions of rare disease in different countries: an incomplete list[9] !Country!Patient ratio as defined!Patient ratio standardised for comparison
Brazil65 in 100,0001 in 1,538
United States<200,000 in population1 in 1,659
Argentina1 in 2,0001 in 2,000
Australia5 in 10,0001 in 2,000
Chile5 in 10,0001 in 2,000
Colombia1 in 2,0001 in 2,000
European Union5 in 10,0001 in 2,000
Mexico5 in 10,0001 in 2,000
Norway5 in 10,0001 in 2,000
Panama1 in 2,0001 in 2,000
Singapore1 in 2,0001 in 2,000
Switzerland5 in 10,0001 in 2,000
United Kingdom1 in 2,000[10] 1 in 2,000
Japan<50,000 in population1 in 2,507
Russian Federation10 in 100,0001 in 10,000
Peru1 in 100,0001 in 100,000

Relationship to orphan diseases

Because of definitions that include reference to treatment availability, a lack of resources, and severity of the disease, the term orphan disease is frequently used as a synonym for rare disease.[6] But in the United States and the European Union, "orphan diseases" have a distinct legal meaning.

The United States' Orphan Drug Act includes both rare diseases and any non-rare diseases "for which there is no reasonable expectation that the cost of developing and making available in the United States a drug for such disease or condition will [be] recovered from sales in the United States of such drug" as orphan diseases.[11]

The European Organization for Rare Diseases (EURORDIS) also includes both rare diseases and neglected diseases into a larger category of "orphan diseases".[12]

Prevalence

Prevalence (number of people living with a disease at a given moment), rather than incidence (number of new diagnoses in a given year), is used to describe the impact of rare diseases. The Global Genes Project estimates some 300 million people worldwide are affected by a rare disease.

The European Organization for Rare Diseases (EURORDIS) estimates that between 3.5 and 5.9% of the world's population is affected by one of approx. 6,000 distinct rare diseases identified to-date.[13] European Union has suggested that between 6 and 8% of the European population could be affected by a rare disease sometime in their lives.[14]

About 80% of rare diseases have a genetic component and only about 400 have therapies, according to Rare Genomics Institute.[15]

Rare diseases can vary in prevalence between populations, so a disease that is rare in some populations may be common in others. This is especially true of genetic diseases and infectious diseases. An example is cystic fibrosis, a genetic disease: it is rare in most parts of Asia but relatively common in Europe and in populations of European descent. In smaller communities, the founder effect can result in a disease that is very rare worldwide being prevalent within the smaller community. Many infectious diseases are prevalent in a given geographic area but rare everywhere else. Other diseases, such as many rare forms of cancer, have no apparent pattern of distribution but are simply rare. The classification of other conditions depends in part on the population being studied: All forms of cancer in children are generally considered rare,[16] because so few children develop cancer, but the same cancer in adults may be more common.

Estimating the incidence and prevalence of rare diseases is a complex process due to their wide range of prevalence rates. Rare diseases with higher prevalences can be estimated through a screening panel or patient registries, while diseases which are exceedingly rare may only be able to be estimated through a multi-step nationwide reporting process or case reports. Therefore, the data is often incomplete and complex to amalgamate, compare, and update continually. The Genetic and Rare Diseases Information Center at the National Center for Advancing Translational Sciences curates and compiles rare disease prevalence and incidence from PubMed articles and abstracts using a combination of deep learning algorithms and rare disease experts.[17]

About 40 rare diseases have a far higher prevalence in Finland; these are known collectively as Finnish heritage disease. Similarly, there are rare genetic diseases among the Amish religious communities in the US and among ethnically Jewish people.

Characteristics

A rare disease is defined as one that affects fewer than 200,000 people across a broad range of possible disorders.[18] Chronic genetic diseases are commonly classified as rare.[18] [19] Among numerous possibilities, rare diseases may result from bacterial or viral infections, allergies, chromosome disorders, degenerative and proliferative causes, affecting any body organ.[18] Rare diseases may be chronic or incurable, although many short-term medical conditions are also rare diseases.[18]

Public research and government policy

United States

The NIH's Office of Rare Diseases Research (ORDR) was established by H.R. 4013/Public Law 107–280 in 2002.[20] H.R. 4014, signed the same day, refers to the "Rare Diseases Orphan Product Development Act".[21] Similar initiatives have been proposed in Europe.[22] The ORDR also runs the Rare Diseases Clinical Research Network (RDCRN). The RDCRN provides support for clinical studies and facilitating collaboration, study enrollment and data sharing.[23]

United Kingdom

In 2013, the United Kingdom government published The UK Strategy for Rare Diseases which "aims to ensure no one gets left behind just because they have a rare disease", with 51 recommendations for care and treatment across the UK to be implemented by 2020.[24] Health services in the four constituent countries agreed to adopt implementation plans by 2014, but by October 2016, the Health Service in England had not produced a plan and the all-party parliamentary group on Rare, Genetic and Undiagnosed Conditions produced a report Leaving No One Behind: Why England needs an implementation plan for the UK Strategy for Rare Diseases in February 2017.[25] In March 2017 it was announced that NHS England would develop an implementation plan.[26] In January 2018 NHS England published its Implementation Plan for the UK Strategy for Rare Diseases.[27] In January 2021 the Department of Health and Social Care published the UK Rare Diseases Framework, a policy paper which included a commitment that the four nations would develop action plans, working with the rare disease community, and that "where possible, each nation will aim to publish the action plans in 2021".[28] NHS England published England Rare Diseases Action Plan 2022 in February 2022.[29]

International

Organisations around the world are exploring ways of involving people affected by rare diseases in helping shape future research, including using online methods to explore the perspectives of multiple stakeholders.[30]

Public awareness

Rare Disease Day is held in Europe, Canada, the United States, and India on the last day of February (thus, in leap years, on February 29, the rarest day)[31] to raise awareness for rare diseases.[32] [33] [34] [35] There are a number of non-profit and charitable organisations which push for further awareness, interest, and engagement in the subject of rare diseases, including EURORDIS, Genetic Alliance UK, and the Rare Revolution Magazine.[36]

See also

External links

Notes and References

  1. Web site: Rare Diseases . Siope.Eu . 2009-06-09 . 2012-09-24 . dead . https://web.archive.org/web/20121203212325/http://www.siope.eu/SIOPE-EU/English/SIOPE-EU/Advocacy-Activities/Rare-Diseases/page.aspx/148 . 3 December 2012 .
  2. Wamelink MM, Grüning NM, Jansen EE, Bluemlein K, Lehrach H, Jakobs C, Ralser M . The difference between rare and exceptionally rare: molecular characterization of ribose 5-phosphate isomerase deficiency . Journal of Molecular Medicine . 88 . 9 . 931–9 . September 2010 . 20499043 . 10.1007/s00109-010-0634-1 . 10870492 . 1871/34686 .
  3. Kaur. Parneet. Wamelink. Mirjam M. C.. van der Knaap. Marjo S.. Girisha. Katta Mohan. Shukla. Anju. 2019-08-01. Confirmation of a Rare Genetic Leukoencephalopathy due to a Novel Bi-allelic Variant in RPIA. European Journal of Medical Genetics. en. 62. 8. 103708. 10.1016/j.ejmg.2019.103708. 31247379 . 195760193 . 1769-7212.
  4. Web site: RARE List. 15 April 2016. . globalgenes.org . 29 January 2023.
  5. Web site: Rare Disease Act of 2002. United States Congress. 21 January 2022.
  6. Web site: Rare diseases: what are we talking about?. Rare diseases centre – Venetian Region – Italy. 21 January 2022.
  7. Web site: 19 May 2009 . Useful Information on Rare Diseases from an EU Perspective . European Commission.
  8. Baldovino S, Moliner AM, Taruscio D, Daina E, Roccatello D . Rare Diseases in Europe: from a Wide to a Local Perspective . The Israel Medical Association Journal . 18 . 6 . 359–63 . June 2016 . 27468531 . Review .
  9. Web site: KEI Briefing Note 2020:4 Selected Government Definitions of Orphan or Rare Diseases. 2021-09-12. Knowledge Ecology International. en-US.
  10. Web site: The UK Rare Diseases Framework . GOV.UK . 12 September 2021 . en . 9 January 2021.
  11. https://www.fda.gov/ForIndustry/DevelopingProductsforRareDiseasesConditions/Overview/ucm119477.htm Orphan Drug Act
  12. Web site: Rare Diseases: Understanding This Public Health Priority . European Organisation for Rare Diseases (EURORDIS) . November 2005 . 16 May 2009.
  13. Web site: What is a rare disease? . 2022-08-04 . eurordis.org . en-US.
  14. Nguengang Wakap . Stéphanie . Lambert . Deborah M. . Olry . Annie . Rodwell . Charlotte . Gueydan . Charlotte . Lanneau . Valérie . Murphy . Daniel . Le Cam . Yann . Rath . Ana . 2020 . Estimating cumulative point prevalence of rare diseases: analysis of the Orphanet database . European Journal of Human Genetics . en . 28 . 2 . 165–173 . 10.1038/s41431-019-0508-0 . 31527858 . 6974615 . 1476-5438.
  15. Book: Rare Diseases, Diagnosis, Therapies, and Hope. Sanfilippo. Ana. Lin. Jimmy. Rare Genomics Institute. 2014. St. Louis, MO. 6.
  16. Web site: 02/2009: Rare Cancers on Rare Disease Day . Ecpc-online.org . 2009-02-28 . 2012-09-24 . dead . https://web.archive.org/web/20110726131436/http://www.ecpc-online.org/newsletter/member-updates/168-rare-cancer-day.html . 26 July 2011 .
  17. Kariampuzha . William . Alyea . Gioconda . Qu . Sue . Sanjak . Jaleal . Mathé . Ewy . Sid . Eric . Chatelaine . Haley . Yadaw . Arjun . Xu . Yanji . Zhu . Qian . 2023 . Precision information extraction for rare disease epidemiology at scale . Journal of Translational Medicine . en . 21 . 1 . 157 . 10.1186/s12967-023-04011-y . 36855134 . 9972634 . free .
  18. Web site: Genetic and Rare Diseases Information Center . National Center for Advancing Translational Sciences, US National Institutes of Health . 12 October 2019 . 2019.
  19. Aymé S, Schmidtke J . Networking for rare diseases: a necessity for Europe . Bundesgesundheitsblatt - Gesundheitsforschung - Gesundheitsschutz . 50 . 12 . 1477–83 . December 2007 . 18026888 . 10.1007/s00103-007-0381-9 . 36072660 .
  20. Web site: President Signs Bills into Law. georgewbush-whitehouse.archives.gov.
  21. Web site: NORD – National Organization for Rare Disorders, Inc. . dead . https://web.archive.org/web/20080618210143/http://www.rarediseases.org/washington/bush_signs . 18 June 2008 .
  22. Web site: Newsletter. OrphaNews – International.
  23. Web site: About Us. Rare Diseases Clinical Research. Network. Rare Diseases Clinical Research Network.
  24. Book: The UK Strategy for Rare Diseases. 2013. Department of Health. 26 October 2017.
  25. Book: All Party Parliamentary Group on Rare, Genetic and Undiagnosed Conditions. Leaving No One Behind: Why England needs an implementation plan for the UK Strategy for Rare Diseases. February 2017. Rare Disease UK. 29 January 2018.
  26. Web site: The Westminster All Party Parliamentary Group on Rare, Genetic and Undiagnosed Conditions. Genetic Alliance UK. 26 October 2017.
  27. Book: Implementation Plan for the UK Strategy for Rare Diseases. 29 January 2018. NHS England. 29 January 2018.
  28. Web site: The UK Rare Diseases Framework . GOV.UK . Department of Health and Social Care . 12 January 2021 . en . 9 January 2021.
  29. Web site: England Rare Diseases Action Plan 2022 . GOV.UK . Department of Health & Social Care . 22 March 2022 . en.
  30. Nunn JS, Gwynne K, Gray S, Lacaze P . Involving people affected by a rare condition in shaping future genomic research . Research Involvement and Engagement . 7 . 1 . 14 . March 2021 . 33722276 . 7958104 . 10.1186/s40900-021-00256-3 . free .
  31. Web site: Rare Disease Day . Genetic Alliance . 29 February 2024 . en . chosen because 29 February is the rarest day of the year.
  32. News: February 29th Is The First Rare Disease Day . 28 February 2008 . 14 February 2009 . . 7 June 2020 . https://web.archive.org/web/20200607195811/https://www.medicalnewstoday.com/articles/98767 . dead .
  33. Web site: Join Us In Observing Rare Disease Day On Feb. 28, 2009! . National Organization for Rare Disorders . dead . https://web.archive.org/web/20081218211426/http://www.rarediseases.org/rare_disease_day/rare_disease_day_info . 18 December 2008 .
  34. Web site: Millions Around World to Observe Rare Disease Day . 14 February 2009 . 13 February 2009 . .
  35. Web site: 2021-02-28. Rare Diseases Day: Experts call for more research for patients' welfare. 2021-09-12. The Indian Express. en.
  36. Web site: Rare Revolution Magazine . rarerevolutionmagazine.com/ . 27 September 2023.