Cure

A cure is the end of a medical condition; the substance or procedure that ends the medical condition, such as a medication, a surgical operation, a change in lifestyle, or even a philosophical mindset that helps end a person's sufferings; or the state of being healed, or cured.

A remission is a temporary end to the medical signs and symptoms of an incurable disease. A disease is said to be incurable if there is always a chance of the patient relapsing, no matter how long the patient has been in remission. An incurable disease may or may not be a terminal illness; conversely, a curable illness can still result in the patient's death.

The proportion of people with a disease that are cured by a given treatment, called the cure fraction or cure rate, is determined by comparing disease-free survival of treated people against a matched control group that never had the disease.[1]

Another way of determining the cure fraction and/or "cure time" is by measuring when the hazard rate in a diseased group of individuals returns to the hazard rate measured in the general population.[2][3]

Inherent in the idea of a cure is the permanent end to the specific instance of the disease.[4][5] When a person has the common cold, and then recovers from it, the person is said to be cured, even though the person might someday catch another cold. Conversely, a person that has successfully managed a disease, such as diabetes mellitus, so that it produces no undesirable symptoms for the moment, but without actually permanently ending it, is not cured.

Related concepts, whose meaning can differ, include response, remission and recovery.

Statistical model

In complex diseases, such as cancer, researchers rely on statistical comparisons of disease-free survival (DFS) of patients against matched, healthy control groups. This logically rigorous approach essentially equates indefinite remission with cure.[6] The comparison is usually made through the Kaplan-Meier estimator approach.[7]

The simplest cure rate model was published by Berkson and Gage in 1952.[7] In this model, the survival at any given time is equal to those that are cured plus those that are not cured, but who have not yet died or, in the case of diseases that feature asymptomatic remissions, have not yet re-developed signs and symptoms of the disease. When all of the non-cured people have died or re-developed the disease, only the permanently cured members of the population will remain, and the DFS curve will be perfectly flat. The earliest point in time that the curve goes flat is the point at which all remaining disease-free survivors are declared to be permanently cured. If the curve never goes flat, then the disease is formally considered incurable (with the existing treatments).

The Berkson and Gage equation is

where is the proportion of people surviving at any given point in time, is the proportion that are permanently cured, and is an exponential curve that represents the survival of the non-cured people.

Cure rate curves can be determined through an analysis of the data.[7] The analysis allows the statistician to determine the proportion of people that are permanently cured by a given treatment, and also how long after treatment it is necessary to wait before declaring an asymptomatic individual to be cured.[3]

Several cure rate models exist, such as the expectation-maximization algorithm and Markov chain Monte Carlo model.[7] It is possible to use cure rate models to compare the efficacy of different treatments.[7] Generally, the survival curves are adjusted for the effects of normal aging on mortality, especially when diseases of older people are being studied.[8]

From the perspective of the patient, particularly one that has received a new treatment, the statistical model may be frustrating.[6] It may take many years to accumulate sufficient information to determine the point at which the DFS curve flattens (and therefore no more relapses are expected). Some diseases may be discovered to be technically incurable, but also to require treatment so infrequently as to be not materially different from a cure. Other diseases may prove to have a multiple plateaus, so that what was once hailed as a "cure" results unexpectedly in very late relapses. Consequently, patients, parents and psychologists developed the notion of psychological cure, or the moment at which the patient decides that the treatment was sufficiently likely to be a cure as to be called a cure.[6] For example, a patient may declare himself to be "cured", and to determine to live his life as if the cure were definitely confirmed, immediately after treatment.

Similar concepts

Remission

Remission is the state of absence of disease activity in patients known to have a chronic illness that cannot be cured. It is commonly used to refer to absence of active cancer or inflammatory bowel disease when these diseases are expected to manifest again in the future. A partial remission may be defined for cancer as 50% or greater reduction in the measurable parameters of tumor growth as may be found on physical examination, radiologic study, or by biomarker levels from a blood or urine test. A complete remission is defined as complete disappearance of all such manifestations of disease. Each disease or even clinical trial can have its own definition of a partial remission.

Others

Examples

The most common example of a complete cure is a bacterial infection treated with antibiotics.[10] In 1999, the Centers for Disease Control and Prevention and the World Health Organization established a goal to cure 85% of tuberculosis patients in Russia. They reached an 80% success rate, with 75% of the diseased cured, and 5% that had otherwise successfully finished treatment.

See also

References

  1. Fuller, Arlan F.; Griffiths, C. M. (1983). Gynecologic oncology. The Hague: M. Nijhoff. ISBN 0-89838-555-5.
  2. Lambert PC, Thompson JR, Weston CL, Dickman PW (2007). "Estimating and modeling the cure fraction in population-based cancer survival analysis". Biostatistics. 8 (3): 576–594. PMID 17021277. doi:10.1093/biostatistics/kxl030.
  3. 1 2 Smoll NR, Schaller K, Gautschi OP (2012). "The Cure Fraction of Glioblastoma Multiforme". Neuroepidemiology. 39 (1): 63–9. PMID 22776797. doi:10.1159/000339319.
  4. "Nearing a Cancer Cure?". Harvard Health Commentaries. 21 August 2006.
  5. What's the Difference Between a Treatment and a Cure?
  6. 1 2 3 Barnes E (December 2007). "Between remission and cure: patients, practitioners and the transformation of leukaemia in the late twentieth century". Chronic Illn. 3 (4): 253–64. PMID 18083680. doi:10.1177/1742395307085333.
  7. 1 2 3 4 5 Friis, Robert H.; Chernick, Michael L. (2003). Introductory biostatistics for the health sciences: modern applications including bootstrap. New York: Wiley-Interscience. pp. 348–349. ISBN 0-471-41137-X.
  8. Tobias, Jeffrey M.; Souhami, Robert L. (2003). Cancer and its management. Oxford: Blackwell Science. p. 11. ISBN 0-632-05531-6.
  9. What is a Cure? page 3.
  10. What Is a cure? page 2.
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