In contrast, a sweat chloride concentration <30 mmol/L makes the diagnosis of CF unlikely. In many cases, a parent initially suspects the diagnosis because the infant's skin tastes salty. and mucus. In the case of milder forms of CF, transepithelial potential difference measurements can be helpful. In patients with an equivocal or normal sweat chloride test, diagnosis may be supported by nasal potential difference testing, in which an increased voltage response to topical amiloride on the nasal epithelium is followed by absent or reduced voltage response to a beta-adrenergic agonist.

Because the development of CF in the fetus requires each parent to pass on a mutated copy of the CFTR gene and because CF testing is expensive, testing is often performed initially on one parent. If testing shows that the parent is a CFTR gene mutation carrier, the other parent is tested to calculate the risk that their children will have CF. CF can result from more than a thousand different mutations. , typically only the most common mutations are tested for, such as ΔF508.

During pregnancy, testing can be performed on the placenta (chorionic villus sampling) or the fluid around the fetus (amniocentesis). However, chorionic villus sampling has a risk of fetal death of one in 100 and amniocentesis of one in 200; a recent study has indicated this may be much lower, about one in 1,600.

Economically, for carrier couples of cystic fibrosis, when comparing preimplantation genetic diagnosis (PGD) with natural conception (NC) followed by prenatal testing and abortion of affected pregnancies, PGD provides net economic benefits up to a maternal age around 40 years, after which NC, prenatal testing, and abortion have a higher economic benefit.

Management

Treatment for CF is diverse, tailored to different symptoms, and includes various devices, inhalation medications to alleviate respiratory difficulties, oral enzyme supplements to address exocrine pancreatic insufficiency, and, in some cases, surgical interventions for conditions such as meconium ileus. While treatment alleviates symptoms and prevents potential complications, there is currently no cure for the disease.

The management of CF has improved significantly over the past 70 years. While infants born with it 70 years ago would have been unlikely to live beyond their first year, infants today are likely to live well into adulthood. Advances in the treatment of cystic fibrosis have meant that people with cystic fibrosis can live a fuller life less encumbered by their condition. The cornerstones of management are the proactive treatment of airway infection, encouragement of good nutrition, and an active lifestyle. Pulmonary rehabilitation as a management of CF continues throughout a person's life, and is aimed at maximizing organ function, and therefore the quality of life. Occupational therapists use energy conservation techniques in the rehabilitation process for patients with cystic fibrosis. Examples of energy conservation techniques are ergonomic principles, pursed lip breathing, and diaphragmatic breathing. People with CF tend to have fatigue and dyspnoea due to chronic pulmonary infections, so reducing the amount of energy spent during activities can help people feel better and gain more independence.

The most consistent aspect of therapy in CF is limiting and treating the lung damage caused by thick mucus and infection, with the goal of maintaining quality of life. Intravenous, inhaled, and oral antibiotics are used to treat chronic and acute infections. Mechanical devices and inhalation medications are used to alter and clear the thickened mucus. These therapies, while effective, can be extremely time-consuming. Oxygen therapy at home is recommended in those with significantly low oxygen levels. Many people with CF use probiotics, which are thought to be able to correct intestinal dysbiosis and inflammation, but the clinical trial evidence regarding the effectiveness of probiotics for reducing pulmonary exacerbations in people with CF is uncertain.

Antibiotics

Many people with CF are on one or more antibiotics at all times, even when healthy, to prophylactically suppress infection. The choice of antibiotics for cystic fibrosis depends on the specific bacteria that are causing the infection, as well as the patient's age, weight, and other medical conditions. Antibiotics are necessary whenever pneumonia is suspected or a noticeable decline in lung function is seen, and are usually chosen based on the results of a sputum analysis and the person's past response. This prolonged therapy often necessitates hospitalization and insertion of a more permanent IV such as a peripherally inserted central catheter or Port-a-Cath. Inhaled therapy with antibiotics such as tobramycin, colistin, and aztreonam is often given for months at a time to improve lung function by impeding the growth of colonized bacteria. Inhaled antibiotic therapy helps lung function by fighting infection, but also has significant drawbacks such as development of antibiotic resistance, tinnitus, and changes in the voice. Inhaled levofloxacin may be used to treat Pseudomonas aeruginosa in people with cystic fibrosis who are infected.

Antibiotics by mouth such as ciprofloxacin or azithromycin are given to help prevent infection or to control ongoing infection. The aminoglycoside antibiotics (e.g. tobramycin) used can cause hearing loss, damage to the balance system in the inner ear or kidney failure with long-term use. To prevent these side-effects, the amount of antibiotics in the blood is routinely measured and adjusted accordingly.

Currently, no reliable clinical trial evidence shows the effectiveness of antibiotics for pulmonary exacerbations in people with cystic fibrosis and Burkholderia cepacia complex or for the use of antibiotics to treat nontuberculous mycobacteria in people with CF.

Pseudomonas aeruginosa

The early management of Pseudomonas aeruginosa infection is usually suggested using nebulised antibiotics with or without oral antibiotics to remove the bacteria from the person's airways for some time. When choosing antibiotics to treat lung infections caused by Pseudomonas aeruginosa in people with cystic fibrosis, it is still unclear whether the choice of antibiotics should be based on the results of testing antibiotics separately (one at a time) or in combination with each other. It is also unclear if these treatment approaches for the Pseudomonas aeruginosa infection improve the person's quality of life or lifespan.

Antibiotic adjuvant therapy

Factors related to antibiotic use, the chronicity of the disease, and the emergence of resistant bacteria demand more exploration for different strategies such as antibiotic adjuvant therapy. Antibiotic adjuvant therapy refers to therapeutic approaches that aim to improve the action of antibiotics such a pharmaceutical agents or supplements that impact the virulence of the bacterium or that change the susceptibility of the organism to the antibiotic so that the antibiotics are more effective. It is a CFTR potentiator, meaning that it improves the function of CFTR protein present at the cell surface. Ivacaftor targets the pathogenic variant G551D (present in approximately 5% of CF patients) The first year it was on the market, the list price was over $300,000 per year in the United States. Whereas ivacaftor is a CFTR potentiator, lumacaftor is a CFTR corrector, which improves processing and trafficking of misfolded CFTR protein to the cell surface. In 2018, the FDA approved the combination drug ivacaftor/tezacaftor; the manufacturer announced a list price of $292,000 per year. Tezacaftor helps move the CFTR protein to the correct position on the cell surface, and is designed to treat people with the F508del mutation (present in approximately 90% of CF patients). with approval extended to children aged 6 years and older in 2021. In Europe, this drug was approved in 2020 and marketed as Kaftrio. It is used in those who have at least one F508del mutation. According to the Cystic Fibrosis Foundation, "this medicine represents the single greatest therapeutic advancement in the history of CF, offering a treatment for the underlying cause of the disease that could eventually bring modulator therapy to 90 percent of people with CF." In a clinical trial, participants who received the combination drug experienced a subsequent 63% decrease in pulmonary exacerbations and a 41.8&nbsp;mmol/L decrease in sweat chloride concentration. Other studies have found substantial improvements in lung function, weight gain, and reductions in respiratory symptoms such as cough and sputum production. Treatment has also been associated with reduced school or work absenteeism as well as fewer hospitalizations. such as carbamazepine used in the treatment of bipolar disorder, causing elexacaftor/tezacaftor/ivacaftor to circulate in the body at decreased concentrations. As such, concurrent use is not recommended.

The combination drug vanzacaftor/tezacaftor/deutivacaftor (Alyftrek) was approved for medical use in the United States in 2024.

The list price of CFTR modulators has been reported to exceed $270,000-310,000 per year in the United States; however, patients’ out-of-pocket costs and the net costs paid by insurers and health systems vary according to insurance coverage, financial assistance programs, and negotiated reimbursement arrangements. Dornase alfa is a recombinant human deoxyribonuclease, which breaks down DNA in the sputum, thus decreasing its viscosity. Dornase alfa may improve lung function; however, there is no strong evidence that it is better than other hyperosmolar therapies. Inhaled hypertonic (7%) saline is believed to draw water into the airway, rehydrating airway mucus and improving mucus clearance. Whether inhaled corticosteroids are useful is unclear, but stopping inhaled corticosteroid therapy is safe. There is weak evidence that corticosteroid treatment may cause harm by interfering with growth. , there is no clear evidence from randomized controlled trials that the influenza vaccine is beneficial for people with cystic fibrosis. Ursodeoxycholic acid, a bile salt, has been used; however, a 2021 study aimed at evaluating whether the incidence of severe liver disease differed between CF centers routinely prescribing or not prescribing UDCA found no reduction in portal hypertension.

Nutrient supplementation

It is uncertain whether vitamin A or beta-carotene supplementation has any effect on eye and skin problems caused by vitamin A deficiency.

There is no strong evidence that people with cystic fibrosis can prevent osteoporosis by increasing their intake of vitamin D.

For people with vitamin E deficiency and cystic fibrosis, there is evidence that vitamin E supplementation may improve vitamin E levels, although it is still uncertain what effect supplementation has on vitamin E-specific deficiency disorders or on lung function.

Robust evidence regarding the effects of vitamin K supplementation in people with cystic fibrosis is lacking as of 2020.

Various studies have examined the effects of omega-3 fatty acid supplementation for people with cystic fibrosis but the evidence is uncertain whether it has any benefits or adverse effects.

Procedures

Several mechanical techniques are used to dislodge sputum and encourage its expectoration. One technique good for short-term airway clearance is chest physiotherapy where a respiratory therapist percusses an individual's chest by hand several times a day, to loosen up secretions. This "percussive effect" can be administered also through specific devices that use chest wall oscillation or intrapulmonary percussive ventilator. Other methods such as biphasic cuirass ventilation, and associated clearance mode available in such devices, integrate a cough assistance phase, as well as a vibration phase for dislodging secretions. These are portable and adapted for home use. Operating principles of this technique seem to be the increase of gas pressure behind mucus through collateral ventilation along with a temporary increase in functional residual capacity preventing the early collapse of small airways during exhalation.

As lung disease worsens, mechanical breathing support may become necessary. Individuals with CF may need to wear special masks at night to help push air into their lungs. These machines, known as bilevel positive airway pressure (BiPAP) ventilators, help prevent low blood oxygen levels during sleep. Non-invasive ventilators may be used during physical therapy to improve sputum clearance. It is not known if this type of therapy has an impact on pulmonary exacerbations or disease progression.

For children, preliminary studies show massage therapy may help people and their families' quality of life.

Some lung infections require surgical removal of the infected part of the lung. If this is necessary many times, lung function is severely reduced. The most effective treatment options for people with CF who have spontaneous or recurrent pneumothoraces is not clear.

Transplantation

Lung transplantation may become necessary for individuals with CF as lung function and exercise tolerance decline. Although single lung transplantation is possible in other diseases, individuals with CF must have both lungs replaced because the remaining lung might contain bacteria that could infect the transplanted lung. A pancreatic or liver transplant may be performed at the same time to alleviate liver disease and/or diabetes. Lung transplantation is considered when lung function declines to the point where assistance from mechanical devices is required or survival is threatened. According to Merck Manual, "bilateral lung transplantation for severe lung disease is becoming more routine and more successful with experience and improved techniques. Among adults with CF, median survival posttransplant is about 9 years."

Gastrointestinal

Problems with the gastrointestinal system including constipation and obstruction of the gastrointestinal tract including distal intestinal obstruction syndrome are frequent complications for people with cystic fibrosis. In addition, there is a risk of gastrointestinal malignancy, especially in the transplanted patient, and screening procedures may be considered at an earlier age.

Other aspects

thumb|upright=1.3|Intracytoplasmic sperm injection can be used to provide fertility for men with cystic fibrosis.

Newborns with intestinal obstruction typically require surgery, whereas adults with distal intestinal obstruction syndrome typically do not. Treatment of pancreatic insufficiency by replacement of missing digestive enzymes allows the duodenum to properly absorb nutrients and vitamins that would otherwise be lost in the feces. However, the best dosage and form of pancreatic enzyme replacement are unclear, as are the risks and long-term effectiveness of this treatment.

So far, no large-scale research involving the incidence of atherosclerosis and coronary heart disease in adults with cystic fibrosis has been conducted. This is likely because the vast majority of people with cystic fibrosis do not live long enough to develop clinically significant atherosclerosis or coronary heart disease.

Diabetes is the most common nonpulmonary complication of CF. It mixes features of type 1 and type 2 diabetes and is recognized as a distinct entity, cystic fibrosis-related diabetes. While oral antidiabetic drugs are sometimes used, the recommended treatment is the use of insulin injections or an insulin pump, and, unlike in type 1 and 2 diabetes, dietary restrictions are not recommended.

Bisphosphonates taken by mouth or intravenously can be used to improve bone mineral density in people with cystic fibrosis, but there is no proof that this reduces fractures or increases survival rates. When taking bisphosphates intravenously, adverse effects such as pain and flu-like symptoms can be an issue.

Sinus infections are treated by prolonged courses of antibiotics. The development of nasal polyps or other chronic changes within the nasal passages may severely limit airflow through the nose, and over time reduce the person's sense of smell. Sinus surgery is often used to alleviate nasal obstruction and to limit further infections. Nasal steroids such as fluticasone propionate are used to decrease nasal inflammation.

Female infertility may be overcome by assisted reproduction technology, particularly embryo transfer techniques. Male infertility caused by the absence of the vas deferens may be overcome with testicular sperm extraction, collecting sperm cells directly from the testicles. If the collected sample contains too few sperm cells to likely have spontaneous fertilization, intracytoplasmic sperm injection can be performed. Third party reproduction is also a possibility for women with CF. Whether taking antioxidants affects outcomes is unclear.

Physical exercise is usually part of outpatient care for people with cystic fibrosis. Aerobic exercise seems to be beneficial for aerobic exercise capacity, lung function, and health-related quality of life; however, the quality of the evidence was poor.

Prognosis

The prognosis for cystic fibrosis has improved due to earlier diagnosis through screening and better treatment and access to health care. In 1959, the median age of survival of children with CF in the United States was six months.

In 2010, survival was estimated to be 37 years for women and 40 for men. In Canada, median estimated survival had increased to 64.3 years in 2024 compared to 52.7 years in 2019 and 53.0 years in 2014. In the United States, predicted median survival had increased to 65.4 years in 2024 compared to 46.1 years in 2019 and 40.1 years in 2014. Due to the recent development of new treatments, such as CFTR modulators, life expectancy has increased rapidly during recent years. In 2020 the median predicted life expectancy was around 59 years, although there are uncertainties in the estimates due to the low number of annual deaths for persons with cystic fibrosis.

In the US, of those with CF who are more than 18 years old in 2024, 94% had graduated from high school, 67% had at least some college education, 64% were in full-time or part-time employment, 47% were single, and 47% were married or living with a partner. The thick secretions clog the airways in the lungs, which often cause inflammation and severe lung infections. If it is compromised, it affects the quality of life of someone with CF and their ability to complete activities of daily living (ADLs).

According to Schmitz and Goldbeck (2006), CF significantly increases emotional stress on both the individual and the family, "and the necessary time-consuming daily treatment routine may have further negative effects on quality of life". However, Havermans and colleagues (2006) have established that young outpatients with CF who have participated in the Cystic Fibrosis Questionnaire-Revised "rated some quality of life domains higher than did their parents". Consequently, outpatients with CF have a more positive outlook for themselves. As Merck Manual notes, "with appropriate support, most patients can make an age-appropriate adjustment at home and school. Despite myriad problems, the educational, occupational, and marital successes of patients are impressive." No definitive cure for CF is known, but diverse medications are used, such as mucolytics, bronchodilators, steroids, and antibiotics, that have the purpose of loosening mucus, expanding airways, decreasing inflammation, and fighting lung infections, respectively.

Epidemiology

{| class="wikitable floatright"

|-

! Mutation

! Frequency<br />worldwide

|-

| ΔF508

| 66–70% In the United States, about 30,000 individuals have CF; most are diagnosed by six months of age. In Canada, about 4,000 people have CF. Around 1 in 25 people of European descent, and one in 30 of white Americans, is a carrier of a CF mutation. Although CF is less common in these groups, roughly one in 46 Hispanics, one in 65 Africans, and one in 90 Asians carry at least one abnormal CFTR gene. Ireland has the world's highest prevalence of CF, at one in 1353; Japan's prevalence of CF is among the lowest in the world, at one in 350,000.

Although technically a rare disease, CF is ranked as one of the most widespread life-shortening genetic diseases. It is most common among nations in the Western world. An exception is Finland, where only one in 80 people carries a CF mutation. The World Health Organization states, "In the European Union, one in 2000–3000 newborns is found to be affected by CF". In the United States, one in 3,500 children is born with CF. In 1997, about one in 3,300 white children in the United States was born with CF. In contrast, only one in 15,000 African American children have it, and in Asian Americans, the rate is even lower at one in 32,000.

Cystic fibrosis is diagnosed equally in males and females. For reasons that remain unclear, data has shown that males tend to have a longer life expectancy than females, though recent studies suggest this gender gap may no longer exist, perhaps due to improvements in health care facilities. A recent study from Ireland identified a link between the female hormone estrogen and worse outcomes in CF.

The distribution of CF alleles varies among populations. The frequency of ΔF508 carriers has been estimated at one in 200 in northern Sweden, one in 143 in Lithuanians, and one in 38 in Denmark. No ΔF508 carriers were found among 171 Finns and 151 Saami people. ΔF508 does occur in Finland, but it is a minority allele there. CF is known to occur in only 20 families (pedigrees) in Finland.

Evolution

The ΔF508 mutation is estimated to have occurred up to 52,000 years ago. Numerous hypotheses have been advanced as to why such a lethal allele has persisted and spread in the human population. Other common autosomal recessive diseases such as sickle-cell anemia have been found to protect carriers from other diseases, an evolutionary trade-off known as heterozygote advantage. Resistance to the following have all been proposed as possible sources of heterozygote advantage:

  • Cholera: With the discovery that cholera toxin requires normal host CFTR proteins to function properly, it was hypothesized that carriers of mutant CFTR alleles benefited from resistance to cholera and other causes of diarrhea. Further studies have not confirmed this hypothesis.
  • Typhoid: Normal CFTR proteins are also essential for the entry of Salmonella Typhi into cells, suggesting that carriers of mutant CFTR genes might be resistant to typhoid fever. No in vivo study has yet confirmed this. In both cases, the low level of cystic fibrosis outside of Europe, in places where both cholera and typhoid fever are endemic, is not immediately explicable.
  • Diarrhea: The prevalence of CF in Europe might be connected with the development of cattle domestication. In this hypothesis, carriers of a single mutant CFTR allele had some protection from diarrhea caused by lactose intolerance, before the mutations that created lactose tolerance appeared.
  • Tuberculosis: Another possible explanation is that carriers of the mutant allele could have some resistance to tuberculosis. This hypothesis is based on the thesis that CFTR mutant allele carriers have insufficient action in one of their enzymes – arylsulphatase – which is necessary for Mycobacterium tuberculosis virulence. As M. tuberculosis would use its host's sources to affect the individual, and due to the lack of enzyme it could not present its virulence, being a carrier of CFTR mutant allele could provide resistance against tuberculosis.

History

thumb|upright|[[Dorothy Hansine Andersen first described cystic fibrosis in 1938.]]

CF is supposed to have appeared about 3,000 BC because of the migration of people, gene mutations, and new conditions in nourishment.

In the 19th century, Carl von Rokitansky described a case of fetal death with meconium peritonitis, a complication of meconium ileus associated with CF. Meconium ileus was first described in 1905 by Karl Landsteiner.

In 1938, Dorothy Hansine Andersen published an article, "Cystic Fibrosis of the Pancreas and Its Relation to Celiac Disease: a Clinical and Pathological Study", in the American Journal of Diseases of Children. She was the first to describe the characteristic cystic fibrosis of the pancreas and to correlate it with the lung and intestinal disease prominent in CF.

The first linkage between CF and another marker (paraoxonase) was found in 1985 by Hans Eiberg, indicating that only one locus exists for CF. In 1988, the first mutation for CF, ΔF508, was discovered by Francis Collins, Lap-Chee Tsui, and John R. Riordan on the seventh chromosome. Subsequent research has found over 1,000 different mutations that cause CF.

Because mutations in the CFTR gene are typically small, classical genetics techniques have been unable to accurately pinpoint the mutated gene. Using protein markers, gene-linkage studies were able to map the mutation to chromosome 7. Chromosome walking and chromosome jumping techniques were then used to identify and sequence the gene. CF represents a classic example of how a human genetic disorder was elucidated strictly by the process of forward genetics.

Research

People with CF may be listed in a disease registry that allows researchers and doctors to track health results and identify candidates for clinical trials.

Gene therapy

Gene therapy has been explored as a potential cure for CF. Results from clinical trials have shown limited success , and using gene therapy as routine therapy is not suggested. A small study published in 2015 found a small benefit.

The focus of much CF gene therapy research is aimed at trying to place a normal copy of the CFTR gene into affected cells. Transferring the normal CFTR gene into the affected epithelial cells would result in the production of functional CFTR protein in all target cells, without adverse reactions or an inflammation response; this is known as somatic cell therapy. To prevent the lung manifestations of CF, only 5–10% of the normal amount of CFTR gene expression is needed. Multiple approaches have been tested for gene transfer, such as liposomes and viral vectors in animal models and clinical trials. However, both methods were found to be relatively inefficient treatment options, mainly because very few cells take up the vector and express the gene, so the treatment has little effect. Additionally, problems have been noted in cDNA recombination, such that the gene introduced by the treatment is rendered unusable. There has been a functional repair in culture of CFTR by CRISPR/Cas9 in intestinal stem cell organoids of cystic fibrosis patients.

Bacteriophage therapy

Bacteriophage therapy (phage therapy) is being studied for multidrug-resistant bacteria in people with CF. Bacteriophage therapy is a treatment method that uses viruses, known as bacteriophages, to target and destroy harmful bacteria in the body. Unlike antibiotics, which can kill a wide range of bacteria and potentially disrupt the body's normal microbiota, phage therapy is highly specific, targeting only the harmful bacteria while leaving the beneficial ones unharmed. As such, bacteriophage therapy is a promising alternative for treating infections caused by multidrug-resistant bacteria, such as Staphylococcus aureus, Haemophilus influenzae, Bordetella bronchialis and Pseudomonas aeruginosa in CF patients, which are often protected by biofilms and thus resistant to conventional antibiotics.

Bacteriophage therapy uses viruses as antimicrobial agents to overcome the antibiotic resistance in bacteria with biofilms Phage therapy is used to treat the Pseudomonas aeruginosa infection in the lungs, which is frequently seen in cystic fibrosis patients, as these bacteria produce biofilms which give them multi-drug resistance.

Gene modulators

Several small molecules that aim at compensating various mutations of the CFTR gene are under development. CFTR modulator therapies has been used instead of other types of genetic therapies. These therapies focus on the expression of a genetic mutation instead of the mutated gene itself. Modulators are split into two classes: potentiators and correctors. Potentiators act on the CFTR ion channels that are embedded in the cell membrane, and these drugs help open up the channel to allow transmembrane flow. Correctors are meant to assist in the transportation of nascent proteins, proteins that are formed by ribosomes before it is morphed into a specific shape, to the cell surface to be implemented into the cell membrane.

Most target the transcription stage of genetic expression. One approach has been to try and develop medication that get the ribosome to overcome the stop codon and produce a full-length CFTR protein. About 10% of CF results from a premature stop codon in the DNA, leading to early termination of protein synthesis and truncated proteins. These drugs target nonsense mutations such as G542X, which consists of the amino acid glycine in position 542 being replaced by a stop codon. Aminoglycoside antibiotics interfere with protein synthesis and error correction. In some cases, they can cause the cell to overcome a premature stop codon by inserting a random amino acid, thereby allowing the expression of a full-length protein. Future research for these modulators is focused on the cellular targets that can be affected by a change in a gene's expression. Otherwise, genetic therapy will be used as a treatment when modulator therapies do not work given that 10% of people with cystic fibrosis are not affected by these drugs.

Elexacaftor/ivacaftor/tezacaftor was approved in the United States in 2019 for cystic fibrosis. This combination of previously developed medicines can treat up to 90% of people with cystic fibrosis.

Ecological therapy

It has previously been shown that inter-species interactions are an important contributor to the pathology of CF lung infections. Examples include the production of antibiotic degrading enzymes such as β-lactamases and the production of metabolic by-products such as short-chain fatty acids (SCFAs) by anaerobic species, which can enhance the pathogenicity of traditional pathogens such as Pseudomonas aeruginosa. Due to this, it has been suggested that the direct alteration of CF microbial community composition and metabolic function would provide an alternative to traditional antibiotic therapies. Such mutations fall into two classes: splicing (e.g., c.3718-2477C>T) and nonsense (e.g., G542X, W1282X), both of which result in very low expression of CFTR protein, although the protein itself is usually unaffected. This is contrary to the more common mutations such as ΔF508 which have normal CFTR expression but in a non-functional form. Modulators serve only to correct these aberrant proteins and are of little to no benefit in the case of insufficient expression. Antisense oligonucleotides (ASOs) can solve this problem through the promotion of mRNA degradation or by changing pre-mRNA splicing, nonsense-mediated mRNA decay, or translation, thus increasing CFTR expression.

Society and culture

  • Salt in My Soul: An Unfinished Life, a posthumous memoir by Mallory Smith, a Californian with CF
  • Sick: The Life and Death of Bob Flanagan, Supermasochist, a 1997 documentary film
  • 65_RedRoses<!--Yes, it is really an underscore in the title-->, a 2009 documentary film
  • Breathing for a Living, a memoir by Laura Rothenberg
  • Every Breath I Take: Surviving and Thriving with Cystic Fibrosis, book by Claire Wineland
  • Five Feet Apart, a 2019 romantic drama film starring Cole Sprouse and Haley Lu Richardson
  • Orla Tinsley: Warrior, a 2018 documentary film about CF campaigner Orla Tinsley
  • The performance art of Martin O'Brien
  • Hi Nanna, 2023 Telugu-language film about a girl with CF
  • Sickboy, a podcast hosted by Jeremie Saunders about cystic fibrosis and other chronic illnesses

Explanatory notes

References

  • Search GeneCards for genes involved in cystic fibrosis
  • Cystic Fibrosis Mutation Database