Cystic Fibrosis And Congenital Absence Of The Vas Deferens
Summary
Clinical characteristics.
Cystic fibrosis (CF) is a multisystem disease affecting epithelia of the respiratory tract, exocrine pancreas, intestine, hepatobiliary system, and exocrine sweat glands. Morbidities include progressive obstructive lung disease with bronchiectasis, frequent hospitalizations for pulmonary disease, pancreatic insufficiency and malnutrition, recurrent sinusitis and bronchitis, and male infertility. Pulmonary disease is the major cause of morbidity and mortality in CF. Meconium ileus occurs at birth in 15%-20% of newborns with CF. More than 95% of males with CF are infertile.
Congenital absence of the vas deferens (CAVD) is generally identified during evaluation of infertility or as an incidental finding at the time of a surgical procedure. Hypoplasia or aplasia of the vas deferens and seminal vesicles may occur either bilaterally or unilaterally. Testicular development and function and spermatogenesis are usually normal.
Diagnosis/testing.
The diagnosis of CF is established in a proband with one or more characteristic phenotypic features and evidence of an abnormality in cystic fibrosis transmembrane conductance regulator (CFTR) function (e.g., 2 elevated sweat chloride values, biallelic CFTR pathogenic variants, or transepithelial nasal potential difference measurement characteristic of CF). The diagnosis of CF is established in an infant with elevated trypsinogen on newborn screening and identification of biallelic CFTR pathogenic variants or an elevated sweat chloride.
The diagnosis of CAVD is established in a male with azoospermia and absence of the vas deferens on palpation or identification of biallelic CAVD-causing CFTR pathogenic variants.
Management.
Treatment of manifestations: Treatment of respiratory complications using inhaled dornase alfa, inhaled hypertonic saline, antibiotics, anti-inflammatory agents, ivacaftor, ivacaftor/lumacaftor combined therapy, lung or heart/lung transplant; topical steroids, antibiotics and/or surgical intervention for nasal/sinus symptoms; treatment of exocrine pancreatic insufficiency using oral pancreatic enzyme replacement, special infant formulas, supplemental nutrition, fat-soluble vitamin supplements and zinc; management of CF-related diabetes mellitus (CFRD) by an endocrinologist; surgical management for meconium ileus; oral ursodiol for biliary sludging/obstruction, liver transplant when indicated; assisted reproductive technologies (ART) for male infertility.
Prevention of primary complications: Airway clearance techniques, dornase alpha, hypertonic saline, antibiotics to prevent chronic airway infection, immunizations including anti-RSV monoclonal antibody; physical activity to maintain bone health and improve airway clearance; nutritional support for pancreatic insufficiency; extra salt and water in hot, dry climates.
Surveillance: Frequent visits to CF care providers to monitor for changes in symptoms and physical examination; cultures of respiratory tract secretions at least four times yearly; pulmonary function studies, chest radiographic examination, annual electrolytes, fat-soluble vitamin levels and IgE levels; bronchoscopy and chest CT examination when indicated; monitor weight gain and caloric intake in infants until age six months; fecal elastase when indicated; annual oral glucose tolerance test in individuals older than age ten years; evaluation of bone mineral density starting in adolescence; annual liver function tests and liver ultrasound to monitor progression of liver disease.
Agents/circumstances to avoid: Respiratory irritants; individuals with respiratory infections; dehydration.
Evaluation of relatives at risk: Molecular genetic testing of at-risk sibs if the pathogenic variants in the family are known or sweat chloride testing of at-risk sibs if the pathogenic variants in the family are not known, to identify as early as possible those who should be referred to a cystic fibrosis center for initiation of treatment and preventive measures.
Therapies under investigation: Prophylactic ursodiol therapy; CF corrector VX-661; inhaled dry powder mannitol; CFTR gene therapy.
Genetic counseling.
CF and CAVD are inherited in an autosomal recessive manner. At conception, each sib of an affected individual with CF and brothers of a male with CAVD have a 25% chance of being affected, a 50% chance of being an asymptomatic carrier, and a 25% chance of being unaffected and not a carrier. Carrier testing for at-risk relatives and prenatal testing for pregnancies at increased risk are possible if the CFTR pathogenic variants in the family are known.
Diagnosis
Suggestive Findings
Cystic fibrosis (CF) should be suspected in individuals with the following features:
- Chronic sinopulmonary disease including chronic cough and sputum production, chronic wheeze and air trapping, obstructive lung disease on pulmonary function tests, persistent colonization with pathogens commonly found in individuals with CF, persistent chest radiograph abnormalities, nasal polyps, chronic pan sinusitis, and digital clubbing
- Gastrointestinal/nutritional abnormalities such as meconium ileus, rectal prolapse, malabsorption/pancreatic insufficiency, steatorrhea, distal intestinal obstructive syndrome, recurrent acute pancreatitis, chronic pancreatitis, prolonged neonatal jaundice, chronic hepatic disease manifested by clinical or histologica evidence of focal biliary cirrhosis or multilobular cirrhosis, failure to thrive (protein-calorie malnutrition), hypoproteinemia and edema, complications secondary to fat-soluble vitamin deficiencies
- Obstructive azoospermia
- Salt-loss syndromes including acute salt depletion, chronic metabolic alkalosis, and hyponatremic hypochloremic dehydration
- In infants: elevated immunoreactive trypsinogen (IRT) on newborn screening
Congenital absence of the vas deferens (CAVD) should be suspected in males with the following:
- Severe oligospermia or azoospermia
- A low volume of ejaculated semen with a specific chemical profile (low pH, elevated citric acid concentration, elevated acid phosphatase concentration, low fructose concentration, and failure to coagulate)
- Evidence of abnormalities of seminal vesicles or vas deferens on rectal ultrasound examination
Establishing the Diagnosis
The diagnosis of CF is established in a proband with the following:
- One or more characteristic phenotypic features of CF and evidence of an abnormality in cystic fibrosis transmembrane conductance regulator (CFTR) function based on ONE of the following:
- Two abnormal quantitative pilocarpine iontophoresis sweat chloride values (>60 mEq/L in infants age > 6 months). Click here (pdf) for more specific information on this test.
- Identification of biallelic pathogenic or likely pathogenic variants in CFTR (see Table 1)
- Transepithelial nasal potential difference measurements characteristic of CF. Click here (pdf) for more specific information on this test.
- In an infant: elevated trypsinogen on newborn screening immunoreactive trypsinogen (IRT) assay AND
- Identification of biallelic CF-causing pathogenic variants in CFTROR
- An abnormal sweat chloride value ≥60 mEq/L (see ACMG Newborn Screening ACT Sheet)
The diagnosis of CAVD is established in a male with the following features:
- AzoospermiaAND
- Absence of the vas deferens on palpation (rarely, a thin fibrous cord representing a rudimentary vas deferens may be present)OR
- Identification of biallelic CAVD-causing CFTR pathogenic variants (establishes the diagnosis if clinical features are inconclusive; see Table 1)
Molecular genetic testing approaches include single-gene testing and use of a multigene panel.
Single-gene testing
- Targeted analysis for CFTR pathogenic variants can be performed first.Note: The American College of Medical Genetics recommended panel includes the 23 pathogenic variants listed in Table 6 and has a detection rate of 97% in Ashkenazi Jewish, 88.3% in non-Hispanic whites, 69% in African Americans, and 57% in Hispanic Americans; detection rate in Asian Americans is unknown [Grody et al 2001, Palomaki et al 2002, Watson et al 2004].Note: A panel that includes more than 129 pathogenic variants would detect approximately 96% of pathogenic variants in affected individuals (see cftr2.org) [Sosnay et al 2013].
- Sequence analysis of CFTR – followed by gene-targeted deletion/duplication analysis – is performed if only one or no pathogenic variant is found.Note: Sequence analysis of CFTR, followed by gene-targeted deletion/duplication analysis, is the initial diagnostic test for:
- Individuals of an ethnicity for which the sensitivity of targeted analysis is low;
- Prenatal testing in a high-risk fetus;
- Prenatal testing in a low-risk fetus with echogenic bowel identified on prenatal ultrasound examination;
- An infant with an elevated IRT assay on newborn screening and a sweat chloride of 30-59 mEq/L (intermediate result);
- A symptomatic infant (e.g., infant with meconium ileus) who is too young to produce adequate volumes of sweat.
A multigene panel that includes CFTR and other genes of interest (see Differential Diagnosis) may also be considered. Notes: (1) The genes included in the panel and the diagnostic sensitivity of the testing used for each gene vary by laboratory and are likely to change over time. (2) Some multigene panels may include genes not associated with the condition discussed in this GeneReview; thus, clinicians need to determine which multigene panel is most likely to identify the genetic cause of the condition at the most reasonable cost while limiting identification of variants of uncertain significance and pathogenic variants in genes that do not explain the underlying phenotype. (3) Methods used in a panel may include sequence analysis, deletion/duplication analysis, and/or other non-sequencing-based tests.
For an introduction to multigene panels click here. More detailed information for clinicians ordering genetic tests can be found here.
Table 1.
Gene 1 | Method | Proportion of Probands with a Pathogenic Variant 2 Detectable by Method | |
---|---|---|---|
CF | CAVD | ||
CFTR | Sequence analysis 3 | 97%-98% | 79% 4 |
Gene-targeted deletion/duplication analysis 5 | ≤2%-3% |
- 1.
See Table A. Genes and Databases for chromosome locus and protein.
- 2.
See Molecular Genetics for information on allelic variants detected in this gene.
- 3.
Sequence analysis detects variants that are benign, likely benign, of uncertain significance, likely pathogenic, or pathogenic. Variants may include small intragenic deletions/insertions and missense, nonsense, and splice site variants; typically, exon or whole-gene deletions/duplications are not detected. For issues to consider in interpretation of sequence analysis results, click here.
- 4.
79% of men had at least one pathogenic variant identified, 46% had both CFTR pathogenic variants identified; sensitivity varied by ethnicity [Yu et al 2012].
- 5.
Gene-targeted deletion/duplication analysis detects intragenic deletions or duplications. Methods used may include quantitative PCR, long-range PCR, multiplex ligation-dependent probe amplification (MLPA), and a gene-targeted microarray designed to detect single-exon deletions or duplications.
Clinical Characteristics
Clinical Description
Cystic fibrosis (CF) affects the epithelia in several organs resulting in a complex, multisystem disease that involves the respiratory tract, exocrine pancreas, intestine, hepatobiliary system, male genital tract, and exocrine sweat glands. Morbidities include progressive obstructive lung disease with bronchiectasis, frequent hospitalizations for pulmonary disease, pancreatic insufficiency and malnutrition, recurrent sinusitis and bronchitis, and male infertility. The overall median predicted survival is estimated at 40.7 years (95% confidence intervals, 37.7- 44.1 yrs) [CFF Patient Registry 2013].
- Respiratory. Pulmonary disease remains the major cause of morbidity and mortality in CF. Early manifestations are chronic cough, intermittent sputum production, and exertional dyspnea. Bronchiectasis is now known to develop early, detectable in infants as young as age ten weeks, and is persistent and progressive [Sly et al 2013]. Failure of lung defenses leads to bacterial endobronchitis (most commonly Staphylococcus aureus and Pseudomonas aeruginosa) with resulting airway obstruction and intense neutrophilic inflammation. Progression of lung disease results in chronic endobronchitis and structural injury to the airways. End-stage lung disease is characterized by extensive damage to the airways (cysts/abscesses) and accompanying fibrosis of lung parenchyma adjacent to airways.Other respiratory causes of morbidity include recurrent sinusitis and nasal polyposis.
- Exocrine pancreatic insufficiency with malabsorption occurs in the great majority of individuals with CF, although median body mass index percentiles have steadily increased [CFF Patient Registry 2013]. Pancreatic insufficiency is caused by inspissation of secretions within the pancreatic ducts and ultimately interstitial fibrosis. The clinical manifestations are steatorrhea and poor growth related to fat malabsorption. Acute or chronic recurrent pancreatitis can be a presenting manifestation of CF, and is much more common among those with pancreatic sufficiency (10% prevalence) than those with pancreatic insufficiency (0.5% prevalence) [De Boeck et al 2005]. Hemolytic anemia, defective coagulation, or skin rashes related to deficiencies of fat-soluble vitamins and zinc may occasionally be seen.Cystic fibrosis-related diabetes (CFRD) can occur at any age, but prevalence increases with age, estimated in 20% of adolescents and 40%-50% of adults [Moran et al 2009, Moran et al 2014]. CFRD is distinctive from type 1 and type 2 diabetes and requires its own approach to both diagnosis and management [Moran et al 2014]. Glucose metabolism in CFRD is impaired by a loss of total islet cells leading to an absence of insulin and glucagon, and fluctuating insulin resistance occurs from chronic and acute inflammation. CFRD is diagnosed if the fasting glucose level is ≥126 mg/dL (7.0 mmol/L) or the two-hour oral glucose tolerance test glucose level is ≥200 mg/dL (11.1 mmol/L). CFRD can be diagnosed during a pulmonary exacerbation if fasting glucose levels of ≥126 mg/dL (7.0 mmol/L) or the two-hour post prandial levels of ≥200 mg/dL (11.1 mmol/L) persist for 48 hours [Moran et al 2010].
- Gastrointestinal. Meconium ileus occurs in 15%-20% of newborns diagnosed with CF.
- Liver disease typically presents by age ten years and is defined as the presence of at least two of the following: hepatomegaly, elevated serum hepatic enzyme levels, and/or liver ultrasound abnormalities other than hepatomegaly [Leeuwen et al 2014]. Liver disease is reported in approximately 10% of individuals [CFF Patient Registry 2013]. Approximately 5%-10% develop clinically significant liver disease with multilobar cirrhosis and portal hypertension [Debray et al 2011]. Progression is variable. Individuals with CF may develop focal biliary cirrhosis from progressive portal fibrosis and biliary obstruction. Complications include variceal bleeding, ascites, hypersplenism, hepatic encephalopathy, and rarely liver synthetic failure. Liver disease is the cause of mortality in 2.9% of individuals with CF [CFF Patient Registry 2013].
- Fertility. More than 95% of males with CF are infertile as a result of azoospermia caused by altered vas deferens, which may be absent, atrophic, or fibrotic.Women with CF are fertile, although a few females have abnormal cervical mucus that may contribute to infertility. Others with severe illness and reduced body mass index may be anovulatory. The rate of live births among females with CF age 14-45 years is 1.6 per 100 [CFF Patient Registry 2011].
Congenital absence of the vas deferens (CAVD) is generally identified during evaluation of infertility or as an incidental finding at the time of a surgical procedure, such as orchidopexy. CAVD accounts for 1.2%-1.7% of male infertility. Hypoplasia or aplasia of the vas deferens and seminal vesicles may occur either bilaterally or unilaterally. Testicular development and function and spermatogenesis are usually normal.
Genotype-Phenotype Correlations
The Clinical and Functional Translation of CFTR website provides information about CFTR pathogenic variants including sweat chloride, lung function, pancreatic status, and pseudomonas infection rates in individuals with specific pathogenic variants.
Cystic fibrosis. The best correlation between genotype and phenotype is seen in the context of pancreatic function. The most common pathogenic variants have been classified as pancreatic sufficient (PS) or pancreatic insufficient. Individuals with pancreatic sufficiency usually have either one or two PS alleles, indicating that PS alleles are dominant with respect to pancreatic phenotype.
The severity of pulmonary disease among individuals with identical genotypes varies widely. Limited genotype-phenotype correlations include:
Compound heterozygotes for p.Phe508del/p.Ala455Glu have better pulmonary function than individuals who are homozygous for p.Phe508del [De Braekeleer et al 1997].
- The severity of lung disease in individuals heterozygous or homozygous for p.Arg117His depends on the presence of a variation in the poly T tract of intron 9, c.1210-12T[5_9] [Massie et al 2001]. Individuals with a CF-causing variant plus the 5T variant in cis with p.Arg117His usually develop the lung disease of CF, but those individuals with p.Arg117His and the 7T variant or the 9T variant have a highly variable phenotype that can range from no symptoms to mild lung disease [Kiesewetter et al 1993, Chmiel et al 1999].
- Because p.Ala455Glu and p.Arg117His are associated with pancreatic sufficiency, the less severe lung disease seen in individuals with these pathogenic variants could be the consequence of better nutritional status.
CAVD. CAVD usually results from compound heterozygosity of a classic (severe, loss-of-function) CFTR pathogenic variant with a mild (retaining some function) CFTR pathogenic variant (e.g., the 5T allele; Table 2). However, some overlap exists between the CAVD phenotype and a very mild CF phenotype, with a small percentage of individuals with CAVD also reporting respiratory or pancreatic problems [Dörk et al 1997, Gilljam et al 2004]. The 5T allele may be associated with lung disease in adult females with CF-like clinical features [Noone et al 2000]. Thus, caution must be exercised in attempting to use genotype to predict the future course of individuals initially diagnosed with CAVD only.
Table 2.
CFTR Genotype 1 | Range of Phenotypes 2 | |
---|---|---|
First Allele | Second Allele (or Homozygous) | |
Classic (e.g., p.Phe508del) | Classic | Classic >> non-classic |
Mild (e.g., p.Ala455Glu) | Classic or mild | Non-classic > classic |
p.Arg117His / 5T | Classic or mild | Non-classic > classic |
p.Arg117His / 7T | Classic or mild | Asymptomatic female or CAVD > non-classic |
5T / 13TG or 12TG | Classic or mild | CAVD or non-classic CF >> asymptomatic carrier |
5T / 11TG | Classic or mild | Asymptomatic > CAVD |
7T or 9T | Classic or mild | Asymptomatic |
7T or 9T | 7T or 9T | Asymptomatic |
- 1.
Patterns reflect dominant effect of "milder" alleles in compound heterozygotes. Classic alleles generally refer to Class I-III pathogenic variants; mild alleles refer to Class IV-V pathogenic variants exclusive of p.Arg117His and 5T alleles (see Table 8).
- 2.
Data derived from Kiesewetter et al [1993], Witt et al [1996], Brock et al [1998], Cuppens et al [1998], Mak et al [1999], Wang et al [2002], McKone et al [2003], Groman et al [2004]
Nomenclature
Atypical cystic fibrosis, a term originally proposed to describe a disorder that presents with cystic fibrosis-like symptoms but is not caused by CFTR dysfunction, is sometimes used to denote mild or non-classic CF. However, use of the term in this way is confusing and strongly discouraged.
Prevalence
CF is the most common life-limiting autosomal recessive disorder in individuals of northern European background. The disease incidence of CF is 1:3,200 live births in this population [Rosenstein & Cutting 1998]. Approximately 30,000 affected persons live in the United States. The carrier frequency of individuals of northern European ancestry living in North America is 1:28 (see Table 3).
CF occurs with lower frequency in other ethnic and racial populations (1:15,000 African Americans, and 1:31,000 Asian Americans) [Rosenstein & Cutting 1998].
Table 3.
Population Group | Approximate Carrier Frequency | Reference |
---|---|---|
Ashkenazi Jewish | 1:29 | Kerem et al [1997] |
North Americans of northern European background | 1:28 | Hamosh et al [1998] |
African American | 1:61 | Hamosh et al [1998] |
Asian American | 1:118 1 | Rohlfs et al [2011] |
- 1.
This carrier frequency is based on observed frequency of pathogenic variants in a tested population; it is not calculated from a population incidence.
Differential Diagnosis
Cystic Fibrosis (CF)
Primary dysphagia with chronic descending tracheal aspiration and primary gastroesophageal reflux (GER) with or without ascending tracheal aspiration. Both conditions can cause chronic cough in infancy and may be associated with failure to thrive. However, in infants without CF, the cough is often temporally associated with feedings; and steatorrhea is not associated with primary dysphagia or primary GER.
Severe combined immunodeficiency and other immunodeficiency disorders. Individuals with immunodeficiency may present with recurrent respiratory infections and chronic diarrhea in infancy. These individuals are also prone to non-respiratory infections (e.g., otitis media, cellulitis) not specifically associated with CF.
Asthma. CF and asthma both present with chronic cough and persistent wheeze following respiratory viral infections, allergen exposure, or exertion. However, individuals with asthma typically improve on asthma therapy, do not experience recurrent pneumonia, are not colonized with CF-related bacteria, have normal growth and weight gain, and do not have steatorrhea.
Congenital airway anomalies can cause chronic cough and wheezing during infancy similar to CF. Gastrointestinal or nutritional manifestations that are typically present in infants with CF are not seen in children with congenital airway anomalies. Stridor is not common in CF.
Primary ciliary dyskinesia (PCD) is associated with situs abnormalities, abnormal sperm motility, and abnormal ciliary structure and function that result in retention of mucus and bacteria in the respiratory tract leading to chronic oto-sino-pulmonary disease. Individuals with PCD present with respiratory distress in infancy, cough and sputum production with recurrent pneumonias that may progress to chronic bronchiectasis, Pseudomonas aeruginosa or other opportunistic bacterial pathogens that may be cultured from airway secretions, and chronic sinus disease. Situs inversus is present in 50% of individuals with PCD; steatorrhea and failure to thrive are not associated with PCD. PCD is associated with pathogenic variants in multiple genes encoding different structural components of cilia and is inherited in an autosomal recessive manner.
Shwachman-Diamond syndrome (SDS) is characterized by exocrine pancreatic dysfunction with malabsorption, malnutrition, and growth failure. SDS can be distinguished from CF by the presence of hematologic abnormalities with single- or multilineage cytopenias, susceptibility to myelodysplasia syndrome (MDS) and acute myelogenous leukemia (AML), and skeletal abnormalities (most commonly chondrodysplasia or asphyxiating thoracic dystrophy). SDS is caused by biallelic pathogenic variants in SBDS and is inherited in an autosomal recessive manner.
Primary biliary atresia. Rarely, individuals with CF may present in infancy with symptoms of biliary obstruction without other clinically apparent GI or respiratory manifestations. Serum levels of immunoreactive trypsinogen and stool levels of elastase should be normal in primary biliary atresia, whereas CF liver disease is invariably associated with evidence of pancreatic duct obstruction.
Bronchiectasis with or without elevated sweat chloride. Pathogenic variants in SCNN1A, SCNN1B, and SCNN1G encoding the beta subunit of the epithelial sodium channel cause a non-classic CF phenotype [Sheridan et al 2005]. Individuals with SCNN1A, SCNN1B, or SCNN1G pathogenic variants may also have mild lung disease and elevated sweat chloride concentration.
Isolated hyperchlorhidrosis, characterized by elevated sweat chloride levels and failure to thrive, is caused by pathogenic variants in CA12, which encodes carbonic anhydrase XII [Feldshtein et al 2010].
Congenital Absence of the Vas Deferens (CAVD)
CAVD is part of the differential diagnosis of obstructive azoospermia, caused by obstruction to sperm outflow from the testes or ductular system. Obstructive azoospermia may be part of a syndrome or may be an isolated finding. Syndromes with obstructive azoospermia include the following:
- Young syndrome (OMIM 279000), a progressive obstruction of the epididymis by inspissated secretions in males with chronic sinopulmonary infection. Males with Young syndrome do not have malformations of the vas deferens or epididymis. Molecular testing of individuals with Young syndrome indicates that this disorder is not caused by pathogenic variants in CFTR [Friedman et al 1995].
- Hereditary urogenital adysplasia (OMIM 277000), an autosomal dominant disorder of variable expressivity and reduced penetrance. Females have a range of uterine anomalies; males may have Wolffian duct anomalies including unilateral or bilateral absence of the vas deferens; males and females may have unilateral or bilateral renal agenesis.
Management
Evaluations Following Initial Diagnosis
To establish the extent of disease and needs in an individual diagnosed with cystic fibrosis (CF) the following evaluations are recommended.
Respiratory
- Sinus CT to assess for pan sinusitis in individuals with chronic nasal congestion and/or recurrent sinusitis
- Pulmonary function testing (PFT), including infant PFT at specialized centers
- Chest radiographic examination to screen for bronchiectasis, or chest computed tomography (CT) examination as indicated for worsening symptoms or concern for progression
- Sputum culture in affected individuals who can expectorate a sputum sample, or culture of deep oropharyngeal swab in those who cannot
- Bronchoscopy with bronchoalveolar lavage to evaluate lower airway microbiology and inflammation as indicated
Exocrine pancreatic insufficiency
- Fecal elastase
- Fecal fat content based on 72-hour stool collection
- Vitamin A, D, and E serum concentrations
- Prothrombin time and international normalized ratio (INR)
- Random glucose
Overall clinical status / extent of disease
- CBC with differential and cell count
- Serum electrolytes, BUN, creatinine
- Liver function tests (ALT, AST)
- Consultation with a genetic counselor
To establish the extent of disease and needs in an individual diagnosed with congenital absence of the vas deferens (CAVD) referral to a urologist is recommended.
Treatment of Manifestations
Cystic Fibrosis (CF)
Respiratory
- Inhaled dornase alfa in all individuals age ≥6 years
- Inhaled hypertonic saline in all individuals age ≥6 years
- Azithromycin in individuals age ≥6 years with persistent Pseudomonas aeruginosa in airway cultures
- Inhaled tobramycin in individuals age ≥6 years with lung disease (mild, moderate, or severe) and persistent P. aeruginosa in airway cultures
- Inhaled aztreonam in individuals age ≥6 years with lung disease (mild, moderate, or severe) and persistent P. aeruginosa in airway cultures
- Ibuprofen in individuals age 6-17 years with FEV1 ≥60% predicted
- Recommended sequence for inhaled medications:
- 1.
Bronchodilator
- 2.
Hypertonic saline
- 3.
Dornase alfa
- 4.
Airway clearance
- 5.
An aerosolized antibiotic
- Ivacaftor for individuals age ≥2 years who are heterozygous for p.Gly551Asp and other specific pathogenic variants
- Ivacaftor/lumacaftor combined therapy for individuals age ≥12 years who are homozygous for p.Phe508del
- Lung or heart/lung transplantation; an option for some individuals with severe disease
- Topical steroids, antibiotics, and/or surgical intervention if required for nasal/sinus symptoms
Exocrine pancreatic insufficiency
- Oral pancreatic enzyme replacement with meals
- Nutritional therapy that may include breast milk, special infant formulas, supplemental feeding, salt supplementation, fat-soluble vitamin supplements, and zinc
- Management of CF-related diabetes mellitus with endocrinology consultation and (if required) glucose monitoring and insulin therapy
Gastrointestinal. Meconium ileus and distal intestinal obstructive syndrome requires surgical evaluation and management.
Liver disease
- Biliary sludging or frank obstruction, and associated hepatic inflammation, are treated with oral ursodiol.
- Liver transplant indications include progressive hepatic dysfunction, intractable variceal bleeding, and hepatopulmonary and portopulmonary syndromes
Fertility. Assisted reproductive technologies include microscopic sperm aspiration from the epididymal remnant in conjunction with in vitro fertilization or artificial insemination using donor sperm.
Congenital Absence of the Vas Deferens (CAVD)
Assisted reproductive technologies include microscopic sperm aspiration from the epididymal remnant in conjunction with in vitro fertilization or artificial insemination using donor sperm.
Prevention of Primary Manifestations – Cystic Fibrosis
Respiratory
- A variety of airway clearance techniques (ACTs) can mobilize airway secretions, minimize airway obstruction, and reduce airway infections. ACTs include manual chest percussion with postural drainage, hand-held devices (e.g., flutter valve, or Acapella®), and inflatable vest therapy devices that vibrate the chest wall. These treatments are most effective when used at least twice daily.
- Dornase alfa and hypertonic saline help mobilize airway secretions in individuals age six years or older.
- Airway clearance should be used in conjunction with inhaled medications given in a standard sequence:
- 1.
Bronchodilator
- 2.
Hypertonic saline
- 3.
Dornase alfa
- 4.
Airway clearance
- 5.
Inhaled corticosteroids and/or long-acting beta agonist (for select individuals)
- 6.
Aerosolized antibiotic
The rationale for this sequence is to open the airway, decrease sputum viscosity, promote expectoration of secretions, and then deliver anti-inflammatory treatments and/or antibiotics as widely and deeply as possible within the bronchial tree. - Aggressive antibiotic treatment at the time of initial isolation of P. aeruginosa from cultured airway secretions helps prevent chronic airway infection.
- All routine immunizations should be given at the recommended times. Especially important are vaccines that protect against microorganisms associated with pulmonary manifestations, including pertussis, measles, varicella, Haemophilus influenzae type B, and Streptococcus pneumoniae.
- Influenza vaccine should be administered annually in infants age six months and older. Note: (1) Because the influenza vaccine may not be fully protective, consider immunizing an affected individual's entire family. (2) CF individuals with suspected influenza should receive anti-viral medications targeted toward influenza A and B.
- Anti-RSV monoclonal antibody (Synagis®) should be considered for infants up to age 12 months for the duration of the local RSV season, particularly in individuals with ongoing pulmonary symptoms.
- Physical activity, exercise, and conditioning help maintain bone health and improve airway clearance.
Exocrine pancreatic insufficiency
- Pancreatic enzyme replacement and supplementation of fat-soluble vitamins
- High-calorie, high-fat nutritional supplements
- Consultation with a nutritionist specializing in CF
- Extra salt and water for hydration and salt losses in hot, dry climates
Surveillance – Cystic Fibrosis
Respiratory
- Newborns are examined monthly by a CF care provider for the first six months of life and then bimonthly until age one year.
- Individuals age one year and older should be examined quarterly by a CF care provider to monitor for subtle changes in physical examination that are not yet manifest as symptoms.
- Culture respiratory tract secretions at least four times yearly. Some individuals may benefit from more frequent visits and respiratory tract surveillance cultures (see Therapies Under Investigation).
- Pulmonary function studies, chest radiographic examination, and at least annual blood tests for electrolytes, fat soluble vitamin levels, and IgE levels are appropriate.
- Bronchoscopy and chest CT examination are indicated for individuals with symptoms and signs of lung disease who fail to respond to intervention.
Exocrine pancreatic insufficiency
- Weight gain and caloric intake are monitored monthly in newborns until age six months.
- Fecal elastase may need to be repeated during the first year of life, particularly if infants have signs or symptoms of malabsorption or inadequate weight gain.
- Measure oral glucose tolerance annually after age ten years during a period of stable