Cystic fibrosis: Difference between revisions

Latest revision as of 22:07, 24 July 2020

Autosomal recessive disease caused by missions in CFTR that causes a syndrome of respiratory disease, pancreatic insufficiency, constipation, and other disorders arising from the increased thickness of mucous production

Caused by mutations in the CFTR gene which encodes the cystic fibrosis transmembrane conductance regulator, a cAMP-regulated chloride channel
CFTR is present in epithelial cells lining the airways, biliary tree, intestines, vas deferens, sweat ducts, and pancreatic ducts >2000 possible defects, causing a wide range of presentations
Most common is delta-F508 (which falls into classes II, III, and VI)
Classified into:
- Normal
- I: no synthesis (e.g. a nonsense or frameshift mutation)
- II: blocked processing or folding
- III: blocked regulation or a gating problem
- IV: altered conductance
- V: reduced synthesis
- VI: unstable and quickly degraded

On newborn screening, with increased serum trypsinogen (take top 2% and sequence for most common mutations)

Sweat chloride concentration greater than 60 mEq/L (or 90 mEq/L for adults) with an appropriate clinical context or family history
Genotyping

Must have both clinical features and positive diagnostic testing
Clinical features include cystic fibrosis, family history, or positive newborn screen
Diagnostic tests including 2x CF mutations, or 2x positive sweat chloride test

Overall goals are to preserve lung function by decreasing infection, inflammation, and mucous production
Chronic *Pseudomonas *infection defined as >50% of cultures positive for Pseudomonas in the past 12 months
Vaccinations
Decrease mucous burden with mucolytics (hypertonic saline or Pulmozyme)
- Chronic productive cough or FEV1 < 90%, start mucolytic
- Mild lung disease, no daily cough, and FEV1 >90%, physician and patient decision
- When starting, needs a trial of mucolytics with before-and-after PFTs to ensure no bronchospasm
Decrease bacterial burden with inhaled antibiotics (tobramycin, aztreonam)
- Chronic growth of Pseudomonas, chronically suppress
- New growth of Pseudomonas, attempt to eradicate with short course
- B. cepacia complex, physician decision
- Stenotrophomonas maltophilia, physician decision
- Achromobacter xyloxidans, physician decision
Decrease inflammation with chronic oral azithromycin
- Chronic growth of Pseudomonas, treat if no Mycobacteria
- B. cepacia complex, no guidelines
- Staph aureus, H. influenzae, physician decision (small benefit)
- Rule out non-tuberculous mycobacteria first
Targeted therapies
- For G551D (3% of cases) (a class III defect in gating), ivacaftor (VX700) is an experimental agent that causes an absolute increase in FEV1 by 10%

FEV1 is main predictor of survival
FEV1 starts declining after Pseudomonas colonization
Survival decreases with increasing pulmonary exacerbations
- 25% fail to recover to 90% of baseline FEV1
- 40% fail to recover to 100% of baseline FEV1
Life expectancy is 1 year once FEV1 drops to 20% of predicted

@@ Line 22: / Line 22: @@
 *By young adulthood, ''Pseudomonas'' followed by ''[[Staphylococcus aureus]]'' are most common
 *Others include ''[[Aspergillus species|Aspergillus]]'', ''[[Stenotrophomonas maltophilia]]'', ''[[Burkholderia cepacia]]'', and [[MRSA]]
+*[[Non-tuberculous mycobacteria]] are also involved, especially [[Mycobacterium abscessus]] and [[Mycobacterium avium complex]]
 ===Epidemiology===
@@ Line 53: / Line 54: @@
 *Diagnostic tests including 2x CF mutations, or 2x positive sweat chloride test
-==Chronic Management==
+==Management==
+=== Chronic Management ===
 *Overall goals are to preserve lung function by decreasing infection, inflammation, and mucous production
@@ Line 76: / Line 79: @@
 **For G551D (3% of cases) (a class III defect in gating), ivacaftor (VX700) is an experimental agent that causes an absolute increase in FEV1 by 10%
-==Acute Management==
+===Acute Management===
 *See [[Cystic fibrosis pulmonary exacerbation]]