Cystic fibrosis: Difference between revisions
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*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 |
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==Background== |
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===Pathophysiology=== |
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*Caused by mutations in the CFTR gene which encodes the cystic fibrosis transmembrane conductance regulator, a cAMP-regulated chloride channel |
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*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 |
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*Most common is delta-F508 (which falls into classes II, III, and VI) |
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*Classified into: |
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**Normal |
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**I: no synthesis (e.g. a nonsense or frameshift mutation) |
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**II: blocked processing or folding |
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**III: blocked regulation or a gating problem |
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**IV: altered conductance |
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**V: reduced synthesis |
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**VI: unstable and quickly degraded |
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===Microbiology=== |
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*In childhood, ''[[Staphylococcus aureus]]'' and ''[[Haemophilus influenza]]'' are most common |
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*By young adulthood, ''Pseudomonas'' followed by ''[[Staphylococcus aureus]]'' are most common |
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*Others include ''[[Aspergillus species|Aspergillus]]'', ''[[Stenotrophomonas maltophilia]]'', ''[[Burkholderia cepacia]]'', and [[MRSA]] |
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*[[Non-tuberculous mycobacteria]] are also involved, especially [[Mycobacterium abscessus]] and [[Mycobacterium avium complex]] |
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===Epidemiology=== |
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*Autosomal recessive disease |
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*1:3300 Caucasians |
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*1:25 carriers |
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==Clinical Manifestations== |
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*On newborn screening, with increased serum trypsinogen (take top 2% and sequence for most common mutations) |
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==Differential Diagnosis== |
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=== Chronic Management === |
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===Acute Management=== |
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==Prognosis== |
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[[Category:Pediatrics]] |
[[Category:Pediatrics]] |
Latest revision as of 02:07, 25 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
Background
Pathophysiology
- 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
Microbiology
- In childhood, Staphylococcus aureus and Haemophilus influenza are most common
- By young adulthood, Pseudomonas followed by Staphylococcus aureus are most common
- Others include Aspergillus, Stenotrophomonas maltophilia, Burkholderia cepacia, and MRSA
- Non-tuberculous mycobacteria are also involved, especially Mycobacterium abscessus and Mycobacterium avium complex
Epidemiology
- Autosomal recessive disease
- 1:3300 Caucasians
- 1:25 carriers
Clinical Manifestations
- On newborn screening, with increased serum trypsinogen (take top 2% and sequence for most common mutations)
Differential Diagnosis
- For positive sweat chloride test:
- Untreated Addison disease
- Ectodermal dysplasia
- Some glycogen storage diseases
- Untreated hypothyroidism
- Adulthood
Investigations
- Sweat chloride concentration greater than 60 mEq/L (or 90 mEq/L for adults) with an appropriate clinical context or family history
- Genotyping
Diagnosis
- 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
Management
Chronic Management
- 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%
Acute Management
Prognosis
- 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