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Primary ciliary dyskinesia 3(CILD3)

MedGen UID:
325210
Concept ID:
C1837618
Disease or Syndrome
Synonym: Primary Ciliary Dyskinesia 3: DNAH5-Related Primary Ciliary Dyskinesia
 
Gene (location): DNAH5 (5p15.2)
 
Monarch Initiative: MONDO:0012085
OMIM®: 608644

Definition

Primary ciliary dyskinesia (PCD; CILD) is an autosomal recessive disorder resulting from loss of normal ciliary function. Kartagener (pronounced KART-agayner) syndrome is characterized by the combination of primary ciliary dyskinesia and situs inversus, and occurs in approximately half of patients with ciliary dyskinesia. Since normal nodal ciliary movement in the embryo is required for normal visceral asymmetry, absence of normal ciliary movement results in a lack of definitive patterning; thus, random chance alone appears to determine whether the viscera take up the normal or reversed left-right position during embryogenesis. This explains why approximately 50% of patients, even within the same family, have situs inversus (summary by Afzelius, 1976; El Zein et al., 2003). For a general phenotypic description and a discussion of genetic heterogeneity of primary ciliary dyskinesia and the Kartagener syndrome, see CILD1 (244400). [from OMIM]

Additional description

From MedlinePlus Genetics
Rarely, individuals with primary ciliary dyskinesia have an accumulation of fluid in the brain (hydrocephalus), likely due to abnormal cilia in the brain.

Another feature of primary ciliary dyskinesia is recurrent ear infections (otitis media), especially in young children. Otitis media can lead to permanent hearing loss if untreated. The ear infections are likely related to abnormal cilia within the inner ear.

Primary ciliary dyskinesia can also lead to infertility. Vigorous movements of the flagella are necessary to propel the sperm cells forward to the female egg cell. Because their sperm do not move properly, males with primary ciliary dyskinesia are usually unable to father children. Infertility occurs in some affected females and is likely due to abnormal cilia in the fallopian tubes.

Approximately 12 percent of people with primary ciliary dyskinesia have a condition known as heterotaxy syndrome or situs ambiguus, which is characterized by abnormalities of the heart, liver, intestines, or spleen. These organs may be structurally abnormal or improperly positioned. In addition, affected individuals may lack a spleen (asplenia) or have multiple spleens (polysplenia). Heterotaxy syndrome results from problems establishing the left and right sides of the body during embryonic development. The severity of heterotaxy varies widely among affected individuals.

Some individuals with primary ciliary dyskinesia have abnormally placed organs within their chest and abdomen. These abnormalities arise early in embryonic development when the differences between the left and right sides of the body are established. About 50 percent of people with primary ciliary dyskinesia have a mirror-image reversal of their internal organs (situs inversus totalis). For example, in these individuals the heart is on the right side of the body instead of on the left. Situs inversus totalis does not cause any apparent health problems. When someone with primary ciliary dyskinesia has situs inversus totalis, they are often said to have Kartagener syndrome.

In the respiratory tract, cilia move back and forth in a coordinated way to move mucus towards the throat. This movement of mucus helps to eliminate fluid, bacteria, and particles from the lungs. Most babies with primary ciliary dyskinesia experience breathing problems at birth, which suggests that cilia play an important role in clearing fetal fluid from the lungs. Beginning in early childhood, affected individuals develop frequent respiratory tract infections. Without properly functioning cilia in the airway, bacteria remain in the respiratory tract and cause infection. People with primary ciliary dyskinesia also have year-round nasal congestion and a chronic cough. Chronic respiratory tract infections can result in a condition called bronchiectasis, which damages the passages, called bronchi, leading from the windpipe to the lungs and can cause life-threatening breathing problems.

Primary ciliary dyskinesia is a disorder characterized by chronic respiratory tract infections, abnormally positioned internal organs, and the inability to have children (infertility). The signs and symptoms of this condition are caused by abnormal cilia and flagella. Cilia are microscopic, finger-like projections that stick out from the surface of cells. They are found in the linings of the airway, the reproductive system, and other organs and tissues. Flagella are tail-like structures, similar to cilia, that propel sperm cells forward.  https://medlineplus.gov/genetics/condition/primary-ciliary-dyskinesia

Clinical features

From HPO
Situs inversus
MedGen UID:
1642262
Concept ID:
C4551493
Congenital Abnormality
A left-right reversal (or mirror reflection) of the anatomical location of the major thoracic and abdominal organs.
Bronchiectasis
MedGen UID:
14234
Concept ID:
C0006267
Disease or Syndrome
Persistent abnormal dilatation of the bronchi owing to localized and irreversible destruction and widening of the large airways.
Primary ciliary dyskinesia
MedGen UID:
3467
Concept ID:
C0008780
Disease or Syndrome
Primary ciliary dyskinesia is a disorder characterized by chronic respiratory tract infections, abnormally positioned internal organs, and the inability to have children (infertility). The signs and symptoms of this condition are caused by abnormal cilia and flagella. Cilia are microscopic, finger-like projections that stick out from the surface of cells. They are found in the linings of the airway, the reproductive system, and other organs and tissues. Flagella are tail-like structures, similar to cilia, that propel sperm cells forward.\n\nIn the respiratory tract, cilia move back and forth in a coordinated way to move mucus towards the throat. This movement of mucus helps to eliminate fluid, bacteria, and particles from the lungs. Most babies with primary ciliary dyskinesia experience breathing problems at birth, which suggests that cilia play an important role in clearing fetal fluid from the lungs. Beginning in early childhood, affected individuals develop frequent respiratory tract infections. Without properly functioning cilia in the airway, bacteria remain in the respiratory tract and cause infection. People with primary ciliary dyskinesia also have year-round nasal congestion and a chronic cough. Chronic respiratory tract infections can result in a condition called bronchiectasis, which damages the passages, called bronchi, leading from the windpipe to the lungs and can cause life-threatening breathing problems.\n\nSome individuals with primary ciliary dyskinesia have abnormally placed organs within their chest and abdomen. These abnormalities arise early in embryonic development when the differences between the left and right sides of the body are established. About 50 percent of people with primary ciliary dyskinesia have a mirror-image reversal of their internal organs (situs inversus totalis). For example, in these individuals the heart is on the right side of the body instead of on the left. Situs inversus totalis does not cause any apparent health problems. When someone with primary ciliary dyskinesia has situs inversus totalis, they are often said to have Kartagener syndrome.\n\nApproximately 12 percent of people with primary ciliary dyskinesia have a condition known as heterotaxy syndrome or situs ambiguus, which is characterized by abnormalities of the heart, liver, intestines, or spleen. These organs may be structurally abnormal or improperly positioned. In addition, affected individuals may lack a spleen (asplenia) or have multiple spleens (polysplenia). Heterotaxy syndrome results from problems establishing the left and right sides of the body during embryonic development. The severity of heterotaxy varies widely among affected individuals.\n\nRarely, individuals with primary ciliary dyskinesia have an accumulation of fluid in the brain (hydrocephalus), likely due to abnormal cilia in the brain.\n\nPrimary ciliary dyskinesia can also lead to infertility. Vigorous movements of the flagella are necessary to propel the sperm cells forward to the female egg cell. Because their sperm do not move properly, males with primary ciliary dyskinesia are usually unable to father children. Infertility occurs in some affected females and is likely due to abnormal cilia in the fallopian tubes.\n\nAnother feature of primary ciliary dyskinesia is recurrent ear infections (otitis media), especially in young children. Otitis media can lead to permanent hearing loss if untreated. The ear infections are likely related to abnormal cilia within the inner ear.
Recurrent sinusitis
MedGen UID:
107919
Concept ID:
C0581354
Disease or Syndrome
A recurrent form of sinusitis.
Decreased nasal nitric oxide
MedGen UID:
767344
Concept ID:
C3554430
Finding
Reduced level of nasal nitric oxide (nNO). Current American Thoracic Society/European Respiratory Society (ATS/ERS) guidelines for nNO measurements recommend air aspiration via a nasal probe while the subject exhales through the mouth against resistance in order to maintain velum closure.
Recurrent respiratory infections
MedGen UID:
812812
Concept ID:
C3806482
Finding
An increased susceptibility to respiratory infections as manifested by a history of recurrent respiratory infections.
Neonatal respiratory distress
MedGen UID:
924182
Concept ID:
C4281993
Finding
Respiratory difficulty as newborn.
Recurrent otitis media
MedGen UID:
155436
Concept ID:
C0747085
Disease or Syndrome
Increased susceptibility to otitis media, as manifested by recurrent episodes of otitis media.

Term Hierarchy

Professional guidelines

PubMed

De Jesús-Rojas W, Shapiro AJ, Shoemark A
Clin Chest Med 2024 Sep;45(3):717-728. Epub 2024 Mar 28 doi: 10.1016/j.ccm.2024.02.020. PMID: 39069333
Mata M, Milian L, Armengot M, Carda C
Curr Allergy Asthma Rep 2014 Mar;14(3):420. doi: 10.1007/s11882-014-0420-1. PMID: 24459089
Hornef N, Olbrich H, Horvath J, Zariwala MA, Fliegauf M, Loges NT, Wildhaber J, Noone PG, Kennedy M, Antonarakis SE, Blouin JL, Bartoloni L, Nüsslein T, Ahrens P, Griese M, Kuhl H, Sudbrak R, Knowles MR, Reinhardt R, Omran H
Am J Respir Crit Care Med 2006 Jul 15;174(2):120-6. Epub 2006 Apr 20 doi: 10.1164/rccm.200601-084OC. PMID: 16627867Free PMC Article

Recent clinical studies

Etiology

Raidt J, Loges NT, Olbrich H, Wallmeier J, Pennekamp P, Omran H
Presse Med 2023 Sep;52(3):104171. Epub 2023 Jul 27 doi: 10.1016/j.lpm.2023.104171. PMID: 37516247
Newman L, Chopra J, Dossett C, Shepherd E, Bercusson A, Carroll M, Walker W, Lucas JS, Cheong Y
Hum Reprod Update 2023 May 2;29(3):347-367. doi: 10.1093/humupd/dmad003. PMID: 36721921Free PMC Article
Guan Y, Yang H, Yao X, Xu H, Liu H, Tang X, Hao C, Zhang X, Zhao S, Ge W, Ni X
Chest 2021 May;159(5):1768-1781. Epub 2021 Feb 10 doi: 10.1016/j.chest.2021.02.006. PMID: 33577779Free PMC Article
McConnachie DJ, Stow JL, Mallett AJ
Am J Kidney Dis 2021 Mar;77(3):410-419. Epub 2020 Oct 9 doi: 10.1053/j.ajkd.2020.08.012. PMID: 33039432
Davis SD, Rosenfeld M, Lee HS, Ferkol TW, Sagel SD, Dell SD, Milla C, Pittman JE, Shapiro AJ, Sullivan KM, Nykamp KR, Krischer JP, Zariwala MA, Knowles MR, Leigh MW
Am J Respir Crit Care Med 2019 Jan 15;199(2):190-198. doi: 10.1164/rccm.201803-0548OC. PMID: 30067075Free PMC Article

Diagnosis

Raidt J, Loges NT, Olbrich H, Wallmeier J, Pennekamp P, Omran H
Presse Med 2023 Sep;52(3):104171. Epub 2023 Jul 27 doi: 10.1016/j.lpm.2023.104171. PMID: 37516247
Guan Y, Yang H, Yao X, Xu H, Liu H, Tang X, Hao C, Zhang X, Zhao S, Ge W, Ni X
Chest 2021 May;159(5):1768-1781. Epub 2021 Feb 10 doi: 10.1016/j.chest.2021.02.006. PMID: 33577779Free PMC Article
Davis SD, Rosenfeld M, Lee HS, Ferkol TW, Sagel SD, Dell SD, Milla C, Pittman JE, Shapiro AJ, Sullivan KM, Nykamp KR, Krischer JP, Zariwala MA, Knowles MR, Leigh MW
Am J Respir Crit Care Med 2019 Jan 15;199(2):190-198. doi: 10.1164/rccm.201803-0548OC. PMID: 30067075Free PMC Article
Butterfield R
Pediatr Rev 2017 Mar;38(3):145-146. doi: 10.1542/pir.2016-0108. PMID: 28250080
Knowles MR, Zariwala M, Leigh M
Clin Chest Med 2016 Sep;37(3):449-61. Epub 2016 Jun 30 doi: 10.1016/j.ccm.2016.04.008. PMID: 27514592Free PMC Article

Therapy

Ringshausen FC, Shapiro AJ, Nielsen KG, Mazurek H, Pifferi M, Donn KH, van der Eerden MM, Loebinger MR, Zariwala MA, Leigh MW, Knowles MR, Ferkol TW; CLEAN-PCD investigators and study team
Lancet Respir Med 2024 Jan;12(1):21-33. Epub 2023 Aug 31 doi: 10.1016/S2213-2600(23)00226-6. PMID: 37660715
Davis SD, Rosenfeld M, Lee HS, Ferkol TW, Sagel SD, Dell SD, Milla C, Pittman JE, Shapiro AJ, Sullivan KM, Nykamp KR, Krischer JP, Zariwala MA, Knowles MR, Leigh MW
Am J Respir Crit Care Med 2019 Jan 15;199(2):190-198. doi: 10.1164/rccm.201803-0548OC. PMID: 30067075Free PMC Article
LaDuca H, Farwell KD, Vuong H, Lu HM, Mu W, Shahmirzadi L, Tang S, Chen J, Bhide S, Chao EC
PLoS One 2017;12(2):e0170843. Epub 2017 Feb 2 doi: 10.1371/journal.pone.0170843. PMID: 28152038Free PMC Article
Knowles MR, Zariwala M, Leigh M
Clin Chest Med 2016 Sep;37(3):449-61. Epub 2016 Jun 30 doi: 10.1016/j.ccm.2016.04.008. PMID: 27514592Free PMC Article
Hornef N, Olbrich H, Horvath J, Zariwala MA, Fliegauf M, Loges NT, Wildhaber J, Noone PG, Kennedy M, Antonarakis SE, Blouin JL, Bartoloni L, Nüsslein T, Ahrens P, Griese M, Kuhl H, Sudbrak R, Knowles MR, Reinhardt R, Omran H
Am J Respir Crit Care Med 2006 Jul 15;174(2):120-6. Epub 2006 Apr 20 doi: 10.1164/rccm.200601-084OC. PMID: 16627867Free PMC Article

Prognosis

Ringshausen FC, Shapiro AJ, Nielsen KG, Mazurek H, Pifferi M, Donn KH, van der Eerden MM, Loebinger MR, Zariwala MA, Leigh MW, Knowles MR, Ferkol TW; CLEAN-PCD investigators and study team
Lancet Respir Med 2024 Jan;12(1):21-33. Epub 2023 Aug 31 doi: 10.1016/S2213-2600(23)00226-6. PMID: 37660715
Newman L, Chopra J, Dossett C, Shepherd E, Bercusson A, Carroll M, Walker W, Lucas JS, Cheong Y
Hum Reprod Update 2023 May 2;29(3):347-367. doi: 10.1093/humupd/dmad003. PMID: 36721921Free PMC Article
Guo Z, Chen W, Wang L, Qian L
J Pediatr 2020 Oct;225:157-165.e5. Epub 2020 Jun 2 doi: 10.1016/j.jpeds.2020.05.052. PMID: 32502479
Davis SD, Rosenfeld M, Lee HS, Ferkol TW, Sagel SD, Dell SD, Milla C, Pittman JE, Shapiro AJ, Sullivan KM, Nykamp KR, Krischer JP, Zariwala MA, Knowles MR, Leigh MW
Am J Respir Crit Care Med 2019 Jan 15;199(2):190-198. doi: 10.1164/rccm.201803-0548OC. PMID: 30067075Free PMC Article
LaDuca H, Farwell KD, Vuong H, Lu HM, Mu W, Shahmirzadi L, Tang S, Chen J, Bhide S, Chao EC
PLoS One 2017;12(2):e0170843. Epub 2017 Feb 2 doi: 10.1371/journal.pone.0170843. PMID: 28152038Free PMC Article

Clinical prediction guides

Newman L, Chopra J, Dossett C, Shepherd E, Bercusson A, Carroll M, Walker W, Lucas JS, Cheong Y
Hum Reprod Update 2023 May 2;29(3):347-367. doi: 10.1093/humupd/dmad003. PMID: 36721921Free PMC Article
Guan Y, Yang H, Yao X, Xu H, Liu H, Tang X, Hao C, Zhang X, Zhao S, Ge W, Ni X
Chest 2021 May;159(5):1768-1781. Epub 2021 Feb 10 doi: 10.1016/j.chest.2021.02.006. PMID: 33577779Free PMC Article
Davis SD, Rosenfeld M, Lee HS, Ferkol TW, Sagel SD, Dell SD, Milla C, Pittman JE, Shapiro AJ, Sullivan KM, Nykamp KR, Krischer JP, Zariwala MA, Knowles MR, Leigh MW
Am J Respir Crit Care Med 2019 Jan 15;199(2):190-198. doi: 10.1164/rccm.201803-0548OC. PMID: 30067075Free PMC Article
LaDuca H, Farwell KD, Vuong H, Lu HM, Mu W, Shahmirzadi L, Tang S, Chen J, Bhide S, Chao EC
PLoS One 2017;12(2):e0170843. Epub 2017 Feb 2 doi: 10.1371/journal.pone.0170843. PMID: 28152038Free PMC Article
Wheway G, Schmidts M, Mans DA, Szymanska K, Nguyen TT, Racher H, Phelps IG, Toedt G, Kennedy J, Wunderlich KA, Sorusch N, Abdelhamed ZA, Natarajan S, Herridge W, van Reeuwijk J, Horn N, Boldt K, Parry DA, Letteboer SJF, Roosing S, Adams M, Bell SM, Bond J, Higgins J, Morrison EE, Tomlinson DC, Slaats GG, van Dam TJP, Huang L, Kessler K, Giessl A, Logan CV, Boyle EA, Shendure J, Anazi S, Aldahmesh M, Al Hazzaa S, Hegele RA, Ober C, Frosk P, Mhanni AA, Chodirker BN, Chudley AE, Lamont R, Bernier FP, Beaulieu CL, Gordon P, Pon RT, Donahue C, Barkovich AJ, Wolf L, Toomes C, Thiel CT, Boycott KM, McKibbin M, Inglehearn CF; UK10K Consortium; University of Washington Center for Mendelian Genomics, Stewart F, Omran H, Huynen MA, Sergouniotis PI, Alkuraya FS, Parboosingh JS, Innes AM, Willoughby CE, Giles RH, Webster AR, Ueffing M, Blacque O, Gleeson JG, Wolfrum U, Beales PL, Gibson T, Doherty D, Mitchison HM, Roepman R, Johnson CA
Nat Cell Biol 2015 Aug;17(8):1074-1087. Epub 2015 Jul 13 doi: 10.1038/ncb3201. PMID: 26167768Free PMC Article

Recent systematic reviews

Inaba A, Furuhata M, Morimoto K, Rahman M, Takahashi O, Hijikata M, Knowles MR, Keicho N
BMC Pulm Med 2019 Jul 25;19(1):135. doi: 10.1186/s12890-019-0897-4. PMID: 31345208Free PMC Article
Shapiro AJ, Josephson M, Rosenfeld M, Yilmaz O, Davis SD, Polineni D, Guadagno E, Leigh MW, Lavergne V
Ann Am Thorac Soc 2017 Jul;14(7):1184-1196. doi: 10.1513/AnnalsATS.201701-062SR. PMID: 28481653Free PMC Article
Kouis P, Yiallouros PK, Middleton N, Evans JS, Kyriacou K, Papatheodorou SI
Pediatr Res 2017 Mar;81(3):398-405. Epub 2016 Dec 9 doi: 10.1038/pr.2016.263. PMID: 27935903
Adil EA, Kawai K, Dombrowski N, Irace AL, Cunningham MJ
Laryngoscope 2017 Jan;127(1):6-13. Epub 2016 Jun 16 doi: 10.1002/lary.26070. PMID: 27312809
Collins SA, Gove K, Walker W, Lucas JS
Eur Respir J 2014 Dec;44(6):1589-99. Epub 2014 Oct 16 doi: 10.1183/09031936.00088614. PMID: 25323224

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