Two- and three-dimensional sonographic findings of harlequin ichthyosis: case report and literature review

Liu, Zesi; Jing, Chunli

doi:10.1016/j.abd.2022.09.013

Abstract

Background

Harlequin ichthyosis (HI) is a rare skin disorder with extremely high lethality due to a mutation of the ABCA12 gene. Because of its rarity and the often-late onset, prenatal screening for HI is extremely difficult, and most pregnant women might easily miss the period for optimal examinations.

Objective

To summarize the sonographic features of HI for prenatal diagnostic purposes.

Methods

The authors describe a case of HI with no family history who was diagnosed by using prenatal ultrasound scanning. The sonographic features of HI and the clinical characteristics of pregnant women were summarized by searching relevant literature over nearly two decades.

Results

The unique sonographic presentations including peeling skin, clenched hands and clubfeet, ectropion, flat nose, fetal growth impairment, polyhydramnios and echogenic amniotic fluid may be primarily related to skin disorders in HI fetuses. The authors also identified a novel pathogenic ABCA12 gene mutation and explained the possible pathogenic mechanisms.

Study limitations

Caution should be exercised in summarizing disease characteristics because of the small number of cases, and the authors are faced with the possibility of incomplete case searching.

Conclusions

HI has relatively unique sonographic features. Therefore, 2D-ultrasound combined with 3D-ultrasound may be an effective method for the prenatal diagnosis of HI. Moreover, a novel pathogenic ABCA12 gene mutation may provide important clues for future research on the etiology of HI. However, the authors consider that additional studies are needed to provide more evidence for prenatal diagnosis.

Keywords
Ichthyosis; lamellar; Ultrasonography; Ultrasonography, prenatal

Introduction

Harlequin ichthyosis (HI) is a rare autosomal recessive genetic disease (prevalence 1/300,000 births) with a high mortality rate.¹1 Williams ML, Elias PM. Genetically transmitted, generalized disorders of cornification. The ichthyoses. Dermatol Clin. 1987;5:155-78.,²2 Arjona-Aguilera C, Albarrán-Planelles C, Jiménez-Gallo D. Treatment of harlequin ichthyosis with acitretin. Actas Dermosifiliogr. 2015;106:759. Fetuses with HI can develop severe skin disorders during development, including large-thick, plate-like scales covering the whole body, eclabium, severe ectropion, and fattened ears, and late progression to severe scaling erythroderma. Respiratory failure, loss of fluid and heat, skin infections, and electrolyte metabolic disorders are the key reasons for the poor prognosis of HI. Unfortunately, there is no effective treatment for HI.³3 Jilumudi UB. Harlequin ichthyosis: a medico legal case report & review of literature with peculiar findings in autopsy. J Forensic Leg Med. 2012;19:352-4. Reliable methods for prenatal diagnosis are therefore essential for neonatal HI.

Prior to 2005, no candidate genes for HI have been identified and the diagnosis of HI relied on intrauterine fetal skin biopsies at 19‒23w.⁴4 Akiyama M, Sakai K, Sugiyama-Nakagiri Y, Yamanaka Y, McMillan JR, Sawamura D, et al. Compound heterozygous mutations including a de novo missense mutation in ABCA12 led to a case of harlequin ichthyosis with moderate clinical severity. J Invest Dermatol. 2006;126:1518-23.

5 Akiyama M, Kim DK, Main DM, Otto CE, Holbrook KA. Characteristic morphologic abnormality of harlequin ichthyosis detected in amniotic fluid cells. J Invest Dermatol. 1994;102:210-3.-⁶6 Suzumori K, Kanzaki T. Prenatal diagnosis of harlequin ichthyosis by fetal skin biopsy; report of two cases. Prenat Diagn. 1991;11:451-7. However, because this method is invasive and technically difficult, it increases the risk of multiple adverse pregnancy outcomes. Therefore, after the gene ABCA12 was identified as the causative gene for HI, ABCA12 mutational analysis by testing amniotic fluid and umbilical cord blood became an effective method for prenatal diagnosis of HI.⁷7 Akiyama M, Sugiyama-Nakagiri Y, Sakai K, McMillan JR, Goto M, Arita K, et al. Mutations in lipid transporter ABCA12 in harlequin ichthyosis and functional recovery by corrective gene transfer. J Clin Invest. 2005;115:1777-84.,⁸8 Kelsell DP, Norgett EE, Unsworth H, Teh MT, Cullup T, Mein CA, et al. Mutations in ABCA12 underlie the severe congenital skin disease harlequin ichthyosis. Am J Hum Genet. 2005;76:794-803. However, pregnant women with no family history or previous history of HI pregnancy, often do not choose to undergo HI-specific prenatal screening using the methods mentioned above. Ultrasound, however, as a non-invasive and inexpensive test, appears to be an effective method for prenatal diagnosis of HI.

In this study, the authors successfully performed prenatal diagnosis using 2D combined with 3D ultrasound in a fetus with HI with no family history. Chromosomal Microarray Analyses (CMAs) and Sanger sequence analysis were used to identify fetal chromosome abnormalities and obtain a pathogenic ABCA12 gene mutation.⁹9 Liang D, Cram DS, Tan H, Linpeng S, Liu Y, Sun H, et al. Clinical utility of noninvasive prenatal screening for expanded chromosome disease syndromes. Genet Med. 2019;21:1998-2006.,¹⁰10 Wang H, Dong Z, Zhang R, Chau MHK, Yang Z, Tsang KYC, et al. Low-pass genome sequencing versus chromosomal microarray analysis: implementation in prenatal diagnosis. Genet Med. 2020;22:500-10. In addition, by searching the published literature on HI, the authors summarized the sonographic features of HI.

Methods

Data sources

The ultrasonographical and clinical data of the patient were obtained based on the electronic medical database of the Second Affiliated Hospital of Dalian Medical University. The GE Voluson E8 color ultrasound diagnostic instrument with the probe frequency set from 2.5‒5.0 MHz was used in the present study. MicroRNA microarray analysis was processed with a commercial 750 K microarray chip and mutations were detected by Sanger sequence data analysis.

Search strategy

The search strategy in MEDLINE/Pubmed used the following keywords: “Ichthyosis, Lamellar” and “Ultrasonography, Prenatal” [Mesh], adapted to the other databases when necessary.

Results

Case presentation

The present case is of a 40-year-old woman, gravida 1, para 0, conceived spontaneously with no family history. The mother denied medication history or infection and a history of adverse environmental exposure during pregnancy. Ultrasound findings at 13-week early pregnancy screening and ultrasound findings at 24⁺³-week middle pregnancy screening showed no significant abnormalities and Nuchal Translucency (NT) was 2.1 mm. The results of Noninvasive Prenatal Screening (NIPS) were negative. Until 30⁺²-week of pregnancy, other prenatal examination results were normal.

Although the ultrasound examination in the 30⁺²-week late pregnancy suggested that no significant development indicators of abnormality were noted (Table 1), the authors observed typical sonographic features, including a flat nose, peeling skin (Fig. 1A, B), ectropion, the tongue was upturned and abnormally large mouth cleft (similar to fish mouth) (Fig. 2A, B), microtia (Fig. 3) and Amniotic Fluid Index (AFI) was 340 mm. Then, US evaluation of other organs such as the brain, heart, and kidneys was normal and CDFI indicated that there is no obvious abnormality of the middle cerebral artery and umbilical artery blood flow signal.

Figure 1
(A) 2-D ultrasound: The fetal face shows a flat curve and nasal hypoplasia (arrow) at the median sagittal section. (B) 2-D ultrasound: Abnormal skin flocculent echo (arrow)

Figure 2
(A) 3-D ultrasound: the image of the face of the fetus. (B) 3-D ultrasound: eyelid edema and ectropion (black arrow); Hypoplastic nose (white arrow); Eclabium and anterior tongue protraction (blue arrow)

Figure 3
2-D ultrasound: microtia (arrow)

Thumbnail

Table 1
Ultrasound measurement of development parameters

For better observation, Three-Dimensional (3D) image reconstruction was carried out and the findings are as follows: palms edema, clenched hands, a shortening of phalanges and metacarpals (Fig. 4A‒C), clubfeet (Fig. 5A, B), undescended testis (Fig. 6) and echogenic amniotic fluid. Subsequent to counseling, the pregnant couple decided to terminate the pregnancy and genetic testing was ordered. The skin of the fetus was thickened, with deep fissures between the skin and erythema skin spread throughout the body, resembling an “armor”. There was ectropion, a flat and small nose. The mouth opening and tongue protrusion were observed. Moreover, limbs were fixed and edematous, the hands were clenched, the feet were turned inward, and the little fingers and toes were small. The testes were also not descended. It was confirmed that the diagnosis based on prenatal ultrasound was accurate (Fig. 7).

Figure 4
(A) 3-D ultrasound: clenched hands and skin oedema. (B) 2-D ultrasound: a shortening of phalanges and metacarpals. (C) 3-D ultrasound: the image of the upper limb of the fetus

Figure 5
(A) 2-D ultrasound: the image of the right feet of the fetus. (B) 3-D ultrasound: pedal oedema and clubfeet

Figure 6
3-D ultrasound: no testicles seen in scrotum

Figure 7
The appearance of abortus with Harlequin Ichthyosis was consistent with our prenatal ultrasound diagnosis

Chromosomal microarray assays and sanger sequence analysis

The preliminary results of chromosomal microarray assays suggested that genotype information revealed loss of heterozygosity (LOH) in chromosome 2 (Fig. 8). Furthermore, a pathogenic ABCA12 gene mutation - ABCA12:c.3785delT in homozygosity was identified based on the result of Sanger sequence analysis (Fig. 9).

Figure 8
Microarray result displays for chromosome 2

Figure 9
Sequence analysis performed in this case identified a novel pathogenic ABCA12 gene mutation ‒ ABCA12:c.3785delT and the mutations is a frameshift and deletion mutation, which lead to premature termination codons.

Literature search

Through searching the published cases, the authors identified 13 cases of HI diagnosed by prenatal ultrasound. By integrating clinical features and ultrasound sonographic characteristics of all cases, the authors found that the maternal age fluctuated in a wide range in 27‒40 years and that the proportion of patients with a family history was low (3/13). The onset of HI was concentrated in the third trimester of pregnancy and none of the HI fetuses survived (Table 2).¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.

12 Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.

13 Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.

14 Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.

15 Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.

16 Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.

17 Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.

18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.

19 Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.-²⁰20 Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5. The authors have analyzed and summarized 13 typical ultrasonic characteristics of HI (Table 3).¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.

12 Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.

13 Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.

14 Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.

15 Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.

16 Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.

17 Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.

18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.

19 Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.-²⁰20 Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5. Peeling skin, clenched hands and clubfeet, ectropion, flat nose, fetal growth restructuration, polyhydramnios, and echogenic amniotic fluid are more frequent (≥ 5). In addition, with this case, the authors found HI fetuses with combined microtia, a shortening of phalanges and metacarpals, and genital anomalies (undescended testis), which have rarely or never been mentioned in previous reports.

Thumbnail

Table 2
Clinical characteristics and pregnancy outcomes of all cases

Thumbnail

Table 3
Thirteen typical sonographic characteristics of HI from published cases

Discussion

HI is a rare genodermatosis with high lethality, and there is a lack of effective treatment for the condition. Based on the results of this study, the authors found a wide maternal age range of HI cases (ranging from 27‒40 years) and no significant abnormalities in early and mid-trimester examinations. Because of its rarity and the time of onset, prenatal screening for HI is extremely difficult and most pregnant women, especially those without a family history, might be easily missed the window for optimal examinations such as amniotic fluid and umbilical cord blood molecular detection.¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56. However, some unique sonographic features of HI could be detected in late pregnancy (ranging from 27w‒34w) ultrasound screening. Prenatal use of ultrasound imaging, because of the lack of ionizing radiation, convenience and clinically applicable, is expected to be an effective tool for prenatal screening for HI.

In this study, the authors summarized the major sonographic characteristics of HI by searching the relevant literature and the results were reported in Table 3.¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.

12 Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.

13 Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.

14 Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.

15 Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.

16 Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.

17 Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.

18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.

19 Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.-²⁰20 Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5. The features with the occurrence of more than 5 were as follows: (1) Peeling skin; (2) Clenched hands and clubfeet; (3) Ectropion; (4) Flat nose; (5) Fetal growth restructuration; (6) Polyhydramnios; (7) Echogenic amniotic fluid. The authors believe that the unique sonographic presentations described above may be primarily related to skin disorders in HI fetuses. For example, the abnormal thickening of the skin may limit the movement of the fetal limbs and affect intrauterine growth and development. Since the amniotic fluid and fetal skin undergo free diffusion during pregnancy,²¹21 Huang J, Mo J, Zhao G, Lin Q, Wei G, Deng W, et al. Application of the amniotic fluid metabolome to the study of fetal malformations, using Down syndrome as a specific model. Mol Med Rep. 2017;16:7405-15. this also seems to explain why HI can cause polyhydramnios. Peeling skin is also considered to be one of the causes of echogenic amniotic fluid.

Three-dimensional observation enabled us to get more visual information from stereo images and to describe some sonographic characteristics of HI. In addition, since most HI may have polyhydramnios, which is more favorable for three-dimensional image acquisition.²²22 Bromley B, Shipp TD, Benacerraf B. Assessment of the third-trimester fetus using 3-dimensional volumes: a pilot study. J Clin Ultrasound. 2007;35:231-7. Therefore, the authors argue that a combination of 2D and 3D ultrasound may be more beneficial for the prenatal diagnosis of HI.

ABCA12, localized to the cell membrane, is an epidermal keratinocyte lipid transporter and a defect in ABCA12 leads to skin lipid barrier breakdown.⁸8 Kelsell DP, Norgett EE, Unsworth H, Teh MT, Cullup T, Mein CA, et al. Mutations in ABCA12 underlie the severe congenital skin disease harlequin ichthyosis. Am J Hum Genet. 2005;76:794-803.,²³23 Li Q, Frank M, Akiyama M, Shimizu H, Ho SY, Thisse C, et al. Abca12-mediated lipid transport and Snap29-dependent trafficking of lamellar granules are crucial for epidermal morphogenesis in a zebrafish model of ichthyosis. Dis Model Mech. 2011;4:777-85. The results of the chromosome microarray of this case showed the Loss of Heterozygosity (LOH) in chromosome 2. Sequencing analysis of gene ABCA12 identified a novel mutation ‒ ABCA12:c.3785delT. The ABCA12:c.3785delT mutation type is a frameshift and deletion mutation that causes phenylalanine converts to serine in its coding peptide chain and generates a premature termination codon at position 42 of the new reading frame. Carrying premature stop codons can yield truncated proteins²⁴24 Hu GX, Dai DP, Wang H, Huang XX, Zhou XY, Cai J, et al. Systematic screening for CYP3A4 genetic polymorphisms in a Han Chinese population. Pharmacogenomics. 2017;18:369-79. and induce an mRNA degradation process called nonsense-mediated mRNA decay.²⁵25 Isken O, Maquat LE. The multiple lives of NMD factors: balancing roles in gene and genome regulation. Nat Rev Genet. 2008;9:699-712. These causes led to the loss of function of the original protein (p.Phe1262Serfs*42). The findings of this case provide new clues for further investigation into the pathogenesis of HI.

Conclusion

HI has relatively unique sonographic features, therefore, systematic examination of pregnant women using 2D-ultrasound combined with 3D-ultrasound in the third trimester of pregnancy can sharply reduce the rate of missing diagnosis or misdiagnosis of HI. Moreover, the authors identified a novel pathogenic ABCA12 gene mutation and explained possible pathogenic mechanisms.

Financial support

None declared.
☆
Study conducted at the Second Affiliated Hospital of Dalian Medical University Dalian, Dalian, China.

References

¹
Williams ML, Elias PM. Genetically transmitted, generalized disorders of cornification. The ichthyoses. Dermatol Clin. 1987;5:155-78.
²
Arjona-Aguilera C, Albarrán-Planelles C, Jiménez-Gallo D. Treatment of harlequin ichthyosis with acitretin. Actas Dermosifiliogr. 2015;106:759.
³
Jilumudi UB. Harlequin ichthyosis: a medico legal case report & review of literature with peculiar findings in autopsy. J Forensic Leg Med. 2012;19:352-4.
⁴
Akiyama M, Sakai K, Sugiyama-Nakagiri Y, Yamanaka Y, McMillan JR, Sawamura D, et al. Compound heterozygous mutations including a de novo missense mutation in ABCA12 led to a case of harlequin ichthyosis with moderate clinical severity. J Invest Dermatol. 2006;126:1518-23.
⁵
Akiyama M, Kim DK, Main DM, Otto CE, Holbrook KA. Characteristic morphologic abnormality of harlequin ichthyosis detected in amniotic fluid cells. J Invest Dermatol. 1994;102:210-3.
⁶
Suzumori K, Kanzaki T. Prenatal diagnosis of harlequin ichthyosis by fetal skin biopsy; report of two cases. Prenat Diagn. 1991;11:451-7.
⁷
Akiyama M, Sugiyama-Nakagiri Y, Sakai K, McMillan JR, Goto M, Arita K, et al. Mutations in lipid transporter ABCA12 in harlequin ichthyosis and functional recovery by corrective gene transfer. J Clin Invest. 2005;115:1777-84.
⁸
Kelsell DP, Norgett EE, Unsworth H, Teh MT, Cullup T, Mein CA, et al. Mutations in ABCA12 underlie the severe congenital skin disease harlequin ichthyosis. Am J Hum Genet. 2005;76:794-803.
⁹
Liang D, Cram DS, Tan H, Linpeng S, Liu Y, Sun H, et al. Clinical utility of noninvasive prenatal screening for expanded chromosome disease syndromes. Genet Med. 2019;21:1998-2006.
¹⁰
Wang H, Dong Z, Zhang R, Chau MHK, Yang Z, Tsang KYC, et al. Low-pass genome sequencing versus chromosomal microarray analysis: implementation in prenatal diagnosis. Genet Med. 2020;22:500-10.
¹¹
Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.
¹²
Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.
¹³
Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.
¹⁴
Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.
¹⁵
Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.
¹⁶
Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.
¹⁷
Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.
¹⁸
Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.
¹⁹
Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.
²⁰
Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5.
²¹
Huang J, Mo J, Zhao G, Lin Q, Wei G, Deng W, et al. Application of the amniotic fluid metabolome to the study of fetal malformations, using Down syndrome as a specific model. Mol Med Rep. 2017;16:7405-15.
²²
Bromley B, Shipp TD, Benacerraf B. Assessment of the third-trimester fetus using 3-dimensional volumes: a pilot study. J Clin Ultrasound. 2007;35:231-7.
²³
Li Q, Frank M, Akiyama M, Shimizu H, Ho SY, Thisse C, et al. Abca12-mediated lipid transport and Snap29-dependent trafficking of lamellar granules are crucial for epidermal morphogenesis in a zebrafish model of ichthyosis. Dis Model Mech. 2011;4:777-85.
²⁴
Hu GX, Dai DP, Wang H, Huang XX, Zhou XY, Cai J, et al. Systematic screening for CYP3A4 genetic polymorphisms in a Han Chinese population. Pharmacogenomics. 2017;18:369-79.
²⁵
Isken O, Maquat LE. The multiple lives of NMD factors: balancing roles in gene and genome regulation. Nat Rev Genet. 2008;9:699-712.

Publication Dates

Publication in this collection
03 Nov 2023
Date of issue
Nov-Dec 2023

History

Received
28 Aug 2022
Accepted
30 Sept 2022
Published
22 June 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Financial support

None declared.

[2] ☆
Study conducted at the Second Affiliated Hospital of Dalian Medical University Dalian, Dalian, China.

ID	Age	Precentage	Gestational week of ultrasonography	Family history or HI maternal outcomes	Pregnancy outcomes
Case 1¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.	31	G3P0	31w	No	Death
Case 2¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.	28	G1P0	30w	No	Death
Case 3¹²12 Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.	-	G3P2	-	HI maternal outcomes	Death
Case 4¹³13 Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.	35	G1P0	31w	No	Death
Case 5¹⁴14 Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.	34	G1P0	31 + 5 w	No	Death
Case 6¹⁵15 Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.	27	G2P1	27w	No	Death
Case 7¹⁶16 Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.	-	-	-	-	Death
Case 8¹⁷17 Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.	-	G2P1	-	-	Death
Case 9¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	-	G1P0	34w	No	Death
Case 10¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	30	G5P3	33w	No	Death
Case 11¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	27	G3P2	27w	HI maternal outcomes	Death
Case 12¹⁹19 Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.	34	G1P0	32w	No	Death
Case 13²⁰20 Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5.	32	G2P0	30w (First time)/25 w (Second time)	HI maternal outcomes	Death
This case	40	G1P0	30 + 2 w	No	Death

Ultrasonographic Findings	Ectropion	Clenched hands and clubfeet	Peeling skin	Flat nose	Fetal growth restriction	Polyhydramnios
Case 1¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.	+	+	+	+	-	-
Case 2¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.	+	-	+	+	+	-
Case 3¹²12 Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.	+	+	-	+	+	+
Case 4¹³13 Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.	+	+	+	+	-	-
Case 5¹⁴14 Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.	+	+	+	+	+	-
Case 6¹⁵15 Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.	+	+	+	+	-	-
Case 7¹⁶16 Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.	+	-	+	+	-	-
Case 8¹⁷17 Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.	+	-	-	-	-	-
Case 9¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	+	+	+	-	+	+
Case 10¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	+	+	+	-	+	+
Case 11¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	+	+	+	-	+	+
Case 12¹⁹19 Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.	-	+	+	+	-	+
Case 13²⁰20 Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5.	-	+	-	+	+	-
This case	+	+	+	+	-	+
Total	12	11	11	10	7	6

Ultrasonographic Findings	Echogenic amniotic fluid	Fish mouth	Macroglosssia	Subcutaneous edema	Micrognathia	Microcephaly	Short umbilical cord
Case 1¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.	+	+	-	-	-	-	-
Case 2¹¹11 Zhou Y, Li L, Wang L, Zhang C. Prenatal diagnosis of a rare variant of harlequin ichthyosis with literature review. BMC Med Imaging. 2021;21:56.	+	-	-	+	-	-	-
Case 3¹²12 Akiyama M, Titeux M, Sakai K, McMillan JR, Tonasso L, Calvas P, et al. DNA-based prenatal diagnosis of harlequin ichthyosis and characterization of ABCA12 mutation consequences. J Invest Dermatol. 2007;127:568-73.	-	-	-	-	+	-	+
Case 4¹³13 Liang Q, Xiong F, Liang X, Zheng D, Su S, Wen Y, et al. Two successive cases of fetal harlequin ichthyosis: a case report. Exp Ther Med. 2019;17:449-52.	-	+	-	-	-	-	-
Case 5¹⁴14 Brandão P, Seco S, Loureiro T, Ramalho C. Prenatal sonographic diagnosis of Harlequin ichthyosis. J Clin Ultrasound. 2019;47:228-31.	+	+	+	+	+	+	-
Case 6¹⁵15 Jian W, Du QT, Lai ZF, Li YF, Li SQ, Xiong ZT, et al. Prenatal diagnose of a fetus with Harlequin ichthyosis in a Chinese family. Taiwan J Obstet Gynecol. 2018;57:452-5.	-	-	-	-	-	-	-
Case 7¹⁶16 Basgul AY, Kavak ZN, Guducu N, Durukan B, Isci H. Prenatal diagnosis of congenital harlequin ichthyosis with 2D, 3D, and 4D ultrasonography. Clin Exp Obstet Gynecol. 2011;38:283-5.	-	-	+	-	-	-	-
Case 8¹⁷17 Hazuku T, Yamada K, Imaizumi M, Ikebe T, Shinoda K, Nakatsuka K, et al. Unusual protrusion of conjunctiva in two neonates with harlequin ichthyosis. Case Rep Ophthalmol. 2011;2:73-7.	-	-	-	-	-	-	-
Case 9¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	-	-	-	-	-	-	-
Case 10¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	-	-	-	-	-	-	-
Case 11¹⁸18 Suresh S, Vijayalakshmi R, Indrani S, Lata M. Short foot length: a diagnostic pointer for harlequin ichthyosis. J Ultrasound Med. 2004;23:1653-7.	-	-	-	-	-	-	-
Case 12¹⁹19 Vohra N, Rochelson B, Smith-Levitin M. Three-dimensional sonographic findings in congenital (harlequin) ichthyosis. J Ultrasound Med. 2003;22:737-9.	+	-	+	-	-	-	-
Case 13²⁰20 Bongain A, Benoit B, Ejnes L, Lambert JC, Gillet JY. Harlequin fetus: three-dimensional sonographic findings and new diagnostic approach. Ultrasound Obstet Gynecol. 2002;20:82-5.	-	-	-	-	-	+	-
This case	+	+	+	+	-	-	-
Total	5	4	4	3	2	2	1

Brasil

Brasil

Two- and three-dimensional sonographic findings of harlequin ichthyosis: case report and literature review^☆ ☆ Study conducted at the Second Affiliated Hospital of Dalian Medical University Dalian, Dalian, China.

Abstract

Background

Objective

Methods

Results

Study limitations

Conclusions

Introduction

Methods

Data sources

Search strategy

Results

Case presentation

Chromosomal microarray assays and sanger sequence analysis

Literature search

Discussion

Conclusion

References

Publication Dates

History

Brasil

Brasil

Two- and three-dimensional sonographic findings of harlequin ichthyosis: case report and literature review☆ ☆ Study conducted at the Second Affiliated Hospital of Dalian Medical University Dalian, Dalian, China.

Abstract

Background

Objective

Methods

Results

Study limitations

Conclusions

Introduction

Methods

Data sources

Search strategy

Results

Case presentation

Chromosomal microarray assays and sanger sequence analysis

Literature search

Discussion

Conclusion

References

Publication Dates

History

Two- and three-dimensional sonographic findings of harlequin ichthyosis: case report and literature review^☆ ☆ Study conducted at the Second Affiliated Hospital of Dalian Medical University Dalian, Dalian, China.