Objective:To investigate the treatment efficacy of adjuvant anti-VEGF/VEGFR targeted therapy in patients with non-metastatic (cM 0) non-clear cell renal cell carcinoma and tumor thrombus (nccRCC-VTT). Methods:This retrospective study enrolled 26 patients who underwent radical nephrectomy combined with inferior vena cava tumor thrombectomy at Peking University Third Hospital from January 2014 to July 2021. Patients were divided into adjuvant therapy group (10 cases) and control group (16 cases)based on the use of postoperative targeted therapy. The distribution of baseline clinical characteristics in the adjuvant therapy group and the control group were as follows: gender (6 males and 4 females in the adjuvant therapy group, 12 males and 4 females in the control group, P=0.66), age (56.2±18.5 years old in the adjuvant therapy group; 54.6±14.5 years old in the control group; P=0.80), BMI(24.0±3.5 in the adjuvant therapy group; 24.3±3.3 in the control group; P=0.80), presence of clinical symptoms (8 cases in the adjuvant therapy group; 15 cases in the control group; P=0.54), tumor laterality(6 cases on the left and 4 cases on the right in the adjuvant therapy group; 6 cases on the left and 10 cases on the right in the control group; P=0.42), location of tumor thrombus (2 cases with renal vein tumor thrombus and 8 cases with inferior vena cava tumor thrombus in the adjuvant therapy group; 2 cases with renal vein tumor thrombus and 14 cases with inferior vena cava tumor thrombus in the control group; P=0.67), ASA classification (2 cases in ASA class 1 and 8 cases in ASA class 2 in the adjuvant therapy group; 2 cases in ASA class 1 and 14 cases in ASA class 2 in the control group; P=0.63), surgical approach (7 minimally invasive surgeries and 3 open surgeries in the adjuvant therapy group; 9 minimally invasive surgeries and 7 open surgeries in the control group; P=0.68), conversion to open surgery (2 cases in the adjuvant therapy group; 2 cases in the control group; P=0.63), operation time [287.5(222.2, 456.0) minutes in the adjuvant therapy group; 344.0(287.8, 482.5) minutes in the control group; P=0.34), blood loss [400.0(250.0, 600.0)ml in the adjuvant therapy group; 575.0(175.0, 800.0)ml in the control group; P=0.63), Clavien-Dindo classification of postoperative complications (8 cases with no postoperative complications, 2 cases with level 1-2 complications, and 0 cases with level ≥3 complications in the adjuvant therapy group; 10 cases with no postoperative complications, 4 cases with level 1-2 complications, and 2 cases with level ≥3 complications in the control group; P=0.68), postoperative hospital stay (8.5 [5.5, 11.5] days in the adjuvant therapy group; 7.5 [6.0, 13.0] days in the control group; P=1.00), maximum tumor diameter[ (9.2±2.7)cm in the adjuvant therapy group; (8.9±3.3)cm in the control group; P=0.81], sarcomatoid differentiation (0 cases in the adjuvant therapy group; 1 case in the control group; P=1.00), perinephric fat invasion (2 cases in the adjuvant therapy group; 7 cases in the control group; P=0.40), tumor necrosis (6 cases in the adjuvant therapy group; 5 cases in the control group; P=0.23), pathological subtype (1 case of PRCC type 1, 6 cases of PRCC type 2, and 3 cases of TFE3 rearrangement RCC in the adjuvant therapy group; 2 cases of PRCC type 1, 10 cases of PRCC type 2, and 1 case each of oncocytic PRCC, TFE3 rearrangement RCC, FH-deficient RCC, and unclassified RCC in the control group; P=0.72), WHO/ISUP nuclear grade (10 cases of grades 3-4 in the adjuvant therapy group; 4 cases of grades 1-2 and 12 cases of grades 3-4 in the control group; P=0.14), invasion of tumor thrombus into the vessel wall (5 cases in the adjuvant therapy group; 5 cases in the control group; P=0.43), T stage (1 case of T 3a, 3 cases of T 3b, 5 cases of T 3c, and 1 case of T 4 in the adjuvant therapy group; 1 case of T 3a, 4 cases of T 3b, 10 cases of T 3c, and 1 case of T 4 in the control group; P=1.00), and positive lymph nodes metastasis(3 cases in the adjuvant therapy group; 0 cases in the control group; P<0.05). The recommended doses for sunitinib, axitinib, and pazopanib are 50mg qd, 5mg q12h, and 800mg qd, respectively. The primary endpoint of this study was disease-free survival (DFS), and the secondary endpoint was overall survival (OS). Statistical analyses were performed using R v4.2.2. Confounding factors were adjusted using propensity score weighting. Results:The median follow-up time for DFS was 29 months in the adjuvant therapy group and not reached in the control group, while median follow-up time for OS was 28 and 26 months, respectively. In the univariate Cox regression analysis, there were no statistically significant difference in the impact of all baseline characteristics and exposure factors on DFS and OS between the two groups. In survival analysis, there were no significant difference between DFS and OS curves of patients in the adjuvant therapy group and the control group (DFS, P=0.62; OS, P=0.74). The median DFS of patients in the adjuvant therapy group and the control group were 17 and 19 months, respectively, while the median OS was 43 and 27 months. After adjusting for confounding factors, the median DFS of patients in the adjuvant therapy group and the control group were 26 and 12 months, respectively, and the median OS remained 43 and 27 months, with no significant difference (DFS, P=0.81; OS, P=0.40). Conclusion:There is currently a lack of definitive evidence for survival benefit from adjuvant anti-VEGF/VEGFR targeted therapy in patients with cM0 nccRCC-VTT after surgery.

Fatal Outcome ; Female ; Hepatic Encephalopathy/genetics* ; Humans ; Infant ; Male ; Metabolism, Inborn Errors/genetics* ; Mitochondrial Proteins/genetics* ; Mutation ; Peptide Elongation Factor G/genetics* ; Whole Exome Sequencing

OBJECTIVE: To identify the genetic causes of a family with lymphedema-distichiasis syndrome (LDS). METHODS: The whole exome sequencing was performed in a aborted fetus as the proband, and a candidate gene was identified. Peripheral blood of 8 family members were collected. Genotypic-phenotypic analysis were carried out through PCR amplification and Sanger sequencing. RESULTS: The proband, and the mother, grandmother, uncle, granduncle of the proband all had distichiasis or varix of lower limb carried a CONCLUSIONS The
Aborted Fetus/physiopathology* ; Adult ; Eyelashes/pathology* ; Female ; Forkhead Transcription Factors/genetics* ; Frameshift Mutation ; Humans ; Lymphedema/pathology* ; Male ; Phenotype ; Pregnancy ; Whole Exome Sequencing

OBJECTIVE: To perform gene mutation analysis in a patient with atypical clinical manifestations of tuberous sclerosis (TSC) for definite diagnosis. METHODS: Peripheral blood DNA was obtained from a patient with clinically suspected TSC and her parents, and all exons and their flanking sequences of RESULTS: A heterozygous nonsense mutation c.1096G>T (p.E366*) was identified in the exon 11 of the CONCLUSIONS The somatic mosaic mutation c.1096G>T (p.e366*) may be responsible for the phenotype of TSC in this patient. And the drop digital PCR is expected to be a diagnostic method for somatic cells mosaicism.
Female ; Humans ; Male ; Mosaicism ; Mutation ; Tuberous Sclerosis/genetics* ; Tuberous Sclerosis Complex 2 Protein/genetics* ; Whole Exome Sequencing

Objective: To explore the genetic basis for a fetus with Dandy-Walker malformation. Methods: G-banding chromosomal karotyping, single nucleotide polymorphism microarray (SNP array) and fluorescence in situ hybridization (FISH) were carried out for the fetus. Chromosomal karyotyping and FISH assay were also carried out for both parents. Results: SNP array has detected a 4266 kb microdeletion at 6p25.3p25.1 in the fetus, which was confirmed by FISH. FISH analysis of the parents demonstrated that the father has carried a cryptic t(6; 14)(p25.1; p13) translocation, while the fetus has a der(6)t(6; 14)(p25.1; p13) derived the paternal translocation. Conclusion The der(6)t(6; 14)(p25.1; p13) probably underlies the Dandy-Walker malformation in the fetus. The 6p25.3p25.1 microdeletion is due to unbalanced gametes produced by the father’s cryptic balanced translocation.

Objective To explore the genetic basis for a child with mentally retardation.Methods G-banding karyotyping,single nucleotide polymorphism array (SNP-array) and fluorescence in situ hybridization (FISH) were performed for the child.Karyotyping and FISH were also carried out for her parents.Results SNP-array has detected a 5077 kb microdeletion at 5q35.2q35.3 and a 4964 kb microduplication at 7q36.2q36.3 in the child.The results were confirmed by FISH.Based on above results,the father was subsequently found to carry a cryptic t(5;7)(q35.2;q36.2) translocation.The child was verified to have inherited a der(5) t(5;7) (q35.2;q36.2) from her father.Conclusion The 5077 kb microdeletion at 5q35.2q35.3 may have predisposed to the Sotos syndrome in the child.SNP-array combined with G-banding karyotyping and FISH can help to detect cryptic chromosomal translocations among patients.

OBJECTIVE: To assess the clinical application of single nucleotide polymorphism microarray (SNP array) in patients with intellectual disability/developmental delay(ID/DD). METHODS: SNP array was performed to detect genome-wide DNA copy number variants (CNVs) for 145 patients with ID/DD in Women's Hospital, Zhejiang University School of Medicine from January 2013 to June 2018. The CNVs were analyzed by CHAS software and related databases. RESULTS: Among 145 patients, pathogenic chromosomal abnormalities were detected in 32 cases, including 26 cases of pathogenic CNVs and 6 cases of likely pathogenic CNVs. Meanwhile, 18 cases of uncertain clinical significance and 14 cases of likely benign were identified, no significant abnormalities were found in 81 cases (including benign). CONCLUSIONS SNP array is effective for detecting chromosomal abnormalities in patients with ID/DD with high efficiency and resolution.
Chromosome Aberrations ; DNA Copy Number Variations ; Genome-Wide Association Study ; Humans ; Intellectual Disability ; diagnosis ; genetics ; Oligonucleotide Array Sequence Analysis ; standards ; Polymorphism, Single Nucleotide

OBJECTIVE: To assess the clinical application of single nucleotide polymorphism microarray (SNP array) in prenatal genetic diagnosis for fetuses with absent nasal bone. METHODS: Seventy four fetuses with absent nasal bone detected by prenatal ultrasound scanning were recruited from Women's Hospital, Zhejiang University School of Medicine during June 2015 and October 2018. The chromosome karyotypes analysis and SNP array were performed. The correlation between absent fetal nasal bone and chromosome copy number variants was analyzed. RESULTS: Among 74 fetuses, 19 were detected to have chromosomal abnormalities, including 16 cases of trisomy-21, 1 case of trisomy-18 and two cases of micro-deletion/duplication. Among 46 cases with isolated absence of nasal bone, 3 had trisomy-21, and 1 had a micro-duplication. Absence of nasal bone in association with nuchal translucency thickening had a higher rate of abnormal karyotypes compared with isolated absence of nasal bone (=32.27,<0.01). CONCLUSIONS Fetuses with absent nasal bone and nuchal translucency thickening are likely to have chromosome abnormalities, and SNP array testing is recommended to exclude the chromosome abnormalities.
Chromosome Aberrations ; Female ; Fetus ; Humans ; Nasal Bone ; abnormalities ; Oligonucleotide Array Sequence Analysis ; standards ; Polymorphism, Single Nucleotide ; genetics ; Pregnancy ; Pregnancy Trimester, First ; Prenatal Diagnosis ; methods

OBJECTIVE: To analyze the impact of maternal age on sex chromosome aneuploidies (SCA). METHODS: Pregnant women who had karyotype analysis of amniotic fluid in Women's Hospital, Zhejiang University School of Medicine from January 2014 to July 2018 were recruited. The association of the maternal age with fetal SCAs was analyzed. RESULTS: The incidence of 45, X in age group >34-<38 was lower than that of ≤ 28 age group (<0.05). For the incidences of total sex chromosome trisomy and 47, XXY in age groups 34-<38 and ≥38 were higher than age groups ≤28 and >28-34 (<0.05 or <0.01). The incidence of 47, XXX in age group ≥ 38 was higher than that in age group>28-34 (<0.05). However, the incidence of 47, XYY had no differences among the four groups (>0.05). After excluding the high risk of sex chromosome abnormalities by non-invasive prenatal testing (NIPT), we found that for 45, X, the incidences of two groups with advanced age were lower than that of ≤ 28 year-old group of age group (<0.05 or <0.01), and incidence in age group >34-<38 was also lower than that in age group >28-34 (<0.05). The other results were consistent with those without excluding the high risk of sex chromosome abnormalities by NIPT. CONCLUSIONS Advanced age decreases the incidence of 45, X, but increases the risk of sex chromosome trisomy, especially 47, XXX and 47, XXY.
Adult ; Age Factors ; Female ; Humans ; Maternal Age ; Pregnancy ; Prenatal Diagnosis ; Sex Chromosome Aberrations ; statistics & numerical data ; Sex Chromosomes ; genetics ; Trisomy

OBJECTIVE: To analyze the results of noninvasive prenatal screening (NIPS) for fetal chromosome aneuploidy in twin pregnancy. METHODS: A total of 2057 women with twin-pregnancy between 12-26 weeks were recruited from Women's Hospital, Zhejiang University School of Medicine, Hangzhou Municipal Women's Hospital and Jiaxing Maternal and Child Health Hospital during February 2015 to August 2018. The cell-free DNA was extracted from the peripheral blood sample for DNA library, and non-invasive prenatal testing (NIPT) was performed by high-throughput sequencing technique. The fetal karyotype analysis or neonatal karyotype analysis was performed in pregnant women with fetal chromosome aneuploidy, and all subjects were followed up. The efficiency of NIPS testing for twin aneuploidy was calculated. RESULTS: NIPS revealed chromosome abnormalities in 11 out of 2057 twin pregnant women, 9 cases were confirmed chromosome abnormalities, 2 cases were normal and no false negative cases. In this screening, the detection rate, sensitivity, specificity, positive predictive value, false positive rate of NIPS were 100.00%, 100.00%, 99.90%, 81.82%, 0.10%. Those were 100.00%, 100.00%, 99.95%, 87.50% and 0.05% for trisomy 21, 100.00%, 100.00%, 100.00%, 100.00%, 0.00% for trisomy18, and the specificity and false positive rate for trisomy13 were 99.95% and 0.05%, respectively. CONCLUSIONS NIPS can detect fetal chromosomal aneuploidy rapidly and accurately in twin pregnancies,and it is of value in clinical application.
Aneuploidy ; Female ; Humans ; Noninvasive Prenatal Testing ; standards ; Pregnancy ; Pregnancy, Twin ; Prenatal Diagnosis ; methods ; Reproducibility of Results ; Trisomy