Exon skipping is an efficient technique to inhibit specific gene expression induced by a short-sequence peptide nucleic acid (PNA).To date, there has been no study on the effects of PNA on skin pigmentation. In melanocytes, the tripartite complex is responsible for the transport of mature melanosomes from the nucleus to the dendrites. The tripartite complex is composed of Rab27a, Mlph (Melanophilin), and Myosin Va. Defects in the protein Mlph, a melanosome transport-related protein, are known to cause hypopigmentation. Our study shows that Olipass peptide nucleic acid (OPNA), a cell membrane-permeable PNA, targets exon skipping in the Mlph SHD domain, which is involved in Rab27a binding. Our findings demonstrate that OPNA induced exon skipping in melan-a cells, resulting in shortened Mlph mRNA, reduced Mlph protein levels, and melanosome aggregation, as observed by microscopy. Therefore, OPNA inhibits the expression of Mlph by inducing exon skipping within the gene. These results suggest that OPNA, which targets Mlph, may be a potential new whitening agent to inhibit melanosome movement.

BACKGROUND: Automated systems are used widely for pre-transfusion tests in blood banks, in an attempt to reduce effort and human error. We evaluated the clinical performance of an automated blood bank system, ORTHO VISION (Ortho-Clinical Diagnostics, Switzerland), for blood cross-matching. METHODS: Saline cross-matching was performed for 93 tests using 56 samples. Coombs cross-matching was performed for 400 tests using 166 samples. Saline cross-matching was compared for the automated ORTHO VISION and manual tube methods. Coombs cross-matching was compared for the automated ORTHO VISION and manual column agglutination technique (CAT) methods. The evaluation of 32 antibody-positive samples using the automated ORTHO VISION and manual CAT methods was compared by performing 97 cross-matching tests. Additionally, the ORTHO VISION efficiency and carryover were evaluated. RESULTS: The concordance rate of the saline cross-matching results between the manual method and automated ORTHO VISION was 100%. The concordance rate of coombs cross-matching results between manual CAT and automated ORTHO VISION was 97.9%. The concordance rate of cross-matching for antibody positive samples between manual CAT and the automated ORTHO VISION was 97.9%. Coombs cross-matching was efficient using ORTHO VISION, whereas saline cross-matching was efficient using the tube manual method. CONCLUSIONS: ORTHO VISION showed reliable results for cross-matching and was more efficient than manual CAT for coombs cross-matching. Thus, ORTHO VISION can be used for pre-transfusion tests in blood banks.
Agglutination ; Animals ; Automation ; Blood Banks ; Cats ; Humans ; Methods

BACKGROUND: The use of automated systems for pre-transfusion tests is increasing in an attempt to reduce workload and the impact of human errors in blood banks. We evaluated the clinical performance of the automated blood bank systems IH-500 (Bio-Rad Laboratories, Switzerland) and VISION Max (Ortho-Clinical Diagnostics, USA) for ABO-RhD blood typing and unexpected antibody screening. METHODS: ABO-RhD blood typing was performed for 410 samples, and antibody screening was performed for 332 samples, including 15 antibody-positive samples. The results obtained from the two automated instruments were compared with those obtained using manual methods for ABO-RhD blood typing and a semiautomated method (DiaMed-ID system) for antibody screening. Additionally, both instruments were evaluated in terms of concordance rates, sensitivity, and carryover. RESULTS: The concordance rate of the ABO-RhD blood typing results between the manual methods and the two automated instruments was 100%. For antibody screening tests, the concordance rates between the semiautomated method (DiaMed-ID system) and the automated methods were 100% and 99.7% for the IH-500 and VISION Max instruments, respectively. The sole discrepant result was obtained for a sample identified as antibody-positive only on the VISION Max; the antibody was identified as anti-Le(a). The overall sensitivity of the two automated instruments was the same as or higher than that of the semiautomated method. Carryover was not observed in antibody screening. CONCLUSIONS: The IH-500 and VISION Max instruments showed reliable results for ABO-RhD blood typing and unexpected antibody screening, and can be used clinically, with confidence, for pre-transfusion tests in the blood bank.
Automation ; Blood Banks* ; Blood Grouping and Crossmatching* ; Humans ; Mass Screening* ; Methods

PURPOSE: The purpose of this study was to investigate appropriate contrast reference values (CRVs) by comparing the contrast in phantom and clinical images. MATERIALS AND METHODS: Phantom contrast was measured using two methods: (1) counting the number of visible pits of different depths in an aluminum plate, and (2) obtaining the contrast-to-noise ratio (CNR) for 5 tissue-equivalent materials (porcelain, aluminum, polytetrafluoroethylene [PTFE], polyoxymethylene [POM], and polymethylmethacrylate [PMMA]). Four panoramic radiographs of the contrast phantom, embedded in the 4 different regions of the arch-form stand, and 1 real skull phantom image were obtained, post-processed, and compared. The clinical image quality evaluation chart was used to obtain the cut-off values of the phantom CRV corresponding to the criterion of being adequate for diagnosis. RESULTS: The CRVs were obtained using 4 aluminum pits in the incisor and premolar region, 5 aluminum pits in the molar region, and 2 aluminum pits in the temporomandibular joint (TMJ) region. The CRVs obtained based on the CNR measured in the anterior region were: porcelain, 13.95; aluminum, 9.68; PTFE, 6.71; and POM, 1.79. The corresponding values in the premolar region were: porcelain, 14.22; aluminum, 8.82; PTFE, 5.95; and POM, 2.30. In the molar region, the following values were obtained: porcelain, 7.40; aluminum, 3.68; PTFE, 1.27; and POM, - 0.18. The CRVs for the TMJ region were: porcelain, 3.60; aluminum, 2.04; PTFE, 0.48; and POM, - 0.43. CONCLUSION: CRVs were determined for each part of the jaw using the CNR value and the number of pits observed in phantom images.
Aluminum ; Bicuspid ; Dental Porcelain ; Diagnosis ; Incisor ; Jaw ; Molar ; Phantoms, Imaging ; Polymethyl Methacrylate ; Polytetrafluoroethylene ; Quality Assurance, Health Care ; Radiography, Panoramic ; Reference Values* ; Skull ; Temporomandibular Joint

BACKGROUND: We investigated the species distribution and amphotericin B (AMB) susceptibility of Korean clinical Aspergillus isolates by using two Etests and the CLSI broth microdilution method. METHODS: A total of 136 Aspergillus isolates obtained from 11 university hospitals were identified by sequencing the internal transcribed spacer (ITS) and beta-tubulin genomic regions. Minimal inhibitory concentrations (MICs) of AMB were determined in Etests using Mueller-Hinton agar (Etest-MH) and RPMI agar (Etest-RPG), and categorical agreement with the CLSI method was assessed by using epidemiological cutoff values. RESULTS: ITS sequencing identified the following six Aspergillus species complexes: Aspergillus fumigatus (42.6% of the isolates), A. niger (23.5%), A. flavus (17.6%), A. terreus (11.0%), A. versicolor (4.4%), and A. ustus (0.7%). Cryptic species identifiable by beta-tubulin sequencing accounted for 25.7% (35/136) of the isolates. Of all 136 isolates, 36 (26.5%) had AMB MICs of > or =2 microg/mL by the CLSI method. The categorical agreement of Etest-RPG with the CLSI method was 98% for the A. fumigatus, A. niger, and A. versicolor complexes, 87% for the A. terreus complex, and 37.5% for the A. flavus complex. That of Etest-MH was < or =75% for the A. niger, A. flavus, A. terreus, and A. versicolor complexes but was higher for the A. fumigatus complex (98.3%). CONCLUSIONS: Aspergillus species other than A. fumigatus constitute about 60% of clinical Aspergillus isolates, and reduced AMB susceptibility is common among clinical isolates of Aspergillus in Korea. Molecular identification and AMB susceptibility testing by Etest-RPG may be useful for characterizing Aspergillus isolates of clinical relevance.
Amphotericin B/*pharmacology ; Antifungal Agents/*pharmacology ; Aspergillus/*drug effects/isolation & purification ; DNA, Fungal/chemistry/genetics/metabolism ; Hospitals ; Humans ; Microbial Sensitivity Tests ; Mycoses/diagnosis/microbiology ; Republic of Korea ; Sequence Analysis, DNA ; Tubulin/genetics

PURPOSE: This study was performed to analyze human maxillary and mandibular trabecular bone using the data acquired from micro-computed tomography (micro-CT), and to characterize the site-specific microstructures of trabeculae. MATERIALS AND METHODS: Sixty-nine cylindrical bone specimens were prepared from the mandible and maxilla. They were divided into 5 groups by region: the anterior maxilla, posterior maxilla, anterior mandible, posterior mandible, and mandibular condyle. After the specimens were scanned using a micro-CT system, three-dimensional microstructural parameters such as the percent bone volume, bone specific surface, trabecular thickness, trabecular separation, trabecular number, structure model index, and degrees of anisotropy were analyzed. RESULTS: Among the regions other than the condylar area, the anterior mandibular region showed the highest trabecular thickness and the lowest value for the bone specific surface. On the other hand, the posterior maxilla region showed the lowest trabecular thickness and the highest value for the bone specific surface. The degree of anisotropy was lowest at the anterior mandible. The condyle showed thinner trabeculae with a more anisotropic arrangement than the other mandibular regions. CONCLUSION: There were microstructural differences between the regions of the maxilla and mandible. These results suggested that different mechanisms of external force might exist at each site.
Anisotropy ; Hand ; Humans* ; Imaging, Three-Dimensional ; Jaw* ; Mandible ; Mandibular Condyle ; Maxilla

BACKGROUND: The Coapresta 2000 (Sekisui Medical Co., Japan) is a newly developed, fully automated coagulation analyzer that can perform clotting time assays using the synthetic substrate method and the latex turbidimetric method. In this study, we evaluated the analytical performance of the Coapresta 2000 for measuring prothrombin time (PT) and activated partial thromboplastin time (aPTT), and compared the results to those of the CA-7000 (Sysmex Co., Japan) and ACL-9000 (Instrumentation Laboratory, USA) analyzers. METHODS: The Coapresta 2000 was evaluated for its precision at measuring PT and aPTT in fresh normal plasma and fresh abnormal plasma. Three hundred venous blood specimens were collected in 3.2% sodium citrate tubes, and PT and aPTT results were compared among the Coapresta 2000, ACL-9000, and CA-7000 analyzers. RESULTS: The coefficients of variation of both intra- and inter-assays for the Coapresta 2000 were <5% for PT and aPTT in the normal and pathological ranges. The results obtained using the Coapresta 2000 analyzer correlated well with those obtained using the ACL-9000 analyzer (r in the range of 0.9799-0.9886) except for aPTT (r=0.7626) and with those obtained using the CA-7000 analyzer (r in the range of 0.8258 - 0.9735). CONCLUSIONS: The Coapresta 2000 provided satisfactory precision, and the results obtained correlated well with those obtained using the existing CA-7000 and ACL-9000 coagulation analyzers. We conclude that the Coapresta 2000 would be a useful analyzer for routine coagulation tests.
Citrates ; Citric Acid ; Latex ; Partial Thromboplastin Time ; Plasma ; Prothrombin Time ; Sodium

BACKGROUND: Bacterial meningitis is an infectious disease with high rates of mortality and high frequency of severe sequelae. Early identification of causative bacterial and viral pathogens is important for prompt and proper treatment of meningitis and for prevention of life-threatening clinical outcomes. In the present study, we evaluated the value of the Seeplex Meningitis ACE Detection kit (Seegene Inc., Korea), a newly developed multiplex PCR kit employing dual priming oligonucleotide methods, for diagnosing acute meningitis. METHODS: Analytical sensitivity of the kit was studied using reference strains for each pathogen targeted by the kit, while it's analytical specificity was studied using the human genome DNA and 58 clinically well-identified reference strains. For clinical validation experiment, we used 27 control cerebrospinal fluid (CSF) samples and 78 clinical CSF samples collected from patients at the time of diagnosis of acute meningitis. RESULTS: The lower detection limits ranged from 101 copies/microL to 5x101 copies/microL for the 12 viral and bacterial pathogens targeted. No cross-reaction was observed. In the validation study, high detection rate of 56.4% was obtained. None of the control samples tested positive, i.e., false-positive results were absent. CONCLUSIONS: The Seeplex Meningitis ACE Detection kit showed high sensitivity, specificity, and detection rate for the identification of pathogens in clinical CSF samples. This kit may be useful for rapid identification of important acute meningitis-causing pathogens.
Acute Disease ; Adolescent ; Adult ; Aged ; Child ; Child, Preschool ; Female ; Humans ; Infant ; Male ; Meningitis/*diagnosis/microbiology/virology ; Middle Aged ; *Polymerase Chain Reaction ; RNA, Bacterial/cerebrospinal fluid ; RNA, Viral/cerebrospinal fluid ; Reagent Kits, Diagnostic ; Sensitivity and Specificity ; Sequence Analysis, RNA

BACKGROUND: Hemoglobin (Hb)-A1c is routinely used for the management of diabetes. In 2010, HbA1c was included into the diagnostic criteria for diabetes by the American Diabetes Association. A newly developed HbA1c analyzer, ARKRAY ADAMS HA-8180 (ARKRAY KDK, Japan) was introduced. In this study, we evaluated the analytical performance of ARKRAY ADAMS HA-8180 HbA1c analyzer and compared it with the previously used Variant II Turbo (Bio-Rad Laboratories, USA), which is a National Glycohemoglobin Standardization Program (NGSP) certified analyzer. METHODS: According to Clinical Laboratory and Standards Institute (CLSI) evaluation protocol (EP) 5-A, Lyphochek Diabetes Controls (Bio-Rad Laboratories, USA) are used for precision. Two (low and high) levels of quality control materials were analyzed twice a day for 20 days, after which the mean, total standard deviation (SD) and total coefficient of variation (CV), including the between-run CV and between-day CV were calculated. ARKRAY ADAMS HA-8180 HbA1c analyzer and Variant II Turbo were compared with 150 samples according to CLSI EP9-A2. In addition, the linearity and carry over rate were evaluated. RESULTS: Between-run CVs for low and high level quality control materials were 0.0% and 0.3%, respectively, whereas between-day CVs for low and high level quality control materials were 0.3% and 0.2%, respectively. In the linearity test, the coefficient of determination (R2) was 0.99 (range, 3.1-19.3%). Thus, a good correlation was observed between ARKRAY ADAMS HA-8180 HbA1c analyzer and Variant II Turbo (R2=0.994). The carry over rate was 0.0%. CONCLUSIONS: The ARKRAY ADAMS HA-8180 HbA1c analyzer showed excellent precision, linearity, and carryover rate. It also showed excellent correlation with the NGSP certified Variant II Turbo. In conclusion, the ARKRAY ADAMS HA-8180 HbA1c analyzer is a reliable high-performance liquid chromatography (HPLC) analyzer for HbA1c analysis and could be very useful for the diagnosis, treatment, monitoring, and risk assessment of diabetes.
Chromatography, Liquid ; Hemoglobins ; Quality Control ; Risk Assessment

BACKGROUND: Hemoglobin (Hb)-A1c is routinely used for the management of diabetes. In 2010, HbA1c was included into the diagnostic criteria for diabetes by the American Diabetes Association. A newly developed HbA1c analyzer, ARKRAY ADAMS HA-8180 (ARKRAY KDK, Japan) was introduced. In this study, we evaluated the analytical performance of ARKRAY ADAMS HA-8180 HbA1c analyzer and compared it with the previously used Variant II Turbo (Bio-Rad Laboratories, USA), which is a National Glycohemoglobin Standardization Program (NGSP) certified analyzer. METHODS: According to Clinical Laboratory and Standards Institute (CLSI) evaluation protocol (EP) 5-A, Lyphochek Diabetes Controls (Bio-Rad Laboratories, USA) are used for precision. Two (low and high) levels of quality control materials were analyzed twice a day for 20 days, after which the mean, total standard deviation (SD) and total coefficient of variation (CV), including the between-run CV and between-day CV were calculated. ARKRAY ADAMS HA-8180 HbA1c analyzer and Variant II Turbo were compared with 150 samples according to CLSI EP9-A2. In addition, the linearity and carry over rate were evaluated. RESULTS: Between-run CVs for low and high level quality control materials were 0.0% and 0.3%, respectively, whereas between-day CVs for low and high level quality control materials were 0.3% and 0.2%, respectively. In the linearity test, the coefficient of determination (R2) was 0.99 (range, 3.1-19.3%). Thus, a good correlation was observed between ARKRAY ADAMS HA-8180 HbA1c analyzer and Variant II Turbo (R2=0.994). The carry over rate was 0.0%. CONCLUSIONS: The ARKRAY ADAMS HA-8180 HbA1c analyzer showed excellent precision, linearity, and carryover rate. It also showed excellent correlation with the NGSP certified Variant II Turbo. In conclusion, the ARKRAY ADAMS HA-8180 HbA1c analyzer is a reliable high-performance liquid chromatography (HPLC) analyzer for HbA1c analysis and could be very useful for the diagnosis, treatment, monitoring, and risk assessment of diabetes.
Chromatography, Liquid ; Hemoglobins ; Quality Control ; Risk Assessment