Genetic studies in several human autoimmune diseases suggest that the pericentromeric region of chromosome 16 might harbor an autoimmune modifier gene. We hypothesized that the sodium-dependent glucose cotransporter gene SLC5A11 is such a gene, and so might interact with immune-related genes. Herein, this hypothesis was tested in a genetic evaluation of the multiple gene effect in systemic lupus erythematosus (SLE). We used the case-control candidate gene association approach. Eight immune-related genes involved in inflammation and autoantibody generation and clear-up [interleukin 1 receptor antagonist (IL1RN), interleukin 1-beta (IL1-beta), tumor necrosis factor-alpha (TNF-alpha), lymphotoxin-alpha (LTA), tumor necrosis factor ligand superfamily, member 6 (TNFSF6), programmed cell death 1 (PDCD1), C2, and complement component 4 (C4)] were selected for study. Frequency of each candidate's genotype and allele between case and control were compared. Results were stratified by reanalyzing genotype data with relevant symptoms. Finally, improved computational data mining was used to analyze the phenotypes in a large data set. In the frequency analysis, only IL1-beta was significantly associated with SLE. Stratification analysis showed a significant association with SLE symptoms between SLC5A11 and the other immune-related genes, with the exceptions of TNFSF6 and C4. SLC5A11 was significantly associated with low C4 (as was TNF-alpha), anti-Smith antibody (anti-Sm) (as was C2), serositis, and alopecia. Finally, SLC5A11 interacted with PDCD1, TNF-alpha, LTA, and C4. After our study, we concluded that SLC5A11 is involved with some immune effects and interacts with immune-related gene(s), consistent with its function as an autoimmune modifier gene. Furthermore, SLC5A11 might induce apoptosis through the TNF-alpha, PDCD1 pathway. The present genotype-phenotype mapping approach should be applicable to genetic study of other complex diseases.
Acupuncture is the practice of inserting needles into the body to reduce pain or induce anesthesia. More broadly, acupuncture is a family of procedures involving the stimulation of anatomical locations on or in the skin by a variety of techniques. Employing acupuncture to treat human disease or maintain bodily condition has been practiced for thousands of years. However, the mechanism(s) of action of acupuncture at the various meridians are poorly understood. Most studies have indicated that acupuncture is able to increase blood flow. The acupuncture points have high electrical conductance and a relationship of the acupuncture points and meridians with the connective tissue planes and the perivascular space has also been suggested. Several studies employing the human and animal models have shown that acupuncture enhances the generation of nitric oxide (NO) and increases local circulation. Specifically, electroacupuncture (EA) seems to prevent the reduction in NO production from endothelial NO synthetase (eNOS) and neuronal NO synthase (nNOS) that is associated with hypertension and this process involves a stomach-meridian organ but not a non-stomach-meridian organ such as the liver. How can we explain the phenomena of EA and meridian effect? Here, we proposed a neurovascular transmission model for acupuncture induced NO. In this proposed model, the acupuncture stimulus is able to influence connective tissue via mechanical force transfer to the extracellular matrix (ECM). Through the ECM, the mechanotransduction stimulus can be translated or travel from the acupuncture points, which involve local tissue and cells. Cells in the local tissue that have received mechanotransduction induce different types of NO production that can induce changes in blood flow and local circulation. The local mechanical stress produced is coupled to a cyclic strain of the blood vessels and this could then change the frequency of resonance. According to the resonance theory, an oscillatory pattern of NO formation might occur in that specific organ. Therefore, the artery tree would then change the blood distribution and microcirculation of various organs and as a result further affect the production of NO.
The interleukin-1 receptor antagonist (IL1RN or IL-1Ra) is a natural antagonist of IL-1-beta. Using IL1RN as a possible marker in patients with systemic lupus erythematosus (SLE), we evaluated whether uIL1RN single nucleotide polymorphisms (SNPs) were associated with the pathogenesis of SLE in Taiwanese, and specifically whether IL1RN (rs315952) was significantly associated with end-stage renal disease. We examined IL1RN isoform expression patterns in patients with SLE to determine whether the expressions play a role in the pathogenesis of SLE. Both case-control and family-based association studies were used. For the case-control study, 104 patients with SLE and 97 normal controls were recruited, and for the family-based study, 11 families with SLE without renal disorder were recruited from the 104 patients with SLE. Eight IL1RN SNPs (rs2234678, rs2234679, rs315951, rs315952, rs419598, rs432014, rs447713, and rs451578) were selected for the family-based study. Reverse-transcriptase-polymerase chain reaction (RT-PCR) was used to determine the expression pattern of each isoform. Our results showed that IL1RN (rs315952) was significantly associated with SLE in patients without renal disorder in the family-based study, after disease stratification, but was not significantly associated with SLE in the case-control study. In the family-based study, the haplotype of IL1RN (AGCCTTAG) was significantly associated with SLE (chi2 = 11.714, P < 0.001). Using RT-PCR to determine the expression pattern of the IL1RN isoforms, we found different expression patterns between normal controls and patients with SLE, with an addition of IL1RN isoform4 or the low expression of IL1RN isoform1. We concluded that IL1RN and its isoforms were involved in the pathogenesis of SLE.
In order to test the hypothesis that stratification of Mexican Modification of the Systemic Lupus Erythematosus Disease Activity Index (MEX-SLEDAI) simplifies the genetic study of SLE, we evaluated the genetic susceptibility to inflammation and defects in clearance of immune complexes among SLE patients in Taiwan. SLE phenotypes were stratified according to the MEX-SLEDAI scores into two subgroups (
Computer and communication technologies are progressing rapidly in these few years, which speeds up the electronic medical record (EMR) development and increases the requirement of electronic data interchange (EDI) among healthcare organizations. Although the health data exchange standard of Health Level 7(HL7) has been presented more than a decade, hospitals apply the standard of data transfer only in these few years with little experience. Because the quality of the hospital information system (HIS) varies in each institution, it is difficulty to judge whether the transmitted data match with the standards completely. If there is any mistake in the exchanged data, it will cause problems to the whole information system as well as to patient records. It is necessary to have a validation mechanism to verify the integrity of the data before data exchange. In this paper, we introduce the method of implementing a web-based validation system providing HL7 messages test services. This method may accept and parse HL7 messages and warn the errors in segments, sequences, required fields, field length, components, data types and valid values. The system is ready for HL7 version 2.3. Besides benefiting to health care organizations, the system may as well provide assistance to students who major in medical informatics.
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