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Pancreatic Neuroendocrine Tumor
GARD
However in some cases, a pancreatic NET occurs outside of the pancreas. A NET arises from cells that produce hormones, so the tumor can also produce hormones. ... Pancreatic NETs are called either functional or nonfunctional. A functional pancreatic NET causes specific symptoms because it makes extra hormones, such as gastrin, insulin, or glucagon. ... Pancreatic NETs can be hard to diagnosis, often not identified until 5 to 10 years after they begin to grow. Most pancreatic NETs are not inherited and occur sporadically in people with no family history of NETs.MEN1, PCSK1, ATM, BRCA2, C11orf65, IGF2, SST, TP53, CDKN2A, SLC6A2, MTOR, EPHB1, POMC, GH1, GCGR, DAXX, ELK3, KRT19, SSTR2, CHGA, SSTR5, UCHL1, FZD4, GCM2, DLGAP1, DCLK1, SSTR4, INA, STK11, EIF2AK3, TFE3, THBD, CXCR4, PAX8, TSC1, TTR, TYMS, VEGFA, ABO, CNPY2, MRGPRX4, GPR166P, VN1R17P, MIR196A1, GADL1, MRGPRX1, GPRC6A, OXER1, GPR119, GPR151, MRGPRX3, SEMA3A, AZIN2, ACCS, STK33, LGR6, ACSS2, MEG3, NEUROG3, LPAR3, LILRB1, PLA2G15, RET, SLC2A3, INSM1, GRN, FFAR1, GHRH, GAST, FGFR4, F3, EGFR, DHCR24, CSF1, CRH, CHGB, CD44, CCK, CALCA, VPS51, ATRX, ASS1, ASCL1, ANGPT2, HSF1, PDX1, SLC2A2, KIT, SLC2A1, SEA, SDHB, SDHA, AKT1, PYGM, PTH, PTEN, PPY, PTPA, PGR, PCYT1A, PCNA, NFKB1, NEUROD1, MUC1, SMAD4, STMN1, KRAS, H3P10
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Neuroendocrine Tumor
GARD
A neuroendocrine tumor (NET) is a rare type of tumor that arises from specialized body cells called neuroendocrine cells . ... Pancreatic neuroendocrine tumors (also called islet cell tumors) - NETs that typically arise in the pancreas, although they can occur outside the pancreas. A p heochromocytoma is another, rarer type of NET that usually develops in the adrenal gland , but can also arise in other parts of the body. ... Functional NETs produce a specific set of symptoms due to the production of excess hormones, while non-functional NETs generally do not cause specific symptoms. In many cases, a person has no symptoms until the tumor spreads to the liver and/or impairs the function of an organ or system. This can make NETs very hard to diagnose. The majority of NETs are not inherited and occur sporadically in people with no family history of NETs.
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Neuroendocrine Tumor
Wikipedia
H&E stain Specialty Endocrine oncology Neuroendocrine tumors ( NETs ) are neoplasms that arise from cells of the endocrine ( hormonal ) and nervous systems . ... G1 and G2 neuroendocrine neoplasms are called neuroendocrine tumors (NETs) – formerly called carcinoid tumours. ... Unsourced material may be challenged and removed. ( November 2015 ) ( Learn how and when to remove this template message ) NETs from a particular anatomical origin often show similar behavior as a group, such as the foregut (which conceptually includes pancreas, and even thymus, airway and lung NETs), midgut and hindgut ; individual tumors within these sites can differ from these group benchmarks: Foregut NETs are argentaffin negative. ... Bone metastasis is uncommon. Hindgut NETs are argentaffin negative and rarely secrete 5-HT, 5-HTP, or any other vasoactive peptides. ... Not all cells are immediately killed; cell death can go on for up to two years. [ citation needed ] PRRT was initially used for low grade NETs. It is also very useful in more aggressive NETs such as Grade 2 and 3 NETs [83] [84] provided they demonstrate high uptake on SSTR imaging to suggest benefit.MEN1, CDKN1B, SSTR2, DAXX, ATRX, BRAF, TYMS, PTHLH, SSTR3, SSTR1, BAP1, MTOR, SST, GAST, SLC6A2, INSM1, CTNNB1, RET, PIK3CA, DNMT3A, POMC, EPHB1, PIK3CG, PIK3CD, CHGA, ELK3, CHEK2, PIK3CB, GRN, CD274, SMUG1, AKT1, GNA12, TP53, SYP, VEGFA, CDKN2A, ASCL1, BCL2, ENO2, NCAM1, GCG, MYCN, EGFR, MGMT, KIT, RASSF1, VHL, SCLC1, SSTR5, FOLH1, NKX2-1, KRAS, CALCA, CCND1, TAC1, PTPRF, VIP, NTS, PAX5, RHBDF2, GRP, IGF1, SDHD, GOT1, MAP2K7, CCK, ERBB2, DLL3, PPY, CXCL12, TP63, SMAD4, MUC1, INS, GCGR, CKAP4, NEUROD1, ISL1, MYC, NGF, SATB2, GLP1R, HSP90AA1, H3P10, HRAS, CHGB, CALR, NTRK1, TEK, DLK1, CDK4, CDX2, TGFA, UCHL1, RPE65, PGR, PDGFRA, CARTPT, CRH, UVRAG, SLC5A5, CXCR4, IGF1R, OTP, IL6, PHLDA3, TTF1, PAX8, TACR1, STK11, TRIM21, PLA2G15, SCG2, SQLE, SLC18A2, TERT, HDAC9, SLC2A1, PROM1, BCL2L11, NTSR1, PAX6, NAMPT, NOCT, INA, PLCB3, CD200, MKI67, PDX1, MAPK1, NES, HPSE, PTEN, STMN1, ABO, RIPK1, RORC, RAF1, IL1B, TRPV1, GATA3, ANGPT2, FOXM1, PTK2B, SDHAF2, ACCS, BDNF, EPAS1, EGF, ACSS2, MIB1, DNMT1, CCN2, TRPM8, CLDN4, CPE, CD34, CD44, FLNA, CEACAM5, B3GAT1, GH1, GIP, GHSR, GIPR, ADCY2, ALB, H3P28, TPPP2, H4C5, GGH, MIR1290, TMEM209, ELOA3, H4C13, H4C14, GPR151, SRPX, LGR5, TNFSF11, PSMG1, DCBLD2, H4-16, NRP1, MRGPRX4, SOCS1, H4C2, MIR3137, MRGPRX3, TNFRSF25, H3P12, CYYR1, AZIN2, DNER, AK6, MLIP, LMLN, NRP2, GPR68, MIR1246, H4C8, MAFK, MIR150, MIR155, MBOAT4, H4C9, MIR21, POTEKP, VN1R17P, SNORD95, GPR166P, ARID1A, EID3, SLC7A5, MIR375, H4C15, FZD4, MIRLET7C, OXER1, H4C12, HMGA2, H4C3, ARX, ELOA3B, GPRC6A, H4C11, H4C6, C17orf97, POTEM, MRGPRX1, ARMH1, H4C1, GADL1, ACTBL2, H4C4, BRI3, SQSTM1, ISYNA1, GHRL, ACOT7, KLF12, KRT20, SLC27A4, TET2, BCOR, EBNA1BP2, RALBP1, PGRMC1, LAMTOR1, FBXW7, MEG3, MAML3, TMEM127, NTNG1, ATRAID, KHDRBS1, DCTN4, SNORD61, NUP62, SNORD48, NTSR2, LPAR3, MAPK8IP2, SRRM2, BRD4, TRAM1, SPINK4, XIST, PPWD1, RBMS3, SETD1B, ZHX2, TNFSF13B, USE1, MAK16, UBE2Z, ONECUT2, FHL5, GCM2, DCLK1, ZBED1, ARHGEF2, PALB2, ALG9, SNED1, TET1, PDCD1LG2, TMPRSS13, MTA1, RPAIN, H1-10, EEF1E1, LGR6, PRMT5, NEUROD4, YAP1, SCML2, LANCL1, PAK4, RABEPK, ZNF197, CTNNBL1, PNO1, INSL5, EPB41L5, HDAC5, AKT3, CD302, GBA3, DCAF1, ATAT1, SERPINA3, VCL, CGA, ESR1, ERBB4, EPHB2, E2F1, DUSP2, DSG3, DPT, DPP4, DMBT1, DDC, DAD1, VCAN, CREB1, CRABP1, KLF6, CLU, FOXN3, CEACAM7, CEACAM3, ESR2, ETFA, EZH2, GHRH, HSPA4, AGFG1, HMOX1, HMGA1, GTF2H1, GSN, GNAS, GNA15, GFRA1, F3, GDNF, FSHR, FLT4, FLII, FLI1, FOXO1, FHIT, FGFR4, CGB3, CFL1, UQCRFS1, CDKN2C, FAS, APRT, APLP1, XIAP, APC, SLC25A6, SLC25A4, ANGPT1, ALK, AKT2, AFP, PARP1, ADCYAP1R1, ADCYAP1, ACVRL1, ACTN4, ACTG2, ACTG1, ACR, AQP4, ARF1, ATM, CASP3, CDK6, CD40LG, CD36, CD33, CCNE1, CCKBR, SERPINA6, CAV1, CA9, ATOH1, VPS51, C5, BRS3, BRCA2, DST, BAX, AVP, ATP4A, HTC2, HTR2A, TNC, IAPP, SDC1, SCT, SORT1, RNASE3, RARB, PTPRZ1, PTPRM, PTBP1, PSMD7, PSG2, PRKAR1A, PPP4C, POU4F1, PNN, PKD2, PITX2, PCYT1A, SERPINA5, PAX4, SDCBP, SDHB, SDHC, ST2, UBE2I, TPM3, TPH1, TNF, TM7SF2, TERC, TAT, STAT3, SSTR4, SEMA3F, SSR2, SOX11, SOX4, SOX2, SLPI, SLC3A2, SLC1A5, SFRP1, PAK3, PAK1, TNFRSF11B, KIF11, MDK, MAOA, LCN2, RPSA, L1CAM, KRT19, KRT7, KRT5, IL12A, MET, IL9, CXCL8, IL2, IL1A, IGFBP1, IGF2, IFNA13, IFNA1, MDM2, MFAP1, ODC1, MUTYH, NTRK2, NT5E, NRAS, NOTCH3, NPY, NOTCH1, NFKB1, NEFM, MUC4, CD99, NUDT1, COX2, MTAP, MST1R, MST1, MSMB, MMP7, MLH1, PTPRC
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Postural Orthostatic Tachycardia Syndrome Due To Net Deficiency
Orphanet
A rare, genetic, primary orthostatic disorder characterized by dizziness, palpitations, fatigue, blurred vision and tachycardia following postural change from a supine to an upright position, in the absence of hypotension. A syncope with transient cognitive impairment and dyspnea may also occur. The norepinephrine transporter deficiency leads to abnormal uptake and high plasma concentrations of norepinephrine.
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Neuroendocrine Neoplasm Of Esophagus
Orphanet
A group of esophageal epithelial neoplasms characterized by neuroendocrine differentiation, comprising well-differentiated neuroendocrine tumors (NETs), poorly differentiated neuroendocrine carcinomas (NECs), and mixed neuroendocrine-non-neuroendocrine neoplasms, an umbrella category including mixed adenoneuroendocrine carcinoma. ... NECs may also arise in other parts of the esophagus. On endoscopy, NETs usually appear as small polypoid or nodular submucosal masses, while NECs are large, infiltrative, and ulcerated. Patients most commonly present with dysphagia, pain, weight loss, and sometimes melena. Metastatic NETs may be associated with carcinoid syndrome.
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Familial Gastric Type 1 Neuroendocrine Tumor
Orphanet
A rare neoplastic disease characterized by occurrence of atypical and aggressive gastric type 1 neuroendocrine tumors (NET) in early adulthood. The tumors often show nodal infiltration requiring total gastrectomy. ... Patients present high serum gastrin concentrations and iron-deficiency anemia (rather than megaloblastic anemia, which is a typical feature in patients with sporadic gastric type 1 NET, where the tumor usually arises on the background of autoimmune atrophic gastritis).
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Pancreatic Neuroendocrine Tumor
Wikipedia
PanNETs are a type of neuroendocrine tumor , representing about one third of gastroenteropancreatic neuroendocrine tumors (GEP-NETs). Many PanNETs are benign , while some are malignant . ... However, morphological imaging alone is not sufficient for a definite diagnosis [14] [16] On biopsy , immunohistochemistry is generally positive for chromogranin and synaptophysin . [17] Genetic testing thereof typically shows altered MEN1 and DAXX / ATRX . [17] Staging [ edit ] The 2010 WHO classification of tumors of the digestive system grades all the neuroendocrine tumors into three categories, based on their degree of cellular differentiation (from well-differentiated "NET G1" through to poorly-differentiated "NET G3"). ... Combinations of several medicines have been used, such as doxorubicin with streptozocin and fluorouracil (5-FU) [12] and capecitabine with temozolomide. [ citation needed ] Although marginally effective in well-differentiated PETs, cisplatin with etoposide has some activity in poorly differentiated neuroendocrine cancers (PDNECs), [12] particularly if the PDNEC has an extremely high Ki-67 score of over 50%. [8] : 30 Several targeted therapy agents have been approved in PanNETs by the FDA based on improved progression-free survival (PFS): everolimus (Afinitor) is labeled for treatment of progressive neuroendocrine tumors of pancreatic origin in patients with unresectable, locally advanced or metastatic disease. [20] [21] The safety and effectiveness of everolimus in carcinoid tumors have not been established. [20] [21] sunitinib (Sutent) is labeled for treatment of progressive, well-differentiated pancreatic neuroendocrine tumors in patients with unresectable locally advanced or metastatic disease. [22] [23] Sutent also has approval from the European Commission for the treatment of 'unresectable or metastatic, well-differentiated pancreatic neuroendocrine tumors with disease progression in adults'. [24] A phase III study of sunitinib treatment in well differentiated pNET that had worsened within the past 12 months (either advanced or metastatic disease) showed that sunitinib treatment improved progression-free survival (11.4 months vs. 5.5 months), overall survival , and the objective response rate (9.3% vs. 0.0%) when compared with placebo. [25] Genetics [ edit ] Pancreatic neuroendocrine tumors may arise in the context of multiple endocrine neoplasia type 1 , Von Hippel–Lindau disease , neurofibromatosis type 1 (NF-1) or tuberose sclerosis (TSC) [26] [27] Analysis of somatic DNA mutations in well-differentiated pancreatic neuroendocrine tumors identified four important findings: [28] [6] as expected, the genes mutated in NETs, MEN1 , ATRX , DAXX , TSC2 , PTEN and PIK3CA , [28] are different from the mutated genes previously found in pancreatic adenocarcinoma . [29] [30] one in six well-differentiated pancreatic NETs have mutations in mTOR pathway genes, such as TSC2 , PTEN and PIK3CA . [28] The sequencing discovery might allow selection of which NETs would benefit from mTOR inhibition such as with everolimus , but this awaits validation in a clinical trial . mutations affecting a new cancer pathway involving ATRX and DAXX genes were found in about 40% of pancreatic NETs. [28] The proteins encoded by ATRX and DAXX participate in chromatin remodeling of telomeres ; [31] these mutations are associated with a telomerase -independent maintenance mechanism termed ALT (alternative lengthening of telomeres) that results in abnormally long telomeric ends of chromosomes . [31] ATRX / DAXX and MEN1 mutations were associated with a better prognosis . [28] References [ edit ] ^ Burns WR, Edil BH (March 2012). ... Pancreatic Neuroendocrine Tumors (Islet Cell Tumors) Treatment (PDQ®) Incidence and Mortality [3] ^ Öberg K, Knigge U, Kwekkeboom D, Perren A (October 2012).MEN1, ATRX, DAXX, ELK3, TP53, EPHB1, SLC6A2, CEACAM5, CEACAM7, UQCRFS1, DHDDS, CHPT1, RALBP1, CIB1, SEMA4D, RIPK1, CXCR4, VEGFA, TTR, GNA12, TSC2, TFE3, CDKN1B, PSG2, POMC, MYCN, CEACAM3, GRN, MUC16
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Malaria
Wikipedia
The mosquitoes remain on the wall until they fall down dead on the floor. Insecticide treated nets [ edit ] A mosquito net in use. Mosquito nets help keep mosquitoes away from people and reduce infection rates and transmission of malaria. Nets are not a perfect barrier and are often treated with an insecticide designed to kill the mosquito before it has time to find a way past the net. Insecticide-treated nets are estimated to be twice as effective as untreated nets and offer greater than 70% protection compared with no net. [73] Between 2000 and 2008, the use of ITNs saved the lives of an estimated 250,000 infants in Sub-Saharan Africa. [74] About 13% of households in Sub-Saharan countries owned ITNs in 2007 [75] and 31% of African households were estimated to own at least one ITN in 2008. ... That number increased to 20.3 million (18.5%) African children using ITNs in 2007, leaving 89.6 million children unprotected [76] and to 68% African children using mosquito nets in 2015. [77] Most nets are impregnated with pyrethroids , a class of insecticides with low toxicity . ... According to the WHO and UNICEF, deaths attributable to malaria in 2015 were reduced by 60% [77] from a 2000 estimate of 985,000, largely due to the widespread use of insecticide-treated nets and artemisinin-based combination therapies. [74] In 2012, there were 207 million cases of malaria.ICAM1, FCGR2B, HBB, CD36, NOS2, FCGR2A, TNF, CR1, G6PD, CRP, HP, ACKR1, GYPA, SLC4A1, GYPB, NCR3, TIRAP, GYPC, LTBR, CISH, IFNG, HMOX1, PKLR, ABO, ANK1, AQP4, ATP2B4, HBG2, CYTB, ENOSF1, MSMB, MST1, ZNF536, LINC00944, SMARCB1, DHODH, PDR, TREML4, ZNF804A, OR51F1, OR51B5, CDH13, PROCR, SPATA3, OR51N1P, DHFR, DDT, RECQL4, FAM155A, IGHG3, IL4, MMP26, IL6, IL10, TLR9, HLA-DRB1, CSMD1, HBE1, DNAJC5, TMPRSS13, KLHL3, HDGFL2, TLR4, ATAD1, LMLN, TENM3-AS1, MECP2, POMGNT2, MBL2, TFRC, TGFB1, MIF, HLA-B, HAMP, DHPS, SERPINA3, TLR2, IL1B, FOXP3, FHL5, ACOT7, POTEKP, POTEM, GEM, KIR3DL1, RN7SL263P, ACTG2, ACTG1, ACTB, ACTBL2, HBA2, CYP2B6, HSPA4, LSAMP, TRAP, FCGR3B, HSP90AA1, IL1A, LAMP3, CD81, OR10A4, CCL5, ABCB1, FAS, CD40LG, TEP1, CXCL8, IARS1, HLA-G, CTLA4, HBA1, INSRR, ANGPT2, TYMS, CFH, GSTP1, IFNAR1, AGT, GYPE, FCGR3A, TXN, IL13, HSPB3, APOE, MTCO2P12, ISYNA1, FCGR2C, FYB1, VDR, HLA-A, GSTM1, GSR, ATR, MBL3P, LAIR1, PNP, IL12B, MNAT1, IL1RN, CYP2D6, IGF1, CD55, ACHE, DECR1, COX2, IL3, CCL2, MAPK1, NLRP3, FBXW7, HAVCR2, THBD, VPS51, EMP1, ITGA2B, PTGS2, ANC, IL10RA, XPO1, VNN1, PLEK, UMPS, IL2, IL2RA, TPPP, VWF, ISG20, ADAMTS13, IRF1, IL7R, AIMP2, IL12RB1, CLEC11A, METAP2, CDK5R1, ING1, IL18R1, PGD, HAP1, H6PD, PRDX5, GRAP2, CXCL9, MMP9, MPO, TAP1, CCL4L2, COX1, EBI3, ITGAX, COX3, TLR6, CXCL11, MTHFR, NFKB2, NFYA, NOS1, TBC1D9, ORC1, MCF2, AKAP13, RNF19A, TLR7, NT5C3A, IRAK4, KIR2DS1, CCL4, KIR3DL2, ICOS, COQ2, PSIP1, PECAM1, TPT1, RNASE3, ARTN, TP53, POLDIP2, PDCD1, TLR1, AHSA1, UBL4A, AQP3, AGRP, H3C9P, CYP2C8, CYP2C19, GTF2H4, CRK, RNA18SN5, ANXA2, H3P37, CASP1, NANP, CCL4L1, MAPK14, CXCR3, GNAS, GLO1, FCN2, SMIM10L2B, FKBP4, CD27, FOXO3, RBM45, HM13, IL33, HK1, CCR5, IFNA13, IFNA1, H3P42, DNAJB1, CHIT1, CYP3A4, SMIM10L2A, EGF, CHI3L1, CAT, EPHA2, NSFL1C, ADRB2, MYMX, COX8A, GAPDH, ABCB6, NR1I3, TREML1, PUM3, FMN1, TICAM2, TRIM13, BMS1, FZD4, RABEPK, LANCL1, FUT9, TNFSF13B, DCTN6, CXCR6, ARL6IP5, MRGPRX1, ZNRD2, ASPM, KAT5, RAB7B, CIB1, SEMA3C, ARMH1, STING1, CFDP1, CPQ, MYLK4, DLC1, AKR1A1, PIEZO1, TMPRSS11D, HDAC9, CARTPT, DEFB4B, TIMELESS, SPHK1, TMED7-TICAM2, PSC, VNN2, PROM1, UPK3B, H3P23, H3P28, TNFRSF11A, TNFRSF18, TP63, PDXK, CNTNAP1, DHX16, STK24, H3P19, LOH19CR1, WASHC1, WASH6P, LPAR2, MIR146A, APOBEC3B, SPAG6, CLOCK, ATG5, MIR142, AIM2, ABCG2, PCSK9, MIR155, NCF1, PPIG, MIR29A, VN1R17P, GPR166P, CD163, MIR451A, CXADRP1, ARHGEF2, CERS1, SPINK5, MASP2, GEMIN4, ACD, TLR8, MPPE1, MCPH1, HSPA14, RNF34, TMED7, ARMC9, PPP1R2C, IL22, TRAF3IP2, A1CF, PDCD1LG2, SLC44A4, SGSM3, MCAT, HPGDS, B3GAT1, ROPN1L, PHGDH, RAB14, IL23A, ABCG4, IFIH1, CFC1, BTNL2, MARCHF1, POLE4, CMC2, TMED9, ACKR3, PDXP, RHOF, AICDA, POLD4, RBM25, TOLLIP, TREM1, LGR6, ADA2, BACH2, ERAP1, GOLPH3, PARS2, KRT88P, TRIM5, IL17RE, CHP1, GPR151, NRSN1, EIF5AL1, CD160, APCDD1, ERFE, OXER1, DNAJB1P1, DSTN, GPRC6A, CCNI, ADIRF, EBNA1BP2, TMED2, EHD1, RNPS1, HPSE, SEPTIN9, SCLT1, NT5C2, SLC25A21, LEO1, NLRP12, TIMD4, CDCA5, DBA2, CARD16, PTPMT1, CGAS, RAB39B, TADA1, MRGPRX3, MRGPRX4, PGLS, PANX1, SPO11, LPAR3, CBX5, POFUT2, SPPL3, NBEAL2, LUC7L, PTPRC, FGF23, EIF5, FLT3LG, FLT1, FECH, FBN2, FBN1, FANCD2, F3, EPO, ENO2, ADGRE1, ELK4, ELF4, EIF5A, EIF4G2, CXADR, EGR3, EDNRA, EDN1, S1PR3, RCAN1, ATN1, DNMT1, DEFB4A, DHX9, ACE, DBP, CYP1A2, CYC1, GABPA, GCHFR, GDF1, GPR42, IL4R, IL1R1, IGFBP1, IFNGR1, IFNB1, IFNA2, IFI27, IDE, HTN3, HSPA9, HSD11B1, HRES1, HPRT1, HPR, HPGD, HMGB1, HLA-DOA, UBE2K, HGF, SERPIND1, HBG1, GTF3A, GSTT1, GSN, GPX1, GPT, GRK5, CYBB, CTSL, IL9, ANXA1, C3, BSG, BRS3, BRCA2, PRDM1, BCL2, BAX, ASPA, ASIP, ARR3, NUDT2, ANXA7, ANXA4, ANPEP, CSH2, AMBP, ALOX5, ALB, AHR, AFP, ADSL, ADRA2B, ADRA1A, ADORA2A, ADH1B, ADA, ACP1, ACACA, CAST, CASR, CD1B, CD1C, CSH1, CSF1R, CSF1, CS, CRYZ, CREM, CR2, CLDN4, CPB1, CNTF, CCR4, CLU, ERCC8, CTSC, CEL, CDC25C, CD69, CD68, CD40, ENTPD1, CD34, CD28, CD19, CD14, CD9, CD1E, CD1D, IL5, IL12A, FOSL1, SELE, SPTA1, SPP1, SPINK1, SPG7, SOD3, SOD1, SMN1, SLC16A1, SLC11A1, SLC6A7, SLC2A1, SGCG, SET, SEA, ABCA1, SDC1, CXCL5, CCL22, CCL18, CCL3L1, CCL3, CCL1, SAFB, SORT1, RPS19, RBP2, RANBP2, PEX19, SSR2, SSTR4, DENND2B, STAT6, DDX39B, PRRC2A, PFBI, RAB7A, CXCR4, MOGS, ZBTB16, TRPV1, VCP, USP1, TYRP1, TTR, TTPA, TRPC1, TRP-AGG2-5, TPO, TPH1, TNFRSF1B, TLR3, TGFB2, TRBV20OR9-2, TCN2, HNF1A, TADA2A, ADAM17, TAC1, STK3, PTPRH, PTHLH, IL15, KIR3DS1, MAL, MAF, LTB, LTA, LMAN1, LEPR, LDLR, LCN2, LBR, RPSA, LAG3, KRT13, KNG1, KIR2DS5, PSMD9, KIR2DL3, KIR2DL2, KDR, KCNG1, KARS1, ITPA, ITGB2, ITGAM, ITGAL, CXCL10, IDO1, ILF3, IL18, MAP2, MAP6, MEFV, MVD, PSMD7, PSMD2, PSMB9, PSEN1, PSAP, PRSS1, PROC, MAP2K1, PRKG1, PRKAR1A, PPP1R1A, PPARG, SEPTIN4, PLP1, PGM1, PGAM1, P2RX7, SLC22A18, TNFRSF11B, OMD, ODC1, NOS3, NQO2, NFE2L2, NEK2, MYD88, MYC, H3P5
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Party And Play
Wikipedia
These substances have been used for dancing, socializing, communal celebration and other purposes. [21] The rise of online websites and hookup apps in the 1990s gave men new ways of cruising and meeting sexual partners, including the ability to arrange private sexual gatherings in their homes. [22] From the early 2000s, historic venues of gay socialization such as bars, clubs, and dance events reduced in number in response to a range of factors, including gentrification, zoning laws, licensing restrictions, and the increased number of closeted or under the influence sexually labile men, and the increasing popularity of digital technologies for sexual and social purposes. [23] In this context, PNP emerged as an alternative form of sexualized partying that enabled participants to avoid the public scrutiny and potentially judgmental and anxiety provoking nature of the "public space". ... In some instances, PNP sessions play a part in the formation of loose social networks that are valued and relied upon by participants. [22] For other men, increasing reliance on hookup apps and websites to arrange sex may result in a sense of isolation that may exacerbate the risk of drug dependence, especially in the context of a lack of other venues for gay socializing and sexual community-formation. [23] A 2014 study found that one of the key reasons for taking drugs before and during sex was to boost sexual confidence and reduce feelings of self-doubt, regarding feelings of "internalised homophobia" from society, concerns about an HIV diagnosis, or "guilt related to having or desiring gay sex". A key self-confidence issue for study participants was "body image", a concern that was heightened by the focus on social networking apps on appearance, because on these apps, there is a focus on idealized male bodies that are "toned and muscular". ... Retrieved 2019-09-12 . ^ Vol. 32, No. 3 Behavioral and Psychosocial Research Sexualized Drug Use (Chemsex) Is Associated with High-Risk Sexual Behaviors and Sexually Transmitted Infections in HIV-Positive Men Who Have Sex with Men: Data from the U-SEX GESIDA 9416 Study Alicia González-Baeza, Helen Dolengevich-Segal, Ignacio Pérez-Valero, Alfonso Cabello, María Jesús Téllez, José Sanz, Leire Pérez-Latorre, José Ignacio Bernardino, Jesús Troya, Sara De La Fuente, Otilia Bisbal, Ignacio Santos, Sari Arponen, Víctor Hontañon, José Luis Casado, and Pablo Ryan, the U-SEX GESIDA 9416 Study ^ "What is ChemSex" . 2018-06-02 . ... Wanker Whale tail Whore LGBT-specific Bara Bear Beard Bi-curious Breeder Bugchasing Chicken Chickenhawk Chub Daddy Down-low Dyke Fag hag Fruit Gay-for-pay Lipstick lesbian Queen Soft butch Stone butch Stone femme Swish Trade Troll Twink U-Haul lesbian In pornography Ass to mouth Bukkake Centerfold Clothed female, naked male (CFNM) Clothed male, naked female (CMNF) Creampie Cum shot Deep-throating Downblouse Facial Felching Fluffer Gang bang Gokkun Golden Age of Porn Insert MILF/DILF Money shot Paysite Rosebud Stunt cock Upskirt In popular culture List of films that most frequently use the word "fuck" Related Human sexuality Sexology Sexual slur Terminology of homosexuality
- Dowling-Degos Disease GARD
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Azotemia, Familial
OMIM
Furthermore, urea is reabsorbed actively by the tubule; this process is apparently brought into play particularly in states of low protein intake. Net reabsorption might be due to exaggerated active reabsorption or to deficient secretion.
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Insulinoma
GARD
Insulinoma is a type of pancreatic neuroendocrine tumor (pancreatic NET), which refers to a group of rare tumors that form in the hormone-making cells of the pancreas.MEN1, RPS15, CDKN2B, CDKN2C, IAPP, GCG, CDKN1B, CDKN1A, SST, FOXM1, GLP1R, PDX1, INS, IL1B, RIT2, PTPRN2, GAD1, EHMT1, IGF2, ZGLP1, CDKN2A, SLC30A8, SLC30A10, GCK, SSTR2, FFAR1, YY1, LEP, DPP4, INSM1, MNX1, HSPD1, GAD2, SLC2A2, CASR, RALBP1, RIPK1, PDHX, BTC, UQCRFS1, TP53, TGM2, SSTR5, CDKN1C, INSR, ABCC8, SLC6A2, SSTR4, SSTR3, WFS1, NIT1, SERPINA1, PTPRN, GIP, GCKR, CORO1A, H3P47, PRL, H3P10, ERBB2, GAST, EGR1, ELK3, CALCA, CASP3, EPHB1, G6PC, DLK1, CCN5, SQSTM1, PTTG1, GCM2, LHX2, KL, MAPK8IP1, INSL5, IRS2, ZNRD2, KHDRBS1, DCTN6, LILRB1, FASTK, CCND1, PDIA5, FAS, ATF6, KDM1A, PDZD2, BCL2, BRCA1, TNKS, PLA2G6, HNF1A, TCF19, TGFA, TGFB1, CASP8, THBD, TKT, TSPAN7, TPD52, TRP-AGG2-5, TRPC1, EIPR1, TXN, TYRP1, UCP2, VDR, CACNA1D, BRAF, STAB1, ERP44, NUP62, KCNH4, CAT, KCNH8, GPR119, STOML3, AKT1, HCAR2, GOLGA6A, TICAM2, HES3, MIR107, MIR144, MIR155, MIR204, MIR21, MIR375, INS-IGF2, ADSS2, TMED7-TICAM2, ECT, LINC02210-CRHR1, H3P23, ADM, SLC22A12, TXNDC5, TRABD, RCBTB1, FGF21, MCAT, MCTS1, TMED7, ADIPOR1, DCTN4, CDKAL1, SLC25A38, BANK1, MEG3, ZC3H12A, APOC2, SOX6, SELENOS, IGSF9, SEMA6A, HAMP, G6PC2, PDIA2, ANGPT2, SYP, STAT5A, STC1, STAT5B, KCNJ1, KCNJ6, KRT8, KRT16, KRT19, DECR1, LEPR, LGALS3, LMO2, EPCAM, SMAD2, SMAD3, SMAD4, MAPT, MC2R, MDK, RAB8A, CUX1, MET, CIITA, MLH1, EGF, EGFR, INPPL1, HK1, MTOR, FGF13, GNA12, GPD2, FBN1, GRN, GSK3B, GSR, GTF2H1, ESR2, ELK1, HLA-DQB1, HMGN2, HNF4A, EPHB2, IFI27, IGFBP1, IGFBP2, IL4, IL10, MRC1, NCAM1, NEDD4, SLC2A1, RAP1A, REG1A, CPE, CMA1, S100A8, SCT, CCL2, CXCL12, SDHD, CHGA, RAB3A, CDKN2D, SLC16A1, SNX1, CDC42, CDK1, CCND3, CCNC, CCK, STAT1, RANBP2, CR2, NF1, PIK3CG, NFE2L1, CTSB, NME1, OPA1, PAX4, PAX6, PCSK1, ENPP1, CTNNB1, PKD1, CRHR1, POLD1, MAPK1, MAPK3, MAPK8, ADCYAP1, PRSS1, PSEN2, PSMD9, PTEN, ACO2
- Sneddon Syndrome GARD
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Cryohydrocytosis
OMIM
Results of cation flux analysis were characteristic of leaky red cells and showed a U-shaped temperature dependence. Affected members of both families had initially been diagnosed as 'spherocytic;' Haines et al. (2001) noted that the morphology of fresh specimens showed approximately 20% stomatocytes with many spherocytes as well, but cold storage of the red cells resulted in a marked increase in osmotic fragility and a predominance of macrospherocytes. ... Temperature-Dependent Potassium Flux Patterns Carella et al. (2004) noted that 3 clinical forms of pseudohyperkalemia unassociated with hematologic manifestations, based predominantly on the leak-temperature dependence curve, had been reported: (1) pseudohyperkalemia Edinburgh (see 194380), in which the curve has a shallow slope; (2) pseudohyperkalemia Chiswick or Falkirk (see 609153), in which the curve is shouldered; and (3) pseudohyperkalemia Cardiff (see 609153), in which the temperature dependence of the leak shows a 'U-shaped' profile with a minimum at 23 degrees C. ... At cold temperatures, the RBCs swelled in KCl-containing media but not in NaCl-containing or KNO(3)-containing media, indicating that volume changes were mediated by an anion-coupled cation transporter. In NaCl-containing media, net HOE642-sensitive Na(+)/K(+) exchange prevailed, whereas in KCl-containing media, swelling was mediated by a Cl-dependent K(+) uptake. Unidirectional K(+) influx measurements showed that the patient's cells had abnormally high activities of the K(+)Na(+)/H(+) exchanger (KNHE) and the K(+),Cl(-) cotransporter (KCC), which could account for the observed net movements of cations. Neither chloride nor cation conductance in patient RBCs differed from that of healthy donors.SLC4A1, IFNA1, IFNL3, PAEP, IL10, IFNA13, IFNA2, GPT, PNPLA3, IFNL4, CXCL10, MIR122, ADIPOQ, FBL, TNF, IFNG, AFP, HFE, IL6, TLR3, LEP, STOM, LGALS3BP, TLR7, MTHFR, TM6SF2, RBP4, HLA-C, VDR, TP53, HAMP, IL21, ITPA, IGF1, CLTC, SCARB1, SOCS1, KIR3DL1, IL22, IL15, MIR146A, IFNB1, APOB, TLR4, HLA-DRB1, HLA-DQA1, MIR145, HLA-B, HLA-A, SOCS3, UGT1A1, SLC2A1, TLR2, GEM, TLL1, SEMA3C, RNF7, NR1D2, MIR21, MIR324, AKT3, MIR27A, WDHD1, EIF2AK3, POLG2, USP18, MIR19A, MIR199A2, KLF12, GDF15, TNFRSF1A, MIR221, DDX58, MIR224, IER3, NR0B2, SEMA5A, VEGFA, MIR296, PGR-AS1, ABCB11, VCAM1, SLC33A1, TNFSF4, TRAF6, MIR34A, HEIH, SPEN, IFNL2, GALNT8, SIKE1, MAVS, MIR106A, CISD3, IFIH1, MBOAT7, CYBRD1, SEMA6D, RNF34, SLC17A5, IFNL1, GGT2, GGTLC3, SLC4A11, CYP2R1, RBM45, A2ML1, AICDA, GGTLC4P, RALGAPB, MIR130A, TBK1, TBX21, MIR199A1, SLC40A1, IFNLR1, IL21R, GOLM1, MIR195, MIR1307, TLR8, MIR192, GHRL, RTEL1, GGTLC5P, CD24, MIR602, PLIN2, TGFB1, CHI3L1, CMKLR1, CNR1, CNR2, CPT1A, CRP, CSF2, CST3, CTLA4, CYP2E1, DBP, DDX5, DPP4, EPO, ETFA, ETV6, FBP1, FCAR, FOXM1, GGT1, CCR5, CD69, TGFA, CD38, AGTR1, ANGPT2, APOA1, APOE, APP, AQP4, ARG1, ATM, BCL2, BCL2A1, BCL6, BGN, VPS51, CAD, CASP1, CD247, CD14, CD27, CD34, GPC3, GOT1, GOT2, CXCR3, NUDT1, MTTP, MUC1, MX1, NCAM1, OGG1, PECAM1, PIK3R2, PPP2CA, PTPA, PLAAT4, RIT2, CCL4, CCL22, CXCL11, SLC6A4, SPP1, STAT1, TAPBP, MBL2, SMAD4, LPL, IL17A, HBB, HLA-DQA2, IGF1R, IL4, IL5, CXCR2, IL10RA, TNFRSF9, IMPDH2, LGALS9, ITGAE, JUN, KDR, L1CAM, LAG3, LALBA, LAMC2, LBP, RARRES2
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West Nile Fever
Wikipedia
Prevention [ edit ] Low-cost, ceiling hung mosquito netting for a bed Many of the guidelines for preventing occupational West Nile virus exposure are common to all mosquito-borne diseases . [57] Public health measures include taking steps to reduce mosquito populations. ... DEET formulations as high as 30% are recommended for children over two months of age. [58] The CDC also recommends the use of: IR3535, oil of lemon eucalyptus, para-menthane-diol, or 2-undecanone. [59] Protect infants less than two months of age by using a carrier draped with mosquito netting with an elastic edge for a tight fit. ... Repellents containing permethrin ( e.g. , Permanone) or other insect repellents may be applied to clothing, shoes, tents, mosquito nets, and other gear. (Permethrin is not suitable for use directly on skin.) ... References [ edit ] ^ a b c d e f g h i j k l m n o p q r s t u v w x y "General Questions About West Nile Virus" . www.cdc.gov . 19 October 2017. ... Retrieved 28 October 2017 . ^ Gompf, Sandra. "West Nile Virus" . Medicine Net . MedicineNet Inc . Retrieved 15 January 2019 . ^ "Symptoms, Diagnosis, & Treatment" .CCR5, ERVK-32, ROBO3, MAVS, DDX58, PLAAT4, IFIT2, ERVK-6, STAT1, SPP1, OAS1, IL1B, IFNB1, RNASEL, CASP8, HLA-DRB1, PELI1, SELENBP1, ARHGEF2, LRRFIP1, NAMPT, TRAIP, RIPK3, SEC14L2, CSF1R, LAMP3, ERVW-1, FOXP3, ZMYND10, DDX56, CCR7, VCP, CDKN2A, IFIH1, DHX58, ZBP1, HAVCR2, PIK3IP1, NLRP3, TNFRSF13C, TRIM6, RBM45, CCR2, ERVK-20, ERVK-18, VAMP8, TNFRSF1A, IFNA1, TNF, IFNA13, HLA-DQA1, IL1A, HLA-C, IL10, IL17A, IL18, IRF3, IRF5, KIR2DL2, KIR3DL1, KIR3DS1, LSAMP, CD180, SMAD4, MMP9, HLA-A, PIK3CA, PIK3CB, PIK3CD, PIK3CG, PZP, GLS, CASP1, SNCA, GEM, DDX3X, TAP1, TLR3, ATF4
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Mosquito Bites
Mayo Clinic
Avoid and exclude mosquitoes Limit exposure to mosquitoes by: Repairing any tears in the screens on windows, doors and camping gear Using mosquito netting over strollers and cribs Using mosquito netting when sleeping outdoors Selecting self-care products that don't have scents Use insect repellent Use insect repellent when mosquitoes are active. ... Some sporting goods stores sell clothing pretreated with permethrin. Don't wash bed nets or set them in sunlight, as this breaks down permethrin.
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Leishmaniasis
Wikipedia
Prevention [ edit ] Using insecticide can reduce phlebotomine sandfly numbers which in turn reduces the risk of cutaneous leishmaniasis infection. [18] Leishmaniasis can be partly prevented by using nets treated with insecticide while sleeping. [2] To provide good protection against sandflies, fine mesh sizes of 0.6 mm or less are required, but a mosquito net with 1.2mm mesh will provide a limited reduction in the number of sandfly bites. [19] Finer mesh sizes have the downside of higher cost and reduced air circulation which can cause overheating. Many Phlebotomine sandfly attacks occur at sunset rather than at night, so it may also be useful to put nets over doors and windows or to use insect repellents . ... Retrieved 23 December 2013 . ^ a b c d e f g h i j k l m n o p q r s t u v w x y z "Leishmaniasis Fact sheet N°375" . ... Retrieved 17 February 2014 . ^ a b c d e f g h i j k l m n o p q r s t u v Barrett MP, Croft SL (2012). "Management of trypanosomiasis and leishmaniasis" . ... Centers for Disease Control and Prevention . January 2013. ^ González U, Pinart M, Sinclair D, Firooz A, Enk C, Vélez ID, et al.TNF, IFNG, IL10, IL6, ARG1, IL18, CRP, TNFRSF18, MCL1, HSPA4, IL1B, SLC11A1, CXCL10, NLRP3, IL17A, TLR2, CCR5, TLR4, IL32, PRDX2, LEP, TGFB1, CD274, FCN2, CD163, MTOR, HM13, IL4, BCL2, BAX, LMLN, IGF1, HIF1A, ANXA1, VDR, UNG, TAM, NR0B2, EZR, ADA, TLR3, STAT1, MAPK3, MAPK4, EIF2AK2, PSG5, PSMD7, PTHLH, PTPN1, PTPN2, PTPN6, RPA1, RPS6, CCL2, CCL8, CXCL11, SLC1A5, SLC1A7, SNAP25, SOAT1, SPP1, TP63, EIF2S2, CDK5R1, GOPC, FOXP3, HSPA14, CD244, TOLLIP, FBLIM1, MSTO1, FBXW7, ACSS2, PDXP, SLC52A2, ALDH1A2, TMPRSS13, DCLK3, IL33, CDCA5, PWAR1, ARMH1, HNP1, CCR2, UPK3B, DLL1, SGSM3, NOX1, PABPC1, NR1I2, SPHK1, EIF2B4, EIF2B2, PRKAB1, HSPB3, SLC7A6, ARHGEF2, AIM2, H6PD, RABEPK, LANCL1, TNFSF13B, EBNA1BP2, CD160, GABARAPL2, GABARAPL1, PRDX5, POLR1A, MAPK1, NOS2, PRKAA2, PRKAA1, CST3, CTLA4, CTSB, CTSL, CYP51A1, DDT, DHFR, DPAGT1, DPP4, DSPP, DUSP4, EEF1B2, EEF2, EGFR, EIF2B1, F2R, FCGR2A, FECH, FLI1, CPB1, CCR7, LRBA, ATR, AKT1, ALDH1A1, APEX1, APRT, AQP1, ATM, ATP2A3, ATP2B4, PRDM1, CD69, BRCA1, CAPN1, CD1A, CD28, CD86, CD40, CD40LG, CD44, FPR2, G6PD, GAPDH, CYTB, MNAT1, CD200, MPG, MPL, MPST, MRC1, MSMB, MST1, AHR, MFAP1, PAEP, PHB, PIK3CA, PIK3CB, PIK3CD, PIK3CG, PLP1, PNOC, MAP3K10, MBL2, GCHFR, IFNB1, GCK, GTF3C1, HLA-C, HMOX1, HSPD1, IFN1@, IFNA1, IFNA13, IL1A, LTA, IL9, IL12A, IL12RB1, IL13, ITGA4, ITGAL, JAK2, RPSA, H3P28
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Pseudohyperkalemia, Familial, 2, Due To Red Cell Leak
OMIM
Potassium influx studies demonstrated that, as in other families with pseudohyperkalemia, the net K loss that occurs in the red cells at room temperature or below can be attributed to the disparity in temperature dependence between this 'leak' flux and the opposing NaK pump, which always shows a simple and steep monotonic fall with decreasing temperature. ... Gore et al. (2002) noted that this had been observed in 3 previous families with cryohydrocytosis and a similar U-shaped K-flux temperature curve (Coles et al., 1999 and Haines et al., 2001; see 185020), suggesting an association between an excess of ether lipids in the red cell membrane and a U-shaped temperature dependence of K flux. ... The authors also emphasized the 'very major heterogeneity' of leaky membrane conditions when studied in detail, citing the U-shaped pattern seen in the Cardiff family, the shallow slope observed in the Edinburgh family as well as the frankly hemolytic Blackburn pedigree (Coles et al., 1999; see 185020), and the shoulder pattern seen in the Falkirk and Chiswick pedigrees. ... Temperature-Dependent Potassium Flux Patterns Carella et al. (2004) noted that 3 clinical forms of pseudohyperkalemia unassociated with hematologic manifestations, based predominantly on the leak-temperature dependence curve, had been reported: (1) pseudohyperkalemia Edinburgh (see 194380), in which the curve has a shallow slope; (2) pseudohyperkalemia Chiswick or Falkirk, in which the curve is shouldered; and (3) pseudohyperkalemia Cardiff, in which the temperature dependence of the leak shows a 'U-shaped' profile with a minimum at 23 degrees C. ... INHERITANCE - Autosomal dominant HEMATOLOGY - No significant hemolysis - Normal red cell morphology - Increased passive permeability of potassium through red cell membrane at reduced temperatures - Unchanged passive permeability of sodium through red cell membrane at reduced temperatures - Macrocytosis after 24 hours on ice (in some patients) LABORATORY ABNORMALITIES - Elevated serum potassium in blood stored at less than 37 degrees centigrade - Normal serum potassium in blood tested immediately after drawing MISCELLANEOUS - 'Shoulder' pattern of temperature-dependent potassium flux (in some patients) - U-shaped pattern of temperature-dependent potassium flux (in some patients) MOLECULAR BASIS - Caused by mutation in the ATP-binding cassette, subfamily B, member 6 gene (ABCB6, 605452.0013 ) ▲ Close
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Clanging
Wikipedia
. ^ Spitzer, Manfred (1999). The mind within the net: Models of learning, thinking, and acting .
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Chronic Hallucinatory Psychosis
Wikipedia
Others, again, might be swept into the widespread net of dementia praecox . This state of affairs cannot be regarded as satisfactory, for they are not truly cases of melancholia, paranoia, dementia praecox or any other described affection.
