HybriDetect

  1. Piepenburg O., Williams C.H., Stemple D.L., Armes N.A., DNA Detection Using Recom­bi­nation Proteins
  2. Saldar­riaga O. A. et al., An Innov­ative Field-​​Applicable Molecular Test to Diagnose Cutaneous Leish­mania Viannis ssp. Infec­tions. PLoS Negl. Trop. Dis. 2016; 10 (4)
  3. Yang Y et al., Devel­opment of an Isothermal Amplification-​​Based Assay for Rapid Visual Detection of an Orf Virus. Virol. J. 2016; 13:46
  4. Cordray MS et al., A Paper and Plasitc Device for the Combined Isothermal Ampli­fi­cation and Lateral Flow Detection of Plasmodium DNA. Malar. J. 2015; 14, 472
  5. Rosser et al., Isothermal Recom­binase Polymerase Ampli­fi­cation (RPA) of Schis­tosoma haema­tobium DNA and Oligochro­mato­graphic Lateral Flow Detection. Parasit Vectors 2015; 8
  6. Castellanos-​​Gonzalez A et al., A Novel Test to Diagnose Canine Visceral Leish­ma­niasis at the Point of Care. Am. J. Med Hyg. 2015, 93 (5), 970 – 975
  7. Chao CC et al., Devel­opment of Recom­binase Polymerase Ampli­fi­cation Assays for Detection of Orienta Tsutsug­a­mushi or Rickettsia typhi. PLoS Negl. Trop. Dis. 2015; 9 (7)
  8. Nair G. et al., Detection of Entamoeba histolytica by Recom­binase Polymerase Ampli­fi­cation. Am. J. Trop. Med. 2015; 93 (3) 591 – 595
  9. Rohrman B. et al., Inhibi­otion of Recom­binase Polymerase Ampli­fi­cation by Background DNA: A Lateral Flow-​​Based Method for Enriching Target DNA. Anal. Chem. 2015 87 (3), 1963 – 1967
  10. Zhao G et al. Devel­opment of a recom­binase polymerase ampli­fi­cation combined with a lateral flow dipstick assay for rapid detection of the Mycoplasma bovis. BMC Vet Res. 2018 Dec 20;14(1):412
  11. Zhao G. et al., Rapid visual detection of Mycobac­terium avium subsp. paratu­ber­cu­losis by recom­binase polymerase ampli­fi­cation combined with a lateral flow dipstick. J Vet Sci. 2018 Mar 31;19(2):242 – 250.
  12. Qi Y. et al., Devel­opment of a rapid and visual nucleotide detection method for a Chinese epidemic strain of Orientia tsutsug­a­mushi based on recom­binase polymerase ampli­fi­cation assay and lateral flow test. Int J Infect Dis. 2018 May;70:42 – 50.
  13. Ahmed F. A. et al., Genome-​​informed diagnostics for specific and rapid detection of Pecto­bac­terium species using recom­binase polymerase ampli­fi­cation coupled with a lateral flow device. Sci Rep. 2018 Oct 29;8(1):15972
  14. Qi Y. et al., Devel­opment of a rapid and visual detection method for Rickettsia rickettsii combining recom­binase polymerase assay with lateral flow test. PLoS One. 2018 Nov 26;13(11)
  15. Wang H. et al., Rapid visual detection of cyprinid herpesvirus 2 by recom­binase polymerase ampli­fi­cation combined with a lateral flow dipstick. J Fish Dis. 2018 May 28
  16. Wang H. et al., Devel­opment and evalu­ation of serotype-​​specific recom­binase polymerase ampli­fi­cation combined with lateral flow dipstick assays for the diagnosis of foot-​​and-​​mouth disease virus serotype A, O and Asia1. BMC Vet Res. 2018 Nov 20;14(1)
  17. Soliman H. et al., Recom­binase polymerase ampli­fi­cation assay combined with a lateral flow dipstick for rapid detection of Tetra­cap­su­loides bryosalmonae, the causative agent of prolif­er­ative kidney disease in salmonids. Parasit Vectors. 2018 Apr 11;11(1):234.
  18. Soliman H. and El-​​Matoubli M., Rapid detection and differ­en­ti­ation of carp oedema virus and cyprinid herpes virus-​​3 in koi and common carp. J Fish Dis. 2018 May;41(5):761 – 772.
  19. Zasada A. A. et al., Isothermal DNA ampli­fi­cation combined with lateral flow dipsticks for detection of biothreat agents. Anal Biochem. 2018 Nov 1;560:60 – 66.
  20. Kiatpath­omchai W., Jaroenram W., Arunrut N., Jitra­pakdee S., Flegel TW., Shrimp Taura syndrome virus detection by reverse transcription loop-​​mediated isothermal ampli­fi­cation combined with a lateral flow dipstick. Journal of Virological Methods 2008; 153: 214 – 217
  21. Ding W. C., Chen J., Shi Y. H., Lu X. J., Li M. Y.
  22. Surasilp T., Longyant S., Rukpratanporn S., Sridulyakul P., Sithig­orngul P., Chaivi­suthangkura P., Rapid and sensitive detection of Vibrio vulnificus by loop-​​mediated isothermal ampli­fi­cation combined with lateral flow dipstick targeted to rpoS gene. Molecular and Cellular Probes 2011; 25: 158 – 163
  23. Kaewphinit T., Arunrut N., Kiatpath­omchai W., Santi­watanakul S., Jaratsing P., Chansiri K., Detection of Mycobac­terium tuber­cu­losis by using loop-​​mediated isothermal ampli­fi­cation combined with a lateral flow dipstick in clinical samples. Biomed. Res. Int. 2013; 1 – 6
  24. Kusumawati A. et al., Use of reverse transcription loop-​​mediated isothermal ampli­fi­cation combined with lateral flow dipstick for an easy and rapid detection of Jembrana disease virus. Virus­disease. 2015 Sep;26(3):189 – 95
  25. Huang HL et al., The Devel­opment of Loop-​​Mediated Isothermal Ampli­fi­cation Combined with Lateral Flow Dipstick for Detection of Karlo­dinium veneficum. Harmful Algae 2017; 62, 20 – 29.
  26. Yang Y et al., Rapid and sensitive detection of Babesia bovis and Babesia bigemina by loop-​​mediated isothermal ampli­fi­cation combined with a lateral flow dipstick Vet. Parasitol 2016; 219, 71 – 76
  27. Rigano AL et al., Rapid and sensitive detection of Candi­datus Liberib­acter asiaticus by loop mediated isothermal ampli­fi­cation combined with a lateral flow dipstick BMC Microbiol. 2014; 1186
  28. Sun YL et al., Visual Detection of Canine Parvovirus Based on Loop-​​Mediated Isothermal Ampli­fi­cation Combined with Enzyme-​​Linked Immunosorbent Assay and with Lateral Flow Dipstick. J. Vet. Med. Sci. 2014
  29. Vaagt F et al. Loop-​​mediated isothermal ampli­fi­cation (LAMP)-based method for rapid mushroom species identi­fi­cation. J. Agric. Food Chem. 2013; 61 (8), 1833 – 1840.
  30. Huang H. L. et al., Detection of Skele­tonema costatum based on loop-​​mediated isothermal ampli­fi­cation combined with lateral flow dipstick. Mol Cell Probes. 2017 Dec;36:36 – 42.
  31. Lalle M. et al., Loop-​​Mediated Isothermal Amplification-​​Lateral-​​Flow Dipstick (LAMP-​​LFD) to detect Toxoplasma gondii oocyst in ready-​​to-​​eat salad. Food Microbiol. 2018 Apr;70:137 – 142
  32. Kanchanaphum P., Time Course of Detection of Human Male DNA from Stained Blood Sample on Various Surfaces by Loop Mediated Isothermal Ampli­fi­cation and Polymerase Chain Reaction. Biomed Res Int. 2018 Mar 22;2018:2981862
  33. Mamba T. S. et al., Lateral Flow Loop-​​Mediated Isothermal Ampli­fi­cation Test with Stem Primers: Detection of Cryptosporidium Species in Kenyan Children Presenting with Diarrhea. J Trop Med. 2018 Feb 26;2018:7659730
  34. Zasada A. A. et al., Isothermal DNA ampli­fi­cation combined with lateral flow dipsticks for detection of biothreat agents. Anal Biochem. 2018 Nov 1;560:60 – 66.
  35. Taboada L. et al., A new method for the rapid detection of Atlantic cod (Gadus morhua), Pacific cod (Gadus macro­cephalus), Alaska pollock (Gadus chalcogrammus) and ling (Molva molva) using a lateral flow dipstick assay. Food Chem. 2017; 233, 182 – 189
  36. Wong YL et al., Rapid authen­ti­cation of Cordyceps by lateral flow dipstick. J. Pharm. Biomed. Anal 2015, 111, 306 – 310
  37. Pecchia S. and Da Lio D., Devel­opment of a rapid PCR-​​Nucleic Acid Lateral Flow Immunoassay (PCR-​​NALFIA) based on rDNA IGS sequence analysis for the detection of Macrophomina phase­olina in soil.

HIT

  1. Greinacher A., Heparin-​​induced throm­bo­cy­topenia. J Thromb Haemost. 2009; 7 Suppl 1:9 – 12
  2. Wilke T, Tesch S., Scholz A., Kohlmann T., Greinacher A., The Costs of heparin-​​induced throm­bo­cy­topenia: a patient-​​based cost of illness analysis. J Throm Haemost. 2009; 7(5):766 – 73.
  3. Bakchoul T, Giptner A, Najaoui A, Bein G, Santoso S, Sachs UJ. Prospective evalu­ation of PF4/​heparin immunoassays for the diagnosis of heparin-​​induced throm­bo­cy­topenia. J Thromb Haemost. 2009;7 (8):1260 – 5.
  4. Sachs UJ, von Hesberg J, Santoso S, Bein G, Bakchoul T. Evalu­ation of a new nanoparticle-​​based lateral-​​flow immunoassay for the exclusion of heparin-​​induced throm­bo­cy­topenia (HIT). J Thromb Haemost. 2011; 106(6).
  5. Warkentin TE, Greinacher A, Koster A, Lincoff AM. American College of Chest Physicians.Treatment and prevention of heparin-​​induced throm­bo­cy­topenia: American College of Chest Physi­cians Evidence-​​Based Clinical Practice Guide­lines (8th Edition). Chest. 2008 Jun;133(6 Suppl):340S-380S.

IL-​​6

  1. Kunze M. et al., Infek­tion­spa­ra­meter aus abgehenden Frucht­wasser bei Patientinnen mit frühem vorzeitigen Blasen­sprung 2008
  2. Rzepka R. et al., Rapid assessment of the IL-​​6 Cervico-​​Vaginal Fluid Level Threat­ening Preterm Labor Ginekol. Pol. 2009; 80 (9)
  3. Vousden N. et al., Interleukin-​​6 Bedside Testing in Woman at High Risk of Preterm Birth. J. Matern Fetal Neonatal Med 2011; 24 (10); 1301 – 1304
  4. Berthiaume M. et al., Rapid Evalu­ation of the Absence of Inflam­mation after Rupture of Membranes. J. Matern. Fetal Neonatal Med 2014 27 (9); 865 – 869
  5. Kacerovsky M et al., Bedside Assessment of Amniotic Fluid Interleukin-​​6 in Preterm Premature Rupture of Membranes. Am J Obstet Gynecol. 2014 Oct;211(4):385.e1-9
  6. Chaem­saithong P. et al., A Point of Care Test for the Deter­mi­nation of Amniotic Fluid Interleukin-​​6 and the Chemokine CXCL-​​10/​IP-​​10. J Matern Fetal Neonatal Med. 2014.
  7. Chaem­saithong P. et al., A Rapid Interleukin-​​6 Bedside Test for the Identi­fi­cation of Intra-​​amniotic Inflam­mation in Preterm Labor with Intact Membranes. J Matern Fetal Neonatal Med. 2015.
  8. Kacerovsky M. et al., Detection of Intraam­niotic Inflam­mation in Fresh and Processed Amniotic Fluid Samples With the Interleukin-​​6 Point-​​of-​​Care Test. Am J Obstet Gynecol. 2015 Sep;213(3):435 – 6
  9. Kunze M. et al., Cytokines in Nonin­va­sively Obtained Amniotic Fluid as Predictors of Fetal Inflam­matory Response Syndrome. Am J Obstet Gynecol. 2016, 215: 96. e1-​​8.
  10. Musilova I. et al., Vaginal Fluid IL-​​6 Concen­tra­tions as a Point-​​of-​​Care Test is of Value in Woman with Preterm PROM. Am J Obstet Gynecol. 2016.
  11. Chaem­saithong P. et al., A Point of Care test for Interleukin-​​6 in Amniotic Fluid in Preterm Premature Rupture of Membranes: A Step Toward the Early Treatment of Acute Intra-​​Amniotic Inflammation/​Infection. J Matern Fetal Neonatal Med. 2016, 29(3), 360 – 367
  12. Görbe E. et al., Szerum-​​interleukin-​​6-​​meghatározás gyorsteszt segit­ségével. Az újszülöt­tkori szepsis korai diagnózisa, kizárása. Klinikai Tanul­mányok 2007; 148; 1609 – 1614
  13. Neunho­effer F. et al. Vergleich von Plasma Interleukin-​​6 und –8-​​Konzentrationen bei früher und später Form der neona­talen bakteriellen Infektion Z. Geburtsh. Neonatol 2008; 212; S1-​​S116
  14. Rabe H. et al., Frühe Verän­derung der Hautmikrozirku­lation bei Früh– und Neuge­borenen (NG) mit Verdacht auf bakterielle Infek­tionen Z. Geburtsh. Neonatol 2008; 212; S1-​​S116
  15. Batfalsky A. et al., Diagnostic Value of an Interleukin-​​6 Bedside Test in Term and Preterm Neonates at the Time of Clinical Suspicion of Early– and Late-​​Onset Bacterial Infection Neona­tology 2012; 102; 37 – 44
  16. Kaufmann I. et al., Stress Doses of Hydro­cor­tisone in Septic Shock: Beneficial Effects on Opsonization-​​Dependent Neutrophil Function, Intensive Care Med. 2007
  17. Schefold J. C. et al., Interleukin-​​6 Serum Level Assessment Using A New Quali­tative Point-​​of-​​Care Test in Sepsis: A Comparison With ELISA Measure­ments, Clin. Biochem. 2008
  18. Schlosser H.-G. et al., A New Quali­tative Interleukin-​​6 Bedside Test Can Predict Pneumonia in Patients With Severe Head Injury – Comparison to the Standard Immulite Test and a Semiquan­ti­tative Bedside Test, J. Neurosurg. Anesthesiol. 2007; 19; 1; 5 – 9
  19. Dengler J. et al., Point-​​of-​​Care Testing for Interleukin-​​6 in Cerebro Spinal Fluid (CSF) after Subarachnoid Haemor­rhage Med. Sci. Monit. 2008; 14 (2); BR265-​​268
  20. Stancik I. et al., Effect of Antibiotic Therapy on Interleukin-​​6 in Fresh Semen and Postmas­tur­bation Urine Samples of Patients with Chronic Prosta­titis /​ Chronic Pelvic Pain Syndrome, J. Urolog. 2008; 72 (2); 336 – 339
  21. Wimmer MD et al., The QuickLine IL-​​6 Lateral Flow Immonoassay Improves the Rapid Intra­op­er­ative Disgnosis of Suspected Peripros­thetic Joint Infec­tions. Technol. Health Care 2016