Citations Report

Imaging in Medicine : Citations & Metrics Report

Articles published in Imaging in Medicine have been cited by esteemed scholars and scientists all around the world.

Imaging in Medicine has got h-index 20, which means every article in Imaging in Medicine has got 20 average citations.

Following are the list of articles that have cited the articles published in Imaging in Medicine.

  2021 2020 2019 2018 2017 2016

Year wise published articles

46 28 15 37 50 24

Year wise citations received

456 438 418 381 363 329
Journal total citations count 3456
Journal impact factor 6.04
Journal 5 years impact factor 8.41
Journal cite score 8.33
Journal h-index 20
Journal h-index since 2017 17
Journal Impact Factor 2020 formula
IF= Citations(y)/{Publications(y-1)+ Publications(y-2)} Y= Year
Journal 5-year Impact Factor 2020 formula
Citations(2016 + 2017 + 2018 + 2019 + 2020)/
{Published articles(2016 + 2017 + 2018 + 2019 + 2020)}
Journal citescore
Citescorey = Citationsy + Citationsy-1 + Citationsy-2 + Citations y-3 / Published articlesy + Published articlesy-1 + Published articlesy-2 + Published articles y-3
  • Mohy-ud-Din H. Motion Correction and Pharmacokinetic Analysis in Dynamic Positron Emission Tomography (Doctoral dissertation, Johns Hopkins University). View at Publisher | View at Google Scholar | View at Indexing
  • Boyden TF, Murthy VL. Risk Stratification with Cardiac Rubidium-82 Positron Emission Tomography. Current Cardiovascular Imaging Reports. 2014 May 1;7(5):9266. View at Publisher | View at Google Scholar | View at Indexing
  • Palekar RU, Jallouk AP, Lanza GM, Pan H, Wickline SA. Molecular imaging of atherosclerosis with nanoparticle-based fluorinated MRI contrast agents. Nanomedicine. 2015 Jun;10(11):1817-32. View at Publisher | View at Google Scholar | View at Indexing
  • Degnan AJ, Young VE, Gillard JH. Advances in noninvasive imaging for evaluating clinical risk and guiding therapy in carotid atherosclerosis. Expert review of cardiovascular therapy. 2012 Jan 1;10(1):37-53. View at Publisher | View at Google Scholar | View at Indexing
  • Toia P, La Grutta L, Sollami G, Clemente A, Gagliardo C, Galia M, Maffei E, Midiri M, Cademartiri F. Technical development in cardiac CT: current standards and future improvements—a narrative review. Cardiovascular Diagnosis and Therapy. 2020 Dec;10(6):2018. View at Publisher | View at Google Scholar | View at Indexing
  • Frinking P, Segers T, Luan Y, Tranquart F. Three decades of ultrasound contrast agents: a review of the past, present and future improvements. Ultrasound in medicine & biology. 2020 Apr 1;46(4):892-908. View at Publisher | View at Google Scholar | View at Indexing
  • Pellow C, Abenojar EC, Exner AA, Zheng G, Goertz DE. Concurrent visual and acoustic tracking of passive and active delivery of nanobubbles to tumors. Theranostics. 2020;10(25):11690. View at Publisher | View at Google Scholar | View at Indexing
  • Rousou C, Schuurmans CC, Urtti A, Mastrobattista E, Storm G, Moonen C, Kaarniranta K, Deckers R. Ultrasound and Microbubbles for the Treatment of Ocular Diseases: From Preclinical Research towards Clinical Application. Pharmaceutics. 2021 Nov;13(11):1782. View at Publisher | View at Google Scholar | View at Indexing
  • Xu H, Sun G, Wang H, Yue Q, Tang H, Wu Q. Dynamic observation of the radiosensitive effect of irisquinone on rabbit VX2 lung transplant tumors by using fluorine-18-deoxyglucose positron emission tomography/computed tomography. Nuclear medicine communications. 2013 Mar 1;34(3):220-8. View at Publisher | View at Google Scholar | View at Indexing
  • Zaman MU, Fatima N. Diabetes and Coronary Artery Disease: Role of Functional Imaging. View at Publisher | View at Google Scholar | View at Indexing
  • Slart RH, Juarez-Orozco LE. Early post-STEMI PET, a judicious investment?. View at Publisher | View at Google Scholar | View at Indexing
  • Jaimovich R. Cardiología Nuclear: Nuevos desarrollos y perspectivas futuras. Revista Médica Clínica Las Condes. 2018 Jan 1;29(1):54-60. View at Publisher | View at Google Scholar | View at Indexing
  • Tu E, Azmat M, Branch K, Alessio A. Machine learned approach for estimating myocardial blood flow from dynamic CT and coronary artery disease risk factors. InMedical Imaging 2021: Biomedical Applications in Molecular, Structural, and Functional Imaging 2021 Feb 15 (Vol. 11600, p. 116001I). International Society for Optics and Photonics. View at Publisher | View at Google Scholar | View at Indexing
  • Turiel M, Gianturco L, Atzeni F, Sarzi-Puttini P, Porcu M, Corda M. Cardiac Imaging Techniques in Systemic Autoimmune Diseases. InHandbook of Systemic Autoimmune Diseases 2017 Jan 1 (Vol. 14, pp. 183-207). Elsevier. View at Publisher | View at Google Scholar | View at Indexing
  • Hussain S, AlRashed M, Rajan R, Al-Jarallah M, Brady PA, Soman B, Dashti R. Chronic coronary syndrome: A review of the literature. Annals of Clinical Cardiology. 2021 Jan 1;3(1):3. View at Publisher | View at Google Scholar | View at Indexing
  • Wang S, Choi JW. Imaging the Vasculature of Immunodeficient Mice Using Positron Emission Tomography/computed Tomography (PET/CT) and 18F-fluorodeoxyglucose Labeled Human Erythrocytes. Bio-protocol. 2019 Oct 5;9(19). View at Publisher | View at Google Scholar | View at Indexing
  • Wang S, Choi JW. Imaging the Vasculature of Immunodeficient Mice Using Positron Emission Tomography/computed Tomography (PET/CT) and 18F-fluorodeoxyglucose Labeled Human Erythrocytes. Bio-protocol. 2019 Oct 5;9(19). View at Publisher | View at Google Scholar | View at Indexing
  • Turiel M, Colombo C, Signorello MC, Gianturco L. Subclinical Cardiovascular Involvement in Autoimmune Diseases: Role of Coronary Flow Reserve. Immunome Res. 2013;72:2. View at Publisher | View at Google Scholar | View at Indexing
  • Kawano M, Tsuchiya J, Bae H, Kimura K, Yokoyama K, Takahashi M, Honda M, Tominaga M, Tateishi U. Phase I clinical study of NMB58, a novel positron emission tomography (PET)-myocardial perfusion imaging tracer, conducted to evaluate its safety and pharmacokinetics in Japanese healthy adult males. Annals of Nuclear Medicine. 2021 May;35(5):580-8. View at Publisher | View at Google Scholar | View at Indexing
  • Vega TM, Fernández RJ. Cardiovascular Risk Stratification Prior to Non-cardiac Surgery. InNuclear Cardiology 2021 (pp. 495-515). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
  • Alnabelsi T, Thakkar A, Ahmed AI, Han Y, Al-Mallah MH. PET/CT Myocardial Perfusion Imaging Acquisition and Processing: Ten Tips and Tricks to Help You Succeed. Current Cardiology Reports. 2021 May;23(5):1-9. View at Publisher | View at Google Scholar | View at Indexing
  • Smanio PE, Luz FA. Nuclear Imaging in Stable Ischemic Coronary Disease. InNuclear Cardiology 2021 (pp. 265-290). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
  • Sirajuddin A, Mirmomen SM, Kligerman SJ, Groves DW, Burke AP, Kureshi F, White CS, Arai AE. Ischemic Heart Disease: Noninvasive Imaging Techniques and Findings. RadioGraphics. 2021 May 21: 200125. View at Publisher | View at Google Scholar | View at Indexing
  • Yang B, Wang X, Li A, Moody JB, Tang J. Dictionary learning constrained direct parametric Estimation in dynamic myocardial Perfusion PET. IEEE Transactions on Medical Imaging. 2021 Jun 14. View at Publisher | View at Google Scholar | View at Indexing
  • Harland DR, Galazka PZ, Rasmussen J, Mahlum D, Falk J, Port SC. Feasibility of exercise treadmill 13 N-ammonia positron emission tomography myocardial Perfusion Imaging using an off-site cyclotron. Journal of Nuclear Cardiology. 2020 Oct 18: 1-8. View at Publisher | View at Google Scholar | View at Indexing
  • Juhani Knuuti MD. The performance of non-invasive tests to rule-in and rule-out significant coronary artery stenosis in patients with stable angina. View at Publisher | View at Google Scholar | View at Indexing
  • Ferreira MJ, Cerqueira MD. Clinical Applications of Nuclear Cardiology. Clinical Nuclear Medicine. 2020 May 6: 233. View at Publisher | View at Google Scholar | View at Indexing
  • Banks KP, Song WS. Role of Positron Emission Tomography–Computed Tomography in Gastrointestinal Malignancies. Radiologic Clinics. 2013 Sep 1;51(5):799-831. View at Publisher | View at Google Scholar | View at Indexing
  • Kwon HR, Pahk K, Park S, Kwon HW, Kim S. Prognostic Value of Metabolic Information in Advanced Gastric Cancer Using Preoperative 18 F-FDG PET/CT. Nuclear medicine and molecular imaging. 2019 Dec;53(6):386-95. View at Publisher | View at Google Scholar | View at Indexing
  • Howard BA, Wong TZ. 18F-FDG-PET/CT Imaging for Gastrointestinal Malignancies. Radiologic Clinics. 2021 Sep 1;59(5):737-53. View at Publisher | View at Google Scholar | View at Indexing
  • Beer AJ, Pelisek J, Heider P, Saraste A, Reeps C, Metz S, Seidl S, Kessler H, Wester HJ, Eckstein HH, Schwaiger M. PET/CT imaging of integrin αvβ3 expression in human carotid atherosclerosis. JACC: Cardiovascular Imaging. 2014 Feb;7(2):178-87. View at Publisher | View at Google Scholar | View at Indexing
  • Camici PG, Rimoldi OE, Gaemperli O, Libby P. Non-invasive anatomic and functional imaging of vascular inflammation and unstable plaque. European heart journal. 2012 Jun 1;33(11):1309-17. View at Publisher | View at Google Scholar | View at Indexing
  • Den Hartog AG, Bovens SM, Koning W, Hendrikse J, Luijten PR, Moll FL, Pasterkamp G, De Borst GJ. Current status of clinical magnetic resonance imaging for plaque characterisation in patients with carotid artery stenosis. European Journal of Vascular and Endovascular Surgery. 2013 Jan 1;45(1):7-21. View at Publisher | View at Google Scholar | View at Indexing
  • Sismanis A. Pulsatile tinnitus: contemporary assessment and management. Current opinion in otolaryngology & head and neck surgery. 2011 Oct 1;19(5):348-57. View at Publisher | View at Google Scholar | View at Indexing
  • Anderson NG, Butler AP. Clinical applications of spectral molecular imaging: potential and challenges. Contrast media & molecular imaging. 2014 Jan;9(1):3-12. View at Publisher | View at Google Scholar | View at Indexing
  • Esposito-Bauer L, Saam T, Ghodrati I, Pelisek J, Heider P, Bauer M, Wolf P, Bockelbrink A, Feurer R, Sepp D, Winkler C. MRI plaque imaging detects carotid plaques with a high risk for future cerebrovascular events in asymptomatic patients. PLoS One. 2013 Jul 24;8(7):e67927. View at Publisher | View at Google Scholar | View at Indexing
  • Saito A, Sasaki M, Ogasawara K, Kobayashi M, Hitomi J, Narumi S, Ohba H, Yamaguchi M, Kudo K, Terayama Y. Carotid plaque signal differences among four kinds of T1-weighted magnetic resonance imaging techniques: a histopathological correlation study. Neuroradiology. 2012 Nov;54(11):1187-94. View at Publisher | View at Google Scholar | View at Indexing
  • Doherty JR, Dumont DM, Trahey GE, Palmeri ML. Acoustic radiation force impulse imaging of vulnerable plaques: a finite element method parametric analysis. Journal of Biomechanics. 2013 Jan 4;46(1):83-90. View at Publisher | View at Google Scholar | View at Indexing
  • Magnoni M, Ammirati E, Camici PG. Non-invasive molecular imaging of vulnerable atherosclerotic plaques. Journal of cardiology. 2015 Apr 1;65(4):261-9. View at Publisher | View at Google Scholar | View at Indexing
  • Jacobin-Valat MJ, Laroche-Traineau J, Larivière M, Mornet S, Sanchez S, Biran M, Lebaron C, Boudon J, Lacomme S, Cérutti M, Clofent-Sanchez G. Nanoparticles functionalised with an anti-platelet human antibody for in vivo detection of atherosclerotic plaque by magnetic resonance imaging. Nanomedicine: Nanotechnology, Biology and Medicine. 2015 May 1;11(4):927-37. View at Publisher | View at Google Scholar | View at Indexing
  • Koning W, Bluemink JJ, Langenhuizen EA, Raaijmakers AJ, Andreychenko A, Van den Berg CA, Luijten PR, Zwanenburg JJ, Klomp DW. High?resolution MRI of the carotid arteries using a leaky waveguide transmitter and a high?density receive array at 7 T. Magnetic resonance in medicine. 2013 Apr;69(4):1186-93. View at Publisher | View at Google Scholar | View at Indexing
  • Doherty JR, Dahl JJ, Kranz PG, El Husseini N, Chang HC, Chen NK, Allen JD, Ham KL, Trahey GE. Comparison of acoustic radiation force impulse imaging derived carotid plaque stiffness with spatially registered MRI determined composition. IEEE transactions on medical imaging. 2015 May 13;34(11):2354-65. View at Publisher | View at Google Scholar | View at Indexing
  • Fang R, Zhang N, Wang C, Zhao X, Liu L, Wang Y, Xu J, Wang X, Liu Z, Wang Y. Relations between plasma ox-LDL and carotid plaque among Chinese Han ethnic group. Neurological research. 2011 Jun 1;33(5):460-6. View at Publisher | View at Google Scholar | View at Indexing
  • Wang M, Yang Y, Zhou F, Li M, Liu R, Guan M, Li R, He L, Xu Y, Zhang B, Zhu B. The contrast enhancement of intracranial arterial wall on high-resolution MRI and its clinical relevance in patients with moyamoya vasculopathy. Scientific reports. 2017 Mar 9;7(1):1-7. View at Publisher | View at Google Scholar | View at Indexing
  • Du R, Cai J, Zhao XQ, Wang QJ, Liu DQ, Leng WX, Gao P, Wu HM, Ma L, Ye P. Early decrease in carotid plaque lipid content as assessed by magnetic resonance imaging during treatment of rosuvastatin. BMC cardiovascular disorders. 2014 Dec;14(1):1-8. View at Publisher | View at Google Scholar | View at Indexing
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  • Wan T, Madabhushi A, Phinikaridou A, Hamilton JA, Hua N, Pham T, Danagoulian J, Kleiman R, Buckler AJ. Spatio?temporal texture (SpTeT) for distinguishing vulnerable from stable atherosclerotic plaque on dynamic contrast enhancement (DCE) MRI in a rabbit model. Medical physics. 2014 Apr;41(4):042303. View at Publisher | View at Google Scholar | View at Indexing
  • Huang X, Yang C, Canton G, Ferguson M, Yuan C, Tang D. Quantifying effect of intraplaque hemorrhage on critical plaque wall stress in human atherosclerotic plaques using three-dimensional fluid-structure interaction models. Journal of biomechanical engineering. 2012 Dec 1;134(12):121004. View at Publisher | View at Google Scholar | View at Indexing
  • Sato Y, Ogasawara K, Narumi S, Sasaki M, Saito A, Tsushima E, Namba T, Kobayashi M, Yoshida K, Terayama Y, Ogawa A. Optimal MR plaque imaging for cervical carotid artery stenosis in predicting the development of microembolic signals during exposure of carotid arteries in endarterectomy: comparison of 4 T1-weighted imaging techniques. American Journal of Neuroradiology. 2016 Jun 1;37(6):1146-54. View at Publisher | View at Google Scholar | View at Indexing
  • Muraoka S, Araki Y, Taoka T, Kawai H, Okamoto S, Uda K, Ota S, Naganawa S, Wakabayashi T. Prediction of intracranial arterial stenosis progression in patients with moyamoya vasculopathy: contrast-enhanced high-resolution magnetic resonance vessel wall imaging. World neurosurgery. 2018 Aug 1;116:e1114-21. View at Publisher | View at Google Scholar | View at Indexing

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