Frontiers of Hormone Research
Vaikuttavuuskerroin - Analyysi · Trendi · Sijoitus · Ennustus


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Vaikuttavuuskerroin

2020-2021

2.606

19.0%

Vaikuttavuuskerroin Trend

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Highly Cited Articles

Frontiers of Hormone Research

High Impact Research Articles
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Highly Cited Keywords

Frontiers of Hormone Research

High Impact Research Keywords

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Frontiers of Hormone Research

The 2020-2021 Vaikuttavuuskerroin of Frontiers of Hormone Research is 2.606, which is just updated in 2021.

Frontiers of Hormone Research Impact Factor
Highest IF
3.304
Highest Vaikuttavuuskerroin

The highest Vaikuttavuuskerroin of Frontiers of Hormone Research is 3.304.

Lowest IF
1.237
Lowest Vaikuttavuuskerroin

The lowest Vaikuttavuuskerroin of Frontiers of Hormone Research is 1.237.

Total Growth Rate
52.2%
IF Total Growth Rate

The total growth rate of Frontiers of Hormone Research IF is 52.2%.

Annual Growth Rate
5.2%
IF Annual Growth Rate

The annual growth rate of Frontiers of Hormone Research IF is 5.2%.

Vaikuttavuuskerroin Ranking

Subcategory Quartile Rank Percentile
Endocrinology, Diabetes and Metabolism Q2 103/219

Endocrinology, Diabetes and Metabolism 53%

Endocrinology Q3 67/117

Endocrinology 43%

Vaikuttavuuskerroin Ranking

· In the Endocrinology, Diabetes and Metabolism research field, the Quartile of Frontiers of Hormone Research is Q2. Frontiers of Hormone Research has been ranked #103 over 219 related journals in the Endocrinology, Diabetes and Metabolism research category. The ranking percentile of Frontiers of Hormone Research is around 53% in the field of Endocrinology, Diabetes and Metabolism.
· In the Endocrinology research field, the Quartile of Frontiers of Hormone Research is Q3. Frontiers of Hormone Research has been ranked #67 over 117 related journals in the Endocrinology research category. The ranking percentile of Frontiers of Hormone Research is around 43% in the field of Endocrinology.

Frontiers of Hormone Research Impact Factor 2021-2022 Prediction

Frontiers of Hormone Research Impact Factor Predition System

Frontiers of Hormone Research Impact Factor Prediction System is now online. You can start share your valuable insights with the community.

Predict Check All Preditions
Total Publications
523
Total Citations
9387

Annual Publication Volume

Annual Citation Record

International Collaboration Trend

Cited Documents Trend

Vaikuttavuuskerroin History

Year Vaikuttavuuskerroin
Year Vaikuttavuuskerroin
2020-2021 2.606
2019-2020 2.189
2018-2019 1.615
2017-2018 1.321
2016-2017 2.279
2015-2016 3.02
2014-2015 3.304
2013-2014 -
2012-2013 1.237
2011-2012 1.712
Vaikuttavuuskerroin History

· The 2020-2021 Vaikuttavuuskerroin of Frontiers of Hormone Research is 2.606
· The 2019-2020 Vaikuttavuuskerroin of Frontiers of Hormone Research is 2.189
· The 2018-2019 Vaikuttavuuskerroin of Frontiers of Hormone Research is 1.615
· The 2017-2018 Vaikuttavuuskerroin of Frontiers of Hormone Research is 1.321
· The 2016-2017 Vaikuttavuuskerroin of Frontiers of Hormone Research is 2.279
· The 2015-2016 Vaikuttavuuskerroin of Frontiers of Hormone Research is 3.02
· The 2014-2015 Vaikuttavuuskerroin of Frontiers of Hormone Research is 3.304
The Vaikuttavuuskerroin 2013-2014 of Frontiers of Hormone Research is still under analysis. Stay Tuned!
· The 2012-2013 Vaikuttavuuskerroin of Frontiers of Hormone Research is 1.237
· The 2011-2012 Vaikuttavuuskerroin of Frontiers of Hormone Research is 1.712

Publications Cites Dataset

Year Publications Citations
Year Publications Citations
1975 16 8
1976 0 22
1977 30 42
1978 13 64
1979 0 105
1980 2 85
1981 0 90
1982 0 108
1983 0 57
1984 33 72
1985 8 63
1986 0 52
1987 24 83
1988 1 57
1989 0 72
1990 0 44
1991 14 50
1992 0 39
1993 0 46
1994 0 32
1995 0 36
1996 5 38
1997 4 44
1998 0 28
1999 13 43
2000 1 26
2001 27 59
2002 25 101
2003 0 97
2004 25 151
2005 13 161
2006 27 236
2007 0 275
2008 19 297
2009 14 476
2010 39 585
2011 0 525
2012 0 551
2013 21 461
2014 26 594
2015 17 598
2016 37 536
2017 12 521
2018 19 446
2019 38 540
2020 0 724
2021 0 47
Publications Cites Dataset

· The Frontiers of Hormone Research has published 16 reports and received 8 citations in 1975.
· The Frontiers of Hormone Research has published 0 reports and received 22 citations in 1976.
· The Frontiers of Hormone Research has published 30 reports and received 42 citations in 1977.
· The Frontiers of Hormone Research has published 13 reports and received 64 citations in 1978.
· The Frontiers of Hormone Research has published 0 reports and received 105 citations in 1979.
· The Frontiers of Hormone Research has published 2 reports and received 85 citations in 1980.
· The Frontiers of Hormone Research has published 0 reports and received 90 citations in 1981.
· The Frontiers of Hormone Research has published 0 reports and received 108 citations in 1982.
· The Frontiers of Hormone Research has published 0 reports and received 57 citations in 1983.
· The Frontiers of Hormone Research has published 33 reports and received 72 citations in 1984.
· The Frontiers of Hormone Research has published 8 reports and received 63 citations in 1985.
· The Frontiers of Hormone Research has published 0 reports and received 52 citations in 1986.
· The Frontiers of Hormone Research has published 24 reports and received 83 citations in 1987.
· The Frontiers of Hormone Research has published 1 reports and received 57 citations in 1988.
· The Frontiers of Hormone Research has published 0 reports and received 72 citations in 1989.
· The Frontiers of Hormone Research has published 0 reports and received 44 citations in 1990.
· The Frontiers of Hormone Research has published 14 reports and received 50 citations in 1991.
· The Frontiers of Hormone Research has published 0 reports and received 39 citations in 1992.
· The Frontiers of Hormone Research has published 0 reports and received 46 citations in 1993.
· The Frontiers of Hormone Research has published 0 reports and received 32 citations in 1994.
· The Frontiers of Hormone Research has published 0 reports and received 36 citations in 1995.
· The Frontiers of Hormone Research has published 5 reports and received 38 citations in 1996.
· The Frontiers of Hormone Research has published 4 reports and received 44 citations in 1997.
· The Frontiers of Hormone Research has published 0 reports and received 28 citations in 1998.
· The Frontiers of Hormone Research has published 13 reports and received 43 citations in 1999.
· The Frontiers of Hormone Research has published 1 reports and received 26 citations in 2000.
· The Frontiers of Hormone Research has published 27 reports and received 59 citations in 2001.
· The Frontiers of Hormone Research has published 25 reports and received 101 citations in 2002.
· The Frontiers of Hormone Research has published 0 reports and received 97 citations in 2003.
· The Frontiers of Hormone Research has published 25 reports and received 151 citations in 2004.
· The Frontiers of Hormone Research has published 13 reports and received 161 citations in 2005.
· The Frontiers of Hormone Research has published 27 reports and received 236 citations in 2006.
· The Frontiers of Hormone Research has published 0 reports and received 275 citations in 2007.
· The Frontiers of Hormone Research has published 19 reports and received 297 citations in 2008.
· The Frontiers of Hormone Research has published 14 reports and received 476 citations in 2009.
· The Frontiers of Hormone Research has published 39 reports and received 585 citations in 2010.
· The Frontiers of Hormone Research has published 0 reports and received 525 citations in 2011.
· The Frontiers of Hormone Research has published 0 reports and received 551 citations in 2012.
· The Frontiers of Hormone Research has published 21 reports and received 461 citations in 2013.
· The Frontiers of Hormone Research has published 26 reports and received 594 citations in 2014.
· The Frontiers of Hormone Research has published 17 reports and received 598 citations in 2015.
· The Frontiers of Hormone Research has published 37 reports and received 536 citations in 2016.
· The Frontiers of Hormone Research has published 12 reports and received 521 citations in 2017.
· The Frontiers of Hormone Research has published 19 reports and received 446 citations in 2018.
· The Frontiers of Hormone Research has published 38 reports and received 540 citations in 2019.
· The Frontiers of Hormone Research has published 0 reports and received 724 citations in 2020.
· The Frontiers of Hormone Research has published 0 reports and received 47 citations in 2021.
· The total publications of Frontiers of Hormone Research is 523.
· The total citations of Frontiers of Hormone Research is 9387.

Frontiers of Hormone Research
Journal Profile
Frontiers of Hormone Research | Academic Accelerator - About the Journal

About

New sophisticated technologies and methodological approaches in diagnostics and therapeutics have led to significant improvements in identifying and characterizing an increasing number of medical conditions, which is particularly true for all aspects of endocrine and metabolic dysfunctions. Novel insights in endocrine physiology and pathophysiology allow for new perspectives in clinical management and thus lead to the development of molecular, personalized treatments. In view of this, the active interplay between basic scientists and clinicians has become fundamental, both to provide patients with the most appropriate care and to advance future research. The individual volumes of this series explore cutting-edge topics in the field of endocrinology and metabolism, providing the most updated, critical opinions of international leading researchers and clinicians. Going from in vitro studies to daily clinical applications, each volume presents a state-of-the-art overview including a discussion of future perspectives. None

ISSN
0301-3073
ISSN

The ISSN of Frontiers of Hormone Research is 0301-3073 . An ISSN is an 8-digit code used to identify newspapers, journals, magazines and periodicals of all kinds and on all media–print and electronic.

ISSN (Online)
-
ISSN (Online)

The ISSN (Online) of Frontiers of Hormone Research is - . An ISSN is an 8-digit code used to identify newspapers, journals, magazines and periodicals of all kinds and on all media–print and electronic.

Publisher
S. Karger AG
Publisher

Frontiers of Hormone Research is published by S. Karger AG .

Publication Frequency
-
Publication Frequency

Frontiers of Hormone Research publishes reports - .

Coverage
1975, 1977, 1984, 1996-1997, 1999-2002, 2004-2010, 2013-2019
Coverage

The Publication History of Frontiers of Hormone Research covers 1975, 1977, 1984, 1996-1997, 1999-2002, 2004-2010, 2013-2019 .

Open Access
NO
Open Access

Publication Fee
Review
Publication Fee

Language
English
Language

The language of Frontiers of Hormone Research is English .

Country/Region
Switzerland
Country/Region

The publisher of Frontiers of Hormone Research is S. Karger AG , which locates in Switzerland .

What is Impact Factor?

The impact factor (IF) or journal impact factor (JIF) of an academic journal is a scientometric index calculated by Clarivate that reflects the yearly average number of citations of articles published in the last two years in a given journal. It is frequently used as a proxy for the relative importance of a journal within its field; journals with higher impact factor values are often deemed to be more important, or carry more intrinsic prestige in their respective fields, than those with lower values.

Frontiers of Hormone Research | Academic Accelerator - About the Impact Factor

Impact factor is commonly used to evaluate the relative importance of a journal within its field and to measure the frequency with which the “average article” in a journal has been cited in a particular time period. Journal which publishes more review articles will get highest IFs. Journals with higher IFs believed to be more important than those with lower ones. According to Eugene Garfield “impact simply reflects the ability of the journals and editors to attract the best paper available.” Journal which publishes more review articles will get maximum IFs. The Impact Factor of an academic journal is a scientometric Metric that reflects the yearly average number of citations that recent articles published in a given journal received. It is frequently used as a Metric for the relative importance of a journal within its field; journals with higher Impact Factor are often deemed to be more important than those with lower ones. The Frontiers of Hormone Research Impact Factor IF measures the average number of citations received in a particular year (2020) by papers published in the Frontiers of Hormone Research during the two preceding years (2018-2019). Note that 2020 Impact Factor are reported in 2021; they cannot be calculated until all of the 2020 publications have been processed by the indexing agency. New journals, which are indexed from their first published issue, will receive an impact factor after two years of indexing; in this case, the citations to the year prior to Volume 1, and the number of articles published in the year prior to Volume 1, are known zero values. Journals that are indexed starting with a volume other than the first volume will not get an impact factor until they have been indexed for three years. Occasionally, Journal Citation Reports assigns an impact factor to new journals with less than two years of indexing, based on partial citation data. The calculation always uses two complete and known years of item counts, but for new titles one of the known counts is zero. Annuals and other irregular publications sometimes publish no items in a particular year, affecting the count. The impact factor relates to a specific time period; it is possible to calculate it for any desired period. In addition to the 2-year Impact Factor, the 3-year Impact Factor, 4-year Impact Factor, 5-year Impact Factor, Real-Time Impact Factor can provide further insights and factors into the impact of Frontiers of Hormone Research.

History

The impact factor was devised by Eugene Garfield, the founder of the Institute for Scientific Information (ISI). Impact factors are calculated yearly starting from 1975 for journals listed in the Journal Citation Reports (JCR). ISI was acquired by Thomson Scientific & Healthcare in 1992, and became known as Thomson ISI. In 2018, Thomson ISI was sold to Onex Corporation and Baring Private Equity Asia. They founded a new corporation, Clarivate, which is now the publisher of the JCR.

Use

The impact factor is used to compare different journals within a certain field. The Web of Science indexes more than 11,500 science and social science journals. Journal impact factors are often used to evaluate the merit of individual articles and individual researchers. This use of impact factors was summarised by Hoeffel:

Impact Factor is not a perfect tool to measure the quality of articles but there is nothing better and it has the advantage of already being in existence and is, therefore, a good technique for scientific evaluation. Experience has shown that in each specialty the best journals are those in which it is most difficult to have an article accepted, and these are the journals that have a high impact factor. Most of these journals existed long before the impact factor was devised. The use of impact factor as a measure of quality is widespread because it fits well with the opinion we have in each field of the best journals in our specialty....In conclusion, prestigious journals publish papers of high level. Therefore, their impact factor is high, and not the contrary.

Eugene Garfield

In brief, Impact factors may be used by:
  • Authors to decide where to submit an article for publication.
  • Libraries to make collection development decisions
  • Academic departments to assess academic productivity
  • Academic departments to make decisions on promotion and tenure.
As impact factors are a journal-level metric, rather than an article- or individual-level metric, this use is controversial. Garfield agrees with Hoeffel,but warns about the "misuse in evaluating individuals" because there is "a wide variation [of citations] from article to article within a single journal". Other things to consider about Impact Factors:
  • Many journals do not have an impact factor.
  • The impact factor cannot assess the quality of individual articles. Even if citations were evenly distributed among articles, the impact factor would only measure the interests of other researchers in an article, not its importance and usefulness.
  • Only research articles, technical notes and reviews are “citable” items. Editorials, letters, news items and meeting abstracts are “non-citable items”.
  • Only a small percentage of articles are highly cited and they are found in a small subset of journals. This small proportion accounts for a large percentage of citations.
  • Controversial papers, such as those based on fraudulent data, may be highly cited, distorting the impact factor of a journal.
  • Citation bias may exist. For example, English language resources may be favoured. Authors may cite their own work.
Moreover, informed and careful use of these impact data is essential, and should be based on a thorough understanding of the methodology used to generate impact factors. There are controversial aspects of using impact factors:
  • It is not clear whether the number of times a paper is cited measures its actual quality.
  • Some databases that calculate impact factors fail to incorporate publications including textbooks, handbooks and reference books.
  • Certain disciplines have low numbers of journals and usage. Therefore, one should only compare journals or researchers within the same discipline.
  • Review articles normally are cited more often and therefore can skew results.
  • Self-citing may also skew results.
  • Some resources used to calculate impact factors have inadequate international coverage.
  • Editorial policies can artificially inflate an impact factor.
Impact factors have often been used in advancement and tenure decision-making. Many recognize that this is a coarse tool for such important decisions, and that a multitude of factors should be taken into account in these deliberations. When considering the use of the impact factor (IF), keep these aspects in mind:
  • IF analysis is limited to citations from the journals indexed by the Web of Science/Web of Knowledge. Currently, the Web of Science indexes only 8621 journals across the full breadth of the sciences, and just 3121 in the social sciences.
  • A high IF/citation rate says nothing about the quality -- or even, validity -- of the references being cited. Notorious or even retracted articles often attract a lot of attention, hence a high number of citations. The notority related to the first publication on "cold fusion" is one such example.
  • Journals that publish more "review articles" are often found near the top of the rankings. While not known for publishing new, creative findings, these individual articles tend to be heavily cited.
  • The IF measures the average number of citations to articles in the journal -- given this, a small number of highly-cited articles will skew the figure.
  • It takes several years for new journals to be added to the list of titles indexed by the Web of Science/Web of Knowledge, so these newer titles will be under-represented.
  • It's alleged that journal editors have learned to "game" the system, encouraging authors to cite their works previously published in the same journal.
Comparing Journals Across Disciplines? Not a good idea! Using Impact Factors within a given discipline should only be done with great care, as described above. Using impact factor data to compare journals across disciplines is even more problematic. Here are some of the reasons:
  • Disciplines where older literature is still referenced, such as Chemistry and Mathematics, offer challenges to the methodolgy since older citations (older than two years) are not used to calculate the impact factor for a given journal. (Five-year impact factor analysis, which can be calculated using the Journal Citation Index database, helps smooth out this problem only to some degree.)
  • Different disciplines have different practices regarding tendency to cite larger numbers of references. Higher overall citation rates will bump upward impact factor measurements.
  • Where it's common for large numbers of authors to collaborate on a single paper, such as in Physics, the tendency of authors to cite themselves (and in this case, more authors) will result in increased citation rates.

Pros and Cons of the Impact Factor

Pros:

  • A vetted, established metric for measuring journal impact within a discipline.
  • Designed to eliminate bias based on journal size and frequency.
Cons:
  • Individual articles makes an uneven contribution to overall Impact Factor.
  • Impact Factor does not account for certain things, things like context (postive or negative citaion) and intentionality (self-citation).
  • The metric is proprietary to and bound by the contents of the Thomson Reuters database.
  • Citations, on which the Impact Factor is based, count for less than 1% of an article's overall use.

Criticism

Numerous critiques have been made regarding the use of impact factors. A 2007 study noted that the most fundamental flaw is that impact factors present the mean of data that are not normally distributed, and suggested that it would be more appropriate to present the median of these data. There is also a more general debate on the validity of the impact factor as a measure of journal importance and the effect of policies that editors may adopt to boost their impact factor (perhaps to the detriment of readers and writers). Other criticism focuses on the effect of the impact factor on behavior of scholars, editors and other stakeholders. Others have made more general criticisms, arguing that emphasis on impact factor results from negative influence of neoliberal policies on academia claiming that what is needed is not just replacement of the impact factor with more sophisticated metrics for science publications but also discussion on the social value of research assessment and the growing precariousness of scientific careers in higher education.
Experts stress that there are limitations in using impact factors to evaluate a scholar's work. There are many reasons cited for not relying on impact factor alone to evaluate the output of a particular individual. Among these are the following:

  • A single factor is not sufficient for evaluating an author's work.
  • Journal values are meaningless unless compared within the same discipline. Impact factors vary among disciplines.
  • The impact factor was originally devised to show the impact of a specific journal, not a specific scholar. The quality and impact of the author's work may extend beyond the impact of a particular journal.
According to Jim Testa, a researcher for ThomsonReuters Scientific, the most widespread misuse of the Impact Factor is to evaluate the work of an individual author (instead of a journal). "To say that because a researcher is publishing in a certain journal, he or she is more influential or deserves more credit is not necessarily true. There are many other variables to consider." (interview 6/26/2008 in Thomson Reuters blog entry)


If in primary hyperparathyroidism, where there is only one parathyroid adenoma (or two), the preoperative imaging results are satisfactory, in sHPT there are many cases in which the imaging does not reveal all four parathyroid glands.

The Value of Imaging of the Parathyroid Glands in Secondary Hyperparathyroidism. [10.21614/chirurgia.114.5.541]


It is estimated that up to 90% of patients with chronic kidney disease develop secondary hyperparathyroidism (sHPT).

The Value of Imaging of the Parathyroid Glands in Secondary Hyperparathyroidism. [10.21614/chirurgia.114.5.541]


In Lauretta Ngcobo's collection of memoirs, Prodigal Daughters: Stories of South African Women in Exile (Scottsville: University of KwaZulu-Natal Press, 2012), 17 South African women present their personal accounts of political exile.

Chaotic Homecomings in Prodigal Daughters edited by Lauretta Ngcobo, Always Another Country by Sisonke Msimang, and What We Lose by Zinzi Clemmons [10.1080/18125441.2019.1651385]


Patients and methods A case–control study was conducted on 98 women who were divided into: group I which included 49 infertile women with PCOS and group II which included 49 fertile women without PCOS.

Effect of metformin treatment on ovarian stromal blood flow in women with polycystic ovary syndrome [10.4103/mmj.mmj_294_18]


Obesity is a rising global health challenge, particularly for reproductive-aged women.

Preconception Lifestyle and Weight-Related Behaviors by Maternal Body Mass Index: A Cross-Sectional Study of Pregnant Women [10.3390/nu11040759]


Mutations in the X-linked androgen receptor (AR) gene cause complete androgen insensitivity syndrome (CAIS).

Features of the fetal gonad in androgen synthesis in the postpubertal testis are preserved in complete androgen insensitivity syndrome due to a novel genetic splice site donor variant in androgen receptor gene intron 1 [10.1016/j.jsbmb.2019.105420]


All patients were known to have metastatic castration resistant PrCa (mCRPC) and had been treated with one or both of: Docetaxel chemotherapy and an androgen receptor targeted agent.

Germline sequencing of advanced prostate cancer patients in the BARCODE2 trial [10.1093/annonc/mdz248.036]


Phytotherapeutic treatment is also applied in androgenetic alopecia, which is a condition characterized by hair loss and affects individuals of both sexes, with a higher prevalence in men.

Efficacy of phytotherapy in the treatment of androgenetic alopecia [10.33448/rsd-v8i5.868]


Combined with the LEP excess in $e^+e^-\to Z(h\to b\bar b)$, the diphoton excess around 96 GeV recently reported by CMS may suggest such a possibility.

A 96 GeV Higgs boson in the general NMSSM [10.1140/epjc/s10052-019-7473-1]


Excessive alcohol consumption is related to adverse physical and social consequences.

Drinking Motives and Drinking Behaviors in Romantic Couples: A Longitudinal Actor-Partner Interdependence Model [10.1037/adb0000459]


Outcome measures used were percentage excess weight loss (%EWL) and percentage total weight loss (%TWL).

Influence of Asian Ethnicities on Short- and Mid-term Outcomes Following Laparoscopic Sleeve Gastrectomy [10.1007/s11695-019-03716-8]


Mutations in the X-linked androgen receptor (AR) gene cause complete androgen insensitivity syndrome (CAIS).

Features of the fetal gonad in androgen synthesis in the postpubertal testis are preserved in complete androgen insensitivity syndrome due to a novel genetic splice site donor variant in androgen receptor gene intron 1 [10.1016/j.jsbmb.2019.105420]


With its ever-increasing viral genetic diversity, accurate diagnosis of porcine reproductive and respiratory syndrome virus (PRRSV) infection is indispensable for PRRSV control.

Fluorescence resonance energy transfer combined with asymmetric PCR for broad and sensitive detection of porcine reproductive and respiratory syndrome virus 2. [10.1016/j.jviromet.2019.113710]


The purpose of this study was to determine whether clubfoot associated with tethered cord syndrome (TCS) was more resistant to Ponseti treatment than isolated clubfoot.

Clubfoot and Tethered Cord Syndrome: Results of Treatment With the Ponseti Method [10.1097/BPO.0000000000000944]


With its abundant dopaminergic innervation, the nucleus accumbens is believed to be directly associated with addictive behaviors and mental disorders.

Potential mechanisms for phencyclidine/ketamine-induced brain structural alterations and behavioral consequences. [10.1016/j.neuro.2019.12.005]


Key words: Atherosclerosis; Macrophages; Iron metabolism disorders; Ferroportin.

Macrophage iron accumulation promotes the development of atherosclerosis in Apolipoprotein E knockout mice [10.3760/CMA.J.ISSN.1001-9030.2019.11.015]


This paper will identify how translational research that investigates methods of enhancing extinction learning can more effectively model such elements of human fear learning, and how doing so will enhance the relevance of this research to the treatment of fear-based psychological disorders.

From Extinction Learning to Anxiety Treatment: Mind the Gap [10.3390/brainsci9070164]


EnglishThis article analyzes the Chilean schooling process during the period in which the State sought to institutionalize universal access to primary education.

La crisis biológica de la educacion chilena. Escolarizacion y política social, 1930-1960 [10.35588/rhsm.v23i1.3536]


Primary cutaneous lymphomas are a heterogeneous group of T- and B-cell lymphomas that present in the skin with no evidence of extracutaneous disease at the time of diagnosis.

The 2018 update of the WHO-EORTC classification for primary cutaneous lymphomas. [10.1182/blood-2018-11-881268]


With a reliable and easy-to-use computational tool, it is possible to reduce the consumption of primary energy sources and reduce the emission of toxic compounds in cities.

A unified approach to the analysis of electric energy and fuel consumption of cars in city traffic [10.1016/J.ENERGY.2019.06.114]