Bone Research
Journal Impact IF - Analysis · Trend · Prediction · Ranking


New

Journal Impact IF

2019-2020

11.508

-9.7 %

Journal Impact IF Trend

Related Journals

Popular Journals

Bone Research

The 2019-2020 Journal Impact IF of Bone Research is 11.508, which is just updated in 2020.

Bone Research Impact Factor
Highest IF
12.745
Highest Journal Impact IF

The highest Journal Impact IF of Bone Research is 12.745.

Lowest IF
1.31
Lowest Journal Impact IF

The lowest Journal Impact IF of Bone Research is 1.31.

Total Growth Rate
778.5%
IF Total Growth Rate

The total growth rate of Bone Research IF is 778.5%.

Annual Growth Rate
129.8%
IF Annual Growth Rate

The annual growth rate of Bone Research IF is 129.8%.

Journal Impact IF Ranking

Subcategory Quartile Rank Percentile
Physiology Q1 6/172

Physiology 96%

Histology Q1 1/60

Histology 99%

Endocrinology, Diabetes and Metabolism Q1 4/217

Endocrinology, Diabetes and Metabolism 98%

Journal Impact IF Ranking

· In the Physiology research field, the Quartile of Bone Research is Q1. Bone Research has been ranked #6 over 172 related journals in the Physiology research category. The ranking percentile of Bone Research is around 96% in the field of Physiology.
· In the Histology research field, the Quartile of Bone Research is Q1. Bone Research has been ranked #1 over 60 related journals in the Histology research category. The ranking percentile of Bone Research is around 99% in the field of Histology.
· In the Endocrinology, Diabetes and Metabolism research field, the Quartile of Bone Research is Q1. Bone Research has been ranked #4 over 217 related journals in the Endocrinology, Diabetes and Metabolism research category. The ranking percentile of Bone Research is around 98% in the field of Endocrinology, Diabetes and Metabolism.

Bone Research Impact Factor 2020-2021 Prediction

Bone Research Impact Factor Predition System

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

Predict Check All Preditions
Total Publications
250
Total Citations
8984

Annual Publication Volume

Annual Citation Record

International Collaboration Trend

Cited Documents Trend

Journal Impact IF History

Year Journal Impact IF
Year Journal Impact IF
2019-2020 11.508
2018-2019 12.745
2017-2018 12.354
2016-2017 9.326
2015-2016 3.549
2014-2015 1.31
2013-2014 -
2012-2013 -
2011-2012 -
Journal Impact IF History

· The 2019-2020 Journal Impact IF of Bone Research is 11.508
· The 2018-2019 Journal Impact IF of Bone Research is 12.745
· The 2017-2018 Journal Impact IF of Bone Research is 12.354
· The 2016-2017 Journal Impact IF of Bone Research is 9.326
· The 2015-2016 Journal Impact IF of Bone Research is 3.549
· The 2014-2015 Journal Impact IF of Bone Research is 1.31
The Journal Impact IF 2013-2014 of Bone Research is still under analysis. Stay Tuned!
The Journal Impact IF 2012-2013 of Bone Research is still under analysis. Stay Tuned!
The Journal Impact IF 2011-2012 of Bone Research is still under analysis. Stay Tuned!

Publications Cites Dataset

Year Publications Citations
Year Publications Citations
2012 0 3
2013 29 11
2014 22 46
2015 21 177
2016 28 494
2017 31 1021
2018 37 1426
2019 35 2097
2020 42 3329
2021 5 380
Publications Cites Dataset

· The Bone Research has published 0 reports and received 3 citations in 2012.
· The Bone Research has published 29 reports and received 11 citations in 2013.
· The Bone Research has published 22 reports and received 46 citations in 2014.
· The Bone Research has published 21 reports and received 177 citations in 2015.
· The Bone Research has published 28 reports and received 494 citations in 2016.
· The Bone Research has published 31 reports and received 1021 citations in 2017.
· The Bone Research has published 37 reports and received 1426 citations in 2018.
· The Bone Research has published 35 reports and received 2097 citations in 2019.
· The Bone Research has published 42 reports and received 3329 citations in 2020.
· The Bone Research has published 5 reports and received 380 citations in 2021.
· The total publications of Bone Research is 250.
· The total citations of Bone Research is 8984.

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.

Bone 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 Bone Research Impact Factor IF measures the average number of citations received in a particular year (2020) by papers published in the Bone 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 Bone 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)

Bone Research
Journal Profile

About

Bone Research is an open access, fully peer-reviewed journal publishing the foremost progress and novel understanding of all aspects of bone science. The journal highlights the breakthrough discoveries in basic and clinical aspects of bone biology, pathophysiology and regeneration, as well as other significant findings related to bone.Covering all aspects of bone science including its subspecialties, Bone Research publishes original, high-quality, peer-reviewed papers including research articles, reviews, correspondence and comments. Submissions are favored regarding studies on the occurrence and development of bone and cartilage, bone metabolism, bone related diseases, bone regeneration and related biological materials.Original research articles will be published under, but not limited to, the following headings:Morphogenesis of bone and cartilage; Musculoskeletal diseases;Metabolic bone diseases;Bone regeneration and bone tissue engineering;Bone related biomaterials;Clinical studies. None

Highly Cited Keywords

ISSN
2095-4700
ISSN

The ISSN of Bone Research is 2095-4700 . 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)
2095-6231
ISSN (Online)

The ISSN (Online) of Bone Research is 2095-6231 . 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
Nature Publishing Group
Publisher

Bone Research is published by Nature Publishing Group .

Publication Frequency
Quarterly
Publication Frequency

Bone Research publishes reports Quarterly .

Coverage
2013 - Present
Coverage

The Publication History of Bone Research covers 2013 - Present .

Open Access
YES
Open Access

Bone Research is an Open Access (OA) Journal. Open Access stands for unrestricted access and unrestricted reuse. With Open Access, researchers can read and build on the findings of others without restriction. Much scientific and medical research is paid for with public funds. Open Access allows taxpayers to see the results of their investment.

Publication Fee
Publication Fee

Bone Research is an Open Access (OA) Journal. Open Access stands for unrestricted access and unrestricted reuse. With Open Access, researchers can read and build on the findings of others without restriction. Open Access allows taxpayers to see the results of their investment. Please share or review the publication fee with the community.

Language
English
Language

The language of Bone Research is English .

Country/Region
United Kingdom
Country/Region

The publisher of Bone Research is Nature Publishing Group , which locates in United Kingdom .

Selected Articles

Full Title Authors
Full Title Authors
IGF-I induced phosphorylation of PTH receptor enhances osteoblast to osteocyte transition Tao Qiu · Janet L. Crane · Liang Xie · Liang Xie · Lingling Xian · Hui Xie · Xu Cao · Xu Cao
R-spondin-2 is a Wnt agonist that regulates osteoblast activity and bone mass M. Noelle Knight · Kannan Karuppaiah · Michele Lowe · Sarthak Mohanty · Robert L. Zondervan · Sheila M. Bell · Jaimo Ahn · Kurt D. Hankenson · Kurt D. Hankenson · Kurt D. Hankenson
A peptide containing the receptor binding site of insulin-like growth factor binding protein-2 enhances bone mass in ovariectomized rats Gang Xi · Christine Wai · Clifford J. Rosen · David R. Clemmons · David R. Clemmons
Aberrant activation of latent transforming growth factor-β initiates the onset of temporomandibular joint osteoarthritis Liwei Zheng · Caixia Pi · Jun Zhang · Yi Fan · Chen Cui · Yang Zhou · Jianxun Sun · Quan Yuan · Xin Xu · Ling Ye · Xu Cao · Xuedong Zhou · Xuedong Zhou
Biomimetic delivery of signals for bone tissue engineering Ming Dang · Laura Saunders · Xufeng Niu · Yubo Fan · Peter X. Ma · Peter X. Ma
Alpl prevents bone ageing sensitivity by specifically regulating senescence and differentiation in mesenchymal stem cells Wenjia Liu · Liqiang Zhang · Kun Xuan · Cheng-Hu Hu · Shiyu Liu · Li Liao · Bei Li · Fang Jin · Songtao Shi · Yan Jin · Yan Jin
mTOR signaling in skeletal development and disease Jianquan Chen · Fanxin Long · Fanxin Long
Lrp1 in osteoblasts controls osteoclast activity and protects against osteoporosis by limiting PDGF-RANKL signaling Alexander Bartelt · Alexander Bartelt · Friederike Behler-Janbeck · F. Timo Beil · Till Koehne · Brigitte Müller · Tobias Schmidt · Markus Heine · Laura Ochs · Tayfun Yilmaz · Martin F. Dietrich · Jan Tuckermann · Michael Amling · Joachim Herz · Thorsten Schinke · Joerg Heeren · Andreas Niemeier · Andreas Niemeier
Engineering 3D approaches to model the dynamic microenvironments of cancer bone metastasis Han Qiao · Tingting Tang · Tingting Tang
Omentin-1 prevents inflammation-induced osteoporosis by downregulating the pro-inflammatory cytokines Shan-Shan Rao · Yin Hu · Ping-Li Xie · Jia Cao · Zhen-Xing Wang · Jiang-Hua Liu · Hao Yin · Jie Huang · Yi-Juan Tan · Juan Luo · Ming-Jie Luo · Siyuan Tang · Tuan-Hui Chen · Ling-Qing Yuan · Er-Yuan Liao · Ran Xu · Zheng-Zhao Liu · Chun-Yuan Chen · Hui Xie · Hui Xie
CHIP regulates bone mass by targeting multiple TRAF family members in bone marrow stromal cells Tingyu Wang · Shan Li · Dan Yi · Guangqian Zhou · Zhijie Chang · Peter X. Ma · Guozhi Xiao · Di Chen · Di Chen
Super enhancer inhibitors suppress MYC driven transcriptional amplification and tumor progression in osteosarcoma Demeng Chen · Zhiqiang Zhao · Zixin Huang · Du-Chu Chen · Xin-Xing Zhu · Yi-Ze Wang · Ya-Wei Yan · Shaojun Tang · Subha Madhavan · Weiyi Ni · Zhan-peng Huang · Wen Li · Weidong Ji · Huangxuan Shen · Shuibin Lin · Yi-Zhou Jiang · Yi-Zhou Jiang
Transforming growth factor-β in stem cells and tissue homeostasis Xin Xu · Liwei Zheng · Quan Yuan · Gehua Zhen · Janet L. Crane · Janet L. Crane · Xuedong Zhou · Xu Cao · Xu Cao
Bone loss from Wnt inhibition mitigated by concurrent alendronate therapy Babita Madan · Mitchell McDonald · Gabrielle Foxa · Cassandra R. Diegel · Bart O. Williams · David M. Virshup · David M. Virshup · David M. Virshup
Rheumatoid arthritis: pathological mechanisms and modern pharmacologic therapies Qiang Guo · Qiang Guo · Yuxiang Wang · Dan Xu · Johannes Nossent · Nathan J. Pavlos · Jiake Xu · Jiake Xu
YAP promotes osteogenesis and suppresses adipogenic differentiation by regulating β-catenin signaling Jin-Xiu Pan · Jin-Xiu Pan · Lei Xiong · Lei Xiong · Kai Zhao · Kai Zhao · Peng Zeng · Peng Zeng · Bo Wang · Bo Wang · Fu-Lei Tang · Fu-Lei Tang · Dong Sun · Dong Sun · Haohan Guo · Haohan Guo · Xiao Yang · Shun Cui · Wen-Fang Xia · Lin Mei · Lin Mei · Wen Cheng Xiong · Wen Cheng Xiong · Wen Cheng Xiong
SHP2 regulates skeletal cell fate by modifying SOX9 expression and transcriptional activity Chunlin Zuo · Chunlin Zuo · Lijun Wang · Raghavendra M. Kamalesh · Margot E. Bowen · Douglas C. Moore · Mark S. Dooner · Anthony M. Reginato · Qian Wu · Christoph Schorl · Yueming Song · Matthew L. Warman · Benjamin G. Neel · Michael G. Ehrlich · Wentian Yang · Wentian Yang
Paracrine and endocrine actions of bone—the functions of secretory proteins from osteoblasts, osteocytes, and osteoclasts Yujiao Han · Xiuling You · Wenhui Xing · Zhong Zhang · Weiguo Zou · Weiguo Zou
Enhanced cortical bone expansion in Lgals3 -deficient mice during aging Kevin A. Maupin · Kevin Weaver · Alexis Bergsma · Cheryl Christie · Zhendong A. Zhong · Tao Yang · Bart O. Williams · Bart O. Williams
Molecularly specific detection of bacterial lipoteichoic acid for diagnosis of prosthetic joint infection of the bone Julie E. Pickett · John M. Thompson · Agnieszka Sadowska · Christine Tkaczyk · Bret R. Sellman · Andrea Minola · Davide Corti · Antonio Lanzavecchia · Lloyd S. Miller · Daniel L. J. Thorek · Daniel L. J. Thorek
Histone demethylase LSD1 regulates bone mass by controlling WNT7B and BMP2 signaling in osteoblasts Jun Sun · Joerg Ermann · Ningning Niu · Guang Yan · Yang Yang · Yujiang Shi · Weiguo Zou · Weiguo Zou
Enhancer variants reveal a conserved transcription factor network governed by PU.1 during osteoclast differentiation Heather A. Carey · Blake Eason Hildreth · Blake Eason Hildreth · Blake Eason Hildreth · Jennifer A. Geisler · Jennifer A. Geisler · Mara C. Nickel · Jennifer Cabrera · Sankha Ghosh · Yue Jiang · Jing Yan · James Lee · Sandeep Makam · Nicholas A. Young · Giancarlo R. Valiente · Wael N. Jarjour · Kun Huang · Thomas J. Rosol · Ramiro E. Toribio · Julia F. Charles · Michael C. Ostrowski · Michael C. Ostrowski · Sudarshana M. Sharma · Sudarshana M. Sharma · Sudarshana M. Sharma
The art of building bone: emerging role of chondrocyte-to-osteoblast transdifferentiation in endochondral ossification Patrick Aghajanian · Subburaman Mohan · Subburaman Mohan
Dietary fat-associated osteoarthritic chondrocytes gain resistance to lipotoxicity through PKCK2/STAMP2/FSP27 Sung Won Lee · Jee Hyun Rho · Sang Yeob Lee · Won Tae Chung · Yoo Jin Oh · Jung Ha Kim · Seung Hee Yoo · Woo Young Kwon · Ju Yong Bae · Su Young Seo · Hokeun Sun · Hye Young Kim · Young Hyun Yoo · Young Hyun Yoo
Oxidized phospholipids are ligands for LRP6 Lei Wang · Lei Wang · Yu Chai · Yu Chai · Changjun Li · Changjun Li · Haiyun Liu · Weiping Su · Xiaonan Liu · Bing Yu · Weiqi Lei · Bin Yu · Janet L. Crane · Xu Cao · Mei Wan · Mei Wan
Ciliary parathyroid hormone signaling activates transforming growth factor-β to maintain intervertebral disc homeostasis during aging Liwei Zheng · Liwei Zheng · Yong Cao · Yong Cao · Shuangfei Ni · Shuangfei Ni · Huabin Qi · Huabin Qi · Zemin Ling · Zemin Ling · Xin Xu · Xin Xu · Xuenong Zou · Tianding Wu · Tianding Wu · Ruoxian Deng · Bo Hu · Bo Gao · Hao Chen · Yusheng Li · Jianxi Zhu · Francis Tintani · Shadpour Demehri · Amit Jain · Khaled M. Kebaish · Shenghui Liao · Cheryle A. Séguin · Janet L. Crane · Janet L. Crane · Mei Wan · Hongbin Lu · Paul D. Sponseller · Lee H. Riley · Xuedong Zhou · Jianzhong Hu · Xu Cao · Xu Cao
Mandible exosomal ssc-mir-133b regulates tooth development in miniature swine via endogenous apoptosis Ye Li · Ye Li · Xinxin Wang · Jiali Ren · Xiaoshan Wu · Guoqing Li · Zhipeng Fan · Chunmei Zhang · Ang Li · Ang Li · Songlin Wang · Songlin Wang
Commentary onMandible exosomal ssc-mir-133b regulates tooth development in miniature swine via endogenous apoptosis J. Edward Puzas · J. Edward Puzas
Advanced smart biomaterials and constructs for hard tissue engineering and regeneration Ke Zhang · Ke Zhang · Suping Wang · Suping Wang · Chenchen Zhou · Lei Cheng · Lei Cheng · Xianling Gao · Xianling Gao · Xianju Xie · Xianju Xie · Jirun Sun · Haohao Wang · Haohao Wang · Michael D. Weir · Mark A. Reynolds · Ning Zhang · Ning Zhang · Yuxing Bai · Hockin H.K. Xu · Hockin H.K. Xu
BMP-IHH-mediated interplay between mesenchymal stem cells and osteoclasts supports calvarial bone homeostasis and repair Yuxing Guo · Yuxing Guo · Yuan Yuan · Ling Wu · Thach-Vu Ho · Junjun Jing · Junjun Jing · Hideki Sugii · Hideki Sugii · Jingyuan Li · Xia Han · Jifan Feng · Chuanbin Guo · Yang Chai · Yang Chai
Mechanically induced Ca2+ oscillations in osteocytes release extracellular vesicles and enhance bone formation Andrea E. Morrell · Genevieve N. Brown · Samuel Robinson · Rachel L. Sattler · Andrew D. Baik · Gehua Zhen · Xu Cao · Lynda F. Bonewald · Weiyang Jin · Lance C. Kam · X. Edward Guo · X. Edward Guo
Injectable hydrogels for cartilage and bone tissue engineering Mei Liu · Xin Zeng · Chao Ma · Huan Yi · Zeeshan Ali · Xianbo Mou · Song Li · Yan Deng · Nongyue He · Nongyue He
AFF1 and AFF4 differentially regulate the osteogenic differentiation of human MSCs Chenchen Zhou · Qiu-chan Xiong · Xin-xing Zhu · Wen Du · Peng Deng · Xiaobing Li · Yi-zhou Jiang · Shujuan Zou · Cun-yu Wang · Quan Yuan · Quan Yuan
Experimental repetitive mild traumatic brain injury induces deficits in trabecular bone microarchitecture and strength in mice Chandrasekhar Kesavan · Nikita M. Bajwa · Heather Watt · Subburaman Mohan · Subburaman Mohan
Sclerostin activity plays a key role in the negative effect of glucocorticoid signaling on osteoblast function in mice Eric E. Beier · Tzong-Jen Sheu · Emily A Resseguie · Masahiko Takahata · Hani A. Awad · Deborah A. Cory-Slechta · J. Edward Puzas · J. Edward Puzas
Administration frequency as well as dosage of PTH are associated with development of cortical porosity in ovariectomized rats Aya Takakura · Ji-Won Lee · Kyoko Hirano · Yukihiro Isogai · Toshinori Ishizuya · Ryoko Takao-Kawabata · Tadahiro Iimura · Tadahiro Iimura
Role and mechanism of action of leucine-rich repeat kinase 1 in bone Weirong R Xing · Helen Goodluck · Canjun Zeng · Subburaman Mohan · Subburaman Mohan
Bone biomaterials and interactions with stem cells Chengde Gao · Shuping Peng · Pei Feng · Cijun Shuai · Cijun Shuai
New insights into the vitamin D requirements during pregnancy Bruce W. Hollis · Carol L. Wagner · Carol L. Wagner
RANKL-induced M1 macrophages are involved in bone formation Rong Huang · Xin Wang · Yinghong Zhou · Yin Xiao · Yin Xiao
Osteoarthritis: toward a comprehensive understanding of pathological mechanism Di Chen · Jie Shen · Weiwei Zhao · Tingyu Wang · Lin Han · John L. Hamilton · Hee-Jeong Im · Hee-Jeong Im
Development of spinal deformities in the tight-skin mouse Bing Li · Jill P. G. Urban · Jing Yu · Jing Yu
Calcium phosphate cements for bone engineering and their biological properties Hockin H.K. Xu · Ping Wang · Lin Wang · Chongyun Bao · Qianming Chen · Michael D. Weir · Laurence C. Chow · Liang Zhao · Xuedong Zhou · Mark A. Reynolds · Mark A. Reynolds
Intestinal microbiota: a potential target for the treatment of postmenopausal osteoporosis Xin Xu · Xiaoyue Jia · Longyi Mo · Chengcheng Liu · Liwei Zheng · Quan Yuan · Xuedong Zhou · Xuedong Zhou
Utilization of longitudinal ultrasound to quantify joint soft-tissue changes in a mouse model of posttraumatic osteoarthritis Hao Xu · Echoe M. Bouta · Ronald W. Wood · Edward M. Schwarz · Yongjun Wang · Lianping Xing · Lianping Xing
Vitamin D and calcium are required at the time of denosumab administration during osteoporosis treatment Yukio Nakamura · Takako Suzuki · Mikio Kamimura · Kohei Murakami · Shota Ikegami · Shigeharu Uchiyama · Hiroyuki Kato · Hiroyuki Kato
Loss of the vitamin D receptor in human breast and prostate cancers strongly induces cell apoptosis through downregulation of Wnt/β-catenin signaling Yu Zheng · Trupti Trivedi · Ruby Cy Lin · Colette Fong-Yee · Rick Nolte · Jeline Manibo · Yunzhao Chen · Musharraf Hossain · Konstantin Horas · Colin R. Dunstan · Hong Zhou · Markus J. Seibel · Markus J. Seibel
Abnormal subchondral bone remodeling and its association with articular cartilage degradation in knees of type 2 diabetes patients Yan Chen · Yong-Can Huang · Chun Hoi Yan · K. Y. Chiu · Qingjun Wei · Jingmin Zhao · X. Edward Guo · Frankie Leung · William W. Lu · William W. Lu
Selective deletion of the soluble Colony-Stimulating Factor 1 isoform in vivo prevents estrogen-deficiency bone loss in mice Gang-Qing Yao · Nancy Troiano · Christine Simpson · Karl L. Insogna · Karl L. Insogna
Dysregulation of the miR-146a-Smad4 axis impairs osteogenesis of bone mesenchymal stem cells under inflammation Wei Kuang · Liwei Zheng · Xin Xu · Yao Lin · Jiong lin · Jiahua Wu · Jiali Tan · Jiali Tan
Angiogenesis in a 3D model containing adipose tissue stem cells and endothelial cells is mediated by canonical Wnt signaling Xiaoxiao Cai · Jing Xie · Y. Yao · Xiangzhu Cun · Shiyu Lin · Taoran Tian · Bofeng Zhu · Yunfeng Lin · Yunfeng Lin
Differential involvement of Wnt signaling in Bmp regulation of cancellous versus periosteal bone growth Guangxu He · Guangxu He · Yu Shi · Joohyun Lim · Joohyun Lim · Teresita Bellido · Jiangdong Ni · Fanxin Long · Fanxin Long
Multifunctional stimuli responsive polymer-gated iron and gold-embedded silica nano golf balls: Nanoshuttles for targeted on-demand theranostics Liping Wang · Grace Jang · Deependra Kumar Ban · Vrinda Sant · Jay Seth · Sami Kazmi · Nirav Patel · Qingqing Yang · Joon Sang Lee · Woraphong Janetanakit · Shanshan Wang · Brian P. Head · Gennadi V. Glinsky · Ratneshwar Lal · Ratneshwar Lal
Two-year clinical outcome of denosumab treatment alone and in combination with teriparatide in Japanese treatment-naive postmenopausal osteoporotic women Yukio Nakamura · Takako Suzuki · Mikio Kamimura · Shota Ikegami · Kohei Murakami · Shigeharu Uchiyama · Akira Taguchi · Hiroyuki Kato · Hiroyuki Kato
Mechanosignaling activation of TGFβ maintains intervertebral disc homeostasis Qin Bian · Qin Bian · Lei Ma · Amit Jain · Janet L. Crane · Khaled M. Kebaish · Mei Wan · Zhengdong Zhang · X. Edward Guo · Paul D. Sponseller · Cheryle A. Séguin · Lee H. Riley · Yongjun Wang · Xu Cao · Xu Cao
Unintended targeting of Dmp1-Cre reveals a critical role for Bmpr1a signaling in the gastrointestinal mesenchyme of adult mice Joohyun Lim · Joseph Burclaff · Guangxu He · Jason C. Mills · Fanxin Long · Fanxin Long
Exercise-induced irisin in bone and systemic irisin administration reveal new regulatory mechanisms of bone metabolism Jin Zhang · Paloma Valverde · Xiaofang Zhu · Dana Murray · Yuwei Wu · Liming Yu · Hua Jiang · Michel Dard · Jin Huang · Zhiwei Xu · Qisheng Tu · Jake Chen · Jake Chen
Atypical skeletal manifestations of rickets in a familial hypocalciuric hypercalcemia patient Bo Wu · Ou Wang · Yan Jiang · Mei Li · Xiaoping Xing · Weibo Xia · Weibo Xia
Clinical, cellular, microscopic, and ultrastructural studies of a case of fibrogenesis imperfecta ossium Melissa L. Barron · Mark S. Rybchyn · Sutharshani Ramesh · Rebecca S. Mason · S. Fiona Bonar · Paul Stalley · Sundeep Khosla · Bernie Hudson · Christopher Arthur · Edward S. Kim · Roderick J. Clifton-Bligh · Roderick J. Clifton-Bligh · Phillip Clifton-Bligh · Phillip Clifton-Bligh · Phillip Clifton-Bligh
The association between the baseline bone resorption marker CTX and incident dysglycemia after 4 years Ting-ting Liu · Dong-mei Liu · Yan Xuan · Lin Zhao · Li-hao Sun · Dian-dian Zhao · Xiaofeng Wang · Yang He · X.-Z. Guo · Rui Du · Ji-qiu Wang · Jian-min Liu · Hong-yan Zhao · Bei Tao · Bei Tao
The fabrication of biomimetic biphasic CAN-PAC hydrogel with a seamless interfacial layer applied in osteochondral defect repair Jinfeng Liao · Taoran Tian · Sirong Shi · Xueping Xie · Quanquan Ma · Guo Li · Yunfeng Lin · Yunfeng Lin
The hypoxia-inducible factor-1α activates ectopic production of fibroblast growth factor 23 in tumor-induced osteomalacia Qian Zhang · Michele Doucet · Ryan E. Tomlinson · Xiaobin Han · L Darryl Quarles · Michael T. Collins · Thomas L. Clemens · Thomas L. Clemens
Crosstalk between adipose-derived stem cells and chondrocytes: when growth factors matter Juan Zhong · Bin Guo · Jing Xie · Shuwen Deng · Na Fu · Shiyu Lin · Guo Zhen Li · Yunfeng Lin · Xiaoxiao Cai · Xiaoxiao Cai
Current research on pharmacologic and regenerative therapies for osteoarthritis Wei Zhang · Hongwei Ouyang · Crispin R. Dass · Jiake Xu · Jiake Xu
DNA N(6)-methyladenine demethylase ALKBH1 enhances osteogenic differentiation of human MSCs Chenchen Zhou · Yuting Liu · Xiaobing Li · Jing Zou · Shujuan Zou · Shujuan Zou
Vitamin D receptor expression in human bone tissue and dose-dependent activation in resorbing osteoclasts Allahdad Zarei · Alireza Morovat · Kassim Javaid · Cameron P. Brown · Cameron P. Brown
Recent advances in nano scaffolds for bone repair Huan Yi · Fawad Ur Rehman · Chunqiu Zhao · Bin Liu · Nongyue He · Nongyue He
Application of platelet-rich plasma with stem cells in bone and periodontal tissue engineering Gabriela Fernandes · Shuying Yang · Shuying Yang
The biological function of type I receptors of bone morphogenetic protein in bone Shuxian Lin · Kathy K.H. Svoboda · Jian Q Feng · Xinquan Jiang · Xinquan Jiang
Characterization of genetically engineered mouse models carrying Col2a1-cre-induced deletions of Lrp5 and/or Lrp6 Cassie A. Schumacher · Danese M. Joiner · Kennen D Less · Melissa Oosterhouse Drewry · Bart O. Williams · Bart O. Williams
Relationship of serum GDF11 levels with bone mineral density and bone turnover markers in postmenopausal Chinese women Yusi Chen · Qi Guo · Min Zhang · Shumin Song · Tonggui Quan · Tiepeng Zhao · Hongliang Li · Li-Juan Guo · Tiejian Jiang · Guangwei Wang · Guangwei Wang
A review of UHMWPE wear-induced osteolysis: the role for early detection of the immune response Adrese M. Kandahari · Xinlin Yang · Kevin A Laroche · Abhijit S. Dighe · Dongfeng Pan · Quanjun Cui · Quanjun Cui
External fixation is more suitable for intra-articular fractures of the distal radius in elderly patients Chuang Ma · Qiang Deng · Hongwei Pu · Xinchun Cheng · Yuhua Kan · Jing Yang · Aihemaitijiang Yusufu · Li Cao · Li Cao
Clinical and genetic findings in a Chinese family with VDR-associated hereditary vitamin D-resistant rickets Qianqian Pang · Xuan Qi · Yan Jiang · Ou Wang · Mei Li · Xiaoping Xing · Jin Dong · Weibo Xia · Weibo Xia
TGF-β and BMP signaling in osteoblast, skeletal development, and bone formation, homeostasis and disease Mengrui Wu · Guiqian Chen · Yi-Ping Li · Yi-Ping Li
In vivo radiometric analysis of glucose uptake and distribution in mouse bone Meredith L Zoch · Diane S. Abou · Thomas L. Clemens · Daniel L. J. Thorek · Ryan C. Riddle · Ryan C. Riddle
Assessment of bone turnover and bone quality in type 2 diabetic bone disease: current concepts and future directions Mishaela R Rubin · Janina M Patsch · Janina M Patsch
Identification of two novel mutations in the GALNT3 gene in a Chinese family with hyperphosphatemic familial tumoral calcinosis Li-hao Sun · Lin Zhao · Lianjun Du · Peipei Zhang · Min-jia Zhang · Min Li · Ting-ting Liu · Lei Ye · Bei Tao · Hong-yan Zhao · Jian-min Liu · Xiaoyi Ding · Xiaoyi Ding
Cytocompatibility with osteogenic cells and enhanced in vivo anti-infection potential of quaternized chitosan-loaded titania nanotubes Ying Yang · Haiyong Ao · Yugang Wang · Wentao Lin · Shengbing Yang · Shuhong Zhang · Zhifeng Yu · Tingting Tang · Tingting Tang
A cost-effective method to enhance adenoviral transduction of primary murine osteoblasts and bone marrow stromal cells Atum M. Buo · Mark S. Williams · Jaclyn P. Kerr · Joseph P. Stains · Joseph P. Stains
miR-23a/b regulates the balance between osteoblast and adipocyte differentiation in bone marrow mesenchymal stem cells Qi Guo · Yusi Chen · Li-Juan Guo · Tiejian Jiang · Zhangyuan Lin · Zhangyuan Lin
Enhanced but hypofunctional osteoclastogenesis in an autosomal dominant osteopetrosis type II case carrying a c.1856C>T mutation in CLCN7 Xiang Chen · Kun Zhang · Janet M. Hock · Chunyu Wang · Xijie Yu · Xijie Yu
Mice with a heterozygous Lrp6 deletion have impaired fracture healing Travis A. Burgers · Juan Vivanco · Juraj Zahatnansky · Andrew J Vander Moren · James J. Mason · Bart O. Williams · Bart O. Williams
Bone-cartilage crosstalk: a conversation for understanding osteoarthritis David M. Findlay · J.S. Kuliwaba · J.S. Kuliwaba
A multiscale 3D finite element analysis of fluid/solute transport in mechanically loaded bone Lixia Fan · Shaopeng Pei · X. Lucas Lu · Liyun Wang · Liyun Wang
Vitamin D, calcium homeostasis and aging Vaishali Veldurthy · Ran Wei · Leyla Oz · Puneet Dhawan · Yong Heui Jeon · Sylvia Christakos · Sylvia Christakos
Erratum: Pit- and trench-forming osteoclasts: a distinction that matters Ditte Mh Merrild · Dinisha Cyril Pirapaharan · Christina Møller Andreasen · Per Kjærsgaard-Andersen · Anaïs Mj Møller · Ming Ding · Jean-Marie Delaissé · Kent Søe · Kent Søe
Analysis of new bone, cartilage, and fibrosis tissue in healing murine allografts using whole slide imaging and a new automated histomorphometric algorithm Longze Zhang · Martin Chang · Christopher A. Beck · Edward M. Schwarz · Brendan F. Boyce · Brendan F. Boyce
Lysine-specific demethylase 1 inhibitor rescues the osteogenic ability of mesenchymal stem cells under osteoporotic conditions by modulating H3K4 methylation Longwei Lv · Wenshu Ge · Yunsong Liu · Guanyou Lai · Hao Liu · Wenyue Li · Yongsheng Zhou · Yongsheng Zhou

IGF-I induced phosphorylation of PTH receptor enhances osteoblast to osteocyte transition
Bone Research | 2018
Tao Qiu · Janet L. Crane · Liang Xie · Liang Xie · Lingling Xian · Hui Xie · Xu Cao · Xu Cao
R-spondin-2 is a Wnt agonist that regulates osteoblast activity and bone mass
Bone Research | 2018
M. Noelle Knight · Kannan Karuppaiah · Michele Lowe · Sarthak Mohanty · Robert L. Zondervan · Sheila M. Bell · Jaimo Ahn · Kurt D. Hankenson · Kurt D. Hankenson · Kurt D. Hankenson
Aberrant activation of latent transforming growth factor-β initiates the onset of temporomandibular joint osteoarthritis
Bone Research | 2018
Liwei Zheng · Caixia Pi · Jun Zhang · Yi Fan · Chen Cui · Yang Zhou · Jianxun Sun · Quan Yuan · Xin Xu · Ling Ye · Xu Cao · Xuedong Zhou · Xuedong Zhou
Biomimetic delivery of signals for bone tissue engineering
Bone Research | 2018
Ming Dang · Laura Saunders · Xufeng Niu · Yubo Fan · Peter X. Ma · Peter X. Ma