Sustainable Development

Wiley
Wiley
ISSN: 09680802, 10991719, 21607540, 21607559, 27536580

Are you a researcher?

Create a profile to get free access to personal recommendations for colleagues and new articles.
SCImago
Q1
WOS
Q1
Impact factor
9.9
SJR
2.283
CiteScore
17.3
Categories
Development
Renewable Energy, Sustainability and the Environment
Areas
Energy
Social Sciences
Years of issue
1993-2025
journal names
Sustainable Development
SUSTAIN DEV
Publications
3 554
Citations
57 597
h-index
104
Top-3 citing journals
Sustainable Development
Sustainable Development (6713 citations)
Sustainability
Sustainability (4418 citations)
Top-3 organizations
University of Queensland
University of Queensland (35 publications)
Lebanese American University
Lebanese American University (24 publications)
Top-3 countries
China (524 publications)
United Kingdom (339 publications)
Australia (185 publications)

Most cited in 5 years

Found 
from chars
Publications found: 379
Why boys will be boys and girls will be girls: Human sex development and its defects
Eid W., Biason-Lauber A.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 22  |  Abstract
Among the most defining events of an individual's life, is the development of a human embryo into male or a female. The phenotypic sex of an individual depends on the type of gonad that develops in the embryo, a process which itself is determined by the genetic setting of the individual. The development of the gonads is different from any other organ, as they possess the potential to differentiate into two functionally distinct organs, testes, or ovaries. Sex development can be divided into two distinctive processes, "sex determination," which is the commitment of the undifferentiated gonad into either a testis or an ovary, a process that is genetically programmed in a critically timed manner and "sex differentiation," which takes place through hormones produced by the gonads, once the developmental sex determination decision has been made. Disruption of any of the genes involved in either the testicular or ovarian development pathway could lead to disorders of sex development. In this review, we provide an insight into the factors important for sex determination, their antagonistic actions and whenever possible, references on the "prismatic" clinical cases are given. Birth Defects Research (Part C) 108:365-379, 2016. © 2016 Wiley Periodicals, Inc.
The effect of maternal exposure to endocrine disrupting chemicals on fetal and neonatal development: A review on the major concerns
Mallozzi M., Bordi G., Garo C., Caserta D.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 84  |  Abstract
There is a widespread exposure of general population, including pregnant women and developing fetuses, to the endocrine disrupting chemicals (EDCs). These chemicals have been reported to be present in urine, blood serum, breast milk, and amniotic fluid. Endocrine disruptions induced by environmental toxicants have placed a heavy burden on society, since environmental exposures during critical periods of development can permanently reprogram normal physiological responses, thereby increasing susceptibility to disease later in life-a process known as developmental reprogramming. During development, organogenesis and tissue differentiation occur through a continuous series of tightly-regulated and precisely-timed molecular, biochemical, and cellular events. Humans may encounter EDCs daily and during all stages of life, from conception and fetal development through adulthood and senescence. Nevertheless, prenatal and early postnatal windows are the most critical for proper development, due to rapid changes in system growth. Although there are still gaps in our knowledge, currently available data support the urgent need for health and environmental policies aimed at protecting the public and, in particular, the developing fetus and women of reproductive age. Birth Defects Research (Part C) 108:224-242, 2016. © 2016 Wiley Periodicals, Inc.
Fetal programming of neuropsychiatric disorders
Faa G., Manchia M., Pintus R., Gerosa C., Marcialis M.A., Fanos V.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 122  |  Abstract
Starting from the Developmental Origins of Health and Disease (DOHaD) hypotheses proposed by David Barker, namely fetal programming, in the past years, there is a growing evidence of the major role played by epigenetic factors during the intrauterine life and the perinatal period. Furthermore, it has been assessed that these factors can affect the health status in infancy and even in adulthood. In this review, we focus our attention on the fetal programming of the brain, analyzing the most recent literature concerning the epigenetic factors that can influence the development of neuropsychiatric disorders such as bipolar disorders, major depressive disorders, and schizophrenia. The perinatal epigenetic factors have been divided in two main groups: maternal factors and fetal factors. The maternal factors include diet, smoking, alcoholism, hypertension, malnutrition, trace elements, stress, diabetes, substance abuse, and exposure to environmental toxicants, while the fetal factors include hypoxia/asphyxia, placental insufficiency, prematurity, low birth weight, drugs administered to the mother or to the baby, and all factors causing intrauterine growth restriction. A better comprehension of the possible mechanisms underlying the pathogenesis of these diseases may help researchers and clinicians develop new diagnostic tools and treatments to offer these patients a tailored medical treatment strategy to improve their quality of life. Birth Defects Research (Part C) 108:207-223, 2016. © 2016 Wiley Periodicals, Inc.
Cover Image
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 0
Common congenital anomalies: Environmental causes and prevention with folic acid containing multivitamins
Sarmah S., Muralidharan P., Marrs J.A.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 28  |  Abstract
Congenital anomalies, congenital defects, or birth defects are significant causes of death in infants. The most common congenital defects are congenital heart defects (CHDs) and neural tube defects (NTDs). Defects induced by genetic mutations, environmental exposure to toxins, or a combination of these effects can result in congenital malformations, leading to infant death or long-term disabilities. These defects produce significant mortality and morbidity in the affected individuals, and families are affected emotional and financially. Also, society is impacted on many levels. Congenital anomalies may be reduced by dietary supplements of folic acid and other vitamins. Here, we review the evidence for specific roles of toxins (alcohol, cigarette smoke) in causing common severe congenital anomalies like CHDs, NTDs, and ocular defects. We also review the evidence for beneficial effects for dietary supplementation, and highlight gaps in our knowledge, where research may contribute to additional benefits of intervention that can reduce birth defects. Extensive discussion of common severe congenital anomalies (CHDs, NTDs, and ocular defects) illustrates the effects of diet on the frequency and severity of these defects. Birth Defects Research (Part C) 108:274-286, 2016. © 2016 Wiley Periodicals, Inc.
Prenatal exposure to environmental factors and congenital limb defects
Alexander P.G., Clark K.L., Tuan R.S.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 29  |  Abstract
Limb congenital defects afflict approximately 0.6:1000 live births. In addition to genetic factors, prenatal exposure to drugs and environmental toxicants, represents a major contributing factor to limb defects. Examples of well-recognized limb teratogenic agents include thalidomide, warfarin, valproic acid, misoprostol, and phenytoin. While the mechanism by which these agents cause dymorphogenesis is increasingly clear, prediction of the limb teratogenicity of many thousands of as yet uncharacterized environmental factors (pollutants) remains inexact. This is limited by the insufficiencies of currently available models. Specifically, in vivo approaches using guideline animal models have inherently deficient predictive power due to genomic and anatomic differences that complicate mechanistic comparisons. On the other hand, in vitro two-dimensional (2D) cell cultures, while accessible for cellular and molecular experimentation, do not reflect the three-dimensional (3D) morphogenetic events in vivo nor systemic influences. More robust and accessible models based on human cells that accurately replicate specific processes of embryonic limb development are needed to enhance limb teratogenesis prediction and to permit mechanistic analysis of the adverse outcome pathways. Recent advances in elucidating mechanisms of normal development will aid in the development of process-specific 3D cell cultures within specialized bioreactors to support multicellular microtissues or organoid constructs that will lead to increased understanding of cell functions, cell-to-cell signaling, pathway networks, and mechanisms of toxicity. The promise is prompting researchers to look to such 3D microphysiological systems to help sort out complex and often subtle interactions relevant to developmental malformations that would not be evident by standard 2D cell culture testing. Birth Defects Research (Part C) 108:243-273, 2016. © 2016 Wiley Periodicals, Inc.
Fine particle-induced birth defects: Impacts of size, payload, and beyond
Teng C., Wang Z., Yan B.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 30  |  Abstract
Worldwide epidemiological studies have shown that exposures to particulate matters (PMs), such as PM2.5 or PM10 , during pregnancy cause birth defects in the newborn. Although mechanistic understanding of such effects are not available, recent research using murine models highlights some key progress: (1) toxicity caused by PMs is a combined effects of particles and the adsorbed toxic pollutants, such as heavy metals, persistent organic pollutants, bacteria, and virus. Fine particles may hold on to pollutants and, therefore, reduce their toxicity or enhance the toxicity by carrying pollutants crossing the placental barrier; (2) smaller size, certain particle surface chemistry modifications, early developmental stage of placenta, and maternal diseases all aggravate PM-induced birth defects; (3) molecular events involved in such toxicity are begin to emerge: induction of oxidative stress, DNA damage, and alteration of molecular signaling or epigenetic events are some possible causes. Despite this progress, a clear understanding of PM-induced birth defects awaits further breakthroughs on many fronts, including epidemiological studies, animal models, nanotoxicity, and molecular mechanism investigations. Birth Defects Research (Part C) 108:196-206, 2016. © 2016 Wiley Periodicals, Inc.
Fetal oxidative stress mechanisms of neurodevelopmental deficits and exacerbation by ethanol and methamphetamine
Wells P.G., Bhatia S., Drake D.M., Miller-Pinsler L.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 44  |  Abstract
In utero exposure of mouse progeny to alcohol (ethanol, EtOH) and methamphetamine (METH) causes substantial postnatal neurodevelopmental deficits. One emerging pathogenic mechanism underlying these deficits involves fetal brain production of reactive oxygen species (ROS) that alter signal transduction, and/or oxidatively damage cellular macromolecules like lipids, proteins, and DNA, the latter leading to altered gene expression, likely via non-mutagenic mechanisms. Even physiological levels of fetal ROS production can be pathogenic in biochemically predisposed progeny, and ROS formation can be enhanced by drugs like EtOH and METH, via activation/induction of ROS-producing NADPH oxidases (NOX), drug bioactivation to free radical intermediates by prostaglandin H synthases (PHS), and other mechanisms. Antioxidative enzymes, like catalase in the fetal brain, while low, provide critical protection. Oxidatively damaged DNA is normally rapidly repaired, and fetal deficiencies in several DNA repair proteins, including oxoguanine glycosylase 1 (OGG1) and breast cancer protein 1 (BRCA1), enhance the risk of drug-initiated postnatal neurodevelopmental deficits, and in some cases deficits in untreated progeny, the latter of which may be relevant to conditions like autism spectrum disorders (ASD). Risk is further regulated by fetal nuclear factor erythroid 2-related factor 2 (Nrf2), a ROS-sensing protein that upregulates an array of proteins, including antioxidative enzymes and DNA repair proteins. Imbalances between conceptal pathways for ROS formation, versus those for ROS detoxification and DNA repair, are important determinants of risk. Birth Defects Research (Part C) 108:108-130, 2016. © 2016 Wiley Periodicals, Inc.
Prenatal exposure: The effects of prenatal cocaine and methamphetamine exposure on the developing child
Smith L.M., Santos L.S.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 25  |  Abstract
Prenatal substance use remains a significant issue in the United States. Initial reports regarding prenatal cocaine and methamphetamine exposure suggested profound adverse effects on child development. However, subsequent prospective, longitudinal investigations have found more subtle effects. What follows is a brief review of the health, growth, behavioral, and intellectual outcomes for children exposed to prenatal cocaine and prenatal methamphetamine. Factors that may mitigate or intensify subtle adverse effects manifested in exposed children will also be discussed. Birth Defects Research (Part C) 108:142-146, 2016. © 2016 Wiley Periodicals, Inc.
Cocaine-induced neurodevelopmental deficits and underlying mechanisms
Martin M.M., Graham D.L., McCarthy D.M., Bhide P.G., Stanwood G.D.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 31  |  Abstract
Exposure to drugs early in life has complex and long-lasting implications for brain structure and function. This review summarizes work to date on the immediate and long-term effects of prenatal exposure to cocaine. In utero cocaine exposure produces disruptions in brain monoamines, particularly dopamine, during sensitive periods of brain development, and leads to permanent changes in specific brain circuits, molecules, and behavior. Here, we integrate clinical studies and significance with mechanistic preclinical studies, to define our current knowledge base and identify gaps for future investigation. Birth Defects Research (Part C) 108:147-173, 2016. © 2016 Wiley Periodicals, Inc.
Cover Image
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 0
Prenatal substance use and developmental disorders: Overview and highlights
Tuan R.S.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 0
Impact of fetal alcohol exposure on body systems: A systematic review
Caputo C., Wood E., Jabbour L.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 129  |  Abstract
Review of published manuscripts on fetal alcohol exposure on several body systems.Articles in this review were found online using databases such as Medline, Medline Complete, PubMed, and Health Source: Nursing/Academic Edition. The following terms were searched: fetal alcohol spectrum disorders, fetal alcohol syndrome, prenatal alcohol exposure, and alcohol related birth defects.Thirteen articles were gathered, five original investigations and eight reviews. This review identified several abnormalities in the body systems discussed and their associations to fetal alcohol syndrome.Evidence shows that the brain was the most severely impacted organ of the body systems discussed. However, prenatal alcohol exposure causes several abnormalities within the heart, kidney, liver, gastrointestinal tract, and the endocrine systems. In addition, preventative measures need to be taken by mothers during pregnancy. Birth Defects Research (Part C), 2016. © 2016 Wiley Periodicals, Inc. Birth Defects Research (Part C) 108:174-180, 2016. © 2016 Wiley Periodicals, Inc.
The effects of nicotine on human fetal development
Holbrook B.D.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 113  |  Abstract
Maternal smoking during pregnancy continues to represent a major public health concern. Nicotine is extremely harmful to the developing fetus through many different mechanisms, and the harms increase with later gestational age at exposure. Pregnancies complicated by maternal nicotine use are more likely to have significant adverse outcomes. Nicotine-exposed children tend to have several health problems throughout their lives, including impaired function of the endocrine, reproductive, respiratory, cardiovascular, and neurologic systems. Poor academic performance and significant behavioral disruptions are also common, including ADHD, aggressive behaviors, and future substance abuse. To diminish the adverse effects from cigarette smoking, some women are turning to electronic cigarettes, a new trend that is increasing in popularity worldwide. They are largely perceived as being safer to use in pregnancy than traditional cigarettes, although there is not adequate evidence to support this claim. At this time, electronic cigarette use during pregnancy cannot be recommended. Birth Defects Research (Part C) 108:181-192, 2016. © 2016 Wiley Periodicals, Inc.
Mechanisms involved in the neurotoxic and cognitive effects of developmental methamphetamine exposure
Jablonski S.A., Williams M.T., Vorhees C.V.
Wiley
Birth Defects Research Part C Embryo Today Reviews 2016 citations by CoLab: 21  |  Abstract
Methamphetamine exposure in utero leads to a variety of higher-order cognitive deficits, such as decreased attention and working, and spatial memory impairments in exposed children (Piper et al., 2011; Roussotte et al., 2011; Kiblawi et al., 2011). As with other teratogens, the timing of methamphetamine exposure greatly determines its effects on both neuroanatomical and behavioral outcomes. Methamphetamine exposure in rodents during the third trimester human equivalent period of brain development results in distinct and long-lasting route-based and spatial navigation deficits (Williams et al., 2003; Vorhees et al., 2005, 2008, 2009;). Here, we examine the impact of neonatal methamphetamine-induced neurotoxicity on behavioral outcomes, neurotransmission, receptor changes, plasticity proteins, and DNA damage. Birth Defects Research (Part C) 108:131-141, 2016. © 2016 Wiley Periodicals, Inc.

Top-100

Citing journals

1000
2000
3000
4000
5000
6000
7000
Show all (70 more)
1000
2000
3000
4000
5000
6000
7000

Citing publishers

2000
4000
6000
8000
10000
12000
14000
Show all (70 more)
2000
4000
6000
8000
10000
12000
14000

Publishing organizations

5
10
15
20
25
30
35
Show all (70 more)
5
10
15
20
25
30
35

Publishing organizations in 5 years

5
10
15
20
25
Show all (70 more)
5
10
15
20
25

Publishing countries

100
200
300
400
500
600
China, 524, 14.74%
United Kingdom, 339, 9.54%
Australia, 185, 5.21%
USA, 161, 4.53%
Spain, 124, 3.49%
Germany, 101, 2.84%
India, 99, 2.79%
Turkey, 90, 2.53%
Netherlands, 85, 2.39%
Finland, 75, 2.11%
Italy, 74, 2.08%
South Africa, 72, 2.03%
Pakistan, 71, 2%
Sweden, 70, 1.97%
Canada, 60, 1.69%
Malaysia, 55, 1.55%
Norway, 55, 1.55%
Poland, 55, 1.55%
Brazil, 41, 1.15%
Republic of Korea, 40, 1.13%
Japan, 34, 0.96%
Nigeria, 33, 0.93%
Saudi Arabia, 33, 0.93%
Portugal, 32, 0.9%
Iran, 31, 0.87%
Vietnam, 30, 0.84%
Lithuania, 29, 0.82%
New Zealand, 29, 0.82%
Bangladesh, 27, 0.76%
Lebanon, 27, 0.76%
France, 26, 0.73%
Singapore, 24, 0.68%
Greece, 23, 0.65%
Thailand, 23, 0.65%
Ghana, 22, 0.62%
UAE, 20, 0.56%
Switzerland, 20, 0.56%
Austria, 19, 0.53%
Denmark, 19, 0.53%
Russia, 18, 0.51%
Azerbaijan, 17, 0.48%
Czech Republic, 17, 0.48%
Belgium, 16, 0.45%
Indonesia, 16, 0.45%
Ireland, 15, 0.42%
Mexico, 14, 0.39%
Hungary, 13, 0.37%
Romania, 13, 0.37%
Cameroon, 12, 0.34%
Colombia, 12, 0.34%
Nepal, 11, 0.31%
Ecuador, 11, 0.31%
Malta, 10, 0.28%
Slovenia, 10, 0.28%
Qatar, 9, 0.25%
Uzbekistan, 9, 0.25%
Chile, 9, 0.25%
Egypt, 8, 0.23%
Kenya, 8, 0.23%
Cyprus, 7, 0.2%
Peru, 7, 0.2%
Tunisia, 7, 0.2%
Oman, 6, 0.17%
Philippines, 6, 0.17%
Croatia, 6, 0.17%
Kuwait, 5, 0.14%
Ukraine, 4, 0.11%
Zambia, 4, 0.11%
Jordan, 4, 0.11%
Rwanda, 4, 0.11%
Serbia, 4, 0.11%
Ethiopia, 4, 0.11%
Iraq, 3, 0.08%
Trinidad and Tobago, 3, 0.08%
Argentina, 2, 0.06%
Bahrain, 2, 0.06%
Bulgaria, 2, 0.06%
Botswana, 2, 0.06%
Bhutan, 2, 0.06%
Zimbabwe, 2, 0.06%
Israel, 2, 0.06%
Côte d'Ivoire, 2, 0.06%
Latvia, 2, 0.06%
Morocco, 2, 0.06%
Myanmar, 2, 0.06%
North Macedonia, 2, 0.06%
Sudan, 2, 0.06%
Uganda, 2, 0.06%
Uruguay, 2, 0.06%
Chad, 2, 0.06%
Sri Lanka, 2, 0.06%
Benin, 1, 0.03%
Burkina Faso, 1, 0.03%
Haiti, 1, 0.03%
Guyana, 1, 0.03%
Guinea, 1, 0.03%
Grenada, 1, 0.03%
Georgia, 1, 0.03%
Cambodia, 1, 0.03%
Congo-Brazzaville, 1, 0.03%
Show all (70 more)
100
200
300
400
500
600

Publishing countries in 5 years

50
100
150
200
250
300
350
400
450
China, 418, 18.51%
United Kingdom, 124, 5.49%
Spain, 91, 4.03%
Australia, 90, 3.99%
USA, 85, 3.76%
India, 80, 3.54%
Turkey, 76, 3.37%
Pakistan, 66, 2.92%
Germany, 61, 2.7%
Italy, 59, 2.61%
Netherlands, 54, 2.39%
South Africa, 45, 1.99%
Malaysia, 43, 1.9%
Poland, 41, 1.82%
Brazil, 36, 1.59%
Canada, 34, 1.51%
Finland, 34, 1.51%
Sweden, 32, 1.42%
Republic of Korea, 29, 1.28%
Saudi Arabia, 29, 1.28%
Nigeria, 28, 1.24%
Norway, 26, 1.15%
Vietnam, 25, 1.11%
Lebanon, 24, 1.06%
Portugal, 23, 1.02%
Bangladesh, 22, 0.97%
Lithuania, 22, 0.97%
Japan, 21, 0.93%
Iran, 20, 0.89%
Ghana, 19, 0.84%
Azerbaijan, 17, 0.75%
Thailand, 17, 0.75%
Czech Republic, 16, 0.71%
Russia, 15, 0.66%
France, 14, 0.62%
New Zealand, 14, 0.62%
UAE, 14, 0.62%
Singapore, 13, 0.58%
Cameroon, 12, 0.53%
Switzerland, 12, 0.53%
Indonesia, 11, 0.49%
Romania, 11, 0.49%
Hungary, 10, 0.44%
Greece, 10, 0.44%
Colombia, 10, 0.44%
Malta, 9, 0.4%
Denmark, 8, 0.35%
Egypt, 8, 0.35%
Qatar, 8, 0.35%
Mexico, 8, 0.35%
Ecuador, 8, 0.35%
Nepal, 7, 0.31%
Slovenia, 7, 0.31%
Uzbekistan, 7, 0.31%
Chile, 7, 0.31%
Austria, 6, 0.27%
Belgium, 6, 0.27%
Ireland, 6, 0.27%
Cyprus, 6, 0.27%
Tunisia, 6, 0.27%
Oman, 5, 0.22%
Philippines, 5, 0.22%
Croatia, 5, 0.22%
Ukraine, 4, 0.18%
Kenya, 4, 0.18%
Peru, 4, 0.18%
Rwanda, 4, 0.18%
Zambia, 3, 0.13%
Jordan, 3, 0.13%
Kuwait, 3, 0.13%
Ethiopia, 3, 0.13%
Argentina, 2, 0.09%
Bahrain, 2, 0.09%
Zimbabwe, 2, 0.09%
Iraq, 2, 0.09%
Côte d'Ivoire, 2, 0.09%
Latvia, 2, 0.09%
Morocco, 2, 0.09%
Serbia, 2, 0.09%
Sudan, 2, 0.09%
Uganda, 2, 0.09%
Chad, 2, 0.09%
Benin, 1, 0.04%
Bulgaria, 1, 0.04%
Burkina Faso, 1, 0.04%
Haiti, 1, 0.04%
Guyana, 1, 0.04%
Guinea, 1, 0.04%
Georgia, 1, 0.04%
Israel, 1, 0.04%
Congo-Brazzaville, 1, 0.04%
Democratic Republic of the Congo, 1, 0.04%
Palestine, 1, 0.04%
Senegal, 1, 0.04%
Syria, 1, 0.04%
Slovakia, 1, 0.04%
Solomon Islands, 1, 0.04%
Tanzania, 1, 0.04%
Uruguay, 1, 0.04%
Fiji, 1, 0.04%
Show all (70 more)
50
100
150
200
250
300
350
400
450