Author: "Darabi, H." - Searchworks@Jio Institute Digital Library Search Results

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503 results on '"Darabi, H."'

1. On classification of (n+5)-dimensional nilpotent n-Lie algebra of class two

Author: Hoseini, Z., Saeedi, F., and Darabi, H.
Subjects: Mathematics - Rings and Algebras, Mathematics - Group Theory
Abstract: In this paper, we classify (n+5)-dimensional nilpotent n-Lie algebras of class two over the arbitrary field, when $n\ge 3$.
Published: 2018

2. Prediction of unplanned 30-day readmission for ICU patients with heart failure

Author: Pishgar, M., Theis, J., Del Rios, M., Ardati, A., Anahideh, H., and Darabi, H.
Published: 2022
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3. A process mining- deep learning approach to predict survival in a cohort of hospitalized COVID‐19 patients

Author: Pishgar, M., Harford, S., Theis, J., Galanter, W., Rodríguez-Fernández, J. M., Chaisson, L. H, Zhang, Y., Trotter, A., Kochendorfer, K. M., Boppana, A., and Darabi, H.
Published: 2022
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4. Genetic variation in the immunosuppression pathway genes and breast cancer susceptibility: a pooled analysis of 42,510 cases and 40,577 controls from the Breast Cancer Association Consortium

Author: Lei, J, Rudolph, A, Moysich, KB, Behrens, S, Goode, EL, Bolla, MK, Dennis, J, Dunning, AM, Easton, DF, Wang, Q, Benitez, J, Hopper, JL, Southey, MC, Schmidt, MK, Broeks, A, Fasching, PA, Haeberle, L, Peto, J, dos-Santos-Silva, I, Sawyer, EJ, Tomlinson, I, Burwinkel, B, Marmé, F, Guénel, P, Truong, T, Bojesen, SE, Flyger, H, Nielsen, SF, Nordestgaard, BG, González-Neira, A, Menéndez, P, Anton-Culver, H, Neuhausen, SL, Brenner, H, Arndt, V, Meindl, A, Schmutzler, RK, Brauch, H, Hamann, U, Nevanlinna, H, Fagerholm, R, Dörk, T, Bogdanova, NV, Mannermaa, A, Hartikainen, JM, Australian Ovarian Study Group, kConFab Investigators, Van Dijck, L, Smeets, A, Flesch-Janys, D, Eilber, U, Radice, P, Peterlongo, P, Couch, FJ, Hallberg, E, Giles, GG, Milne, RL, Haiman, CA, Schumacher, F, Simard, J, Goldberg, MS, Kristensen, V, Borresen-Dale, AL, Zheng, W, Beeghly-Fadiel, A, Winqvist, R, Grip, M, Andrulis, IL, Glendon, G, García-Closas, M, Figueroa, J, Czene, K, Brand, JS, Darabi, H, Eriksson, M, Hall, P, Li, J, Cox, A, Cross, SS, Pharoah, PDP, Shah, M, Kabisch, M, Torres, D, Jakubowska, A, Lubinski, J, Ademuyiwa, F, Ambrosone, CB, Swerdlow, A, Jones, M, and Chang-Claude, J
Subjects: Genetics, Complementary and Alternative Medicine, Paediatrics and Reproductive Medicine, Genetics & Heredity
Abstract: Immunosuppression plays a pivotal role in assisting tumors to evade immune destruction and promoting tumor development. We hypothesized that genetic variation in the immunosuppression pathway genes may be implicated in breast cancer tumorigenesis. We included 42,510 female breast cancer cases and 40,577 controls of European ancestry from 37 studies in the Breast Cancer Association Consortium (2015) with available genotype data for 3595 single nucleotide polymorphisms (SNPs) in 133 candidate genes. Associations between genotyped SNPs and overall breast cancer risk, and secondarily according to estrogen receptor (ER) status, were assessed using multiple logistic regression models. Gene-level associations were assessed based on principal component analysis. Gene expression analyses were conducted using RNA sequencing level 3 data from The Cancer Genome Atlas for 989 breast tumor samples and 113 matched normal tissue samples. SNP rs1905339 (A>G) in the STAT3 region was associated with an increased breast cancer risk (per allele odds ratio 1.05, 95 % confidence interval 1.03–1.08; p value = 1.4 × 10−6). The association did not differ significantly by ER status. On the gene level, in addition to TGFBR2 and CCND1, IL5 and GM-CSF showed the strongest associations with overall breast cancer risk (p value = 1.0 × 10−3 and 7.0 × 10−3, respectively). Furthermore, STAT3 and IL5 but not GM-CSF were differentially expressed between breast tumor tissue and normal tissue (p value = 2.5 × 10−3, 4.5 × 10−4 and 0.63, respectively). Our data provide evidence that the immunosuppression pathway genes STAT3,IL5, and GM-CSF may be novel susceptibility loci for breast cancer in women of European ancestry.
Published: 2016

5. Inverse association between cigarette and water pipe smoking and hypertension in an elderly population in Iran: Bushehr elderly health programme

Author: Mehboudi, M B, Nabipour, I, Vahdat, K, Darabi, H, Raeisi, A, Mehrdad, N, Heshmat, R, Shafiee, G, Larijani, B, and Ostovar, A
Published: 2017
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6. Hydroclimatic trends and drought risk assessment in the Ceyhan River basin:insights from SPI and STI indices

Author: Darabi, H. (Hamid), Mehr, A. D. (Ali Danandeh), Kum, G. (Gülşen), Sönmez, M. E. (Mehmet Emin), Dumitrache, C. A. (Cristina Alina), Diani, K. (Khadija), Celebi, A. (Ahmet), Torabi Haghighi, A. (Ali), Darabi, H. (Hamid), Mehr, A. D. (Ali Danandeh), Kum, G. (Gülşen), Sönmez, M. E. (Mehmet Emin), Dumitrache, C. A. (Cristina Alina), Diani, K. (Khadija), Celebi, A. (Ahmet), and Torabi Haghighi, A. (Ali)
Abstract: This study examined the spatiotemporal climate variability over the Ceyhan River basin in Southern Anatolia, Türkiye using historical rainfall and temperature observations recorded at 15 meteorology stations. Various statistical and geostatistical techniques were employed to determine the significance of trends for each climatic variable in the whole basin and its three sub-regions (northern, central, and southern regions). The results revealed that the recent years in the basin were generally warmer compared with previous years, with a temperature increase of approximately 4 °C. The standardized temperature index analysis indicated a shift towards hotter periods after 2005, while the coldest periods were observed in the early 1990s. The spatial distribution of temperature showed non-uniform patterns throughout the basin. The first decade of the study period (1975–1984) was characterized by relatively cold temperatures, followed by a transition period from cold to hot between 1985 and 2004, and a hotter period in the last decade (2005–2014). The rainfall analysis indicated a decreasing trend in annual rainfall, particularly in the northern and central regions of the basin. However, the southern region showed an increasing trend in annual rainfall during the study period. The spatial distribution of rainfall exhibited considerable variability across the basin, with different regions experiencing distinct patterns. The standardized precipitation index analysis revealed the occurrence of multiple drought events throughout the study period. The most severe and prolonged droughts were observed in the years 1992–1996 and 2007–2010. These drought events had significant impacts on water availability and agricultural productivity in the basin.
Published: 2023

7. On the multiplier of nilpotent n-Lie algebras

Author: Eshrati, M., Saeedi, F., and Darabi, H.
Published: 2016
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8. A characterization of finite dimensional nilpotent Filippov algebras

Author: Darabi, H., Saeedi, F., and Eshrati, M.
Published: 2016
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9. SOME PROPERTIES OF PAIR OF n-ISOCLINISM INDUCTION.

Author: SAJEDI, M. and DARABI, H.
Subjects: SUBGROUP growth, GROUP theory, MATHEMATICAL induction, INVARIANT sets, MATHEMATICAL proofs
Abstract: Let (G;M) be a pair of groups, in whichM is a normal subgroup of a group G:We study some properties of n-isoclinism of pair of groups. In fact, we show that the subgroups and quotient groups of two n-isoclinism pair of groups are m-isoclinic for all m ≤ n: Moreover, the properties of π-pair and supersolvable pair of groups which are invariant under n-isoclinism has be studied. [ABSTRACT FROM AUTHOR]
Published: 2023

10. Machine learning techniques for urban flood risk assessment

Author: Haghighi, A. (Ali Torabi), Kløve, B. (Bjørn), Darabi, H. (Hamid), Haghighi, A. (Ali Torabi), Kløve, B. (Bjørn), and Darabi, H. (Hamid)
Abstract: Floods can cause severe damage in urban environments. In regions lacking hydrological and hydraulic data, spatial urban flood modeling and mapping can enable city authorities to predict the intensity and spatial distribution of floods. These predictions can then be used to develop effective flood prevention and management plans. In this doctoral thesis, flood inventory data for Mazandaran, Iran were prepared based on historical and field survey data from the Sari and Amol municipalities and the regional water company. Flood risk maps were produced using several machine learning (ML) algorithms: GARP, QUEST, RF, j48DT, CART, LMT, ANN-SGW, SVM, MAXENT, BRT, MARS, GLM, GAM, Ensemble, MLPNN, and MultiB-MLPNN models. The flood influencing factors used in modeling were precipitation, slope, curve number, distance to river, distance to channel, depth to groundwater, land use, and elevation. Two equal sets of points were identified randomly for both categories of flooded and non-flooded areas. Therefore, 113 (for Sari city) and 118 (for Amol city) locations for each category were identified. Each set is divided into training (70%) and testing (30%) groups. The flood locations were assigned a value of 1, and non-flood locations were assigned a value of 0. Different conditioning factors, including urban density, quality of buildings, age of buildings, population density, and socio-economic conditions were considered to analyze urban flood vulnerability. Several confusion matrix criteria were applied to evaluate the accuracy of the ML algorithms. The results demonstrated that the ANN-SGW (as the optimized model), GARP (as the standalone model), Ensemble (BRT, MARS, GLM, and GAM), and MultiB-MLPNN models (as the hybridized model) had the highest performance accuracy, with area under the curve (AUC) values of 0.963, 0.935, 0.925, and 0.847 respectively. The results also indicated that distance to channel played a major role in flood hazard determination, whereas populat, Tiivistelmä Tulvat voivat aiheuttaa vakavia vahinkoja kaupunkiympäristössä. Alueilla, joista hydrologisia ja hydraulisia tietoja ei ole kattavasti saatavilla, kaupunkitulvien alueellinen mallinnus ja kartoitus avaavat mahdollisuuden viranomaisille arvioida tulvien alueellista jakautumista ja voimakkuutta. Mallinnus auttaa päätöksentekijöitä kehittämään toimivia tulvien ehkäisy- ja hallintasuunnitelmia. Tässä tutkimuksessa tulvainventointitiedot laadittiin Sarin ja Amolin kuntien sekä Iranin Mazandaranin vesiyhtiön historiallisten ja kenttätutkimusten tietojen perusteella. Tulvariskikarttoja tuotettiin useilla koneoppimisalgoritmeillä: GARP, QUEST, RF, j48DT, CART, LMT, ANN-SGW, SVM, MAXENT, BRT, MARS, GLM, GAM, Ensemble, MLPNN, ja MultiB-MLPNN mallit. Mallinnuksessa käytettyjä tulviin vaikuttavia tekijöitä olivat sadanta, maanpinnan kaltevuus, käyrän numero, etäisyys jokeen, etäisyys kanavaan, etäisyys pohjaveden pintaan, maankäyttö ja maanpinnan korkeus. Kaksi samanlaista pistejoukkoa tunnistettiin satunnaisesti sekä tulvivalla että tulvattomalla alueella ja siksi kullekin luokalle tunnistettiin 113 (Sarin kaupunki) ja 118 (Amolin kaupunki) sijaintia. Jokainen sarja on jaettu koulutusryhmiin (70 %) ja testausryhmiin (30 %). Tulvapaikoille määritettiin arvo 1 ja tulvattomille arvo 0. Kaupunkien tulvahaavoittuvuuden analysoinnissa arvioitiin erilaisia tekijöitä, kuten rakennustiheys, rakennusten laatu, rakennusten ikä, väestötiheys ja sosioekonomiset olosuhteet. ML-algoritmien tarkkuuden arvioimiseksi käytettiin useita sekaannusmatriisikriteerejä. Tulokset osoittivat, että ANN-SGW (optimoitu malli), GARP (erillisenä mallina), yhdistelmä-ensemble (BRT, MARS, GLM ja GAM) ja MultiB-MLPNN-mallit (hybridimallina) tuottivat muita paremman suorituksen tarkkuuden, AUC=0.963, AUC=0.935, AUC=0.925 ja AUC=0.847, edellä mainitussa järjestyksessä. Tulokset osoittivat myös, että etäisyys kanavaan oli tärkeässä asemassa tulvariskien määrittämisessä, kun taas väestötiheys oli haavoi
Published: 2022

11. Probability of Normality of Chains in Finite Groups.

Author: Sajedi, M., Moghaddam, M. R. R., and Darabi, H.
Subjects: FINITE groups, PROBABILITY theory, MARKOV processes, QUATERNIONS, MODULAR groups
Abstract: In this paper we introduce the concept of probability of normality of chains in finite groups. For any normal subgroup N of a finite group G, the relation between the probability of normality of chains of G and of its factor group G=N are obtained. Finally, we give explicit formulas for such probability of dihedral groups D2n, quasi-dihedral groups QD2n, generalized quaternion groups Q2n, and the modular p-groups Mpn. [ABSTRACT FROM AUTHOR]
Published: 2023

12. Design a cabinet dryer with two geometric configurations using CFD

Author: Darabi, H., Zomorodian, A., Akbari, M. H., and Lorestani, A. N.
Published: 2015
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13. Machine learning techniques for urban flood risk assessment

Author: Darabi, H. (Hamid), Haghighi, A. (Ali Torabi), and Kløve, B. (Bjørn)
Subjects: NN-SGW malli, NN-SGW model, confusion matrix, flood risk mapping, tulvariskien kartoitus, flood inventory data, sekaannusmatriisi, tulvien data-aineistot
Abstract: Floods can cause severe damage in urban environments. In regions lacking hydrological and hydraulic data, spatial urban flood modeling and mapping can enable city authorities to predict the intensity and spatial distribution of floods. These predictions can then be used to develop effective flood prevention and management plans. In this doctoral thesis, flood inventory data for Mazandaran, Iran were prepared based on historical and field survey data from the Sari and Amol municipalities and the regional water company. Flood risk maps were produced using several machine learning (ML) algorithms: GARP, QUEST, RF, j48DT, CART, LMT, ANN-SGW, SVM, MAXENT, BRT, MARS, GLM, GAM, Ensemble, MLPNN, and MultiB-MLPNN models. The flood influencing factors used in modeling were precipitation, slope, curve number, distance to river, distance to channel, depth to groundwater, land use, and elevation. Two equal sets of points were identified randomly for both categories of flooded and non-flooded areas. Therefore, 113 (for Sari city) and 118 (for Amol city) locations for each category were identified. Each set is divided into training (70%) and testing (30%) groups. The flood locations were assigned a value of 1, and non-flood locations were assigned a value of 0. Different conditioning factors, including urban density, quality of buildings, age of buildings, population density, and socio-economic conditions were considered to analyze urban flood vulnerability. Several confusion matrix criteria were applied to evaluate the accuracy of the ML algorithms. The results demonstrated that the ANN-SGW (as the optimized model), GARP (as the standalone model), Ensemble (BRT, MARS, GLM, and GAM), and MultiB-MLPNN models (as the hybridized model) had the highest performance accuracy, with area under the curve (AUC) values of 0.963, 0.935, 0.925, and 0.847 respectively. The results also indicated that distance to channel played a major role in flood hazard determination, whereas population density was the most important factor in terms of urban flood vulnerability. These findings demonstrate that machine learning models can support flood risk mapping, especially in areas where detailed hydraulic and hydrological data are not available. Tiivistelmä Tulvat voivat aiheuttaa vakavia vahinkoja kaupunkiympäristössä. Alueilla, joista hydrologisia ja hydraulisia tietoja ei ole kattavasti saatavilla, kaupunkitulvien alueellinen mallinnus ja kartoitus avaavat mahdollisuuden viranomaisille arvioida tulvien alueellista jakautumista ja voimakkuutta. Mallinnus auttaa päätöksentekijöitä kehittämään toimivia tulvien ehkäisy- ja hallintasuunnitelmia. Tässä tutkimuksessa tulvainventointitiedot laadittiin Sarin ja Amolin kuntien sekä Iranin Mazandaranin vesiyhtiön historiallisten ja kenttätutkimusten tietojen perusteella. Tulvariskikarttoja tuotettiin useilla koneoppimisalgoritmeillä: GARP, QUEST, RF, j48DT, CART, LMT, ANN-SGW, SVM, MAXENT, BRT, MARS, GLM, GAM, Ensemble, MLPNN, ja MultiB-MLPNN mallit. Mallinnuksessa käytettyjä tulviin vaikuttavia tekijöitä olivat sadanta, maanpinnan kaltevuus, käyrän numero, etäisyys jokeen, etäisyys kanavaan, etäisyys pohjaveden pintaan, maankäyttö ja maanpinnan korkeus. Kaksi samanlaista pistejoukkoa tunnistettiin satunnaisesti sekä tulvivalla että tulvattomalla alueella ja siksi kullekin luokalle tunnistettiin 113 (Sarin kaupunki) ja 118 (Amolin kaupunki) sijaintia. Jokainen sarja on jaettu koulutusryhmiin (70 %) ja testausryhmiin (30 %). Tulvapaikoille määritettiin arvo 1 ja tulvattomille arvo 0. Kaupunkien tulvahaavoittuvuuden analysoinnissa arvioitiin erilaisia tekijöitä, kuten rakennustiheys, rakennusten laatu, rakennusten ikä, väestötiheys ja sosioekonomiset olosuhteet. ML-algoritmien tarkkuuden arvioimiseksi käytettiin useita sekaannusmatriisikriteerejä. Tulokset osoittivat, että ANN-SGW (optimoitu malli), GARP (erillisenä mallina), yhdistelmä-ensemble (BRT, MARS, GLM ja GAM) ja MultiB-MLPNN-mallit (hybridimallina) tuottivat muita paremman suorituksen tarkkuuden, AUC=0.963, AUC=0.935, AUC=0.925 ja AUC=0.847, edellä mainitussa järjestyksessä. Tulokset osoittivat myös, että etäisyys kanavaan oli tärkeässä asemassa tulvariskien määrittämisessä, kun taas väestötiheys oli haavoittuvuuden kannalta tärkein tekijä. Nämä havainnot osoittavat, että koneoppimismallit voivat auttaa tulvariskikartoituksessa erityisesti alueilla, joilla yksityiskohtaisia hydrauliikka- ja hydrologisia tietoja ei ole saatavilla.
Published: 2022

14. A hybridized model based on neural network and swarm intelligence-grey wolf algorithm for spatial prediction of urban flood-inundation

Author: Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), Rahmati, O. (Omid), Jalali Shahrood, A. (Abolfazl), Rouzbeh, S. (Sajad), Pradhan, B. (Biswajeet), and Tien Bui, D. (Dieu)
Subjects: Confusion matrix, NN-SGW model, Environmental Engineering, Flood inundation, Flood inventory, GIS
Abstract: In regions with lack of hydrological and hydraulic data, a spatial flood modeling and mapping is an opportunity for the urban authorities to predict the spatial distribution and the intensity of the flooding. It helps decision-makers to develop effective flood prevention and management plans. In this study, flood inventory data were prepared based on the historical and field surveys data by Sari municipality and regional water company of Mazandaran, Iran. The collected flood data accompanied with different variables (digital elevation model and slope have been considered as topographic variables, land use/land cover, precipitation, curve number, distance to river, distance to channel and depth to groundwater as environmental variables) were applied to novel hybridized model based on neural network and swarm intelligence-grey wolf algorithm (NN-SGW) to map flood-inundation. Several confusion matrix criteria were used for accuracy evaluation by cutoff-dependent and independent metrics (e.g., efficiency (E), positive predictive value (PPV), negative predictive value (NPV), area under the receiver operating characteristic curve (AUC)). The accuracy of the flood inundation map produced by the NN-SGW model was compared with that of maps produced by four state-of-the-art benchmark models: random forest (RF), logistic model tree (LMT), classification and regression trees (CART), and J48 decision tree (J48DT). The NN-SGW model outperformed all benchmark models in both training (E = 90.5%, PPV = 93.7%, NPV = 87.3%, AUC = 96.3%) and validation (E = 79.4%, PPV = 85.3%, NPV = 73.5%, AUC = 88.2%). As the NN-SGW model produced the most accurate flood-inundation map, it can be employed for robust flood contingency planning. Based on the obtained results from NN-SGW model, distance from channel, distance from river, and depth to groundwater were identified as the most important variables for spatial prediction of urban flood inundation. This work can serve as a basis for future studies seeking to predict flood susceptibility in urban areas using hybridized machine learning (ML) models and can also be applied in other urban areas where flood inundation presents a pressing challenge, and there are some problems regarding required model and availability of input data.
Published: 2021

15. Prediction of Unplanned 30- day Readmission for ICU Patients with Heart Failure

Author: Pishgar, M, primary, Theis, J, additional, Del Rios, M, additional, Ardati, A, additional, Anahideh, H, additional, and Darabi, H, additional
Published: 2021
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16. Breast cancer genetic risk profile is differentially associated with interval and screen-detected breast cancers

Author: Li, J., Holm, J., Bergh, J., Eriksson, M., Darabi, H., Lindström, L. S., Törnberg, S., Hall, P., and Czene, K.
Published: 2015
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17. Variation in physical characteristics of rainfall in Iran, determined using daily rainfall concentration index and monthly rainfall percentage index

Author: Kaboli, S. (Sadegh), Hekmatzadeh, A. A. (Ali Akbar), Darabi, H. (Hamid), and Haghighi, A. T. (Ali Torabi)
Subjects: education, geographic locations
Abstract: Variations in rainfall characteristics play a key role in available water resources for a country. In this study, spatial and temporal variations in rainfall in Iran were determined using the daily rainfall concentration index (DRCI) and monthly rainfall percentage index (MRPI), based on 30-year (1987–2016) daily precipitation records from 80 meteorological stations throughout Iran. The results showed that MRPI differed between locations within Iran, with increasing or decreasing trends observed in different areas. The highest significant decreasing trend in MRPI (3–7% per decade) was found for March rainfall in western Iran, and the highest increasing trend in MRPI (3–7% per decade) for November rainfall in eastern and southern Iran. The DRCI values obtained varied from 0.57 to 0.71, indicating moderate and high rainfall concentrations, with the highest DRCI values in coastal zones of Iran near the Caspian Sea and the Persian Gulf. Trend analysis showed increasing trends in DRCI values at 80% of meteorological stations, and these trends were significant at 37% of those stations.
Published: 2021

18. Toward the development of deep-learning analyses for snow avalanche releases in mountain regions

Author: Chen, Y. (Yunzhi), Chen, W. (Wei), Rahmati, O. (Omid), Falah, F. (Fatemeh), Kulakowski, D. (Dominik), Lee, S. (Saro), Rezaie, F. (Fatemeh), Panahi, M. (Mahdi), Bahmani, A. (Aref), Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), and Bian, H. (Huiyuan)
Subjects: snow avalanche, natural disasters, GIS, artificial intelligence
Abstract: Snow avalanches impose a considerable threat to infrastructure and human safety in snow bound mountain areas. Nevertheless, the spatial prediction of snow avalanches has received little research attention in many vulnerable parts of the world, particularly in developing countries. The present study investigates the applicability of a stand-alone convolutional neural network (CNN) model, as a deep-learning approach, along with two metaheuristic algorithms including grey wolf optimization (CNN-GWO) and imperialist competitive algorithm (CNN-ICA) in snow avalanche modeling in the Darvan watershed, Iran. The analysis was based on thirteen potential drivers of avalanche occurrence and an inventory map of previously documented avalanche occurrences. The efficiency of models’ performance was evaluated by Area Under the Receiver Operating Characteristic curve (AUC) and the Root Mean Square Error (RMSE). The CNN-ICA model yielded the highest accuracy in both training (AUC= 0.982, RMSE =0.067) and validation (AUC= 0.972, RMSE =0.125) steps, followed by the CNN-GWO model (AUC of 0.975 for training, RMSE of 0.18 for training, AUC of 0.968 for validation, RMSE of 0.157 for validation). However, the standalone CNN model showed lower goodness-of-fit (AUC= 0.864, RMSE =0.22) and predictive performance (AUC= 0.811, RMSE =0.330). The approach utilized in this study is broadly applicable for identifying areas where avalanche hazard is likely to be high and where mitigation measures or corresponding land use planning should be prioritized.
Published: 2021

19. Development of a novel hybrid multi-boosting neural network model for spatial prediction of urban flood

Author: Darabi, H., Rahmati, O., Naghibi, S. A., Mohammadi, F., Ahmadisharaf, E., Kalantari, Zahra, Torabi Haghighi, A., Soleimanpour, S. M., Tiefenbacher, J. P., Tien Bui, D., Darabi, H., Rahmati, O., Naghibi, S. A., Mohammadi, F., Ahmadisharaf, E., Kalantari, Zahra, Torabi Haghighi, A., Soleimanpour, S. M., Tiefenbacher, J. P., and Tien Bui, D.
Abstract: In this study, a new hybridized machine learning algorithm for urban flood susceptibility mapping, named MultiB-MLPNN, was developed using a multi-boosting technique and MLPNN. The model was tested in Amol City, Iran, a data-scarce city in an ungauged area which is prone to severe flood inundation events and currently lacks flood prevention infrastructure. Performance of the hybridized model was compared with that of a standalone MLPNN model, random forest and boosted regression trees. Area under the curve, efficiency, true skill statistic, Matthews correlation coefficient, misclassification rate, sensitivity and specificity were used to evaluate model performance. In validation, the MultiB-MLPNN model showed the best predictive performance. The hybridized MultiB-MLPNN model is thus useful for generating realistic flood susceptibility maps for data-scarce urban areas. The maps can be used to develop risk-reduction measures to protect urban areas from devastating floods, particularly where available data are insufficient to support physically based hydrological or hydraulic models., QC 20220308
Published: 2021
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20. Accuracy assessment of remotely sensed data to analyze lake water balance in semi-arid region

Author: Bhattacharjee, J. (Joy), Rabbil, M. (Mehedi), Fazel, N. (Nasim), Darabi, H. (Hamid), Choubin, B. (Bahram), Khan, M. M. (Md. Motiur Rahman), Marttila, H. (Hannu), Torabi Haghighi, A. (Ali), Bhattacharjee, J. (Joy), Rabbil, M. (Mehedi), Fazel, N. (Nasim), Darabi, H. (Hamid), Choubin, B. (Bahram), Khan, M. M. (Md. Motiur Rahman), Marttila, H. (Hannu), and Torabi Haghighi, A. (Ali)
Abstract: Lake water level fluctuation is a function of hydro-meteorological components, namely input, and output to the system. The combination of these components from in-situ and remote sensing sources has been used in this study to define multiple scenarios, which are the major explanatory pathways to assess lake water levels. The goal is to analyze each scenario through the application of the water balance equation to simulate lake water levels. The largest lake in Iran, Lake Urmia, has been selected in this study as it needs a great deal of attention in terms of water management issues. We ran a monthly water balance simulation of nineteen scenarios for Lake Urmia from 2003 to 2007 by applying different combinations of data, including observed and remotely sensed water level, flow, evaporation, and rainfall. We used readily available water level data from Hydrosat, Hydroweb, and DAHITI platforms; evapotranspiration from MODIS and rainfall from TRMM. The analysis suggests that the consideration of field data in the algorithm as the initial water level can reproduce the fluctuation of Lake Urmia water level in the best way. The scenario that combines in-situ meteorological components is the closest match to the observed water level of Lake Urmia. Almost all scenarios showed good dynamics with the field water level, but we found that nine out of nineteen scenarios did not vary significantly in terms of dynamics. The results also reveal that, even without any field data, the proposed scenario, which consists entirely of remote sensing components, is capable of estimating water level fluctuation in a lake. The analysis also explains the necessity of using proper data sources to act on water regulations and managerial decisions to understand the temporal phenomenon not only for Lake Urmia but also for other lakes in semi-arid regions.
Published: 2021

21. Development of a novel hybrid multi-boosting neural network model for spatial prediction of urban flood

Author: Darabi, H. (Hamid), Rahmati, O. (Omid), Naghibi, S. A. (Seyed Amir), Mohammadi, F. (Farnoush), Ahmadisharaf, E. (Ebrahim), Kalantari, Z. (Zahra), Torabi Haghighi, A. (Ali), Soleimanpour, S. M. (Seyed Masoud), Tiefenbacher, J. P. (John P.), Tien Bui, D. (Dieu), Darabi, H. (Hamid), Rahmati, O. (Omid), Naghibi, S. A. (Seyed Amir), Mohammadi, F. (Farnoush), Ahmadisharaf, E. (Ebrahim), Kalantari, Z. (Zahra), Torabi Haghighi, A. (Ali), Soleimanpour, S. M. (Seyed Masoud), Tiefenbacher, J. P. (John P.), and Tien Bui, D. (Dieu)
Abstract: In this study, a new hybridized machine learning algorithm for urban flood susceptibility mapping, named MultiB-MLPNN, was developed using a multi-boosting technique and MLPNN. The model was tested in Amol City, Iran, a data-scarce city in an ungauged area which is prone to severe flood inundation events and currently lacks flood prevention infrastructure. Performance of the hybridized model was compared with that of a standalone MLPNN model, random forest and boosted regression trees. Area under the curve, efficiency, true skill statistic, Matthews correlation coefficient, misclassification rate, sensitivity and specificity were used to evaluate model performance. In validation, the MultiB-MLPNN model showed the best predictive performance. The hybridized MultiB-MLPNN model is thus useful for generating realistic flood susceptibility maps for data-scarce urban areas. The maps can be used to develop risk-reduction measures to protect urban areas from devastating floods, particularly where available data are insufficient to support physically based hydrological or hydraulic models.
Published: 2021

22. An index-based approach for assessment of upstream-downstream flow regime alteration

Author: Torabi Haghighi, A. (Ali), Yaraghi, N. (Navid), Sönmez, M. E. (Mehmet Emin), Darabi, H. (Hamid), Kum, G. (Gülşen), Çelebi, A. (Ahmet), Kløve, B. (Bjørn), Torabi Haghighi, A. (Ali), Yaraghi, N. (Navid), Sönmez, M. E. (Mehmet Emin), Darabi, H. (Hamid), Kum, G. (Gülşen), Çelebi, A. (Ahmet), and Kløve, B. (Bjørn)
Abstract: River regulation is challenging when there is diverse upstream and downstream interest, leading to regional and international conflict. However, quantifying the upstream-downstream flow regime changes and their causes are given less consideration in the river basin. In this study, we presented three new ratios for downstream-upstream low flow contribution (DUL), downstream-upstream high flow contribution ratio (DUH), and meteorological-hydrological drought ratio (MHD), for an integrated assessment of flow regime alteration across the river basin. To test the methods, we compared flow regime alteration upstream and downstream in the Ceyhan basin in central Turkey, which was significantly modified by agriculture between 1984 and 2018 (the irrigated area increased 2.8-fold, rainfed farming decreased by 67.6%). Our analysis revealed a clear change in the contribution of low and high flow seasons to annual flow in the last station of the river at Misis after 1984, but no considerable change in upstream tributaries. In the last decade (2005–2014) and the second half (1995–2014) of the study, the frequency of hydrological droughts increased, while meteorological droughts followed a stationary pattern. Evaluation of the impact of anthropogenic activities on river regime (by comparing flow regime characteristics after 1984 with those from 1975 to 1984 as post- and pre-impact periods) revealed low to incipient impact upstream (Hanköy, Karaahmet, and Kadirli river headwaters), severe impact below the Aslantaş dam in the basin center, and moderate impact at the last station on the Ceyhan river. The new metrics provide supplementary information on the flow regime alteration in the basin and can be introduced as a novel quantitative measure to recognize the driving factor of droughts.
Published: 2021

23. Prediction of daily suspended sediment load (SSL) using new optimization algorithms and soft computing models

Author: Darabi, H. (Hamid), Mohamadi, S. (Sedigheh), Karimidastenaei, Z. (Zahra), Kisi, O. (Ozgur), Ehteram, M. (Mohammad), ELShafie, A. (Ahmed), Torabi Haghighi, A. (Ali), Darabi, H. (Hamid), Mohamadi, S. (Sedigheh), Karimidastenaei, Z. (Zahra), Kisi, O. (Ozgur), Ehteram, M. (Mohammad), ELShafie, A. (Ahmed), and Torabi Haghighi, A. (Ali)
Abstract: Accurate modeling and prediction of suspended sediment load (SSL) in rivers have an important role in environmental science and design of engineering structures and are vital for watershed management. Since different parameters such as rainfall, temperature, and discharge with the different lag times have significant effects on the SSL, quantifying and understanding nonlinear interactions of the sediment dynamics has always been a challenge. In this study, three soft computing models (multilayer perceptron (MLP), adaptive neuro-fuzzy system (ANFIS), and radial basis function neural network (RBFNN)) were used to predict daily SSL. Four optimization algorithms (sine–cosine algorithm (SCA), particle swarm optimization (PSO), firefly algorithm (FFA), and bat algorithm (BA)) were used to improve the capability of SSL prediction of the models. Data from gauging stations at the mouth of the Kasilian and Talar rivers in northern Iran were used in the analysis. The selection of input combinations for the models was based on principal component analysis (PCA). Uncertainty in sequential uncertainty fitting (SUFI-2) and performance indicators were used to assess the potential of models. Taylor diagrams were used to visualize the match between model output and observed values. Assessment of daily SSL predictions for Talar station revealed that ANFIS-SCA yielded the best results (RMSE (root mean square error): 934.2 ton/day, MAE (mean absolute error): 912.2 ton/day, NSE (Nash–Sutcliffe efficiency): 0.93, PBIAS: 0.12). ANFIS-SCA also yielded the best results for Kasilian station (RMSE: 1412.10 ton/day, MAE: 1403.4 ton/day, NSE: 0.92, PBIAS: 0.14). The Taylor diagram confirmed that ANFIS-SCA achieved the best match between observed and predicted values for various hydraulic and hydrological parameters at both Talar and Kasilian stations. Further, the models were tested in Eagel Creek Basin, Indiana state, USA. The results indicated that the ANFIS-SCA model reduced RMSE by
Published: 2021

24. Flood risk mapping and crop-water loss modeling using water footprint analysis in agricultural watershed, northern Iran

Author: Mohammadi, M. (Maziar), Darabi, H. (Hamid), Mirchooli, F. (Fahimeh), Bakhshaee, A. (Alireza), Torabi Haghighi, A. (Ali), Mohammadi, M. (Maziar), Darabi, H. (Hamid), Mirchooli, F. (Fahimeh), Bakhshaee, A. (Alireza), and Torabi Haghighi, A. (Ali)
Abstract: Spatial information on flood risk and flood-related crop losses is important in flood mitigation and risk management in agricultural watersheds. In this study, loss of water bound in agricultural products following damage by flooding was calculated using water footprint and agricultural statistics, using the Talar watershed, northern Iran, as a case. The main conditioning factors on flood risk (flow accumulation, slope, land use, rainfall intensity, geology, and elevation) were rated and combined in GIS, and a flood risk map classified into five risk classes (very low to very high) was created. Using average crop yield per hectare, the amount of rice and wheat products under flood risk was calculated for the watershed. Finally, the spatial relationships between agricultural land uses (rice and wheat) and flood risk areas were evaluated using geographically weighted regression (GWR) in terms of local R² at sub-watershed scale. The results showed that elevation was the most critical factor for flood risk. GWR results indicated that local R² between rice farms and flood risk decreased gradually from north to south in the watershed, while no pattern was detected for wheat farms. Potential production of rice and wheat in very high flood risk zones was estimated to be 7972 and 18,860 tons, on an area of 822 ha and 7218 ha, respectively. Loss of these crops to flooding meant that approximately 34.04 and 12.10 million m³ water used for production of wheat and rice, respectively, were lost. These findings can help managers, policymakers, and watershed stakeholders achieve better crop management and flood damage reduction.
Published: 2021

25. A hybridized model based on neural network and swarm intelligence-grey wolf algorithm for spatial prediction of urban flood-inundation

Author: Darabi, H, Torabi Haghighi, A, Rahmati, O, Jalali Shahrood, A, Rouzbeh, S, Pradhan, B, Tien Bui, D, Darabi, H, Torabi Haghighi, A, Rahmati, O, Jalali Shahrood, A, Rouzbeh, S, Pradhan, B, and Tien Bui, D
Abstract: In regions with lack of hydrological and hydraulic data, a spatial flood modeling and mapping is an opportunity for the urban authorities to predict the spatial distribution and the intensity of the flooding. It helps decision-makers to develop effective flood prevention and management plans. In this study, flood inventory data were prepared based on the historical and field surveys data by Sari municipality and regional water company of Mazandaran, Iran. The collected flood data accompanied with different variables (digital elevation model and slope have been considered as topographic variables, land use/land cover, precipitation, curve number, distance to river, distance to channel and depth to groundwater as environmental variables) were applied to novel hybridized model based on neural network and swarm intelligence-grey wolf algorithm (NN-SGW) to map flood-inundation. Several confusion matrix criteria were used for accuracy evaluation by cutoff-dependent and independent metrics (e.g., efficiency (E), positive predictive value (PPV), negative predictive value (NPV), area under the receiver operating characteristic curve (AUC)). The accuracy of the flood inundation map produced by the NN-SGW model was compared with that of maps produced by four state-of-the-art benchmark models: random forest (RF), logistic model tree (LMT), classification and regression trees (CART), and J48 decision tree (J48DT). The NN-SGW model outperformed all benchmark models in both training (E = 90.5%, PPV = 93.7%, NPV = 87.3%, AUC = 96.3%) and validation (E = 79.4%, PPV = 85.3%, NPV = 73.5%, AUC = 88.2%). As the NN-SGW model produced the most accurate flood-inundation map, it can be employed for robust flood contingency planning. Based on the obtained results from NN-SGW model, distance from channel, distance from river, and depth to groundwater were identified as the most important variables for spatial prediction of urban flood inundation. This work can serve as a basis for future stud
Published: 2021

26. Analysis and optimization of direct-conversion receivers with 25% duty-cycle current-driven passive mixers

Author: Mirzaei, A., Darabi, H., Leete, J.C., and Yuyu Chang
Subjects: Electric current converters -- Design and construction, Impedance (Electricity) -- Measurement, Integrated circuits -- Design and construction, Semiconductor chips -- Design and construction, Noise control -- Methods, Electric current converter, Standard IC, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Published: 2010

27. TET:an automated tool for evaluating suitable check-dam sites based on sediment trapping efficiency

Author: Rahmati, O. (Omid), Ghasemieh, H. (Hoda), Samadi, M. (Mahmood), Kalantari, Z. (Zahra), Tiefenbacher, J. P. (John P.), Nalivan, O. A. (Omid Asadi), Cerdà, A. (Artemi), Ghiasi, S. S. (Seid Saeid), Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), and Tien Bui, D. (Dieu)
Subjects: Trap efficiency, Water quality, Sediment, Python language, GIS, Watershed management
Abstract: Sediment control is important for supplying clean water. Although check dams control sediment yield, site selection for check dams based on the sediment trapping efficiency (TE) is often complex and time-consuming. Currently, a multi-step trial-and-error process is used to find the optimal sediment TE for check dam construction, which limits this approach in practice. To cope with this challenge, we developed a user-friendly, cost- and time-efficient geographic information system (GIS)-based tool, the trap efficiency tool (TET), in the Python programming language. We applied the tool to two watersheds, the Hableh-Rud and the Poldokhtar, in Iran. To identify suitable sites for check dams, four scenarios (S1: TE ≥ 60%, S2: TE ≥ 70%, S3: TE ≥ 80%, S4: TE ≥ 90%) were tested. TET identified 189, 117, 96, and 77 suitable sites for building check dams in S1, S2, S3, and S4, respectively, in the Hableh-Rud watershed, and 346, 204, 156, and 60 sites in S1, S2, S3, and S4, respectively, in the Poldokhtar watershed. Evaluation of 136 existing check dams in the Hableh-Rud watershed indicated that only 10% and 5% were well-located and these were in the TE classes of 80–90% and ≥90%, respectively. In the Poldokhtar watershed, only 11% and 8% of the 207 existing check dams fell into TE classes 80–90% and ≥90%, respectively. Thus, the conventional approach for locating suitable sites at which check dams should be constructed is not effective at reaching suitable sediment control efficiency. Importantly, TET provides valuable insights for site selection of check dams and can help decision makers avoid monetary losses incurred by inefficient check-dam performance.
Published: 2020

28. RiMARS:an automated river morphodynamics analysis method based on remote sensing multispectral datasets

Author: Shahrood, A. J. (Abolfazl Jalali), Menberu, M. W. (Meseret Walle), Darabi, H. (Hamid), Rahmati, O. (Omid), Rossi, P. M. (Pekka M.), Kløve, B. (Bjørn), and Haghighi, A. T. (Ali Torabi)
Subjects: Sediments, MNDWI, Sinuosity index, RiMARS, River migration, Environmental monitoring, Iran, Landsat, Multispectral image
Abstract: Assessment and monitoring of river morphology own an important role in river engineering; since, changes in river morphology including erosion and sedimentation affect river cross-sections and flow processes. An approach for River Morphodynamics Analysis based on Remote Sensing (RiMARS) was developed and tested on the case of Mollasadra dam construction on the Kor River, Iran. Landsat multispectral images obtained from the open USGS dataset are used to extract river morphology dynamics by the Modified Normalized Difference Water Index (MNDWI). RiMARS comes with a river extraction module which is independent of threshold segmentation methods to produce binary-level images. In addition, RiMARS is equipped with developed indices for assessing the morphological alterations. Five characteristics of river morphology (spatiotemporal Sinuosity Index (SI), Absolute Centerline Migration (ACM), Rate of Centerline Migration (RCM), River Linear Pattern (RLP), and Meander Migration Index (MMI)), are applied to quantify river morphology changes. The results indicated that the Kor River centerline underwent average annual migration of 40 cm to the southwest during 1993–2003 (pre-construction impact), 20 cm to the northeast during 2003–2011, and 40 cm to the south-west during 2011–2017 (post-construction impact). Spatially, as the Kor River runs towards the Doroudzan dam, changes in river morphology have increased from upstream to downstream; particularly evident where the river flows in a plain instead of the valley. Based on SI values, there was a 5% change in the straight sinuosity class in the pre-construction period, but an 18% decrease in the straight class during the post-construction period. Here we demonstrate the application of RiMARS in assessing the impact of dam construction on morphometric processes in Kor River, but it can be used to assess other riverine changes, including tracking the unauthorized water consumption using diverted canals. RiMARS can be applied on multispectral images.
Published: 2020

29. Development of novel hybridized models for urban flood susceptibility mapping

Author: Rahmati, O., Darabi, H., Panahi, M., Kalantari, Zahra, Naghibi, S. A., Ferreira, C. S. S., Kornejady, A., Karimidastenaei, Z., Mohammadi, F., Stefanidis, S., Tien Bui, D., Haghighi, A. T., Rahmati, O., Darabi, H., Panahi, M., Kalantari, Zahra, Naghibi, S. A., Ferreira, C. S. S., Kornejady, A., Karimidastenaei, Z., Mohammadi, F., Stefanidis, S., Tien Bui, D., and Haghighi, A. T.
Abstract: QC 20210127
Published: 2020
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30. TET : An automated tool for evaluating suitable check-dam sites based on sediment trapping efficiency

Author: Rahmati, O., Ghasemieh, H., Samadi, M., Kalantari, Z., Tiefenbacher, J. P., Nalivan, O. A., Cerdà, A., Ghiasi, S. S., Darabi, H., Haghighi, A. T., Tien Bui, D., Rahmati, O., Ghasemieh, H., Samadi, M., Kalantari, Z., Tiefenbacher, J. P., Nalivan, O. A., Cerdà, A., Ghiasi, S. S., Darabi, H., Haghighi, A. T., and Tien Bui, D.
Abstract: Export Date: 3 January 2021; Article; CODEN: JCROE; Correspondence Address: Tien Bui, D.; Institute of Research and Development, Duy Tan UniversityViet Nam; email: buitiendieu@duytan.edu.vn
Published: 2020
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31. Land degradation risk mapping using topographic, human-induced, and geo-environmental variables and machine learning algorithms, for the Pole-Doab watershed, Iran

Author: Torabi Haghighi, A. (Ali), Darabi, H. (Hamid), Karimidastenaei, Z. (Zahra), Davudirad, A. A. (Ali Akbar), Rouzbeh, S. (Sajad), Rahmati, O. (Omid), Sajedi-Hosseini, F. (Farzaneh), Klöve, B. (Björn), Torabi Haghighi, A. (Ali), Darabi, H. (Hamid), Karimidastenaei, Z. (Zahra), Davudirad, A. A. (Ali Akbar), Rouzbeh, S. (Sajad), Rahmati, O. (Omid), Sajedi-Hosseini, F. (Farzaneh), and Klöve, B. (Björn)
Abstract: Land degradation (LD) is a complex process affected by both anthropogenic and natural driving variables, and its prevention has become an essential task globally. The aim of the present study was to develop a new quantitative LD mapping approach using machine learning techniques, benchmark models, and human-induced and socio-environmental variables. We employed four machine learning algorithms [Support Vector Machine (SVM), Multivariate Adaptive Regression Splines (MARS), Generalized Linear Model (GLM), and Dragonfly Algorithm (DA)] for LD risk mapping, based on topographic (n = 7), human-induced (n = 5), and geo-environmental (n = 6) variables, and field measurements of degradation in the Pole-Doab watershed, Iran. We assessed the performance of different algorithms using receiver operating characteristic, Kappa index, and Taylor diagram. The results revealed that the main topographic, geoenvironmental, and human-induced variable was slope, geology, and land use change, respectively. Assessments of model performance indicated that DA had the highest accuracy and efficiency, with the greatest learning and prediction power in LD risk mapping. In LD risk maps produced using SVM, GLM, MARS, and DA, 19.16%, 19.29%, 21.76%, and 22.40%, respectively, of total area in the Pole-Doab watershed had a very high degradation risk. The results of this study demonstrate that in LD risk mapping for a region, topographic, and geological factors (static conditions) and human activities (dynamic conditions, e.g., residential and industrial area expansion) should be considered together, for best protection at watershed scale. These findings can help policymakers prioritize land and water conservation efforts.
Published: 2020

32. The effect of sample size on different machine learning models for groundwater potential mapping in mountain bedrock aquifers

Author: Moghaddam, D. D. (Davoud Davoudi), Rahmati, O. (Omid), Panahi, M. (Mahdi), Tiefenbacher, J. (John), Darabi, H. (Hamid), Haghizadeh, A. (Ali), Torabi Haghighi, A. (Ali), Nalivan, O. A. (Omid Asadi), Tien Bui, D. (Dieu), Moghaddam, D. D. (Davoud Davoudi), Rahmati, O. (Omid), Panahi, M. (Mahdi), Tiefenbacher, J. (John), Darabi, H. (Hamid), Haghizadeh, A. (Ali), Torabi Haghighi, A. (Ali), Nalivan, O. A. (Omid Asadi), and Tien Bui, D. (Dieu)
Abstract: Machine learning models have attracted much research attention for groundwater potential mapping. However, the accuracy of models for groundwater potential mapping is significantly influenced by sample size and this is still a challenge. This study evaluates the influence of sample size on the accuracy of different individual and hybrid models, adaptive neuro-fuzzy inference system (ANFIS), ANFIS-imperial competitive algorithm (ANFIS-ICA), alternating decision tree (ADT), and random forest (RF) to model groundwater potential, considering the number of springs from 177 to 714. A well-documented inventory of springs, as a natural representative of groundwater potential, was used to designate four sample data sets: 100% (D₁), 75% (D₂), 50% (D₃), and 25% (D₄) of the entire springs inventory. Each data set was randomly split into two groups of 30% (for training) and 70% (for validation). Fifteen diverse geo-environmental factors were employed as independent variables. The area under the operating receiver characteristic curve (AUROC) and the true skill statistic (TSS) as two cutoff-independent and cutoff-dependent performance metrics were used to assess the performance of models. Results showed that the sample size influenced the performance of four machine learning algorithms, but RF had a lower sensitivity to the reduction of sample size. In addition, validation results revealed that RF (AUROC = 90.74–96.32%, TSS = 0.79–0.85) had the best performance based on all four sample data sets, followed by ANFIS-ICA (AUROC = 81.23–91.55%, TSS = 0.74–0.81), ADT (AUROC = 79.29–88.46%, TSS = 0.59–0.74), and ANFIS (AUROC = 73.11–88.43%, TSS = 0.59–0.74). Further, the relative slope position, lithology, and distance from faults were the main spring-affecting factors contributing to groundwater potential modelling. This study can provide useful guidelines and a valuable reference for selecting machine learning models when a complete spring inventory in a watershed is unavail
Published: 2020

33. Development of novel hybridized models for urban flood susceptibility mapping

Author: Rahmati, O. (Omid), Darabi, H. (Hamid), Panahi, M. (Mahdi), Kalantari, Z. (Zahra), Naghibi, S. A. (Seyed Amir), Santos Ferreira, C. S. (Carla Sofia), Kornejady, A. (Aiding), Karimidastenaei, Z. (Zahra), Mohammadi, F. (Farnoush), Stefanidis, S. (Stefanos), Bui, D. T. (Dieu Tien), Torabi Haghighi, A. (Ali), Rahmati, O. (Omid), Darabi, H. (Hamid), Panahi, M. (Mahdi), Kalantari, Z. (Zahra), Naghibi, S. A. (Seyed Amir), Santos Ferreira, C. S. (Carla Sofia), Kornejady, A. (Aiding), Karimidastenaei, Z. (Zahra), Mohammadi, F. (Farnoush), Stefanidis, S. (Stefanos), Bui, D. T. (Dieu Tien), and Torabi Haghighi, A. (Ali)
Abstract: Floods in urban environments often result in loss of life and destruction of property, with many negative socio-economic effects. However, the application of most flood prediction models still remains challenging due to data scarcity. This creates a need to develop novel hybridized models based on historical urban flood events, using, e.g., metaheuristic optimization algorithms and wavelet analysis. The hybridized models examined in this study (Wavelet-SVR-Bat and Wavelet-SVR-GWO), designed as intelligent systems, consist of a support vector regression (SVR), integrated with a combination of wavelet transform and metaheuristic optimization algorithms, including the grey wolf optimizer (GWO), and the bat optimizer (Bat). The efficiency of the novel hybridized and standalone SVR models for spatial modeling of urban flood inundation was evaluated using different cutoff-dependent and cutoff-independent evaluation criteria, including area under the receiver operating characteristic curve (AUC), Accuracy (A), Matthews Correlation Coefficient (MCC), Misclassification Rate (MR), and F-score. The results demonstrated that both hybridized models had very high performance (Wavelet-SVR-GWO: AUC = 0.981, A = 0.92, MCC = 0.86, MR = 0.07; Wavelet-SVR-Bat: AUC = 0.972, A = 0.88, MCC = 0.76, MR = 0.11) compared with the standalone SVR (AUC = 0.917, A = 0.85, MCC = 0.7, MR = 0.15). Therefore, these hybridized models are a promising, cost-effective method for spatial modeling of urban flood susceptibility and for providing in-depth insights to guide flood preparedness and emergency response services.
Published: 2020

34. Urban flood risk mapping using data-driven geospatial techniques for a flood-prone case area in Iran

Author: Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), Mohamadi, M. A. (Mohamad Ayob), Rashidpour, M. (Mostafa), Ziegler, A. D. (Alan D.), Hekmatzadeh, A. A. (Ali Akbar), Kløve, B. (Bjørn), Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), Mohamadi, M. A. (Mohamad Ayob), Rashidpour, M. (Mostafa), Ziegler, A. D. (Alan D.), Hekmatzadeh, A. A. (Ali Akbar), and Kløve, B. (Bjørn)
Abstract: In an effort to improve tools for effective flood risk assessment, we applied machine learning algorithms to predict flood-prone areas in Amol city (Iran), a site with recent floods (2017–2018). An ensemble approach was then implemented to predict hazard probabilities using the best machine learning algorithms (boosted regression tree, multivariate adaptive regression spline, generalized linear model, and generalized additive model) based on a receiver operator characteristic-area under the curve assessment. The algorithms were all trained and tested on 92 randomly selected points, information from a flood inundation survey, and geospatial predictor variables (precipitation, land use, elevation, slope percent, curve number, distance to river, distance to channel, and depth to groundwater). The ensemble model had 0.925 and 0.892 accuracy for training and testing data, respectively. We then created a vulnerability map from data on building density, building age, population density, and socio-economic conditions and assessed risk as a product of hazard and vulnerability. The results indicated that distance to channel, land use, and runoff generation were the most important factors associated with flood hazard, while population density and building density were the most important factors determining vulnerability. Areas of highest and lowest flood risks were identified, leading to recommendations on where to implement flood risk reduction measures to guide flood governance in Amol city.
Published: 2020

35. A scenario-based approach for assessing the hydrological impacts of land use and climate change in the Marboreh watershed, Iran

Author: Torabi Haghighi, A. (Ali), Darabi, H. (Hamid), Shahedi, K. (Kaka), Solaimani, K. (Karim), Kløve, B. (Bjørn), Torabi Haghighi, A. (Ali), Darabi, H. (Hamid), Shahedi, K. (Kaka), Solaimani, K. (Karim), and Kløve, B. (Bjørn)
Abstract: In separate analyses of the impacts of land use change and climate change, a scenario-based approach using remote sensing and hydro-climatological data was developed to assess changes in hydrological indices. The data comprised three Landsat TM images (1988, 1998, 2008) and meteorological and hydrological data (1983–2012) for the Aligudarz and Doroud stations in the Marboreh watershed, Iran. The QUAC module and supervised classification maximum likelihood (ML) algorithm in ENVI 5.1 were used for remote sensing, the SWAT model for hydrological modelling and the Mann-Kendall and t test methods for statistical analysis. To create scenarios, the study period was divided into three decades (1983–1992, 1993–2002, 2003–2012) with clearly different land use/land cover (LULC). After hydrological modelling, 10 hydrological indices related to high and low flow indices (HDI and LDI) were analysed for seven scenarios developed by combining pre-defined climate periods and LULC maps. The major changes in land use were degradation of natural rangeland (−18.49%) and increasing raid-fed farm area (+16.70%) and residential area (+0.80%). The Mann-Kendall test results showed a statistically significant (p < 0.05) decreasing trend in rainfall and flow during 1983–2012. In the scenarios evaluated, hydrological index trends were more sensitive to climate change than to LULC changes in the study area. Low flow indices were more affected than high flow indices in both land use and climate change scenarios. The results show little impact of land use change and indicate that climate change is the main driver of hydrological variations in the catchment. This is useful information in outlining future strategies for sustainable water resources management and policy decision-making in the Marboreh watershed.
Published: 2020

36. Machine-Learning-Assisted Field Development Opportunity Identification Through Streamlined Geological and Engineering Workflows

Author: Salehi, A., primary, Deng, L., additional, Darabi, H., additional, and Gringarten, E., additional
Published: 2021
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37. Flash-flood hazard assessment using ensembles and Bayesian-based machine learning models:application of the simulated annealing feature selection method

Author: Hosseini, F. S. (Farzaneh Sajedi), Choubin, B. (Bahram), Mosavi, A. (Amir), Nabipour, N. (Narjes), Shamshirband, S. (Shahaboddin), Darabi, H. (Hamid), and Haghighi, A. T. (Ali Torabi)
Subjects: flash-flood, hazard, ensemble machine learning, simulated annealing, Bayesian
Abstract: Flash-floods are increasingly recognized as a frequent natural hazard worldwide. Iran has been among the most devastated regions affected by the major floods. While the temporal flash-flood forecasting models are mainly developed for warning systems, the models for assessing hazardous areas can greatly contribute to adaptation and mitigation policy-making and disaster risk reduction. Former researches in the flash-flood hazard mapping have heightened the urge for the advancement of more accurate models. Thus, the current research proposes the state-of-the-art ensemble models of boosted generalized linear model (GLMBoost) and random forest (RF), and Bayesian generalized linear model (BayesGLM) methods for higher performance modeling. Furthermore, a pre-processing method, namely simulated annealing (SA), is used to eliminate redundant variables from the modeling process. Results of the modeling based on the hit and miss analysis indicates high performance for both models (accuracy= 90−92%, Kappa= 79−84%, Success ratio= 94−96%, Threat score= 80−84%, and Heidke skill score= 79−84%). The variables of distance from the stream, vegetation, drainage density, land use, and elevation have shown more contribution among others for modeling the flash-flood. The results of this study can significantly facilitate mapping the hazardous areas and further assist watershed managers to control and remediate induced damages of flood in the data-scarce regions.
Published: 2019

38. Impact of managed aquifer recharge structure on river flow regimes in arid and semi-arid climates

Author: Yaraghi, N. (Navid), Ronkanen, A.-K. (Anna-Kaisa), Darabi, H. (Hamid), Kløve, B. (Bjørn), Haghighi, A. T. (Ali Torabi), Yaraghi, N. (Navid), Ronkanen, A.-K. (Anna-Kaisa), Darabi, H. (Hamid), Kløve, B. (Bjørn), and Haghighi, A. T. (Ali Torabi)
Abstract: Managed aquifer recharge (MAR) structure is widely used to expand groundwater resources. In arid regions with flash flooding, MAR can also be used as a flood control structure to decrease peak discharge of rivers. In this paper, we present a method for quantifying the role of MAR in head water systems and assess its impact on the total water balance in a river basin. The method is based on rainfall-runoff modeling, reservoir flood routing, recharge analysis and river flow analysis. For the case selected, Kamal Abad MAR in Lake Maharlou basin in southern Iran, we analyzed changes in the downstream river regime using two scenarios (with MAR and without MAR) with different return periods. The results revealed a significant impact of MAR on river flow in terms of changes in flow timing, magnitude and variability. With MAR, the ephemeral river studied became disconnected from the main stream, albeit, whereas the case without MAR, floods with return period higher than 10 years would be connected to the downstream. Even though, MAR structures are useful in arid and semi-arid climates for irrigation water supply, their placing and designing need more attention. The developed method can be used to assess the impacts of MAR on river flow and find the best location for it to make the connection of the ephemeral river and downstream river, an issue which has not received much attention in hydrological research.
Published: 2019

39. Contribution of climatic variability and human activities to stream flow changes in the Haraz River basin, northern Iran

Author: Pirnia, A. (Abdollah), Darabi, H. (Hamid), Choubin, B. (Bahram), Omidvar, E. (Ebrahim), Onyutha, C. (Charles), Torabi Haghighi, A. (Ali), Pirnia, A. (Abdollah), Darabi, H. (Hamid), Choubin, B. (Bahram), Omidvar, E. (Ebrahim), Onyutha, C. (Charles), and Torabi Haghighi, A. (Ali)
Abstract: In northern Iran’s Haraz River basin between 1975 and 2010, hydrological sensitivity, double mass curve, and Soil and Water Assessment Tool (SWAT) methods were applied to monitoring and analysing changes in stream flow brought on by climatic variability and human activities. Applied to analyse trends in annual and seasonal runoff over this period, the sequential MK test showed a sudden change point in stream flow in 1994. The study period was, therefore, divided into two sub-periods: 1975–1994 and 1995–2010. The SWAT model showed obvious changes in water resource components between the two periods: in comparison to the period of 1975–1994, sub-watershed-scale stream flow and soil moisture decreased during 1995–2010. Changes in evapotranspiration were negligible compared to those in stream flow and soil moisture. The hydrological sensitivity method indicated that climatic variability and human activities contributed to 29.86% and 70.14%, respectively, of changes in annual stream flow, while the SWAT model placed these contributions at 34.78% and 65.21%, respectively. The double mass curve method indicated the contribution of climatic variability to stream flow changes to be 57.5% for the wet season and 22.87% for the dry season, while human activities contributed 42.5% and 77.13%, respectively. Accordingly, in the face of climatic variability, measures should be developed and implemented to mitigate its impacts and maintain eco-environmental integrity and water supplies.
Published: 2019

40. Urban flood hazard modeling using self-organizing map neural network

Author: Rahmati, O. (Omid), Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), Stefanidis, S. (Stefanos), Kornejady, A. (Aiding), Nalivan, O. A. (Omid Asadi), Bui, D. T. (Dieu Tien), Rahmati, O. (Omid), Darabi, H. (Hamid), Torabi Haghighi, A. (Ali), Stefanidis, S. (Stefanos), Kornejady, A. (Aiding), Nalivan, O. A. (Omid Asadi), and Bui, D. T. (Dieu Tien)
Abstract: Floods are the most common natural disaster globally and lead to severe damage, especially in urban environments. This study evaluated the efficiency of a self-organizing map neural network (SOMN) algorithm for urban flood hazard mapping in the case of Amol city, Iran. First, a flood inventory database was prepared using field survey data covering 118 flooded points. A 70:30 data ratio was applied for training and validation purposes. Six factors (elevation, slope percent, distance from river, distance from channel, curve number, and precipitation) were selected as predictor variables. After building the model, the odds ratio skill score (ORSS), efficiency (E), true skill statistic (TSS), and the area under the receiver operating characteristic curve (AUC-ROC) were used as evaluation metrics to scrutinize the goodness-of-fit and predictive performance of the model. The results indicated that the SOMN model performed excellently in modeling flood hazard in both the training (AUC = 0.946, E = 0.849, TSS = 0.716, ORSS = 0.954) and validation (AUC = 0.924, E = 0.857, TSS = 0.714, ORSS = 0.945) steps. The model identified around 23% of the Amol city area as being in high or very high flood risk classes that need to be carefully managed. Overall, the results demonstrate that the SOMN model can be used for flood hazard mapping in urban environments and can provide valuable insights about flood risk management.
Published: 2019

41. Urban flood risk mapping using the GARP and QUEST models: A comparative study of machine learning techniques

Author: Darabi, H, Choubin, B, Rahmati, O, Torabi Haghighi, A, Pradhan, B, Kløve, B, Darabi, H, Choubin, B, Rahmati, O, Torabi Haghighi, A, Pradhan, B, and Kløve, B
Abstract: © 2018 Elsevier B.V. Flood risk mapping and modeling is important to prevent urban flood damage. In this study, a flood risk map was produced with limited hydrological and hydraulic data using two state-of-the-art machine learning models: Genetic Algorithm Rule-Set Production (GARP) and Quick Unbiased Efficient Statistical Tree (QUEST). The flood conditioning factors used in modeling were: precipitation, slope, curve number, distance to river, distance to channel, depth to groundwater, land use, and elevation. Based on available reports and field surveys for Sari city (Iran), 113 points were identified as flooded areas (with each flooded zone assigned a value of 1). Different conditioning factors, including urban density, quality of buildings, age of buildings, population density, and socio-economic conditions, were taken into account to analyze flood vulnerability. In addition, the weight of these conditioning factors was determined based on expert knowledge and Fuzzy Analytical Network Process (FANP). An urban flood risk map was then produced using flood hazard and flood vulnerability maps. The area under the receiver-operator characteristic curve (AUC-ROC) and Kappa statistic were applied to evaluate model performance. The results demonstrated that the GARP model (AUC-ROC = 93.5%, Kappa = 0.86) had higher performance accuracy than the QUEST model (AUC-ROC = 89.2%, Kappa = 0.79). The results also indicated that distance to channel, land use, and elevation played major roles in flood hazard determination, whereas population density, quality of buildings, and urban density were the most important factors in terms of vulnerability. These findings demonstrate that machine learning models can help in flood risk mapping, especially in areas where detailed hydraulic and hydrological data are not available.
Published: 2019

42. Evidence that breast cancer risk at the 2q35 locus is mediated through IGFBP5 regulation (vol 5, 4999, 2014)

Author: Ghoussaini, M., Edwards, S.L., Michailidou, K., Nord, S., Lari, R.C.S., Desai, K., Kar, S., Hillman, K.M., Kaufmann, S., Glubb, D.M., Beesley, J., Dennis, J., Bolla, M.K., Wang, Q., Dicks, E., Guo, Q., Schmidt, M.K., Shah, M., Luben, R., Brown, J., Czene, K., Darabi, H., Eriksson, M., Klevebring, D., Bojesen, S.E., Nordestgaard, B.G., Nielsen, S.F., Flyger, H., Lambrechts, D., Thienpont, B., Neven, P., Wildiers, H., Broeks, A., Van't Veer, L.J., Rutgers, E.J.T., Couch, F.J., Olson, J.E., Hallberg, E., Vachon, C., Chang-Claude, J., Rudolph, A., Seibold, P., Flesch-Janys, D., Peto, J., dos-Santos-Silva, I., Gibson, L., Nevanlinna, H., Muranen, T.A., Aittomaki, K., Blomqvist, C., Hall, P., Li, J.M., Liu, J.J., Humphreys, K., Kang, D., Choi, J.Y., Park, S.K., Noh, D.Y., Matsuo, K., Ito, H., Iwata, H., Yatabe, Y., Guenel, P., Truong, T., Menegaux, F., Sanchez, M., Burwinkel, B., Marme, F., Schneeweiss, A., Sohn, C., Wu, A.H., Tseng, C.C., Berg, D. van den, Stram, D.O., Benitez, J., Zamora, M., Perez, J.I.A., Menendez, P., Shu, X.O., Lu, W., Gao, Y.T., Cai, Q.Y., Cox, A., Cross, S.S., Reed, M.W.R., Andrulis, I.L., Knight, J.A., Glendon, G., Tchatchou, S., Sawyer, E.J., Tomlinson, I., Kerin, M.J., Miller, N., Haiman, C.A., Henderson, B.E., Schumacher, F., Marchand, L. le, Lindblom, A., Margolin, S., Teo, S.H., Yip, C.H., Lee, D.S.C., Wong, T.Y., Hooning, M.J., Martens, J.W.M., Collee, J.M., Deurzen, C.H.M. van, Hopper, J.L., Southey, M.C., Tsimiklis, H., Kapuscinski, M.K., Shen, C.Y., Wu, P.E., Yu, J.C., Chen, S.T., Alnaes, G.G., Borresen-Dale, A.L., Giles, G.G., Milne, R.L., McLean, C., Muir, K., Lophatananon, A., Stewart-Brown, S., Siriwanarangsan, P., Hartman, M., Miao, H., Buhari, S.A.B.S., Teo, Y.Y., Fasching, P.A., Haeberle, L., Ekici, A.B., Beckmann, M.W., Brenner, H., Dieffenbach, A.K., Arndt, V., Stegmaier, C., Swerdlow, A., Ashworth, A., Orr, N., Schoemaker, M.J., Garcia-Closas, M., Figueroa, J., Chanock, S.J., Lissowska, J., Simard, J., Goldberg, M.S., Labreche, F., Dumont, M., Winqvist, R., Pylkas, K., Jukkola-Vuorinen, A., Brauch, H., Bruning, T., Koto, Y.D., Radice, P., Peterlongo, P., Bonanni, B., Volorio, S., Dork, T., Bogdanova, N.V., Helbig, S., Mannermaa, A., Kataja, V., Kosma, V.M., Hartikainen, J.M., Devilee, P., Tollenaar, R.A.E.M., Seynaeve, C., Asperen, C.J. van, Jakubowska, A., Lubinski, J., Jaworska-Bieniek, K., Durda, K., Slager, S., Toland, A.E., Ambrosone, C.B., Yannoukakos, D., Sangrajrang, S., Gaborieau, V., Brennan, P., Mckay, J., Hamann, U., Torres, D., Zheng, W., Long, J.R., Anton-Culver, H., Neuhausen, S.L., Luccarini, C., Baynes, C., Ahmed, S., Maranian, M., Healey, C.S., Gonzalez-Neira, A., Pita, G., Alonso, M.R., Alvarez, N., Herrero, D., Tessier, D.C., Vincent, D., Bacot, F., Santiago, I. de, Carroll, J., Caldas, C., Brown, M.A., Lupien, M., Kristensen, V.N., Pharoah, P.D.P., Chenevix-Trench, G., French, J.D., Easton, D.F., Dunning, A.M., and Australian Ovarian Canc Management
Published: 2018

43. Use of remote sensing to analyse peatland changes afterdrainage for peat extraction

Author: Haghighi, A. T. (Ali Torabi), Menberu, M. W. (Meseret Walle), Darabi, H. (Hamid), Akanegbu, J. (Justice), and Kløve, B. (Bjørn)
Subjects: disturbance, remote sensing, NDVI, land use, peatlands, wetlands
Abstract: Large‐scale peat extraction, in Finland and elsewhere, typically takes place on rather small extraction sites but has major impacts on surrounding aquatic and terrestrial ecosystems. The environmental conditions prior to drainage (baseline conditions) must be quantified in a statutory environmental impact assessment (EIA), but this is generally difficult due to lack of historical data. In this study, we developed and tested a method for EIA based on a reference area approach and remote sensing. The method calculates the normalized difference vegetation index in preextraction and postextraction periods using Landsat images of affected areas and reference surrounding areas. In a case study, we applied the method to assess changes after peat extraction at a site in northern Finland. The peat extraction area showed significant transformation from peatland vegetation to bare soil. Adjacent areas downstream and upstream were also affected by extraction. These results indicate that our method is a useful tool for EIA of peatland drainage.
Published: 2018

44. Publisher Correction: Evidence that breast cancer risk at the 2q35 locus is mediated through IGFBP5 regulation.

Author: Ghoussaini, M, Edwards, SL, Michailidou, K, Nord, S, Cowper-Sal Lari, R, Desai, K, Kar, S, Hillman, KM, Kaufmann, S, Glubb, DM, Beesley, J, Dennis, J, Bolla, MK, Wang, Q, Dicks, E, Guo, Q, Schmidt, MK, Shah, M, Luben, R, Brown, J, Czene, K, Darabi, H, Eriksson, M, Klevebring, D, Bojesen, SE, Nordestgaard, BG, Nielsen, SF, Flyger, H, Lambrechts, D, Thienpont, B, Neven, P, Wildiers, H, Broeks, A, Van't Veer, LJ, Rutgers, EJT, Couch, FJ, Olson, JE, Hallberg, E, Vachon, C, Chang-Claude, J, Rudolph, A, Seibold, P, Flesch-Janys, D, Peto, J, Dos-Santos-Silva, I, Gibson, L, Nevanlinna, H, Muranen, TA, Aittomäki, K, Blomqvist, C, Hall, P, Li, J, Liu, J, Humphreys, K, Kang, D, Choi, J-Y, Park, SK, Noh, D-Y, Matsuo, K, Ito, H, Iwata, H, Yatabe, Y, Guénel, P, Truong, T, Menegaux, F, Sanchez, M, Burwinkel, B, Marme, F, Schneeweiss, A, Sohn, C, Wu, AH, Tseng, C-C, Van Den Berg, D, Stram, DO, Benitez, J, Pilar Zamora, M, Perez, JIA, Menéndez, P, Shu, X-O, Lu, W, Gao, Y-T, Cai, Q, Cox, A, Cross, SS, Reed, MWR, Andrulis, IL, Knight, JA, Glendon, G, Tchatchou, S, Sawyer, EJ, Tomlinson, I, Kerin, MJ, Miller, N, Haiman, CA, Henderson, BE, Schumacher, F, Le Marchand, L, Lindblom, A, Margolin, S, Teo, SH, Yip, CH, Lee, DSC, Wong, TY, Hooning, MJ, Martens, JWM, Collée, JM, van Deurzen, CHM, Hopper, JL, Southey, MC, Tsimiklis, H, Kapuscinski, MK, Shen, C-Y, Wu, P-E, Yu, J-C, Chen, S-T, Alnæs, GG, Borresen-Dale, A-L, Giles, GG, Milne, RL, McLean, C, Muir, K, Lophatananon, A, Stewart-Brown, S, Siriwanarangsan, P, Hartman, M, Miao, H, Buhari, SABS, Teo, YY, Fasching, PA, Haeberle, L, Ekici, AB, Beckmann, MW, Brenner, H, Dieffenbach, AK, Arndt, V, Stegmaier, C, Swerdlow, A, Ashworth, A, Orr, N, Schoemaker, MJ, García-Closas, M, Figueroa, J, Chanock, SJ, Lissowska, J, Simard, J, Goldberg, MS, Labrèche, F, Dumont, M, Winqvist, R, Pylkäs, K, Jukkola-Vuorinen, A, Brauch, H, Brüning, T, Koto, Y-D, Radice, P, Peterlongo, P, Bonanni, B, Volorio, S, Dörk, T, Bogdanova, NV, Helbig, S, Mannermaa, A, Kataja, V, Kosma, V-M, Hartikainen, JM, Devilee, P, Tollenaar, RAEM, Seynaeve, C, Van Asperen, CJ, Jakubowska, A, Lubinski, J, Jaworska-Bieniek, K, Durda, K, Slager, S, Toland, AE, Ambrosone, CB, Yannoukakos, D, Sangrajrang, S, Gaborieau, V, Brennan, P, McKay, J, Hamann, U, Torres, D, Zheng, W, Long, J, Anton-Culver, H, Neuhausen, SL, Luccarini, C, Baynes, C, Ahmed, S, Maranian, M, Healey, CS, González-Neira, A, Pita, G, Rosario Alonso, M, Álvarez, N, Herrero, D, Tessier, DC, Vincent, D, Bacot, F, de Santiago, I, Carroll, J, Caldas, C, Brown, MA, Lupien, M, Kristensen, VN, Pharoah, PDP, Chenevix-Trench, G, French, JD, Easton, DF, Dunning, AM, Ghoussaini, M, Edwards, SL, Michailidou, K, Nord, S, Cowper-Sal Lari, R, Desai, K, Kar, S, Hillman, KM, Kaufmann, S, Glubb, DM, Beesley, J, Dennis, J, Bolla, MK, Wang, Q, Dicks, E, Guo, Q, Schmidt, MK, Shah, M, Luben, R, Brown, J, Czene, K, Darabi, H, Eriksson, M, Klevebring, D, Bojesen, SE, Nordestgaard, BG, Nielsen, SF, Flyger, H, Lambrechts, D, Thienpont, B, Neven, P, Wildiers, H, Broeks, A, Van't Veer, LJ, Rutgers, EJT, Couch, FJ, Olson, JE, Hallberg, E, Vachon, C, Chang-Claude, J, Rudolph, A, Seibold, P, Flesch-Janys, D, Peto, J, Dos-Santos-Silva, I, Gibson, L, Nevanlinna, H, Muranen, TA, Aittomäki, K, Blomqvist, C, Hall, P, Li, J, Liu, J, Humphreys, K, Kang, D, Choi, J-Y, Park, SK, Noh, D-Y, Matsuo, K, Ito, H, Iwata, H, Yatabe, Y, Guénel, P, Truong, T, Menegaux, F, Sanchez, M, Burwinkel, B, Marme, F, Schneeweiss, A, Sohn, C, Wu, AH, Tseng, C-C, Van Den Berg, D, Stram, DO, Benitez, J, Pilar Zamora, M, Perez, JIA, Menéndez, P, Shu, X-O, Lu, W, Gao, Y-T, Cai, Q, Cox, A, Cross, SS, Reed, MWR, Andrulis, IL, Knight, JA, Glendon, G, Tchatchou, S, Sawyer, EJ, Tomlinson, I, Kerin, MJ, Miller, N, Haiman, CA, Henderson, BE, Schumacher, F, Le Marchand, L, Lindblom, A, Margolin, S, Teo, SH, Yip, CH, Lee, DSC, Wong, TY, Hooning, MJ, Martens, JWM, Collée, JM, van Deurzen, CHM, Hopper, JL, Southey, MC, Tsimiklis, H, Kapuscinski, MK, Shen, C-Y, Wu, P-E, Yu, J-C, Chen, S-T, Alnæs, GG, Borresen-Dale, A-L, Giles, GG, Milne, RL, McLean, C, Muir, K, Lophatananon, A, Stewart-Brown, S, Siriwanarangsan, P, Hartman, M, Miao, H, Buhari, SABS, Teo, YY, Fasching, PA, Haeberle, L, Ekici, AB, Beckmann, MW, Brenner, H, Dieffenbach, AK, Arndt, V, Stegmaier, C, Swerdlow, A, Ashworth, A, Orr, N, Schoemaker, MJ, García-Closas, M, Figueroa, J, Chanock, SJ, Lissowska, J, Simard, J, Goldberg, MS, Labrèche, F, Dumont, M, Winqvist, R, Pylkäs, K, Jukkola-Vuorinen, A, Brauch, H, Brüning, T, Koto, Y-D, Radice, P, Peterlongo, P, Bonanni, B, Volorio, S, Dörk, T, Bogdanova, NV, Helbig, S, Mannermaa, A, Kataja, V, Kosma, V-M, Hartikainen, JM, Devilee, P, Tollenaar, RAEM, Seynaeve, C, Van Asperen, CJ, Jakubowska, A, Lubinski, J, Jaworska-Bieniek, K, Durda, K, Slager, S, Toland, AE, Ambrosone, CB, Yannoukakos, D, Sangrajrang, S, Gaborieau, V, Brennan, P, McKay, J, Hamann, U, Torres, D, Zheng, W, Long, J, Anton-Culver, H, Neuhausen, SL, Luccarini, C, Baynes, C, Ahmed, S, Maranian, M, Healey, CS, González-Neira, A, Pita, G, Rosario Alonso, M, Álvarez, N, Herrero, D, Tessier, DC, Vincent, D, Bacot, F, de Santiago, I, Carroll, J, Caldas, C, Brown, MA, Lupien, M, Kristensen, VN, Pharoah, PDP, Chenevix-Trench, G, French, JD, Easton, DF, and Dunning, AM
Abstract: This corrects the article DOI: 10.1038/ncomms5999.
Published: 2018

45. Urban flood risk mapping using the GARP and QUEST models:a comparative study of machine learning techniques

Author: Darabi, H. (Hamid), Choubin, B. (Bahram), Rahmati, O. (Omid), Haghighi, A. T. (Ali Torabi), Pradhan, B. (Biswajeet), Kløve, B. (Bjørn), Darabi, H. (Hamid), Choubin, B. (Bahram), Rahmati, O. (Omid), Haghighi, A. T. (Ali Torabi), Pradhan, B. (Biswajeet), and Kløve, B. (Bjørn)
Abstract: Flood risk mapping and modeling is important to prevent urban flood damage. In this study, a flood risk map was produced with limited hydrological and hydraulic data using two state-of-the-art machine learning models: Genetic Algorithm Rule-Set Production (GARP) and Quick Unbiased Efficient Statistical Tree (QUEST). The flood conditioning factors used in modeling were: precipitation, slope, curve number, distance to river, distance to channel, depth to groundwater, land use, and elevation. Based on available reports and field surveys for Sari city (Iran), 113 points were identified as flooded areas (with each flooded zone assigned a value of 1). Different conditioning factors, including urban density, quality of buildings, age of buildings, population density, and socio-economic conditions, were taken into account to analyze flood vulnerability. In addition, the weight of these conditioning factors was determined based on expert knowledge and Fuzzy Analytical Network Process (FANP). An urban flood risk map was then produced using flood hazard and flood vulnerability maps. The area under the receiver-operator characteristic curve (AUC-ROC) and Kappa statistic were applied to evaluate model performance. The results demonstrated that the GARP model (AUC-ROC = 93.5%, Kappa = 0.86) had higher performance accuracy than the QUEST model (AUC-ROC = 89.2%, Kappa = 0.79). The results also indicated that distance to channel, land use, and elevation played major roles in flood hazard determination, whereas population density, quality of buildings, and urban density were the most important factors in terms of vulnerability. These findings demonstrate that machine learning models can help in flood risk mapping, especially in areas where detailed hydraulic and hydrological data are not available.
Published: 2018

46. Body mass index and breast cancer survival: a Mendelian randomization analysis

Author: Guo, Q, Burgess, S, Turman, C, Bolla, MK, Wang, Q, Lush, M, Abraham, J, Aittomäki, K, Andrulis, IL, Apicella, C, Arndt, V, Barrdahl, M, Benitez, J, Berg, CD, Blomqvist, C, Bojesen, SE, Bonanni, B, Brand, JS, Brenner, H, Broeks, A, Burwinkel, B, Caldas, C, Campa, D, Canzian, F, Chang-Claude, J, Chanock, SJ, Chin, S-F, Couch, FJ, Cox, A, Cross, SS, Cybulski, C, Czene, K, Darabi, H, Devilee, P, Diver, WR, Dunning, AM, Earl, HM, Eccles, DM, Ekici, AB, Eriksson, M, Evans, DG, Fasching, PA, Figueroa, J, Flesch-Janys, D, Flyger, H, Gapstur, SM, Gaudet, MM, Giles, GG, Glendon, G, Grip, M, Gronwald, J, Haeberle, L, Haiman, CA, Hall, P, Hamann, U, Hankinson, S, Hartikainen, JM, Hein, A, Hiller, L, Hogervorst, FB, Holleczek, B, Hooning, MJ, Hoover, RN, Humphreys, K, Hunter, DJ, Hüsing, A, Jakubowska, A, Jukkola-Vuorinen, A, Kaaks, R, Kabisch, M, Kataja, V, Investigators, Kconfab/Aocs, Knight, JA, Koppert, LB, Kosma, V-M, Kristensen, VN, Lambrechts, D, Le Marchand, L, Li, J, Lindblom, A, Lindström, S, Lissowska, J, Lubinski, J, Machiela, MJ, Mannermaa, A, Manoukian, S, Margolin, S, Marme, F, Martens, JWM, McLean, C, Menéndez, P, Milne, RL, Mulligan, A, Muranen, TA, Nevanlinna, H, Neven, P, Nielsen, SF, Nordestgaard, BG, Olson, JE, Perez, JIA, Peterlongo, P, Phillips, K-A, Poole, CJ, Pylkäs, K, Radice, P, Rahman, N, Rüdiger, T, Rudolph, A, Sawyer, EJ, Schumacher, F, Seibold, P, Seynaeve, C, Shah, M, Smeets, A, Southey, MC, Tollenaar, RAEM, Tomlinson, I, Tsimiklis, H, Ulmer, H-U, Vachon, C, Van Den Ouweland, AMW, Veer, LJ, Wildiers, H, Willett, W, Winqvist, R, Zamora, MP, Chenevix-Trench, G, Dörk, T, Easton, DF, García-Closas, M, Kraft, P, Hopper, JL, Zheng, W, Schmidt, MK, Pharoah, PDP, Medical Oncology, and Surgery
Subjects: Genetic Variation, Breast Neoplasms, Mendelian Randomization Analysis, Body mass index, Breast cancer survival, Epidemiology, Genetics, Mendelian randomization, Polymorphism, Single Nucleotide, Risk Assessment, Survival Analysis, White People, Causality, Europe, RC0254, Meta-Analysis as Topic, Receptors, Estrogen, SDG 3 - Good Health and Well-being, Risk Factors, breast cancer survival, Humans, Female, epidemiology, genetics, Cancer
Abstract: Background There is increasing evidence that elevated body mass index (BMI) is associated with reduced survival for women with breast cancer. However, the underlying reasons remain unclear. We conducted a Mendelian randomization analysis to investigate a possible causal role of BMI in survival from breast cancer. Methods We used individual-level data from six large breast cancer case-cohorts including a total of 36 210 individuals (2475 events) of European ancestry. We created a BMI genetic risk score (GRS) based on genotypes at 94 known BMI-associated genetic variants. Association between the BMI genetic score and breast cancer survival was analysed by Cox regression for each study separately. Study-specific hazard ratios were pooled using fixed-effect meta-analysis. Results BMI genetic score was found to be associated with reduced breast cancer-specific survival for estrogen receptor (ER)-positive cases [hazard ratio (HR) = 1.11, per one-unit increment of GRS, 95% confidence interval (CI) 1.01–1.22, P = 0.03). We observed no association for ER-negative cases (HR = 1.00, per one-unit increment of GRS, 95% CI 0.89–1.13, P = 0.95). Conclusions Our findings suggest a causal effect of increased BMI on reduced breast cancer survival for ER-positive breast cancer. There is no evidence of a causal effect of higher BMI on survival for ER-negative breast cancer cases.
Published: 2017

47. Body mass index and breast cancer survival:a Mendelian randomization analysis

Author: Guo, Q. (Qi), Burgess, S. (Stephen), Turman, C. (Constance), Bolla, M. K. (Manjeet K.), Wang, Q. (Qin), Lush, M. (Michael), Abraham, J. (Jean), Aittomaki, K. (Kristiina), Andrulis, I. L. (Irene L.), Apicella, C. (Carmel), Arndt, V. (Volker), Barrdahl, M. (Myrto), Benitez, J. (Javier), Berg, C. D. (Christine D.), Blomqvist, C. (Carl), Bojesen, S. E. (Stig E.), Bonanni, B. (Bernardo), Brand, J. S. (Judith S.), Brenner, H. (Hermann), Broeks, A. (Annegien), Burwinkel, B. (Barbara), Caldas, C. (Carlos), Campa, D. (Daniele), Canzian, F. (Federico), Chang-Claude, J. (Jenny), Chanock, S. J. (Stephen J.), Chin, S.-F. (Suet-Feung), Couch, F. J. (Fergus J.), Cox, A. (Angela), Cross, S. S. (Simon S.), Cybulski, C. (Cezary), Czene, K. (Kamila), Darabi, H. (Hatef), Devilee, P. (Peter), Diver, W. R. (W. Ryan), Dunning, A. M. (Alison M.), Earl, H. M. (Helena M.), Eccles, D. M. (Diana M.), Ekici, A. B. (Arif B.), Eriksson, M. (Mikael), Evans, D. G. (D. Gareth), Fasching, P. A. (Peter A.), Figueroa, J. (Jonine), Flesch-Janys, D. (Dieter), Flyger, H. (Henrik), Gapstur, S. M. (Susan M.), Gaudet, M. M. (Mia M.), Giles, G. G. (Graham G.), Glendon, G. (Gord), Grip, M. (Mervi), Gronwald, J. (Jacek), Haeberle, L. (Lothar), Haiman, C. A. (Christopher A.), Hall, P. (Per), Hamann, U. (Ute), Hankinson, S. (Susan), Hartikainen, J. M. (Jaana M.), Hein, A. (Alexander), Hiller, L. (Louise), Hogervorst, F. B. (Frans B.), Holleczek, B. (Bernd), Hooning, M. J. (Maartje J.), Hoover, R. N. (Robert N.), Humphreys, K. (Keith), Hunter, D. J. (David J.), Husing, A. (Anika), Jakubowska, A. (Anna), Jukkola-Vuorinen, A. (Arja), Kaaks, R. (Rudolf), Kabisch, M. (Maria), Kataja, V. (Vesa), Knight, J. A. (Julia A.), Koppert, L. B. (Linetta B.), Kosma, V.-M. (Veli-Matti), Kristensen, V. N. (Vessela N.), Lambrechts, D. (Diether), Le Marchand, L. (Loic), Li, J. (Jingmei), Lindblom, A. (Annika), Lindstrom, S. (Sara), Lissowska, J. (Jolanta), Lubinski, J. (Jan), Machiela, M. J. (Mitchell J.), Mannermaa, A. (Arto), Manoukian, S. (Siranoush), Margolin, S. (Sara), Marme, F. (Federik), Martens, J. W. (John W. M.), McLean, C. (Catriona), Menendez, P. (Primitiva), Milne, R. L. (Roger L.), Mulligan, A. M. (Anna Marie), Muranen, T. A. (Taru A.), Nevanlinna, H. (Heli), Neven, P. (Patrick), Nielsen, S. F. (Sune F.), Nordestgaard, B. G. (Borge G.), Olson, J. E. (Janet E.), Perez, J. I. (Jose I. A.), Peterlongo, P. (Paolo), Phillips, K.-A. (Kelly-Anne), Poole, C. J. (Christopher J.), Pylkas, K. (Katri), Radice, P. (Paolo), Rahman, N. (Nazneen), Rudiger, T. (Thomas), Rudolph, A. (Anja), Sawyer, E. J. (Elinor J.), Schumacher, F. (Fredrick), Seibold, P. (Petra), Seynaeve, C. (Caroline), Shah, M. (Mitul), Smeets, A. (Ann), Southey, M. C. (Melissa C.), Tollenaar, R. A. (Rob A. E. M.), Tomlinson, I. (Ian), Tsimiklis, H. (Helen), Ulmer, H.-U. (Hans-Ulrich), Vachon, C. (Celine), van den Ouweland, A. M. (Ans M. W.), Van't Veer, L. J. (Laura J.), Wildiers, H. (Hans), Willett, W. (Walter), Winqvist, R. (Robert), Zamora, M. P. (M. Pilar), Chenevix-Trench, G. (Georgia), Dork, T. (Thilo), Easton, D. F. (Douglas F.), Garcia-Closas, M. (Montserrat), Kraft, P. (Peter), Hopper, J. L. (John L.), Zheng, W. (Wei), Schmidt, M. K. (Marjanka K.), and Pharoah, P. D. (Paul D. P.)
Subjects: Mendelian randomization, breast cancer survival, body mass index, epidemiology, genetics
Abstract: Background: There is increasing evidence that elevated body mass index (BMI) is associated with reduced survival for women with breast cancer. However, the underlying reasons remain unclear. We conducted a Mendelian randomization analysis to investigate a possible causal role of BMI in survival from breast cancer. Methods: We used individual-level data from six large breast cancer case-cohorts including a total of 36 210 individuals (2475 events) of European ancestry. We created a BMI genetic risk score (GRS) based on genotypes at 94 known BMI-associated genetic variants. Association between the BMI genetic score and breast cancer survival was analysed by Cox regression for each study separately. Study-specific hazard ratios were pooled using fixed-effect meta-analysis. Results: BMI genetic score was found to be associated with reduced breast cancer-specific survival for estrogen receptor (ER)-positive cases [hazard ratio (HR) = 1.11, per one-unit increment of GRS, 95% confidence interval (CI) 1.01–1.22, P = 0.03). We observed no association for ER-negative cases (HR = 1.00, per one-unit increment of GRS, 95% CI 0.89–1.13, P = 0.95). Conclusions: Our findings suggest a causal effect of increased BMI on reduced breast cancer survival for ER-positive breast cancer. There is no evidence of a causal effect of higher BMI on survival for ER-negative breast cancer cases.
Published: 2017

48. Genetic variation in mitotic regulatory pathway genes is associated with breast tumor grade

Author: Purrington, K.S., Slettedahl, S., Bolla, M.K., Michailidou, K., Czene, K., Nevanlinna, H., Bojesen, S.E., Andrulis, I.L., Cox, A., Hall, P., Carpenter, J., Yannoukakos, D., Haiman, C.A., Fasching, P.A., Mannermaa, A., Winqvist, R., Brenner, H., Lindblom, A., Chenevix-Trench, G., Benitez, J., Swerdlow, A., Kristensen, V., Guenel, P., Meindl, A., Darabi, H., Eriksson, M., Fagerholm, R., Aittomaki, K., Blomqvist, C., Nordestgaard, B.G., Nielsen, S.F., Flyger, H., Wang, X.S., Olswold, C., Olson, J.E., Mulligan, A.M., Knight, J.A., Tchatchou, S., Reed, M.W.R., Cross, S.S., Liu, J.J., Li, J.M., Humphreys, K., Clarke, C., Scott, R., Fostira, F., Fountzilas, G., Konstantopoulou, I., Henderson, B.E., Schumacher, F., Marchand, L. le, Ekici, A.B., Hartmann, A., Beckmann, M.W., Hartikainen, J.M., Kosma, V.M., Kataja, V., Jukkola-Vuorinen, A., Pylkas, K., Kauppila, S., Dieffenbach, A.K., Stegmaier, C., Arndt, V., Margolin, S., Balleine, R., Perez, J.I.A., Zamora, M.P., Menendez, P., Ashworth, A., Jones, M., Orr, N., Arveux, P., Kerbrat, P., Truong, T., Bugert, P., Toland, A.E., Ambrosone, C.B., Labreche, F., Goldberg, M.S., Dumont, M., Ziogas, A., Lee, E., Dite, G.S., Apicella, C., Southey, M.C., Long, J.R., Shrubsole, M., Deming-Halverson, S., Ficarazzi, F., Barile, M., Peterlongo, P., Durda, K., Jaworska-Bieniek, K., Tollenaar, R.A.E.M., Seynaeve, C., Bruning, T., Ko, Y.D., Deurzen, C.H.M. van, Martens, J.W.M., Kriege, M., Figueroa, J.D., Chanock, S.J., Lissowska, J., Tomlinson, I., Kerin, M.J., Miller, N., Schneeweiss, A., Tapper, W.J., Gerty, S.M., Durcan, L., Mclean, C., Milne, R.L., Baglietto, L., Silva, I.D., Fletcher, O., Johnson, N., Van'T Veer, L.J., Cornelissen, S., Forsti, A., Torres, D., Rudiger, T., Rudolph, A., Flesch-Janys, D., Nickels, S., Weltens, C., Floris, G., Moisse, M., Dennis, J., Wang, Q., Dunning, A.M., Shah, M., Brown, J., Simard, J., Anton-Culver, H., Neuhausen, S.L., Hopper, J.L., Bogdanova, N., Dork, T., Zheng, W., Radice, P., Jakubowska, A., Lubinski, J., Devillee, P., Brauch, H., Hooning, M., Garcia-Closas, M., Sawyer, E., Burwinkel, B., Marmee, F., Eccles, D.M., Giles, G.G., Peto, J., Schmidt, M., Broeks, A., Hamann, U., Chang-Claude, J., Lambrechts, D., Pharoah, P.D.P., Easton, D., Pankratz, V.S., Slager, S., Vachon, C.M., Couch, F.J., ABCTB Investigators, Australian Ovarian Canc Study Grp, kConFab Investigators, GENICA Network, Medical Oncology, Pathology, and Clinical Genetics
Subjects: Oncology, Candidate gene, Fibroblast Growth Factor, amplification, cancer susceptibility loci, Bioinformatics, medicine.disease_cause, Medical and Health Sciences, prostate-cancer, Prostate cancer, Risk Factors, Medizinische Fakultät, Genetics (clinical), Genetics & Heredity, tacc2, Association Studies Articles, Single Nucleotide, General Medicine, Biological Sciences, ddc, risk loci, cell-division, kConFab Investigators, Female, GENICA Network, Type 2, Receptor, Australian Ovarian Cancer Study Group, Breast Neoplasms, Carrier Proteins, Case-Control Studies, Haplotypes, Humans, Neoplasm Staging, Polymorphism, Single Nucleotide, Receptor, Fibroblast Growth Factor, Type 2, Tumor Suppressor Proteins, Genetic Variation, Molecular Biology, Genetics, medicine.medical_specialty, Mitotic index, ABCTB Investigators, Single-nucleotide polymorphism, Biology, Breast cancer, SDG 3 - Good Health and Well-being, Internal medicine, medicine, ddc:610, Polymorphism, Lung cancer, Odds ratio, medicine.disease, genome-wide association, lung-cancer, progression, Carcinogenesis
Abstract: Mitotic index is an important component of histologic grade and has an etiologic role in breast tumorigenesis. Several small candidate gene studies have reported associations between variation in mitotic genes and breast cancer risk. We measured associations between 2156 single nucleotide polymorphisms (SNPs) from 194 mitotic genes and breast cancer risk, overall and by histologic grade, in the Breast Cancer Association Consortium (BCAC) iCOGS study (n = 39 067 cases; n = 42 106 controls). SNPs in TACC2 [rs17550038: odds ratio (OR) = 1.24, 95% confidence interval (CI) 1.16-1.33, P = 4.2 × 10(-10)) and EIF3H (rs799890: OR = 1.07, 95% CI 1.04-1.11, P = 8.7 × 10(-6)) were significantly associated with risk of low-grade breast cancer. The TACC2 signal was retained (rs17550038: OR = 1.15, 95% CI 1.07-1.23, P = 7.9 × 10(-5)) after adjustment for breast cancer risk SNPs in the nearby FGFR2 gene, suggesting that TACC2 is a novel, independent genome-wide significant genetic risk locus for low-grade breast cancer. While no SNPs were individually associated with high-grade disease, a pathway-level gene set analysis showed that variation across the 194 mitotic genes was associated with high-grade breast cancer risk (P = 2.1 × 10(-3)). These observations will provide insight into the contribution of mitotic defects to histological grade and the etiology of breast cancer.
Published: 2014

49. RAD51B in familial breast cancer.

Author: Antill Y., Garcia-Closas M., Michailidou K., Links M., Grygiel J., Hill J., Brand A., Byth K., Jaworski R., Harnett P., Wain G., Purdie D., Whiteman D., Ward B., Papadimos D., Crandon A., Horwood K., Obermair A., Perrin L., Wyld D., Nicklin J., Davy S.A.-M., Oehler M.K., Hall C., Dodd T., Healy T., Pittman K., Henderson D., Miller J., Pierdes J., Achan A., Blomfield P., Challis D., McIntosh R., Parker A., Brown B., Rome R., Allen D., Grant P., Hyde S., Laurie R., Robbie M., Healy D., Manolitsas T., McNealage J., Rogers P., Susil B., Sumithran E., Simpson I., Haviv I., Rischin D., Johnson D., Lade S., Loughrey M., O'Callaghan N., Murray B., Mileshkin L., Allan P., Billson V., Pyman J., Neesham D., Quinn M., Hamilton A., McNally O., Underhill C., Ng L.F., Blum R., Ganju V., Hammond I., Leung Y., McCartney A., Stewart C., Zeps N., Bell R., Harris M., Healey S., Jobling T., Jones A., Wilson J., Pelttari L.M., Khan S., Vuorela M., Kiiski J.I., Vilske S., Nevanlinna V., Ranta S., Schleutker J., Winqvist R., Kallioniemi A., Dork T., Bogdanova N.V., Figueroa J., Pharoah P.D.P., Schmidt M.K., Dunning A.M., Bolla M.K., Dennis J., Wang Q., Hopper J.L., Southey M.C., Rosenberg E.H., Fasching P.A., Beckmann M.W., Peto J., Dos-Santos-silva I., Sawyer E.J., Tomlinson I., Burwinkel B., Surowy H., Guenel P., Truong T., Bojesen S.E., Nordestgaard B.G., Benitez J., Gonzalez-Neira A., Neuhausen S.L., Anton-Culver H., Brenner H., Arndt V., Meindl A., Schmutzler R.K., Brauch H., Bruning T., Lindblom A., Margolin S., Mannermaa A., Hartikainen J.M., Chenevix-Trench G., Van Dyck L., Janssen H., Chang-Claude J., Rudolph A., Radice P., Peterlongo P., Hallberg E., Olson J.E., Giles G.G., Milne R.L., Haiman C.A., Schumacher F., Simard J., Dumont M., Kristensen V., Borresen-Dale A.-L., Zheng W., Beeghly-Fadiel A., Grip M., Andrulis I.L., Glendon G., Devilee P., Seynaeve C., Hooning M.J., Collee M., Cox A., Cross S.S., Shah M., Luben R.N., Hamann U., Torres D., Jakubowska A., Lubinski J., Couch F.J., Yannoukakos D., Orr N., Swerdlow A., Darabi H., Li J., Czene K., Hall P., Easton D.F., Mattson J., Blomqvist C., Aittomaki K., Nevanlinna H., Aghmesheh M., Amor D., Andrews L., Armitage S., Arnold L., Balleine R., Bankier A., Bastick P., Beesley J., Beilby J., Bennett B., Bennett I., Berry G., Blackburn A., Bogwitz M., Brennan M., Brown M., Buckley M., Burgess M., Burke J., Butow P., Byron K., Callen D., Campbell I., Chauhan D., Christian A., Clarke C., Colley A., Cotton D., Crook A., Cui J., Culling B., Cummings M., Dawson S.-J., DeFazio A., Delatycki M., Dickson R., Dixon J., Dobrovic A., Dudding T., Edkins T., Edwards S., Eisenbruch M., Farshid G., Fawcett S., Fellows A., Fenton G., Field M., Firgaira F., Flanagan J., Fleming J., Fong P., Forbes J., Fox S., French J., Friedlander M., Gaff C., Gardner M., Gattas M., George P., Gill G., Goldblatt J., Greening S., Grist S., Haan E., Hardie K., Hart S., Hayward N., Heiniger L., Humphrey E., Hunt C., James P., Jenkins M., Kefford R., Kidd A., Kiely B., Kirk J., Koehler J., Kollias J., Kovalenko S., Lakhani S., Leaming A., Leary J., Lim J., Lindeman G., Lipton L., Lobb L., Mann G., Marsh D., McLachlan S.A., Meiser B., Meldrum C., Mitchell G., Newman B., Nightingale S., O'Connell S., O'Loughlin I., Osborne R., Pachter N., Patterson B., Peters L., Phillips K., Price M., Purser L., Reeve T., Reeve J., Richards R., Rickard E., Robinson B., Rudzki B., Saleh M., Salisbury E., Sambrook J., Saunders C., Saunus J., Sayer R., Scott E., Scott R., Scott C., Seshadri R., Sexton A., Sharma R., Shelling A., Simpson P., Spurdle A., Suthers G., Sykes P., Taylor D., Taylor J., Thierry B., Thompson E., Thorne H., Townshend S., Trainer A., Tran L., Tucker K., Tyler J., Visvader J., Walker L., Walpole I., Ward R., Waring P., Warner B., Warren G., Williams R., Winship I., Wu K., Young M.A., Stuart-Harris R., Kirsten F., Rutovitz J., Clingan P., Glasgow A., Proietto A., Braye S., Otton G., Shannon J., Bonaventura T., Stewart J., Begbie S., Bell D., Baron-Hay S., Ferrier A., Gard G., Nevell D., Pavlakis N., Valmadre S., Young B., Camaris C., Crouch R., Edwards L., Hacker N., Marsden D., Robertson G., Beale P., Beith J., Carter J., Dalrymple C., Houghton R., Russell P., Anderson L., Antill Y., Garcia-Closas M., Michailidou K., Links M., Grygiel J., Hill J., Brand A., Byth K., Jaworski R., Harnett P., Wain G., Purdie D., Whiteman D., Ward B., Papadimos D., Crandon A., Horwood K., Obermair A., Perrin L., Wyld D., Nicklin J., Davy S.A.-M., Oehler M.K., Hall C., Dodd T., Healy T., Pittman K., Henderson D., Miller J., Pierdes J., Achan A., Blomfield P., Challis D., McIntosh R., Parker A., Brown B., Rome R., Allen D., Grant P., Hyde S., Laurie R., Robbie M., Healy D., Manolitsas T., McNealage J., Rogers P., Susil B., Sumithran E., Simpson I., Haviv I., Rischin D., Johnson D., Lade S., Loughrey M., O'Callaghan N., Murray B., Mileshkin L., Allan P., Billson V., Pyman J., Neesham D., Quinn M., Hamilton A., McNally O., Underhill C., Ng L.F., Blum R., Ganju V., Hammond I., Leung Y., McCartney A., Stewart C., Zeps N., Bell R., Harris M., Healey S., Jobling T., Jones A., Wilson J., Pelttari L.M., Khan S., Vuorela M., Kiiski J.I., Vilske S., Nevanlinna V., Ranta S., Schleutker J., Winqvist R., Kallioniemi A., Dork T., Bogdanova N.V., Figueroa J., Pharoah P.D.P., Schmidt M.K., Dunning A.M., Bolla M.K., Dennis J., Wang Q., Hopper J.L., Southey M.C., Rosenberg E.H., Fasching P.A., Beckmann M.W., Peto J., Dos-Santos-silva I., Sawyer E.J., Tomlinson I., Burwinkel B., Surowy H., Guenel P., Truong T., Bojesen S.E., Nordestgaard B.G., Benitez J., Gonzalez-Neira A., Neuhausen S.L., Anton-Culver H., Brenner H., Arndt V., Meindl A., Schmutzler R.K., Brauch H., Bruning T., Lindblom A., Margolin S., Mannermaa A., Hartikainen J.M., Chenevix-Trench G., Van Dyck L., Janssen H., Chang-Claude J., Rudolph A., Radice P., Peterlongo P., Hallberg E., Olson J.E., Giles G.G., Milne R.L., Haiman C.A., Schumacher F., Simard J., Dumont M., Kristensen V., Borresen-Dale A.-L., Zheng W., Beeghly-Fadiel A., Grip M., Andrulis I.L., Glendon G., Devilee P., Seynaeve C., Hooning M.J., Collee M., Cox A., Cross S.S., Shah M., Luben R.N., Hamann U., Torres D., Jakubowska A., Lubinski J., Couch F.J., Yannoukakos D., Orr N., Swerdlow A., Darabi H., Li J., Czene K., Hall P., Easton D.F., Mattson J., Blomqvist C., Aittomaki K., Nevanlinna H., Aghmesheh M., Amor D., Andrews L., Armitage S., Arnold L., Balleine R., Bankier A., Bastick P., Beesley J., Beilby J., Bennett B., Bennett I., Berry G., Blackburn A., Bogwitz M., Brennan M., Brown M., Buckley M., Burgess M., Burke J., Butow P., Byron K., Callen D., Campbell I., Chauhan D., Christian A., Clarke C., Colley A., Cotton D., Crook A., Cui J., Culling B., Cummings M., Dawson S.-J., DeFazio A., Delatycki M., Dickson R., Dixon J., Dobrovic A., Dudding T., Edkins T., Edwards S., Eisenbruch M., Farshid G., Fawcett S., Fellows A., Fenton G., Field M., Firgaira F., Flanagan J., Fleming J., Fong P., Forbes J., Fox S., French J., Friedlander M., Gaff C., Gardner M., Gattas M., George P., Gill G., Goldblatt J., Greening S., Grist S., Haan E., Hardie K., Hart S., Hayward N., Heiniger L., Humphrey E., Hunt C., James P., Jenkins M., Kefford R., Kidd A., Kiely B., Kirk J., Koehler J., Kollias J., Kovalenko S., Lakhani S., Leaming A., Leary J., Lim J., Lindeman G., Lipton L., Lobb L., Mann G., Marsh D., McLachlan S.A., Meiser B., Meldrum C., Mitchell G., Newman B., Nightingale S., O'Connell S., O'Loughlin I., Osborne R., Pachter N., Patterson B., Peters L., Phillips K., Price M., Purser L., Reeve T., Reeve J., Richards R., Rickard E., Robinson B., Rudzki B., Saleh M., Salisbury E., Sambrook J., Saunders C., Saunus J., Sayer R., Scott E., Scott R., Scott C., Seshadri R., Sexton A., Sharma R., Shelling A., Simpson P., Spurdle A., Suthers G., Sykes P., Taylor D., Taylor J., Thierry B., Thompson E., Thorne H., Townshend S., Trainer A., Tran L., Tucker K., Tyler J., Visvader J., Walker L., Walpole I., Ward R., Waring P., Warner B., Warren G., Williams R., Winship I., Wu K., Young M.A., Stuart-Harris R., Kirsten F., Rutovitz J., Clingan P., Glasgow A., Proietto A., Braye S., Otton G., Shannon J., Bonaventura T., Stewart J., Begbie S., Bell D., Baron-Hay S., Ferrier A., Gard G., Nevell D., Pavlakis N., Valmadre S., Young B., Camaris C., Crouch R., Edwards L., Hacker N., Marsden D., Robertson G., Beale P., Beith J., Carter J., Dalrymple C., Houghton R., Russell P., and Anderson L.
Abstract: Common variation on 14q24.1, close to RAD51B, has been associated with breast cancer: rs999737 and rs2588809 with the risk of female breast cancer and rs1314913 with the risk of male breast cancer. The aim of this study was to investigate the role of RAD51B variants in breast cancer predisposition, particularly in the context of familial breast cancer in Finland. We sequenced the coding region of RAD51B in 168 Finnish breast cancer patients from the Helsinki region for identification of possible recurrent founder mutations. In addition, we studied the known rs999737, rs2588809, and rs1314913 SNPs and RAD51B haplotypes in 44,791 breast cancer cases and 43,583 controls from 40 studies participating in the Breast Cancer Association Consortium (BCAC) that were genotyped on a custom chip (iCOGS). We identified one putatively pathogenic missense mutation c.541C>T among the Finnish cancer patients and subsequently genotyped the mutation in additional breast cancer cases (n = 5259) and population controls (n = 3586) from Finland and Belarus. No significant association with breast cancer risk was seen in the meta-analysis of the Finnish datasets or in the large BCAC dataset. The association with previously identified risk variants rs999737, rs2588809, and rs1314913 was replicated among all breast cancer cases and also among familial cases in the BCAC dataset. The most significant association was observed for the haplotype carrying the risk-alleles of all the three SNPs both among all cases (odds ratio (OR): 1.15, 95% confidence interval (CI): 1.11-1.19, P = 8.88 x 10-16) and among familial cases (OR: 1.24, 95% CI: 1.16-1.32, P = 6.19 x 10-11), compared to the haplotype with the respective protective alleles. Our results suggest that loss-of-function mutations in RAD51B are rare, but common variation at the RAD51B region is significantly associated with familial breast cancer risk.
Published: 2017

50. Body mass index and breast cancer survival

Author: Guo, Q. (Qi), Burgess, S. (Stephen), Turman, C. (Constance), Bolla, M.K. (Manjeet K.), Wang, Q. (Qin), Lush, M. (Michael), Abraham, J. (Jean), Aittomäki, K. (Kristiina), Andrulis, I.L. (Irene), Apicella, C. (Carmel), Arndt, V. (Volker), Barrdahl, M. (Myrto), Benítez, J. (Javier), Berg, C.D. (Christine), Blomqvist, C. (Carl), Bojesen, S.E. (Stig), Bonnani, B. (Bernardo), Brand, J.S. (Judith S.), Brenner, H. (Hermann), Broeks, A. (Annegien), Burwinkel, B. (Barbara), Caldas, C. (Carlos), Campa, D. (Daniele), Canzian, F. (Federico), Chang-Claude, J. (Jenny), Chanock, S.J. (Stephen), Chin, S.-F. (Suet-Feung), Couch, F.J. (Fergus J.), Cox, A. (Angela), Cross, S.S. (Simon), Cybulski, C. (Cezary), Czene, K. (Kamila), Darabi, H. (Hatef), Devilee, P. (Peter), Diver, W.R. (Ryan), Dunning, A.M. (Alison), Earl, H. (Helena), Eccles, D.M. (Diana M.), Ekici, A.B. (Arif B.), Eriksson, M. (Mats), Evans, D.G. (D Gareth), Fasching, P.A. (Peter), Figueroa, J.D. (Jonine), Flesch-Janys, D. (Dieter), Flyger, H. (Henrik), Gapstur, S.M. (Susan M.), Gaudet, M.M. (Mia M.), Giles, G.G. (Graham G.), Glendon, G. (Gord), Grip, M. (Mervi), Gronwald, J. (Jacek), Haeberle, L. (Lothar), Haiman, C.A. (Christopher), Hall, P. (Per), Hamann, U. (Ute), Hankinson, S.E. (Susan), Hartikainen, J.M. (Jaana M.), Hein, A. (Alexander), Hiller, L. (Louise), Hogervorst, F.B. (Frans B.), Holleczek, B. (B.), Hooning, M.J. (Maartje), Hoover, R.N. (Robert), Humphreys, K. (Keith), Hunter, D. (David), Hüsing, A. (Anika), Jakubowska, A. (Anna), Jukkola-Vuorinen, A. (Arja), Kaaks, R. (Rudolf), Kabisch, M. (Maria), Kataja, V. (Vesa), Knight, J.A. (Julia), Koppert, L.B. (Linetta), Kosma, V-M. (Veli-Matti), Kristensen, V.N. (Vessela N.), Lambrechts, D. (Diether), Le Marchand, L. (Loic), Li, J. (Jingmei), Lindblom, A. (Annika), Lindström, S. (Sara), Lissowska, J. (Jolanta), Lubinski, J. (Jan), Machiela, M.J. (Mitchell J.), Mannermaa, A. (Arto), Manoukian, S. (Siranoush), Margolin, S. (Sara), Marme, F. (Federik), Martens, J.W.M. (John), McLean, C.A. (Catriona Ann), Menéndez, P. (Primitiva), Milne, R.L. (Roger), Mulligan, A.-M. (Anna-Marie), Muranen, T.A. (Taru A.), Nevanlinna, H. (Heli), Neven, P. (Patrick), Nielsen, S.F. (Sune F.), Nordestgaard, B.G. (Børge), Olson, J.E. (Janet), Perez, J.I.A. (Jose Ignacio Arias), Peterlongo, P. (Paolo), Phillips, K.-A. (Kelly-Anne), Poole, C.J. (Christopher J.), Pykäs, K. (Katri), Radice, P. (Paolo), Rahman, N. (Nazneen), Rud̈iger, T. (Thomas), Rudolph, A. (Anja), Sawyer, E.J. (Elinor), Schumacher, F.R. (Fredrick R), Seibold, P. (Petra), Seynaeve, C.M. (Caroline), Shah, M. (Mitul), Smeets, A. (Ann), Southey, M.C. (Melissa C.), Tollenaar, R.A.E.M. (Rob), Tomlinson, I.P. (Ian), Tsimiklis, H. (Helen), Ulmer, H.U. (Hans), Vachon, C. (Celine), Ouweland, A.M.W. (Ans) van den, Veer, L.J. (Laura) van 't, Wildiers, H. (Hans), Willett, W.C. (Walter C.), Winqvist, R. (Robert), Zamora, M.P. (Pilar), Chenevix-Trench, G. (Georgia), Dörk, T. (Thilo), Easton, D.F. (Douglas), García-Closas, M. (Montserrat), Kraft, P. (Peter), Hopper, J.L. (John), Zheng, W. (Wei), Schmidt, M.K. (Marjanka), Pharoah, P.D.P. (Paul), Guo, Q. (Qi), Burgess, S. (Stephen), Turman, C. (Constance), Bolla, M.K. (Manjeet K.), Wang, Q. (Qin), Lush, M. (Michael), Abraham, J. (Jean), Aittomäki, K. (Kristiina), Andrulis, I.L. (Irene), Apicella, C. (Carmel), Arndt, V. (Volker), Barrdahl, M. (Myrto), Benítez, J. (Javier), Berg, C.D. (Christine), Blomqvist, C. (Carl), Bojesen, S.E. (Stig), Bonnani, B. (Bernardo), Brand, J.S. (Judith S.), Brenner, H. (Hermann), Broeks, A. (Annegien), Burwinkel, B. (Barbara), Caldas, C. (Carlos), Campa, D. (Daniele), Canzian, F. (Federico), Chang-Claude, J. (Jenny), Chanock, S.J. (Stephen), Chin, S.-F. (Suet-Feung), Couch, F.J. (Fergus J.), Cox, A. (Angela), Cross, S.S. (Simon), Cybulski, C. (Cezary), Czene, K. (Kamila), Darabi, H. (Hatef), Devilee, P. (Peter), Diver, W.R. (Ryan), Dunning, A.M. (Alison), Earl, H. (Helena), Eccles, D.M. (Diana M.), Ekici, A.B. (Arif B.), Eriksson, M. (Mats), Evans, D.G. (D Gareth), Fasching, P.A. (Peter), Figueroa, J.D. (Jonine), Flesch-Janys, D. (Dieter), Flyger, H. (Henrik), Gapstur, S.M. (Susan M.), Gaudet, M.M. (Mia M.), Giles, G.G. (Graham G.), Glendon, G. (Gord), Grip, M. (Mervi), Gronwald, J. (Jacek), Haeberle, L. (Lothar), Haiman, C.A. (Christopher), Hall, P. (Per), Hamann, U. (Ute), Hankinson, S.E. (Susan), Hartikainen, J.M. (Jaana M.), Hein, A. (Alexander), Hiller, L. (Louise), Hogervorst, F.B. (Frans B.), Holleczek, B. (B.), Hooning, M.J. (Maartje), Hoover, R.N. (Robert), Humphreys, K. (Keith), Hunter, D. (David), Hüsing, A. (Anika), Jakubowska, A. (Anna), Jukkola-Vuorinen, A. (Arja), Kaaks, R. (Rudolf), Kabisch, M. (Maria), Kataja, V. (Vesa), Knight, J.A. (Julia), Koppert, L.B. (Linetta), Kosma, V-M. (Veli-Matti), Kristensen, V.N. (Vessela N.), Lambrechts, D. (Diether), Le Marchand, L. (Loic), Li, J. (Jingmei), Lindblom, A. (Annika), Lindström, S. (Sara), Lissowska, J. (Jolanta), Lubinski, J. (Jan), Machiela, M.J. (Mitchell J.), Mannermaa, A. (Arto), Manoukian, S. (Siranoush), Margolin, S. (Sara), Marme, F. (Federik), Martens, J.W.M. (John), McLean, C.A. (Catriona Ann), Menéndez, P. (Primitiva), Milne, R.L. (Roger), Mulligan, A.-M. (Anna-Marie), Muranen, T.A. (Taru A.), Nevanlinna, H. (Heli), Neven, P. (Patrick), Nielsen, S.F. (Sune F.), Nordestgaard, B.G. (Børge), Olson, J.E. (Janet), Perez, J.I.A. (Jose Ignacio Arias), Peterlongo, P. (Paolo), Phillips, K.-A. (Kelly-Anne), Poole, C.J. (Christopher J.), Pykäs, K. (Katri), Radice, P. (Paolo), Rahman, N. (Nazneen), Rud̈iger, T. (Thomas), Rudolph, A. (Anja), Sawyer, E.J. (Elinor), Schumacher, F.R. (Fredrick R), Seibold, P. (Petra), Seynaeve, C.M. (Caroline), Shah, M. (Mitul), Smeets, A. (Ann), Southey, M.C. (Melissa C.), Tollenaar, R.A.E.M. (Rob), Tomlinson, I.P. (Ian), Tsimiklis, H. (Helen), Ulmer, H.U. (Hans), Vachon, C. (Celine), Ouweland, A.M.W. (Ans) van den, Veer, L.J. (Laura) van 't, Wildiers, H. (Hans), Willett, W.C. (Walter C.), Winqvist, R. (Robert), Zamora, M.P. (Pilar), Chenevix-Trench, G. (Georgia), Dörk, T. (Thilo), Easton, D.F. (Douglas), García-Closas, M. (Montserrat), Kraft, P. (Peter), Hopper, J.L. (John), Zheng, W. (Wei), Schmidt, M.K. (Marjanka), and Pharoah, P.D.P. (Paul)
Abstract: __Background:__ There is increasing evidence that elevated body mass index (BMI) is associated with reduced survival for women with breast cancer. However, the underlying reasons remain unclear. We conducted a Mendelian randomization analysis to investigate a possible causal role of BMI in survival from breast cancer. __Methods:__ We used individual-level data from six large breast cancer case-cohorts including a total of 36 210 individuals (2475 events) of European ancestry. We created a BMI genetic risk score (GRS) based on genotypes at 94 known BMI-associated genetic variants. Association between the BMI genetic score and breast cancer survival was analysed by Cox regression for each study separately. Study-specific hazard ratios were pooled using fixed-effect meta-analysis. __Results:__
Published: 2017
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