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1,917 results on '"Earl, L"'

3. Brodalumab: 5-Year US Pharmacovigilance Report

Author

Mark G. Lebwohl, John Y. Koo, April W. Armstrong, Bruce E. Strober, George M. Martin, Nicole N. Rawnsley, Earl L. Goehring, and Abby A. Jacobson

Subjects
Adverse events, Drug reaction, Psoriasis, Real-world, Safety, Dermatology, RL1-803
Abstract

Abstract Introduction Brodalumab is a human interleukin-17 receptor A antagonist indicated for the treatment of moderate-to-severe plaque psoriasis in adult patients who are candidates for systemic therapy or phototherapy and have failed to respond or have lost response to other systemic therapies. Although the US prescribing information for brodalumab includes a boxed warning regarding suicidal ideation and behavior, no causal association has been demonstrated. Here, we summarize 5 years of pharmacovigilance data, from August 15, 2017, through August 14, 2022, reported to Ortho Dermatologics by US patients and healthcare providers. Methods Prevalence of the most common adverse events (AEs) listed in the brodalumab package insert (incidence ≥ 1%) and AEs of special interest are described. Brodalumab exposure was estimated as the time from the first to last prescription-dispensing authorization dates. Data were collected from 4744 patients in the USA, with an estimated exposure of 5815 patient-years. Results Over 5 years, 11 cases of adjudicated major adverse cardiovascular events were reported (0.23 events/100 patients), a rate lower than that experienced by patients in the international Psoriasis Longitudinal Assessment and Registry. There were 106 serious infections. No serious fungal infections were reported. There were 40 confirmed and 2 suspected COVID-19 cases, with no new COVID-19-related deaths. Of 49 reported malignancies among 42 patients, 3 were deemed possibly related to brodalumab. No completed suicides and no new suicidal attempts were reported. Conclusion Five-year pharmacovigilance data are consistent with the established safety profile reported in long-term clinical trials and previous pharmacovigilance reports, with no new safety signals.

Published
2024
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4. Assessment of Grapefruit Expressing Anti-NodT Antibody for Huanglongbing Resistance

Author

Chad Vosburg, Judith P. Sinn, Vladimir Orbovic, Rhuanito Soranz Ferrarezi, J. Martin Zapien Macias, Earl L. Taylor, Mark Hilf, Greg McCollum, Tim R. Gottwald, Ed Stover, and Timothy W. McNellis

Subjects
citrus greening, HLB, single-chain antibody, transformation, Plant culture, SB1-1110, Botany, QK1-989
Abstract

Growers rely on broad-spectrum agrochemicals to manage one of the most economically important fruit tree diseases, huanglongbing (HLB, citrus greening disease), presumptively caused by the gram-negative bacterium ‘Candidatus Liberibacter asiaticus’ (CLas). Although genetic resistance would be an attractive alternative to chemical management, this option is not yet available for HLB. Here, we tested whether a single chain variable fragment (scFv) antibody targeting the predicted CLas outer membrane transporter NodT can inhibit CLas growth or HLB disease development when expressed in ‘Duncan’ grapefruit (Citrus × paradisi). CLas NodT is similar to TolC and could be involved in Type I secretion and virulence. The scFv antibody was expressed in grapefruit trees as a C-terminal translational fusion to the Flowering Locus T protein of Poncirus trifoliata (FT-scFv) to promote expression in the phloem. Wild-type and FT-scFv-expressing transgenic lines were challenged with CLas using three inoculation approaches: psyllid-mediated inoculation, vegetative graft inoculation, and natural exposure in grove-like conditions. With the first two approaches, HLB symptom expression and CLas bacterial titers in FT-scFv grapefruit lines were not significantly different from wild-type controls. In the grove trial, one FT-scFv line exhibited a slight, but significant, reduction in canopy chlorosis compared to wild-type controls. Wild-type and FT-scFv lines were similar in all other metrics. We conclude that the expression of anti-NodT FT-scFv antibody in grapefruit did not decrease HLB susceptibility. Although our approach was unsuccessful, we hope that documenting our results will be useful for those seeking to develop HLB-resistant citrus germplasm in the future. [Figure: see text] Copyright © 2023 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published
2024
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9. Vitamin C levels of selected Philippine indigenous berries as affected by fruit maturity and processing treatment

Author

Katherine Ann T. Castillo-Israel, Lloyd Earl L. Flandez, Arvin Paul P. Tuaño, Kristel June D. Sartagoda, and Ma. Carisse M. Compendio

Subjects
Berries, Bignay, Lipote, Flesh, HPLC, Maturity, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Abstract The Philippines as a tropical country is home to several indigenous berries that offer enough supply of health-promoting bioactive compounds like vitamin C. Vitamin C is an important micronutrient in the human diet that is usually supplied by fruits and vegetables. The amount of this vitamin in different products varies depending on the species, variety, maturity, processing, and other conditions. In this study, the vitamin C contents of selected Philippine indigenous berries such as bignay and lipote were evaluated as affected by fruit maturity and processing treatment. Fruits of two bignay (Antidesma bunius (Linn.) Spreng), varieties, ‘Common’ and ‘Kalabaw’, as well as of lipote (Syzygium polycephaloides (C. B. Rob.) Merr.), at three maturity stages (unripe, half-ripe, and fully ripe) were acquired in Laguna, Philippines. Samples were subjected to two processing treatments: blanched (90 ± 5 °C, 2 minutes) and steamed (105 ± 5 °C, 5 minutes), while control samples did not undergo processing treatment. The flesh and seeds were separated, lyophilized, extracted, and subjected to quantification of vitamin C using reversed-phase high performance liquid chromatography. Results showed that the vitamin C levels of both fruits were significantly affected by maturity, processing, and their interaction (P

Published
2023
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10. Effects of various processing methods on the dietary fiber and antioxidant properties of Bignay (Antidesma bunius L. Spreng) fruit

Author

Ara Fatima A. Carbonera, Liezl M. Atienza, Maria Amelita C. Estacio, Sheba Mae M. Duque, Rona Camille M. Lizardo-Agustin, Lloyd Earl L. Flandez, and Katherine Ann T. Castillo-Israel

Subjects
Bignay, Fiber content, Fruit processing, Phenolic compounds, Antioxidant activity, Food processing and manufacture, TP368-456
Abstract

Bignay (Antidesma bunius L. Spreng) is an indigenous fruit in the Philippines known for its bioactive compounds and is commonly preserved by conventional freezing. Processing can be done to improve its storage condition and convert it into functional ingredients. This study aimed to determine the effect of freeze-drying, oven drying (50°C), spray drying, and juice concentrating on the dietary fiber composition, phenolic compounds, and antioxidant activity of Bignay. Results showed that oven drying increased the total dietary fiber of Bignay by 29% while freeze drying resulted to an increase in total phenolics, total flavonoids, and total anthocyanin by 69%, 55%, and 66%, respectively, with an increase in antioxidant activity in terms of DPPH, FRAP, and ABTS by 57%, 15% and 31%, respectively. Spray drying was found to be the most detrimental method while juice concentration gave little to no significant effects. Epicatechin, catechin, and gallic acid were the main phenolic compounds quantified in the processed Bignay. The study recommends that freeze-drying is the best method followed by oven drying, concentration, and spray drying.

Published
2023
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12. Impact of drying on the bioactive compounds and antioxidant properties of bignay [Antidesma bunius (L.) Spreng.] pomace

Author

Claire S. Zubia, Gilda Melanie O. Babaran, Sheba Mae M. Duque, Lotis E. Mopera, Lloyd Earl L. Flandez, Katherine Ann T. Castillo-Israel, and Florencio C. Reginio

Subjects
Freeze-drying, Convection oven-drying, Antioxidants, Phenolics, Bignay, Pomace, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Abstract Bignay pomace is a processing byproduct that can be a source of bioactive compounds. However, a suitable dehydration method should be considered to efficiently valorize this waste material into high-value food ingredient and maximize its health-promoting properties. Bignay pomace was subjected to convection oven-drying and freeze-drying to investigate the effect of these pre-processing techniques on the physicochemical, bioactives, and antioxidant properties of the samples. Both drying methods significantly (p

Published
2023
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17. FEDERALISM AND THE DIGITAL DIVIDE: HOW SMART PERMITTING REFORMS CAN UNLEASH RURAL BROADBAND ACCESS.

Author

"BUDDY" CARTER, EARL L.

Subjects
*FEDERAL government, *DIGITAL divide, *BROADBAND communication systems, *INTERNET access, *INVESTMENTS, *TECHNOLOGICAL innovations
Abstract

Millions of Americans lack access to high-speed broadband, which is important for connectivity in the modern world. For me, as a Member of the House Committee on Energy and Commerce, closing this digital divide is a top priority. In this Essay, I discuss how a streamlined permitting process, as outlined by my American Broadband Deployment Act, can promote investment and innovation while also connecting more Americans with this vital service. [ABSTRACT FROM AUTHOR]

Published
2024

20. Long-Term Narrowband Lighting Influences Activity but Not Intrinsically Photosensitive Retinal Ganglion Cell-Driven Pupil Responses

Author

Linjiang Lou, Baskar Arumugam, Li-Fang Hung, Zhihui She, Krista M. Beach, Earl L. Smith, and Lisa A. Ostrin

Subjects
circadian rhythms, intrinsically photosensitive retinal ganglion cells, activity patterns, pupil, light exposure, rhesus monkey, Physiology, QP1-981
Abstract

Purpose: Light affects a variety of non-image forming processes, such as circadian rhythm entrainment and the pupillary light reflex, which are mediated by intrinsically photosensitive retinal ganglion cells (ipRGCs). The purpose of this study was to assess the effects of long- and short-wavelength ambient lighting on activity patterns and pupil responses in rhesus monkeys.Methods: Infant rhesus monkeys were reared under either broadband “white” light (n = 14), long-wavelength “red” light (n = 20; 630 nm), or short-wavelength “blue” light (n = 21; 465 nm) on a 12-h light/dark cycle starting at 24.1 ± 2.6 days of age. Activity was measured for the first 4 months of the experimental period using a Fitbit activity tracking device and quantified as average step counts during the daytime (lights-on) and nighttime (lights-off) periods. Pupil responses to 1 s red (651 nm) and blue (456 nm) stimuli were measured after approximately 8 months. Pupil metrics included maximum constriction and the 6 s post-illumination pupil response (PIPR).Results: Activity during the lights-on period increased with age during the first 10 weeks (p < 0.001 for all) and was not significantly different for monkeys reared in white, red, or blue light (p = 0.07). Activity during the 12-h lights-off period was significantly greater for monkeys reared in blue light compared to those in white light (p = 0.02), but not compared to those in red light (p = 0.08). However, blue light reared monkeys exhibited significantly lower activity compared to both white and red light reared monkeys during the first hour of the lights-off period (p = 0.01 for both) and greater activity during the final hour of the lights-off period (p < 0.001 for both). Maximum pupil constriction and the 6 s PIPR to 1 s red and blue stimuli were not significantly different between groups (p > 0.05 for all).Conclusion: Findings suggest that long-term exposure to 12-h narrowband blue light results in greater disruption in nighttime behavioral patterns compared to narrowband red light. Normal pupil responses measured later in the rearing period suggest that ipRGCs adapt after long-term exposure to narrowband lighting.

Published
2021
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24. Myopia

Author

Baird, Paul N., Saw, Seang-Mei, Lanca, Carla, Guggenheim, Jeremy A., Smith III, Earl L., Zhou, Xiangtian, Matsui, Kyoko-Ohno, Wu, Pei-Chang, Sankaridurg, Padmaja, Chia, Audrey, Rosman, Mohamad, Lamoureux, Ecosse L., Man, Ryan, and He, Mingguang

Published
2020
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25. High-Level Production of Recombinant Snowdrop Lectin in Sugarcane and Energy Cane

Author

Carmen S. Padilla, Mona B. Damaj, Zhong-Nan Yang, Joe Molina, Brian R. Berquist, Earl L. White, Nora Solís-Gracia, Jorge Da Silva, and Kranthi K. Mandadi

Subjects
therapeutic protein, recombinant protein, snowdrop-bulb lectin, Galanthus nivalis agglutinin, promoter stacking, biofactory, Biotechnology, TP248.13-248.65
Abstract

Sugarcane and energy cane (Saccharum spp. hybrids) are ideal for plant-based production of recombinant proteins because their high resource-use efficiency, rapid growth and efficient photosynthesis enable extensive biomass production and protein accumulation at a cost-effective scale. Here, we aimed to develop these species as efficient platforms to produce recombinant Galanthus nivalis L. (snowdrop) agglutinin (GNA), a monocot-bulb mannose-specific lectin with potent antiviral, antifungal and antitumor activities. Initially, GNA levels of 0.04% and 0.3% total soluble protein (TSP) (0.3 and 3.8 mg kg–1 tissue) were recovered from the culms and leaves, respectively, of sugarcane lines expressing recombinant GNA under the control of the constitutive maize ubiquitin 1 (Ubi) promoter. Co-expression of recombinant GNA from stacked multiple promoters (pUbi and culm-regulated promoters from sugarcane dirigent5-1 and Sugarcane bacilliform virus) on separate expression vectors increased GNA yields up to 42.3-fold (1.8% TSP or 12.7 mg kg–1 tissue) and 7.7-fold (2.3% TSP or 29.3 mg kg–1 tissue) in sugarcane and energy cane lines, respectively. Moreover, inducing promoter activity in the leaves of GNA transgenic lines with stress-regulated hormones increased GNA accumulation to 2.7% TSP (37.2 mg kg–1 tissue). Purification by mannose-agarose affinity chromatography yielded a functional sugarcane recombinant GNA with binding substrate specificity similar to that of native snowdrop-bulb GNA, as shown by enzyme-linked lectin and mannose-binding inhibition assays. The size and molecular weight of recombinant GNA were identical to those of native GNA, as determined by size-exclusion chromatography and MALDI-TOF mass spectrometry. This work demonstrates the feasibility of producing recombinant GNA at high levels in Saccharum species, with the long-term goal of using it as a broad-spectrum antiviral carrier molecule for hemopurifiers and in related therapeutic applications.

Published
2020
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28. On the Potential of Gallium- and Indium-Based Liquid Metal Membranes for Hydrogen Separation

Author

Leon R. S. Rosseau, José A. Medrano, Rajat Bhardwaj, Earl L. V. Goetheer, Ivo A. W. Filot, Fausto Gallucci, and Martin van Sint Annaland

Subjects
dense metal membrane, microkinetics, Sieverts’ law, hydrogen, liquid metals, Chemical technology, TP1-1185, Chemical engineering, TP155-156
Abstract

The concept of liquid metal membranes for hydrogen separation, based on gallium or indium, was recently introduced as an alternative to conventional palladium-based membranes. The potential of this class of gas separation materials was mainly attributed to the promise of higher hydrogen diffusivity. The postulated improvements are only beneficial to the flux if diffusion through the membrane is the rate-determining step in the permeation sequence. Whilst this is a valid assumption for hydrogen transport through palladium-based membranes, the relatively low adsorption energy of hydrogen on both liquid metals suggests that other phenomena may be relevant. In the current study, a microkinetic modeling approach is used to enable simulations based on a five-step permeation mechanism. The calculation results show that for the liquid metal membranes, the flux is limited by the dissociative adsorption over a large temperature range, and that the membrane flux is expected to be orders of magnitude lower compared to the membrane flux through pure palladium membranes. Even when accounting for the lower cost of the liquid metals compared to palladium, the latter still outperforms both gallium and indium in all realistic scenarios, in part due to the practical difficulties associated with making liquid metal thin films.

Published
2022
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31. The overlapping burden of the three leading causes of disability and death in sub-Saharan African children

Author

Reiner, R.C., Welgan, C.A., Troeger, C.E., Baumann, M.M., Weiss, D.J., Deshpande, A., Blacker, B.F., Miller-Petrie, M.K., Earl, L., Bhatt, S., Abolhassani, H., Abosetugn, A.E., Abu-Gharbieh, E., Adekanmbi, V., Adetokunboh, O.O., Aghaali, M., Aji, B., Alahdab, F., Al-Aly, Z., Alhassan, R.K., Ali, S., Alizade, H., Aljunid, S.M., Almasi-Hashiani, A., Al-Mekhlafi, H.M., Altirkawi, K.A., Alvis-Guzman, N., Amare, A.T., Amini, S., Amugsi, D.A., Ancuceanu, R., Andrei, C.L., Ansari, F., Anvari, D., Appiah, S.C.Y., Arabloo, J., Aremu, O., Atout, M.M.W., Ausloos, M., Ausloos, F., Ayanore, M.A., Aynalem, Y.A., Azene, Z.N., Badawi, A., Baig, A.A., Banach, M., Bedi, N., Bhagavathula, A.S., Bhandari, D., Bhardwaj, N., Bhardwaj, P., Bhattacharyya, K., Bhutta, Z.A., Bijani, A., Birhanu, T.T.M., Bitew, Z.W., Boloor, A., Brady, O.J., Butt, Z.A., Car, J., Carvalho, F., Casey, D.C., Chattu, V.K., Chowdhury, M.A.K., Chu, D.-., Coelho, C.H., Cook, A.J., Damiani, G., Daoud, F., Gela, J.D., Darwish, A.H., Daryani, A., Das, J.K., Davis Weaver, N., Deribe, K., Desalew, A., Dharmaratne, S.D., Dianatinasab, M., Diaz, D., Djalalinia, S., Dorostkar, F., Dubljanin, E., Duko, B., Dwyer-Lindgren, L., Effiong, A., El Sayed Zaki, M., El Tantawi, M., Enany, S., Fattahi, N., Feigin, V.L., Fernandes, E., Ferrara, P., Fischer, F., Foigt, N.A., Folayan, M.O., Foroutan, M., Frostad, J.J., Fukumoto, T., Gaidhane, A.M., Gebrekrstos, H.G.G.K., Gebremeskel, L., Gebreslassie, A.A., Gething, P.W., Gezae, K.E., Ghadiri, K., Ghashghaee, A., Golechha, M., Gubari, M.I.M., Hadgu, F.B., Hamidi, S., Handiso, D.W., Hashi, A., Hassan, S., Hayat, K., Herteliu, C., H. C., H., Holla, R., Hosseinzadeh, M., Househ, M., Hussain, R., Hwang, B.-., Ibitoye, S.E., Ilesanmi, O.S., Ilic, I.M., Ilic, M.D., Irvani, S.S.N., Jaafari, J., Javaheri, T., Jha, R.P., Johnson, K.B., Jonas, J.B., Jozwiak, J.J., Kabir, A., Kalhor, R., Kanchan, T., Karch, A., Kayode, G.A., Keiyoro, P.N., Khader, Y.S., Khalil, I.A., Khan, M.N., Khan, M., Khan, G., Khatab, K., Khater, M.M., Khatib, M.N., Kianipour, N., Kim, Y.J., Kimokoti, R.W., Kisa, S., Kisa, A., Kissoon, N., Kochhar, S., Koolivand, A., Kopec, J.A., Koyanagi, A., Krishan, K., Kumar, P., Kurmi, O.P., Kusuma, D., Lal, D.K., Lami, F.H., Landires, I., Lansingh, V.C., Lasrado, S., La Vecchia, C., Lazzar-Atwood, A., Lee, P.H., Legrand, K.E., Lewycka, S., Li, B., Lim, S.S., Lindstedt, P.A., Liu, X., Longbottom, J., Lopez, A.D., Magdy Abd El Razek, H., Mahasha, P.W., Maleki, A., Mamun, A.A., Mansournia, M.A., Marczak, L.B., Martins-Melo, F.R., Mayala, B.K., Meharie, B.G., Melese, A., Mendoza, W., Menezes, R.G., Mengesha, E.W., Mensah, G.A., Meretoja, T.J., Mestrovic, T., Miller, T.R., Mirrakhimov, E.M., Moazen, B., Mohammad Gholi Mezerji, N., Mohammadi, S., Mohammed, S., Mokdad, A.H., Moradi, M., Moradzadeh, R., Moraga, P., Mosser, J.F., Murray, C.J.L., Naderi, M., Nagarajan, A.J., Nazari, J., Ndejjo, R., Negoi, I., Ngunjiri, J.W., Nguyen, Q.A.P., Nguyen, H.L.T., Nnaji, C.A., Noubiap, J.J., Nunez-Samudio, V., Olagunju, A.T., Olusanya, J.O., Olusanya, B.O., Omer, M.O., Onwujekwe, O.E., Otstavnov, N., Otstavnov, S.S., Owolabi, M.O., P A, M., Padubidri, J.R., Pana, A., Peprah, E.K., Pham, H.Q., Pigott, D.M., Pirestani, M., Postma, M.J., Pottoo, F.H., Pourjafar, H., Quazi Syed, Z., Rahim, F., Rahimi-Movaghar, V., Rahman, M.H.U., Rao, S.J., Rao, P.C., Rathi, P., Rawaf, S., Rawaf, D.L., Rawal, L., Rawassizadeh, R., Regassa, L.D., Renzaho, A.M.N., Rezaei, N., Rezai, M.S., Ribeiro, A.I., Rickard, J., Rios-Gonzalez, C.M., Rumisha, S.F., Sabour, S., Sajadi, S.M., Salomon, J.A., Samadi Kafil, H., Samy, A.M., Sanabria, J., Sartorius, B., Saxena, D., Schaeffer, L.E., Senthilkumaran, S., Sha, F., Shaheen, A.A., Shaikh, M.A., Sharma, R., Sheikh, A., Shibuya, K., Shigematsu, M., Il Shin, J., Simonetti, B., Singh, J.A., Smith, D.L., Soheili, A., Sokhan, A., Spurlock, E.E., Sreeramareddy, C.T., Sufiyan, M.B., Swartz, S.J., Tadesse, D.B., Tamiru, A.T., Tefera, Y.G., Temsah, M.-., Tessema, Z.T., Titova, M.V., Tran, B.X., Truong, P.N., Unnikrishnan, B., Upadhyay, E., Vasankari, T.J., Vasseghian, Y., Violante, F.S., G. T., V., Waheed, Y., Wamai, R.G., Wassie, E.G., Welay, F.T., Wickramasinghe, N.D., Wiens, K.E., Wijeratne, T., Wiysonge, C.S., Wondmeneh, T.G., Yamada, T., Yaya, S., Yeshitila, Y.G., Yip, P., Yonemoto, N., Yu, C., Yuce, D., Yusefzadeh, H., Zaidi, Z., Zamanian, M., Zangeneh, A., Zhang, Z.-., Zhang, Y., Ziapour, A., Hay, S.I., Reiner, RC Jr, Welgan, CA, Troeger, CE, Baumann, MM, Duko, Bereket, Hay, Simon I, LBD Triple Collaborators, Value, Affordability and Sustainability (VALUE), Real World Studies in PharmacoEpidemiology, -Genetics, -Economics and -Therapy (PEGET), Microbes in Health and Disease (MHD), Reiner, R, Welgan, C, Troeger, C, Baumann, M, Weiss, D, Deshpande, A, Blacker, B, Miller-Petrie, M, Earl, L, Bhatt, S, Abolhassani, H, Abosetugn, A, Abu-Gharbieh, E, Adekanmbi, V, Adetokunboh, O, Aghaali, M, Aji, B, Alahdab, F, Al-Aly, Z, Alhassan, R, Ali, S, Alizade, H, Aljunid, S, Almasi-Hashiani, A, Al-Mekhlafi, H, Altirkawi, K, Alvis-Guzman, N, Amare, A, Amini, S, Amugsi, D, Ancuceanu, R, Andrei, C, Ansari, F, Anvari, D, Appiah, S, Arabloo, J, Aremu, O, Atout, M, Ausloos, M, Ausloos, F, Ayanore, M, Aynalem, Y, Azene, Z, Badawi, A, Baig, A, Banach, M, Bedi, N, Bhagavathula, A, Bhandari, D, Bhardwaj, N, Bhardwaj, P, Bhattacharyya, K, Bhutta, Z, Bijani, A, Birhanu, T, Bitew, Z, Boloor, A, Brady, O, Butt, Z, Car, J, Carvalho, F, Casey, D, Chattu, V, Chowdhury, M, Chu, D, Coelho, C, Cook, A, Damiani, G, Daoud, F, Gela, J, Darwish, A, Daryani, A, Das, J, Davis Weaver, N, Deribe, K, Desalew, A, Dharmaratne, S, Dianatinasab, M, Diaz, D, Djalalinia, S, Dorostkar, F, Dubljanin, E, Duko, B, Dwyer-Lindgren, L, Effiong, A, El Sayed Zaki, M, El Tantawi, M, Enany, S, Fattahi, N, Feigin, V, Fernandes, E, Ferrara, P, Fischer, F, Foigt, N, Folayan, M, Foroutan, M, Frostad, J, Fukumoto, T, Gaidhane, A, Gebrekrstos, H, Gebremeskel, L, Gebreslassie, A, Gething, P, Gezae, K, Ghadiri, K, Ghashghaee, A, Golechha, M, Gubari, M, Hadgu, F, Hamidi, S, Handiso, D, Hashi, A, Hassan, S, Hayat, K, Herteliu, C, Ho, H, Holla, R, Hosseinzadeh, M, Househ, M, Hussain, R, Hwang, B, Ibitoye, S, Ilesanmi, O, Ilic, I, Ilic, M, Irvani, S, Jaafari, J, Javaheri, T, Jha, R, Johnson, K, Jonas, J, Jozwiak, J, Kabir, A, Kalhor, R, Kanchan, T, Karch, A, Kayode, G, Keiyoro, P, Khader, Y, Khalil, I, Khan, M, Khan, G, Khatab, K, Khater, M, Khatib, M, Kianipour, N, Kim, Y, Kimokoti, R, Kisa, S, Kisa, A, Kissoon, N, Kochhar, S, Koolivand, A, Kopec, J, Koyanagi, A, Krishan, K, Kumar, P, Kurmi, O, Kusuma, D, Lal, D, Lami, F, Landires, I, Lansingh, V, Lasrado, S, La Vecchia, C, Lazzar-Atwood, A, Lee, P, Legrand, K, Lewycka, S, Li, B, Lim, S, Lindstedt, P, Liu, X, Longbottom, J, Lopez, A, Magdy Abd El Razek, H, Mahasha, P, Maleki, A, Mamun, A, Mansournia, M, Marczak, L, Martins-Melo, F, Mayala, B, Meharie, B, Melese, A, Mendoza, W, Menezes, R, Mengesha, E, Mensah, G, Meretoja, T, Mestrovic, T, Miller, T, Mirrakhimov, E, Moazen, B, Mohammad Gholi Mezerji, N, Mohammadi, S, Mohammed, S, Mokdad, A, Moradi, M, Moradzadeh, R, Moraga, P, Mosser, J, Murray, C, Naderi, M, Nagarajan, A, Nazari, J, Ndejjo, R, Negoi, I, Ngunjiri, J, Nguyen, Q, Nguyen, H, Nnaji, C, Noubiap, J, Nunez-Samudio, V, Olagunju, A, Olusanya, J, Olusanya, B, Omer, M, Onwujekwe, O, Otstavnov, N, Otstavnov, S, Owolabi, M, P A, M, Padubidri, J, Pana, A, Peprah, E, Pham, H, Pigott, D, Pirestani, M, Postma, M, Pottoo, F, Pourjafar, H, Quazi Syed, Z, Rahim, F, Rahimi-Movaghar, V, Rahman, M, Rao, S, Rao, P, Rathi, P, Rawaf, S, Rawaf, D, Rawal, L, Rawassizadeh, R, Regassa, L, Renzaho, A, Rezaei, N, Rezai, M, Ribeiro, A, Rickard, J, Rios-Gonzalez, C, Rumisha, S, Sabour, S, Sajadi, S, Salomon, J, Samadi Kafil, H, Samy, A, Sanabria, J, Sartorius, B, Saxena, D, Schaeffer, L, Senthilkumaran, S, Sha, F, Shaheen, A, Shaikh, M, Sharma, R, Sheikh, A, Shibuya, K, Shigematsu, M, Il Shin, J, Simonetti, B, Singh, J, Smith, D, Soheili, A, Sokhan, A, Spurlock, E, Sreeramareddy, C, Sufiyan, M, Swartz, S, Tadesse, D, Tamiru, A, Tefera, Y, Temsah, M, Tessema, Z, Titova, M, Tran, B, Truong, P, Unnikrishnan, B, Upadhyay, E, Vasankari, T, Vasseghian, Y, Violante, F, Vu, G, Waheed, Y, Wamai, R, Wassie, E, Welay, F, Wickramasinghe, N, Wiens, K, Wijeratne, T, Wiysonge, C, Wondmeneh, T, Yamada, T, Yaya, S, Yeshitila, Y, Yip, P, Yonemoto, N, Yu, C, Yuce, D, Yusefzadeh, H, Zaidi, Z, Zamanian, M, Zangeneh, A, Zhang, Z, Zhang, Y, Ziapour, A, Hay, S, HUS Comprehensive Cancer Center, Institute for Molecular Medicine Finland, Clinicum, Helsinki University Hospital Area, and Department of Oncology

Subjects
Multidisciplinary, Settore MED/42 - Igiene Generale e Applicata, 3122 Cancers, malaria, General Physics and Astronomy, COVID-19, General Chemistry, 3126 Surgery, anesthesiology, intensive care, radiology, infectious diseases, Sub-Saharian Africa, General Biochemistry, Genetics and Molecular Biology, Settore MED/01 - Statistica Medica, Children mortality, epidemiology, biogeography
Abstract

Publisher Copyright: © 2022, The Author(s). Despite substantial declines since 2000, lower respiratory infections (LRIs), diarrhoeal diseases, and malaria remain among the leading causes of nonfatal and fatal disease burden for children under 5 years of age (under 5), primarily in sub-Saharan Africa (SSA). The spatial burden of each of these diseases has been estimated subnationally across SSA, yet no prior analyses have examined the pattern of their combined burden. Here we synthesise subnational estimates of the burden of LRIs, diarrhoea, and malaria in children under-5 from 2000 to 2017 for 43 sub-Saharan countries. Some units faced a relatively equal burden from each of the three diseases, while others had one or two dominant sources of unit-level burden, with no consistent pattern geographically across the entire subcontinent. Using a subnational counterfactual analysis, we show that nearly 300 million DALYs could have been averted since 2000 by raising all units to their national average. Our findings are directly relevant for decision-makers in determining which and targeting where the most appropriate interventions are for increasing child survival.

Published
2022

35. Measurements of He-Ar, He-N2, and He-air thermal creep slip and accommodation coefficients at high temperatures.

Author

Wilson, Jason, Walton, Kyle L., Tipton, Earl L., Ghosh, Tushar K., Tompson, Robert V., and Loyalka, Sudarshan K.

Subjects
HIGH temperatures, CAPILLARY flow, GAS flow, CAPILLARIES, STAINLESS steel
Abstract

Understanding gas flows in capillaries has many applications in modeling the transport of gases in nano-structured, porous, or fractured media. A network of capillaries can often approximate these media, and also information on gas-surface interactions obtained from capillary experiments can be used for modeling flows in these media. Experimental data on flows of different mixtures of He-Ar, He-N2, and He-air in the slip regime and in stainless steel capillaries at high temperatures were obtained by using a two-bulb apparatus. An accurate expression for the thermal creep slip coefficients with the Lennard-Jones potential parameters and diffuse-specular reflection gas-surface interaction conditions were then used to obtain the accommodation coefficients for the different gases. The experimental data are best described with values of accommodation coefficients in the range of 0.1–0.3 for He and 0.5–1.0 for Ar, N2, and air. The use of values in this range is suggested for modeling gaseous flows in capillaries and nano-structured, porous, or fractured media if other direct measured values for a particular medium are unavailable. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Abstracts from the 15th International Myopia Conference

Author

Alexandra Benavente-Perez, Ann Nour, Tobin Ansel, Kathleen Abarr, Luying Yan, Keisha Roden, David Troilo, Chanyi Lu, Miaozhen Pan, Min Zheng, Jia Qu, Xiangtian Zhou, Christine F. Wildsoet, Fan Lu, Jie Chen, Jinhua Bao, Liang Hu, Qinmei Wang, Zibing Jin, Frances Rucker, Stephanie Britton, Stephan Hanowsky, Molly Spatcher, Hui-Ying Kuo, Ching-Hsiu Ke, I-Hsin Kuo, Chien-Chun Peng, Han-Yin Sun, Ian G. Morgan, Jeremy A. Guggenheim, Rupal L. Shah, Cathy Williams, Jinglei Yang, Peter S. Reinach, Sen Zhang, Wenfeng Sun, Bo Liu, Fen Li, Xiaoqing Li, Aihua Zhao, Tianlu Chen, Wei Jia, Jun Jiang, Haoran Wu, Kazuo Tsubota, Hiroko Ozawa, Hidemasa Torii, Shigemasa Takamizawa, Toshihide Kurihara, Kazuno Negishi, Klaus Graef, Daniel Rathbun, Frank Schaeffel, Ladan Ghodsi, William K. Stell, Machelle T. Pardue, Ranjay Chakraborty, Han na Park, Curran S. Sidhu, P. Michael Iuvone, Michael J Collins, Nethrajeith Srinvasalu, Sally A. McFadden, Paul N. Baird, Pablo Artal, Pauline Cho, SW Cheung, Pei-Chang Wu, Quan V. Hoang, Duk C. Lee, Erica G. Landis, Michael A. Bergen, Curran Sidhu, Samer Hattar, Richard A. Stone, Ravi Metlapally, Ruiqin Li, Qinglin Xu, Hong Zhong, Chenglin Pan, Weizhong Lan, Xiaoning Li, Ling Chen, Zhikuan Yang, Scott A. Read, Seang-Mei Saw, Shi-Jun Weng, Xiao-Hua Wu, Kang-Wei Qian, Yun-Yun Li, Guo-Zhong Xu, Furong Huang, Xiong-Li Yang, Yong-Mei Zhong, Earl L Smith, Baskar Arumugam, Li-Fang Hung, Lisa A. Ostrin, Klaus Trier, Monica Jong, Brien A. Holden, Thomas Chuen Lam, Samantha Shan, Bing Zuo, Dennis Yan-yin Tse, Jingfang Bian, King-Kit Li, Quan Liu, Chi-ho To, Timothy J. Gawne, John T. Siegwart, Alexander H. Ward, Thomas T. Norton, Yan Zhang, Yue Liu, Carol Ho, Eileen Phan, Abraham Hang, Emily Eng, and Christine Wildsoet

Subjects
Ophthalmology, RE1-994
Abstract

Table of contents O1 Changes in peripheral refraction associated with decreased ocular axial growth rate in marmosets Alexandra Benavente-Perez, Ann Nour, Tobin Ansel, Kathleen Abarr, Luying Yan, Keisha Roden, David Troilo O2 PPARα activation suppresses myopia development by increasing scleral collagen synthesis--a new drug target to suppress myopia development Chanyi Lu, Miaozhen Pan, Min Zheng, Jia Qu, Xiangtian Zhou O3 Evidence and possibilities for local ocular growth regulating signal pathways Christine F Wildsoet O4 Myopia researches at Eye Hospital of Wenzhou Medical University Fan Lu, Xiangtian Zhou, Jie Chen, Jinhua Bao, Liang Hu, Qinmei Wang, Zibing Jin, Jia Qu O5 Color, temporal contrast and myopia Frances Rucker, Stephanie Britton, Stephan Hanowsky, Molly Spatcher O6 The impact of atropine usage on visual function and reading performance in myopic school children in Taiwan Hui-Ying Kuo, Ching-Hsiu Ke, I-Hsin Kuo, Chien-Chun Peng, Han-Yin Sun O7 Increased time outdoors prevents the onset of myopia: evidence from randomised clinical trials Ian G Morgan O8 Environmental risk factors and gene-environment interactions for myopia in the ALSPAC cohort Jeremy A. Guggenheim, Rupal L. Shah, Cathy Williams O9 Retinal metabolic profiling identifies declines in FP receptor-linked signaling as contributors to form-deprived myopic development in guinea pigs Jinglei Yang, Peter S. Reinach, Sen Zhang, Miaozhen Pan, Wenfeng Sun, Bo Liu, Xiangtian Zhou O10 The study of peripheral refraction in moderate and high myopes after one month of wearing orthokeratology lens Jun Jiang, Haoran Wu, Fan Lu O11 Axial length of school children around the earth’s equatorial area and factors affecting the axial length Kazuo Tsubota, Hiroko Ozawa, Hidemasa Torii, Shigemasa Takamizawa, Toshihide Kurihara, Kazuno Negishi O12 Processing of defocus in the chicken retina by retinal ganglion cells Klaus Graef, Daniel Rathbun, Frank Schaeffel O13 Blue SAD light protects against form deprivation myopia in chickens, by local signaling within the retina Ladan Ghodsi, William K. Stell O14 Contributions of ON and OFF pathways to emmetropization and form deprivation myopia in mice Machelle T. Pardue, Ranjay Chakraborty, Han na Park, Curran S. Sidhu, P. Michael Iuvone O15 Response of the human choroid to defocus Michael J Collins O16 What can RNA sequencing tell us about myopic sclera? Nethrajeith Srinvasalu, Sally A McFadden, Paul N Baird O17 Overview of dopamine, retinal function, and myopia P. Michael Iuvone O18 The eye as a "robust" optical system and myopia Pablo Artal O19 Effect of discontinuation of orthokeratology lens wear on axial elongation in children Pauline Cho, SW Cheung O20 Myopia prevention in Taiwan Pei-Chang Wu O21 Alternatives to ultraviolet light and riboflavin for in vivo crosslinking of scleral collagen Quan V. Hoang, Sally A. McFadden O22 Absence of intrinsically photosensitive retinal ganglion cells (ipRGC) alters normal refractive development in mice Ranjay Chakraborty, Duk C. Lee, Erica G. Landis, Michael A. Bergen, Curran Sidhu, Samer Hattar, P. Michael Iuvone, Richard A. Stone, Machelle T. Pardue O23 Scleral micro-RNAs in myopia development and their potential as therapeutic targets Ravi Metlapally O24 Effects of the long-wavelength filtered continuous spectrum on emmetropization in juvenile guinea pigs Ruiqin Li, Qinglin Xu, Hong Zhon, Chenglin Pan, Weizhon Lan, Xiaoning Li, Ling Chen, Zhikuan Yang O25 Ocular and environmental factors associated with eye growth in childhood Scott A. Read O26 Overview- prevention and prediction of myopia and pathologic myopia Seang-Mei Saw O27 New insights into the roles of retinal dopamine in form-deprivation myopia and refractive development in C57BL/6 mice Shi-Jun Weng, Xiao-Hua Wu, Kang-Wei Qian, Yun-Yun Li, Guo-Zhong Xu, Furong Huang, Xiangtian Zhou, Jia Qu, Xiong-Li Yang, Yong-Mei Zhong O28 The effects of the adenosine antagonist, 7-methylxanthine, on refractive development in rhesus monkeys Earl L Smith III, Baskar Arumugam, Li-Fang Hung, Lisa A. Ostrin, Klaus Trier, Monica Jong, Brien A. Holden O29 Application of SWATH™ based next generation proteomics (NGP) in studying eye growth: opportunities and challenges Thomas Chuen Lam, Bing Zuo, Samantha Shan, Sally A. McFadden, Dennis Yan-yin Tse, Jingfang Bian, King-Kit Li, Quan Liu, Chi-ho To O30 How could emmetropization make use of longitudinal chromatic aberration? Timothy J. Gawne, John T. Siegwart Jr., Alexander H. Ward, Thomas T. Norton O31 Balance effect of dopamine D1 and D2 receptor subtype activation on refraction development Xiangtian Zhou O32 BMP gene expression changes in chick rpe in response to visual manipulations Yan Zhang, Yue Liu, Carol Ho, Eileen Phan, Abraham Hang, Emily Eng, Christine Wildsoet

Published
2016
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37. Immunotoxin-Induced Ablation of the Intrinsically Photosensitive Retinal Ganglion Cells in Rhesus Monkeys

Author

Lisa A. Ostrin, Christianne E. Strang, Kevin Chang, Ashutosh Jnawali, Li-Fang Hung, Baskar Arumugam, Laura J. Frishman, Earl L. Smith, and Paul D. Gamlin

Subjects
melanopsin, ipRGCs, intrinsically photosensitive retinal ganglion cells, immunotoxin, pupil, rhesus monkey, Neurology. Diseases of the nervous system, RC346-429
Abstract

Purpose: Intrinsically photosensitive retinal ganglion cells (ipRGCs) contain the photopigment melanopsin, and are primarily involved in non-image forming functions, such as the pupillary light reflex and circadian rhythm entrainment. The goal of this study was to develop and validate a targeted ipRGC immunotoxin to ultimately examine the role of ipRGCs in macaque monkeys.Methods: An immunotoxin for the macaque melanopsin gene (OPN4), consisting of a saporin-conjugated antibody directed at the N-terminus, was prepared in solutions of 0.316, 1, 3.16, 10, and 50 μg in vehicle, and delivered intravitreally to the right eye of six rhesus monkeys, respectively. Left eyes were injected with vehicle only. The pupillary light reflex (PLR), the ipRGC-driven post illumination pupil response (PIPR), and electroretinograms (ERGs) were recorded before and after injection. For pupil measurements, 1 and 5 s pulses of light were presented to the dilated right eye while the left pupil was imaged. Stimulation included 651 nm (133 cd/m2), and 4 intensities of 456 nm (16–500 cd/m2) light. Maximum pupil constriction and the 6 s PIPR were calculated. Retinal imaging was performed with optical coherence tomography (OCT), and eyes underwent OPN4 immunohistochemistry to evaluate immunotoxin specificity and ipRGC loss.Results: Before injection, animals showed robust pupil responses to 1 and 5 s blue light. After injection, baseline pupil size increased 12 ± 17%, maximum pupil constriction decreased, and the PIPR, a marker of ipRGC activity, was eliminated in all but the lowest immunotoxin concentration. For the highest concentrations, some inflammation and structural changes were observed with OCT, while eyes injected with lower concentrations appeared normal. ERG responses showed better preserved retinal function with lower concentrations. Immunohistochemistry showed 80–100% ipRGC elimination with the higher doses being more effective; however this could be partly due to inflammation that occurred at the higher concentrations.Conclusion: Findings demonstrated that the OPN4 macaque immunotoxin was specific for ipRGCs, and induced a graded reduction in the PLR, as well as, in ipRGC-driven pupil response with concentration. Further investigation of the effects of ipRGC ablation on ocular and systemic circadian rhythms and the pupil in rhesus monkeys will provide a better understanding of the role of ipRGCs in primates.

Published
2018
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38. media pulse

Author

MINER, GARY and Hagström, Earl L.

Published
2006

39. Mapping inequalities in exclusive breastfeeding in low- and middle-income countries, 2000-2018

Author

Bhattacharjee, NV, Schaeffer, LE, Hay, SI, Lu, D, Schipp, MF, Lazzar-Atwood, A, Donkers, KM, Abady, GG, Abd-Allah, F, Abdelalim, A, Abebo, ZH, Abejie, AN, Abosetugn, AE, Abreu, LG, Abrigo, MRM, Abu-Gharbieh, E, Abushouk, AI, Adamu, AL, Adedeji, IA, Adegbosin, AE, Adekanmbi, V, Adetokunboh, OO, Agudelo-Botero, M, Aji, B, Akinyemi, OO, Alamneh, AA, Alanezi, FM, Alanzi, TM, Albright, J, Alcalde-Rabanal, JE, Alemu, BW, Alhassan, RK, Ali, BA, Ali, S, Alinia, C, Alipour, V, Amit, AML, Amugsi, DA, Anbesu, EW, Ancuceanu, R, Anjomshoa, M, Ansari, F, Antonio, CAT, Anvari, D, Arabloo, J, Arora, A, Artanti, KD, Asemahagn, MA, Asmare, WN, Atout, MMW, Ausloos, M, Awoke, N, Quintanilla, BPA, Ayanore, MA, Aynalem, YA, Ayza, MA, Azene, ZN, Darshan, BB, Badiye, AD, Baig, AA, Bakkannavar, SM, Banach, M, Banik, PC, Bärnighausen, TW, Basaleem, H, Bayati, M, Baye, BA, Bedi, N, Belay, SA, Bhagavathula, AS, Bhandari, D, Bhardwaj, N, Bhardwaj, P, Bhutta, ZA, Bijani, A, Birhan, TA, Birihane, BM, Bitew, ZW, Bohlouli, S, Bohluli, M, Bojia, HA, Boloor, A, Brady, OJ, Bragazzi, NL, Brunoni, AR, Budhathoki, SS, Nagaraja, SB, Butt, ZA, Cárdenas, R, Castaldelli-Maia, JM, Castro, F, Cernigliaro, A, Charan, J, Chatterjee, P, Chatterjee, S, Chattu, VK, Chaturvedi, S, Chowdhury, MAK, Chu, D-T, Collison, ML, Cook, AJ, Cork, MA, Couto, RAS, Dagnew, B, Dai, H, Dandona, L, Dandona, R, Daneshpajouhnejad, P, Darwesh, AM, Darwish, AH, Daryani, A, Das, JK, Gupta, RD, Dávila-Cervantes, CA, Davis, AC, Weaver, ND, Denova-Gutiérrez, E, Deribe, K, Desalew, A, Deshpande, A, Dessie, A, Deuba, K, Dharmaratne, SD, Dhimal, M, Dhungana, GP, Diaz, D, Didarloo, A, Dipeolu, IO, Doan, LP, Duko, B, Duraes, AR, Dwyer-Lindgren, L, Earl, L, Zaki, MES, Tantawi, ME, Elema, TB, Elhabashy, HR, El-Jaafary, SI, Faris, PS, Faro, A, Farzadfar, F, Feigin, VL, Feleke, BE, Ferede, TY, Fischer, F, Foigt, NA, Folayan, MO, Franklin, RC, Gad, MM, Gaidhane, S, Gardner, WM, Geberemariyam, BS, Gebregiorgis, BG, Gebremedhin, KB, Gebremichael, B, Ghaffarpasand, F, Gilani, SA, Ginindza, TG, Glagn, M, Golechha, M, Gonfa, KB, Goulart, BNG, Gudi, N, Guido, D, Guled, RA, Guo, Y, Hamidi, S, Handiso, DW, Hasaballah, AI, Hassan, A, Hayat, K, Hegazy, MI, Heidari, B, Henry, NJ, Herteliu, C, de, Hidru, HD, Ho, HC, Hoang, CL, Holla, R, Hon, J, Hosseini, M, Hosseinzadeh, M, Househ, M, Hsairi, M, Hu, G, Huda, TM, Hwang, B-F, Ibitoye, SE, Ilesanmi, OS, Ilic, IM, Ilic, MD, Inbaraj, LR, Iqbal, U, Irvani, SSN, Islam, MM, Iwu, CCD, Iwu, CJ, Jain, A, Janodia, MD, Javaheri, T, John-Akinola, YO, Johnson, KB, Joukar, F, Jozwiak, JJ, Kabir, A, Kalankesh, LR, Kalhor, R, Kamath, A, Kamyari, N, Kanchan, OT, Kapoor, N, Matin, BK, Karimi, SE, Kasaye, HK, Kassahun, G, Kassebaum, NJ, Kayode, GA, Karyani, AK, Keiyoro, PN, Kelkay, B, Khalid, N, Khan, MN, Khatab, K, Khater, AM, Khater, MM, Khatib, MN, Kim, YJ, Kimokoti, RW, Kinyoki, DK, Kisa, A, Kisa, S, Kosen, S, Krishan, K, Kulkarni, V, Kumar, GA, Kumar, M, Kumar, N, Kumar, P, Kurmi, OP, Kusuma, D, Vecchia, CL, Lad, SD, Lami, FH, Landires, I, Lansingh, VC, Lasrado, S, Lee, PH, LeGrand, KE, Letourneau, ID, Lewycka, S, Li, B, Li, M-C, Li, S, Liu, X, Lodha, R, Lopez, JCF, Louie, C, Machado, DB, Maled, V, Maleki, S, Malta, DC, Mamun, AA, Manafi, N, Mansournia, MA, Mapoma, CC, Marczak, LB, Martins-Melo, FR, Mehndiratta, MM, Mejia-Rodriguez, F, Mekonnen, TC, Mendoza, W, Menezes, RG, Mengesha, EW, Mersha, AM, Miller, TR, Mini, GK, Mirrakhimov, EM, Misra, S, Moghadaszadeh, M, Mohammad, DK, Mohammadian-Hafshejani, A, Mohammed, JA, Mohammed, S, Mokdad, AH, Montero-Zamora, PA, Moradi, M, Moradzadeh, R, Moraga, P, Mosser, JF, Mousavi, SM, Khaneghah, AM, Munro, SB, Muriithi, MK, Mustafa, G, Muthupandian, S, Nagarajan, AJ, Naik, G, Naimzada, MD, Nangia, V, Nascimento, BR, Nayak, VC, Ndejjo, R, Ndwandwe, DE, Negoi, I, Nguefack-Tsague, G, Ngunjiri, JW, Nguyen, CT, Nguyen, DN, Nguyen, HLT, Nigussie, SN, Nigussie, TTN, Nikbakhsh, R, Nnaji, CA, Nunez-Samudio, V, Oancea, B, Oghenetega, OB, Olagunju, AT, Olusanya, BO, Olusanya, JO, Omer, MO, Onwujekwe, OE, Ortega-Altamirano, DV, Osgood-Zimmerman, AE, Otstavnov, N, Otstavnov, SS, Owolabi, MO, Mahesh, PA, Padubidri, JR, Pana, A, Pandey, A, Pandi-Perumal, SR, Pangaribuan, HU, Parsekar, SS, Pasupula, DK, Patel, UK, Pathak, A, Pathak, M, Pattanshetty, SM, Patton, GC, Paulos, K, Pepito, VCF, Pickering, BV, Pinheiro, M, Piwoz, EG, Pokhrel, KN, Pourjafar, H, Prada, SI, Pribadi, DRA, Syed, ZQ, Rabiee, M, Rabiee, N, Rahim, F, Rahimzadeh, S, Rahman, A, Rahman, MHU, Rahmani, AM, Rai, RK, Ranabhat, CL, Rao, SJ, Rastogi, P, Rathi, P, Rawaf, DL, Rawaf, S, Rawassizadeh, R, Rawat, R, Regassa, LD, Rego, MAS, Reiner, RC, Reshmi, B, Rezapour, A, Ribeiro, AI, Rickard, J, Roever, L, Rumisha, SF, Rwegerera, GM, Sagar, R, Sajadi, SM, Salem, MR, Samy, AM, Santric-Milicevic, MM, Saraswathy, SYI, Sarker, AR, Sartorius, B, Sathian, B, Saxena, D, Sbarra, AN, Sengupta, D, Senthilkumaran, S, Sha, F, Shafaat, O, Shaheen, AA, Shaikh, MA, Shalash, AS, Shannawaz, M, Sheikh, A, Shetty, BSK, Shetty, RS, Shibuya, K, Shiferaw, WS, Shin, JI, Silva, DAS, Singh, NP, Singh, P, Singh, S, Sintayehu, Y, Skryabin, VY, Skryabina, AA, Soheili, A, Soltani, S, Sorrie, MB, Spurlock, EE, Steuben, KM, Sudaryanto, A, Sufiyan, MB, Swartz, SJ, Tadesse, EG, Tamiru, AT, Tapak, L, Tareque, MI, Tarigan, IU, Tesema, GA, Tesfay, FH, Teshome, A, Tessema, ZT, Thankappan, KR, Thapar, R, Thomas, N, Topor-Madry, R, Tovani-Palone, MR, Traini, E, Tran, BX, Truong, PN, Tsegaye, BTBT, Ullah, I, Umeokonkwo, CD, Unnikrishnan, B, Upadhyay, E, Uzochukwu, BSC, VanderHeide, JD, Violante, FS, Vo, B, Wado, YD, Waheed, Y, Wamai, RG, Wang, F, Wang, Y, Wang, Y-P, Wickramasinghe, ND, Wiens, KE, Wiysonge, CS, Woyczynski, L, Wu, A-M, Wu, C, Yamada, T, Yaya, S, Yeshaneh, A, Yeshaw, Y, Yeshitila, YG, Yilma, MT, Yip, P, Yonemoto, N, Yosef, T, Younis, MZ, Yousuf, AY, Yu, C, Yu, Y, Yuce, D, Zafar, S, Zaidi, SS, Zaki, L, Zakzuk, J, Zamanian, M, Zar, HJ, Zastrozhin, MS, Zastrozhina, A, Zelellw, DA, Zhang, Y, Zhang, Z-J, Zhao, X-JG, Zodpey, S, Zuniga, YMH, Local Burden of Disease Exclusive Breastfeeding Collaborators, Bhattacharjee, Natalia V, Schaeffer, Lauren E, Hay, Simon I, Duko, Bereket, Yeshaw, Yigizie, Local Burden of Disease Exclusive Breastfeeding Collaborators, Bhattacharjee N.V., Schaeffer L.E., Hay S.I., Lu D., Schipp M.F., Lazzar-Atwood A., Donkers K.M., Abady G.G., Abd-Allah F., Abdelalim A., Abebo Z.H., Abejie A.N., Abosetugn A.E., Abreu L.G., Abrigo M.R.M., Abu-Gharbieh E., Abushouk A.I., Adamu A.L., Adedeji I.A., Adegbosin A.E., Adekanmbi V., Adetokunboh O.O., Agudelo-Botero M., Aji B., Akinyemi O.O., Alamneh A.A., Alanezi F.M., Alanzi T.M., Albright J., Alcalde-Rabanal J.E., Alemu B.W., Alhassan R.K., Ali B.A., Ali S., Alinia C., Alipour V., Amit A.M.L., Amugsi D.A., Anbesu E.W., Ancuceanu R., Anjomshoa M., Ansari F., Antonio C.A.T., Anvari D., Arabloo J., Arora A., Artanti K.D., Asemahagn M.A., Asmare W.N., Atout M.M.W., Ausloos M., Awoke N., Quintanilla B.P.A., Ayanore M.A., Aynalem Y.A., Ayza M.A., Azene Z.N., Darshan B.B., Badiye A.D., Baig A.A., Bakkannavar S.M., Banach M., Banik P.C., Barnighausen T.W., Basaleem H., Bayati M., Baye B.A., Bedi N., Belay S.A., Bhagavathula A.S., Bhandari D., Bhardwaj N., Bhardwaj P., Bhutta Z.A., Bijani A., Birhan T.A., Birihane B.M., Bitew Z.W., Bohlouli S., Bohluli M., Bojia H.A., Boloor A., Brady O.J., Bragazzi N.L., Brunoni A.R., Budhathoki S.S., Nagaraja S.B., Butt Z.A., Cardenas R., Castaldelli-Maia J.M., Castro F., Cernigliaro A., Charan J., Chatterjee P., Chatterjee S., Chattu V.K., Chaturvedi S., Chowdhury M.A.K., Chu D.-T., Collison M.L., Cook A.J., Cork M.A., Couto R.A.S., Dagnew B., Dai H., Dandona L., Dandona R., Daneshpajouhnejad P., Darwesh A.M., Darwish A.H., Daryani A., Das J.K., Gupta R.D., Davila-Cervantes C.A., Davis A.C., Weaver N.D., Denova-Gutierrez E., Deribe K., Desalew A., Deshpande A., Dessie A., Deuba K., Dharmaratne S.D., Dhimal M., Dhungana G.P., Diaz D., Didarloo A., Dipeolu I.O., Doan L.P., Duko B., Duraes A.R., Dwyer-Lindgren L., Earl L., Zaki M.E.S., Tantawi M.E., Elema T.B., Elhabashy H.R., El-Jaafary S.I., Faris P.S., Faro A., Farzadfar F., Feigin V.L., Feleke B.E., Ferede T.Y., Fischer F., Foigt N.A., Folayan M.O., Franklin R.C., Gad M.M., Gaidhane S., Gardner W.M., Geberemariyam B.S., Gebregiorgis B.G., Gebremedhin K.B., Gebremichael B., Ghaffarpasand F., Gilani S.A., Ginindza T.G., Glagn M., Golechha M., Gonfa K.B., Goulart B.N.G., Gudi N., Guido D., Guled R.A., Guo Y., Hamidi S., Handiso D.W., Hasaballah A.I., Hassan A., Hayat K., Hegazy M.I., Heidari B., Henry N.J., Herteliu C., de Hidru H.D., Ho H.C., Hoang C.L., Holla R., Hon J., Hosseini M., Hosseinzadeh M., Househ M., Hsairi M., Hu G., Huda T.M., Hwang B.-F., Ibitoye S.E., Ilesanmi O.S., Ilic I.M., Ilic M.D., Inbaraj L.R., Iqbal U., Irvani S.S.N., Islam M.M., Iwu C.C.D., Iwu C.J., Jain A., Janodia M.D., Javaheri T., John-Akinola Y.O., Johnson K.B., Joukar F., Jozwiak J.J., Kabir A., Kalankesh L.R., Kalhor R., Kamath A., Kamyari N., Kanchan O.T., Kapoor N., Matin B.K., Karimi S.E., Kasaye H.K., Kassahun G., Kassebaum N.J., Kayode G.A., Karyani A.K., Keiyoro P.N., Kelkay B., Khalid N., Khan M.N., Khatab K., Khater A.M., Khater M.M., Khatib M.N., Kim Y.J., Kimokoti R.W., Kinyoki D.K., Kisa A., Kisa S., Kosen S., Krishan K., Kulkarni V., Kumar G.A., Kumar M., Kumar N., Kumar P., Kurmi O.P., Kusuma D., Vecchia C.L., Lad S.D., Lami F.H., Landires I., Lansingh V.C., Lasrado S., Lee P.H., LeGrand K.E., Letourneau I.D., Lewycka S., Li B., Li M.-C., Li S., Liu X., Lodha R., Lopez J.C.F., Louie C., Machado D.B., Maled V., Maleki S., Malta D.C., Mamun A.A., Manafi N., Mansournia M.A., Mapoma C.C., Marczak L.B., Martins-Melo F.R., Mehndiratta M.M., Mejia-Rodriguez F., Mekonnen T.C., Mendoza W., Menezes R.G., Mengesha E.W., Mersha A.M., Miller T.R., Mini G.K., Mirrakhimov E.M., Misra S., Moghadaszadeh M., Mohammad D.K., Mohammadian-Hafshejani A., Mohammed J.A., Mohammed S., Mokdad A.H., Montero-Zamora P.A., Moradi M., Moradzadeh R., Moraga P., Mosser J.F., Mousavi S.M., Khaneghah A.M., Munro S.B., Muriithi M.K., Mustafa G., Muthupandian S., Nagarajan A.J., Naik G., Naimzada M.D., Nangia V., Nascimento B.R., Nayak V.C., Ndejjo R., Ndwandwe D.E., Negoi I., Nguefack-Tsague G., Ngunjiri J.W., Nguyen C.T., Nguyen D.N., Nguyen H.L.T., Nigussie S.N., Nigussie T.T.N., Nikbakhsh R., Nnaji C.A., Nunez-Samudio V., Oancea B., Oghenetega O.B., Olagunju A.T., Olusanya B.O., Olusanya J.O., Omer M.O., Onwujekwe O.E., Ortega-Altamirano D.V., Osgood-Zimmerman A.E., Otstavnov N., Otstavnov S.S., Owolabi M.O., Mahesh P.A., Padubidri J.R., Pana A., Pandey A., Pandi-Perumal S.R., Pangaribuan H.U., Parsekar S.S., Pasupula D.K., Patel U.K., Pathak A., Pathak M., Pattanshetty S.M., Patton G.C., Paulos K., Pepito V.C.F., Pickering B.V., Pinheiro M., Piwoz E.G., Pokhrel K.N., Pourjafar H., Prada S.I., Pribadi D.R.A., Syed Z.Q., Rabiee M., Rabiee N., Rahim F., Rahimzadeh S., Rahman A., Rahman M.H.U., Rahmani A.M., Rai R.K., Ranabhat C.L., Rao S.J., Rastogi P., Rathi P., Rawaf D.L., Rawaf S., Rawassizadeh R., Rawat R., Regassa L.D., Rego M.A.S., Reiner R.C., Reshmi B., Rezapour A., Ribeiro A.I., Rickard J., Roever L., Rumisha S.F., Rwegerera G.M., Sagar R., Sajadi S.M., Salem M.R., Samy A.M., Santric-Milicevic M.M., Saraswathy S.Y.I., Sarker A.R., Sartorius B., Sathian B., Saxena D., Sbarra A.N., Sengupta D., Senthilkumaran S., Sha F., Shafaat O., Shaheen A.A., Shaikh M.A., Shalash A.S., Shannawaz M., Sheikh A., Shetty B.S.K., Shetty R.S., Shibuya K., Shiferaw W.S., Shin J.I., Silva D.A.S., Singh N.P., Singh P., Singh S., Sintayehu Y., Skryabin V.Y., Skryabina A.A., Soheili A., Soltani S., Sorrie M.B., Spurlock E.E., Steuben K.M., Sudaryanto A., Sufiyan M.B., Swartz S.J., Tadesse E.G., Tamiru A.T., Tapak L., Tareque M.I., Tarigan I.U., Tesema G.A., Tesfay F.H., Teshome A., Tessema Z.T., Thankappan K.R., Thapar R., Thomas N., Topor-Madry R., Tovani-Palone M.R., Traini E., Tran B.X., Truong P.N., Tsegaye B.T.B.T., Ullah I., Umeokonkwo C.D., Unnikrishnan B., Upadhyay E., Uzochukwu B.S.C., VanderHeide J.D., Violante F.S., Vo B., Wado Y.D., Waheed Y., Wamai R.G., Wang F., Wang Y., Wang Y.-P., Wickramasinghe N.D., Wiens K.E., Wiysonge C.S., Woyczynski L., Wu A.-M., Wu C., Yamada T., Yaya S., Yeshaneh A., Yeshaw Y., Yeshitila Y.G., Yilma M.T., Yip P., Yonemoto N., Yosef T., Younis M.Z., Yousuf A.Y., Yu C., Yu Y., Yuce D., Zafar S., Zaidi S.S., Zaki L., Zakzuk J., Zamanian M., Zar H.J., Zastrozhin M.S., Zastrozhina A., Zelellw D.A., Zhang Y., Zhang Z.-J., Zhao X.-J.G., Zodpey S., Zuniga Y.M.H., Collaborators, Local Burden of Disease Exclusive Breastfeeding, and Instituto de Saúde Pública da Universidade do Porto

Subjects
RJ101, Psychological intervention, Breastfeeding, Social Sciences, geography, Behavioral Neuroscience, 0302 clinical medicine, RA0421, Prevalence, Psychology, policy making, 030212 general & internal medicine, Policy Making, humans, media_common, CHILD GROWTH FAILURE, Developing world, 0303 health sciences, education.field_of_study, Psychology, Biological, Geography, Psychology, Experimental, Health Status Disparitie, Multidisciplinary Sciences, Breast Feeding, breast feeding, Scale (social sciences), Science & Technology - Other Topics, Life Sciences & Biomedicine, Human, AFRICA, Social Psychology, Inequality, spatial analysis, media_common.quotation_subject, public policy, Population, prevalence, Public policy, Developing country, Experimental and Cognitive Psychology, Public Policy, Local Burden of Disease Exclusive Breastfeeding Collaborators, Article, Developing Countrie, 03 medical and health sciences, Environmental health, Humans, Nutrition disorders, education, Developing Countries, 030304 developmental biology, Spatial Analysis, Science & Technology, Neurosciences, Health Status Disparities, developing countries, health status disparities, Risk factors, Neurosciences & Neurology, Breast feeding
Abstract

Exclusive breastfeeding (EBF)—giving infants only breast-milk for the first 6 months of life—is a component of optimal breastfeeding practices effective in preventing child morbidity and mortality. EBF practices are known to vary by population and comparable subnational estimates of prevalence and progress across low- and middle-income countries (LMICs) are required for planning policy and interventions. Here we present a geospatial analysis of EBF prevalence estimates from 2000 to 2018 across 94 LMICs mapped to policy-relevant administrative units (for example, districts), quantify subnational inequalities and their changes over time, and estimate probabilities of meeting the World Health Organization’s Global Nutrition Target (WHO GNT) of ≥70% EBF prevalence by 2030. While six LMICs are projected to meet the WHO GNT of ≥70% EBF prevalence at a national scale, only three are predicted to meet the target in all their district-level units by 2030., Bhattacharjee and Schaeffer et al. map exclusive breastfeeding (EBF) in 94 low- and middle-income countries (LMICs), finding increased EBF practice and reduced subnational variation across the majority of LMICs from 2000 to 2018. However, only six LMICs will meet WHO’s target of ≥70% EBF by 2030 nationally, and only three will achieve this in all districts.

Published
2021

44. Canine olfactory detection of a vectored phytobacterial pathogen, Liberibacter asiaticus, and integration with disease control

Author

Earl L. Taylor, Frank J. Louws, MaryLou Polek, David Hall, John V. da Graça, Drew Posny, Gavin H. Poole, John Hartung, Jinhe Bai, Timothy R. Gottwald, William P. Schneider, Weiqi Luo, Yongping Duan, and Thomas G. McCollum

Subjects
0106 biological sciences, 0301 basic medicine, Citrus, Early detection, Spiroplasma, Culling, huanglongbing, direct assay, 01 natural sciences, Serology, Hemiptera, 03 medical and health sciences, Dogs, Rhizobiaceae, Animals, Longitudinal Studies, early detection, Pathogen, Subclinical infection, Plant Diseases, Multidisciplinary, biology, Host (biology), Agricultural Sciences, Outbreak, food and beverages, Biological Sciences, biology.organism_classification, canine detection, Virology, epidemic simulation, Insect Vectors, Smell, 030104 developmental biology, 010606 plant biology & botany
Abstract

Significance Exotic infectious pathogens, like citrus huanglongbing (HLB), are increasingly introduced into agrosystems. Early detection is the key to mitigating their destructive effects. Human visual assessment is insufficiently sensitive to detect new plant infections in a responsive timeframe, and molecular assays are expensive and not easily deployable over large crop landscapes. We turned to detector dogs, an ancient technology, which can rapidly survey large plantings without laborious sample collection or laboratory processing. Dogs detected infections (>99% accuracy) weeks to years prior to visual survey and molecular methods and were highly specific, accurately discriminating target pathogens from other pathogens. Epidemiological models indicated that dogs were more effective and economical than current early detection methods for sustainable disease control., Early detection and rapid response are crucial to avoid severe epidemics of exotic pathogens. However, most detection methods (molecular, serological, chemical) are logistically limited for large-scale survey of outbreaks due to intrinsic sampling issues and laboratory throughput. Evaluation of 10 canines trained for detection of a severe exotic phytobacterial arboreal pathogen, Candidatus Liberibacter asiaticus (CLas), demonstrated 0.9905 accuracy, 0.8579 sensitivity, and 0.9961 specificity. In a longitudinal study, cryptic CLas infections that remained subclinical visually were detected within 2 wk postinfection compared with 1 to 32 mo for qPCR. When allowed to interrogate a diverse range of in vivo pathogens infecting an international citrus pathogen collection, canines only reacted to Liberibacter pathogens of citrus and not to other bacterial, viral, or spiroplasma pathogens. Canines trained to detect CLas-infected citrus also alerted on CLas-infected tobacco and periwinkle, CLas-bearing psyllid insect vectors, and CLas cocultured with other bacteria but at CLas titers below the level of molecular detection. All of these observations suggest that canines can detect CLas directly rather than only host volatiles produced by the infection. Detection in orchards and residential properties was real time, ∼2 s per tree. Spatiotemporal epidemic simulations demonstrated that control of pathogen prevalence was possible and economically sustainable when canine detection was followed by intervention (i.e., culling infected individuals), whereas current methods of molecular (qPCR) and visual detection failed to contribute to the suppression of an exponential trajectory of infection.

Published
2020

45. Electrochemical Reduction of CO2to Oxalic Acid

Author

Vera Boor, Jeannine E. B. M. Frijns, Elena Perez-Gallent, Erwin Giling, Antero T. Laitinen, Earl L. V. Goetheer, Leo J. P. van den Broeke, Ruud Kortlever, Wiebren de Jong, Othonas A. Moultos, Thijs J. H. Vlugt, and Mahinder Ramdin

Subjects
General Chemical Engineering, General Chemistry, Industrial and Manufacturing Engineering
Abstract

We performed H-cell and flow cell experiments to study the electrochemical reduction of CO2 to oxalic acid (OA) on a lead (Pb) cathode in various nonaqueous solvents. The effects of anolyte, catholyte, supporting electrolyte, temperature, water content, and cathode potential on the Faraday efficiency (FE), current density (CD), and product concentration were investigated. We show that a high FE for OA can be achieved (up to 90%) at a cathode potential of -2.5 V vs Ag/AgCl but at relatively low CDs (10-20 mA/cm2). The FE of OA decreases significantly with increasing water content of the catholyte, which causes byproduct formation (e.g., formate, glycolic acid, and glyoxylic acid). A process design and techno-economic evaluation of the electrochemical conversion of CO2 to OA is presented. The results show that the electrochemical route for OA production can compete with the fossil-fuel based route for the base case scenario (CD of 100 mA/cm2, OA FE of 80%, cell voltage of 4 V, electrolyzer CAPEX of $20000/m2, electricity price of $30/MWh, and OA price of $1000/ton). A sensitivity analysis shows that the market price of OA has a huge influence on the economics. A market price of at least $700/ton is required to have a positive net present value and a payback time of less than 10 years. The performance and economics of the process can be further improved by increasing the CD and FE of OA by using gas diffusion electrodes and eliminating water from the cathode, lowering the cell voltage by increasing the conductivity of the electrolyte solutions, and developing better OA separation methods.

Published
2022

47. Implementation of Glycan Remodeling to Plant-Made Therapeutic Antibodies

Author

Lindsay D. Bennett, Qiang Yang, Brian R. Berquist, John P. Giddens, Zhongjie Ren, Vally Kommineni, Ryan P. Murray, Earl L. White, Barry R. Holtz, Lai-Xi Wang, and Sylvain Marcel

Subjects
glycan remodeling, therapeutic proteins, recombinant glycoproteins, Nicotiana benthamiana, N-glycosylation, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

N-glycosylation profoundly affects the biological stability and function of therapeutic proteins, which explains the recent interest in glycoengineering technologies as methods to develop biobetter therapeutics. In current manufacturing processes, N-glycosylation is host-specific and remains difficult to control in a production environment that changes with scale and production batches leading to glycosylation heterogeneity and inconsistency. On the other hand, in vitro chemoenzymatic glycan remodeling has been successful in producing homogeneous pre-defined protein glycoforms, but needs to be combined with a cost-effective and scalable production method. An efficient chemoenzymatic glycan remodeling technology using a plant expression system that combines in vivo deglycosylation with an in vitro chemoenzymatic glycosylation is described. Using the monoclonal antibody rituximab as a model therapeutic protein, a uniform Gal2GlcNAc2Man3GlcNAc2 (A2G2) glycoform without α-1,6-fucose, plant-specific α-1,3-fucose or β-1,2-xylose residues was produced. When compared with the innovator product Rituxan®, the plant-made remodeled afucosylated antibody showed similar binding affinity to the CD20 antigen but significantly enhanced cell cytotoxicity in vitro. Using a scalable plant expression system and reducing the in vitro deglycosylation burden creates the potential to eliminate glycan heterogeneity and provide affordable customization of therapeutics’ glycosylation for maximal and targeted biological activity. This feature can reduce cost and provide an affordable platform to manufacture biobetter antibodies.

Published
2018
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