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1.
McCrone, J. T.; Hill, V.; Bajaj, S.; Pena, R. E.; Lambert, B. C.; Inward, R.; Bhatt, S.; Volz, E.; Ruis, C.; Dellicour, S.; Baele, G.; Zarebski, A. E.; Sadilek, A.; Wu, N.; Schneider, A.; Ji, X.; Raghwani, J.; Jackson, B.; Colquhoun, R.; O'Toole, Á, Peacock, T. P.; Twohig, K.; Thelwall, S.; Dabrera, G.; Myers, R.; Faria, N. R.; Huber, C.; Bogoch, I. I.; Khan, K.; du Plessis, L.; Barrett, J. C.; Aanensen, D. M.; Barclay, W. S.; Chand, M.; Connor, T.; Loman, N. J.; Suchard, M. A.; Pybus, O. G.; Rambaut, A.; Kraemer, M. U. G.; Robson, S. C.; Connor, T. R.; Loman, N. J.; Golubchik, T.; Martinez Nunez, R. T.; Bonsall, D.; Rambaut, A.; Snell, L. B.; Livett, R.; Ludden, C.; Corden, S.; Nastouli, E.; Nebbia, G.; Johnston, I.; Lythgoe, K.; Estee Torok, M.; Goodfellow, I. G.; Prieto, J. A.; Saeed, K.; Jackson, D. K.; Houlihan, C.; Frampton, D.; Hamilton, W. L.; Witney, A. A.; Bucca, G.; Pope, C. F.; Moore, C.; Thomson, E. C.; Harrison, E. M.; Smith, C. P.; Rogan, F.; Beckwith, S. M.; Murray, A.; Singleton, D.; Eastick, K.; Sheridan, L. A.; Randell, P.; Jackson, L. M.; Ariani, C. V.; Gonçalves, S.; Fairley, D. J.; Loose, M. W.; Watkins, J.; Moses, S.; Nicholls, S.; Bull, M.; Amato, R.; Smith, D. L.; Aanensen, D. M.; Barrett, J. C.; Aggarwal, D.; Shepherd, J. G.; Curran, M. D.; Parmar, S.; Parker, M. D.; Williams, C.; Glaysher, S.; Underwood, A. P.; Bashton, M.; Pacchiarini, N.; Loveson, K. F.; Byott, M.; Carabelli, A. M.; Templeton, K. E.; de Silva, T. I.; Wang, D.; Langford, C. F.; Sillitoe, J.; Gunson, R. N.; Cottrell, S.; O'Grady, J.; Kwiatkowski, D.; Lillie, P. J.; Cortes, N.; Moore, N.; Thomas, C.; Burns, P. J.; Mahungu, T. W.; Liggett, S.; Beckett, A. H.; Holden, M. T. G.; Levett, L. J.; Osman, H.; Hassan-Ibrahim, M. O.; Simpson, D. A.; Chand, M.; Gupta, R. K.; Darby, A. C.; Paterson, S.; Pybus, O. G.; Volz, E. M.; de Angelis, D.; Robertson, D. L.; Page, A. J.; Martincorena, I.; Aigrain, L.; Bassett, A. R.; Wong, N.; Taha, Y.; Erkiert, M. J.; Spencer Chapman, M. H.; Dewar, R.; McHugh, M. P.; Mookerjee, S.; Aplin, S.; Harvey, M.; Sass, T.; Umpleby, H.; Wheeler, H.; McKenna, J. P.; Warne, B.; Taylor, J. F.; Chaudhry, Y.; Izuagbe, R.; Jahun, A. S.; Young, G. R.; McMurray, C.; McCann, C. M.; Nelson, A.; Elliott, S.; Lowe, H.; Price, A.; Crown, M. R.; Rey, S.; Roy, S.; Temperton, B.; Shaaban, S.; Hesketh, A. R.; Laing, K. G.; Monahan, I. M.; Heaney, J.; Pelosi, E.; Silviera, S.; Wilson-Davies, E.; Fryer, H.; Adams, H.; du Plessis, L.; Johnson, R.; Harvey, W. T.; Hughes, J.; Orton, R. J.; Spurgin, L. G.; Bourgeois, Y.; Ruis, C.; O'Toole, Á, Gourtovaia, M.; Sanderson, T.; Fraser, C.; Edgeworth, J.; Breuer, J.; Michell, S. L.; Todd, J. A.; John, M.; Buck, D.; Gajee, K.; Kay, G. L.; Peacock, S. J.; Heyburn, D.; Kitchman, K.; McNally, A.; Pritchard, D. T.; Dervisevic, S.; Muir, P.; Robinson, E.; Vipond, B. B.; Ramadan, N. A.; Jeanes, C.; Weldon, D.; Catalan, J.; Jones, N.; da Silva Filipe, A.; Williams, C.; Fuchs, M.; Miskelly, J.; Jeffries, A. R.; Oliver, K.; Park, N. R.; Ash, A.; Koshy, C.; Barrow, M.; Buchan, S. L.; Mantzouratou, A.; Clark, G.; Holmes, C. W.; Campbell, S.; Davis, T.; Tan, N. K.; Brown, J. R.; Harris, K. A.; Kidd, S. P.; Grant, P. R.; Xu-McCrae, L.; Cox, A.; Madona, P.; Pond, M.; Randell, P. A.; Withell, K. T.; Williams, C.; Graham, C.; Denton-Smith, R.; Swindells, E.; Turnbull, R.; Sloan, T. J.; Bosworth, A.; Hutchings, S.; Pymont, H. M.; Casey, A.; Ratcliffe, L.; Jones, C. R.; Knight, B. A.; Haque, T.; Hart, J.; Irish-Tavares, D.; Witele, E.; Mower, C.; Watson, L. K.; Collins, J.; Eltringham, G.; Crudgington, D.; Macklin, B.; Iturriza-Gomara, M.; Lucaci, A. O.; McClure, P. C.; Carlile, M.; Holmes, N.; Moore, C.; Storey, N.; Rooke, S.; Yebra, G.; Craine, N.; Perry, M.; Alikhan, N. F.; Bridgett, S.; Cook, K. F.; Fearn, C.; Goudarzi, S.; Lyons, R. A.; Williams, T.; Haldenby, S. T.; Durham, J.; Leonard, S.; Davies, R. M.; Batra, R.; Blane, B.; Spyer, M. J.; Smith, P.; Yavus, M.; Williams, R. J.; Mahanama, A. I. K.; Samaraweera, B.; Girgis, S. T.; Hansford, S. E.; Green, A.; Beaver, C.; Bellis, K. L.; Dorman, M. J.; Kay, S.; Prestwood, L.; Rajatileka, S.; Quick, J.; Poplawski, R.; Reynolds, N.; Mack, A.; Morriss, A.; Whalley, T.; Patel, B.; Georgana, I.; Hosmillo, M.; Pinckert, M. L.; Stockton, J.; Henderson, J. H.; Hollis, A.; Stanley, W.; Yew, W. C.; Myers, R.; Thornton, A.; Adams, A.; Annett, T.; Asad, H.; Birchley, A.; Coombes, J.; Evans, J. M.; Fina, L.; Gatica-Wilcox, B.; Gilbert, L.; Graham, L.; Hey, J.; Hilvers, E.; Jones, S.; Jones, H.; Kumziene-Summerhayes, S.; McKerr, C.; Powell, J.; Pugh, G.; Taylor, S.; Trotter, A. J.; Williams, C. A.; Kermack, L. M.; Foulkes, B. H.; Gallis, M.; Hornsby, H. R.; Louka, S. F.; Pohare, M.; Wolverson, P.; Zhang, P.; MacIntyre-Cockett, G.; Trebes, A.; Moll, R. J.; Ferguson, L.; Goldstein, E. J.; Maclean, A.; Tomb, R.; Starinskij, I.; Thomson, L.; Southgate, J.; Kraemer, M. U. G.; Raghwani, J.; Zarebski, A. E.; Boyd, O.; Geidelberg, L.; Illingworth, C. J.; Jackson, C.; Pascall, D.; Vattipally, S.; Freeman, T. M.; Hsu, S. N.; Lindsey, B. B.; James, K.; Lewis, K.; Tonkin-Hill, G.; Tovar-Corona, J. M.; Cox, M.; Abudahab, K.; Menegazzo, M.; Taylor, B. E. W.; Yeats, C. A.; Mukaddas, A.; Wright, D. W.; de Oliveira Martins, L.; Colquhoun, R.; Hill, V.; Jackson, B.; McCrone, J. T.; Medd, N.; Scher, E.; Keatley, J. P.; Curran, T.; Morgan, S.; Maxwell, P.; Smith, K.; Eldirdiri, S.; Kenyon, A.; Holmes, A. H.; Price, J. R.; Wyatt, T.; Mather, A. E.; Skvortsov, T.; Hartley, J. A.; Guest, M.; Kitchen, C.; Merrick, I.; Munn, R.; Bertolusso, B.; Lynch, J.; Vernet, G.; Kirk, S.; Wastnedge, E.; Stanley, R.; Idle, G.; Bradley, D. T.; Poyner, J.; Mori, M.; Jones, O.; Wright, V.; Brooks, E.; Churcher, C. M.; Fragakis, M.; Galai, K.; Jermy, A.; Judges, S.; McManus, G. M.; Smith, K. S.; Westwick, E.; Attwood, S. W.; Bolt, F.; Davies, A.; De Lacy, E.; Downing, F.; Edwards, S.; Meadows, L.; Jeremiah, S.; Smith, N.; Foulser, L.; Charalampous, T.; Patel, A.; Berry, L.; Boswell, T.; Fleming, V. M.; Howson-Wells, H. C.; Joseph, A.; Khakh, M.; Lister, M. M.; Bird, P. W.; Fallon, K.; Helmer, T.; McMurray, C. L.; Odedra, M.; Shaw, J.; Tang, J. W.; Willford, N. J.; Blakey, V.; Raviprakash, V.; Sheriff, N.; Williams, L. A.; Feltwell, T.; Bedford, L.; Cargill, J. S.; Hughes, W.; Moore, J.; Stonehouse, S.; Atkinson, L.; Lee, J. C. D.; Shah, D.; Alcolea-Medina, A.; Ohemeng-Kumi, N.; Ramble, J.; Sehmi, J.; Williams, R.; Chatterton, W.; Pusok, M.; Everson, W.; Castigador, A.; Macnaughton, E.; El Bouzidi, K.; Lampejo, T.; Sudhanva, M.; Breen, C.; Sluga, G.; Ahmad, S. S. Y.; George, R. P.; Machin, N. W.; Binns, D.; James, V.; Blacow, R.; Coupland, L.; Smith, L.; Barton, E.; Padgett, D.; Scott, G.; Cross, A.; Mirfenderesky, M.; Greenaway, J.; Cole, K.; Clarke, P.; Duckworth, N.; Walsh, S.; Bicknell, K.; Impey, R.; Wyllie, S.; Hopes, R.; Bishop, C.; Chalker, V.; et al..
Embase;
Preprint in English | EMBASE | ID: ppcovidwho-326827

ABSTRACT

The Delta variant of concern of SARS-CoV-2 has spread globally causing large outbreaks and resurgences of COVID-19 cases1-3. The emergence of Delta in the UK occurred on the background of a heterogeneous landscape of immunity and relaxation of non-pharmaceutical interventions4,5. Here we analyse 52,992 Delta genomes from England in combination with 93,649 global genomes to reconstruct the emergence of Delta, and quantify its introduction to and regional dissemination across England, in the context of changing travel and social restrictions. Through analysis of human movement, contact tracing, and virus genomic data, we find that the focus of geographic expansion of Delta shifted from India to a more global pattern in early May 2021. In England, Delta lineages were introduced >1,000 times and spread nationally as non-pharmaceutical interventions were relaxed. We find that hotel quarantine for travellers from India reduced onward transmission from importations;however the transmission chains that later dominated the Delta wave in England had been already seeded before restrictions were introduced. In England, increasing inter-regional travel drove Delta's nationwide dissemination, with some cities receiving >2,000 observable lineage introductions from other regions. Subsequently, increased levels of local population mixing, not the number of importations, was associated with faster relative growth of Delta. Among US states, we find that regions that previously experienced large waves also had faster Delta growth rates, and a model including interactions between immunity and human behaviour could accurately predict the rise of Delta there. Delta's invasion dynamics depended on fine scale spatial heterogeneity in immunity and contact patterns and our findings will inform optimal spatial interventions to reduce transmission of current and future VOCs such as Omicron.

2.
Robson, S. C.; Connor, T. R.; Loman, N. J.; Golubchik, T.; Nunez, R. T. M.; Bonsall, D.; Rambaut, A.; Snell, L. B.; Livett, R.; Ludden, C.; Corden, S.; Nastouli, E.; Nebbia, G.; Johnston, I.; Lythgoe, K.; Torok, M. E.; Goodfellow, I. G.; Prieto, J. A.; Saeed, K.; Jackson, D. K.; Houlihan, C.; Frampton, D.; Hamilton, W. L.; Witney, A. A.; Bucca, G.; Pope, C. F.; Moore, C.; Thomson, E. C.; Harrison, E. M.; Smith, C. P.; Rogan, F.; Beckwith, S. M.; Murray, A.; Singleton, D.; Eastick, K.; Sheridan, L. A.; Randell, P.; Jackson, L. M.; Ariani, C. V.; Gonçalves, S.; Fairley, D. J.; Loose, M. W.; Watkins, J.; Moses, S.; Nicholls, S.; Bull, M.; Amato, R.; Smith, D. L.; Aanensen, D. M.; Barrett, J. C.; Aggarwal, D.; Shepherd, J. G.; Curran, M. D.; Parmar, S.; Parker, M. D.; Williams, C.; Glaysher, S.; Underwood, A. P.; Bashton, M.; Loveson, K. F.; Byott, M.; Pacchiarini, N.; Carabelli, A. M.; Templeton, K. E.; de Silva, T. I.; Wang, D.; Langford, C. F.; Sillitoe, J.; Gunson, R. N.; Cottrell, S.; O'Grady, J.; Kwiatkowski, D.; Lillie, P. J.; Cortes, N.; Moore, N.; Thomas, C.; Burns, P. J.; Mahungu, T. W.; Liggett, S.; Beckett, A. H.; Holden, M. T. G.; Levett, L. J.; Osman, H.; Hassan-Ibrahim, M. O.; Simpson, D. A.; Chand, M.; Gupta, R. K.; Darby, A. C.; Paterson, S.; Pybus, O. G.; Volz, E. M.; de Angelis, D.; Robertson, D. L.; Page, A. J.; Martincorena, I.; Aigrain, L.; Bassett, A. R.; Wong, N.; Taha, Y.; Erkiert, M. J.; Chapman, M. H. S.; Dewar, R.; McHugh, M. P.; Mookerjee, S.; Aplin, S.; Harvey, M.; Sass, T.; Umpleby, H.; Wheeler, H.; McKenna, J. P.; Warne, B.; Taylor, J. F.; Chaudhry, Y.; Izuagbe, R.; Jahun, A. S.; Young, G. R.; McMurray, C.; McCann, C. M.; Nelson, A.; Elliott, S.; Lowe, H.; Price, A.; Crown, M. R.; Rey, S.; Roy, S.; Temperton, B.; Shaaban, S.; Hesketh, A. R.; Laing, K. G.; Monahan, I. M.; Heaney, J.; Pelosi, E.; Silviera, S.; Wilson-Davies, E.; Adams, H.; du Plessis, L.; Johnson, R.; Harvey, W. T.; Hughes, J.; Orton, R. J.; Spurgin, L. G.; Bourgeois, Y.; Ruis, C.; O'Toole, Á, Gourtovaia, M.; Sanderson, T.; Fraser, C.; Edgeworth, J.; Breuer, J.; Michell, S. L.; Todd, J. A.; John, M.; Buck, D.; Gajee, K.; Kay, G. L.; Peacock, S. J.; Heyburn, D.; Kitchman, K.; McNally, A.; Pritchard, D. T.; Dervisevic, S.; Muir, P.; Robinson, E.; Vipond, B. B.; Ramadan, N. A.; Jeanes, C.; Weldon, D.; Catalan, J.; Jones, N.; da Silva Filipe, A.; Williams, C.; Fuchs, M.; Miskelly, J.; Jeffries, A. R.; Oliver, K.; Park, N. R.; Ash, A.; Koshy, C.; Barrow, M.; Buchan, S. L.; Mantzouratou, A.; Clark, G.; Holmes, C. W.; Campbell, S.; Davis, T.; Tan, N. K.; Brown, J. R.; Harris, K. A.; Kidd, S. P.; Grant, P. R.; Xu-McCrae, L.; Cox, A.; Madona, P.; Pond, M.; Randell, P. A.; Withell, K. T.; Williams, C.; Graham, C.; Denton-Smith, R.; Swindells, E.; Turnbull, R.; Sloan, T. J.; Bosworth, A.; Hutchings, S.; Pymont, H. M.; Casey, A.; Ratcliffe, L.; Jones, C. R.; Knight, B. A.; Haque, T.; Hart, J.; Irish-Tavares, D.; Witele, E.; Mower, C.; Watson, L. K.; Collins, J.; Eltringham, G.; Crudgington, D.; Macklin, B.; Iturriza-Gomara, M.; Lucaci, A. O.; McClure, P. C.; Carlile, M.; Holmes, N.; Moore, C.; Storey, N.; Rooke, S.; Yebra, G.; Craine, N.; Perry, M.; Fearn, N. C.; Goudarzi, S.; Lyons, R. A.; Williams, T.; Haldenby, S. T.; Durham, J.; Leonard, S.; Davies, R. M.; Batra, R.; Blane, B.; Spyer, M. J.; Smith, P.; Yavus, M.; Williams, R. J.; Mahanama, A. I. K.; Samaraweera, B.; Girgis, S. T.; Hansford, S. E.; Green, A.; Beaver, C.; Bellis, K. L.; Dorman, M. J.; Kay, S.; Prestwood, L.; Rajatileka, S.; Quick, J.; Poplawski, R.; Reynolds, N.; Mack, A.; Morriss, A.; Whalley, T.; Patel, B.; Georgana, I.; Hosmillo, M.; Pinckert, M. L.; Stockton, J.; Henderson, J. H.; Hollis, A.; Stanley, W.; Yew, W. C.; Myers, R.; Thornton, A.; Adams, A.; Annett, T.; Asad, H.; Birchley, A.; Coombes, J.; Evans, J. M.; Fina, L.; Gatica-Wilcox, B.; Gilbert, L.; Graham, L.; Hey, J.; Hilvers, E.; Jones, S.; Jones, H.; Kumziene-Summerhayes, S.; McKerr, C.; Powell, J.; Pugh, G.; Taylor, S.; Trotter, A. J.; Williams, C. A.; Kermack, L. M.; Foulkes, B. H.; Gallis, M.; Hornsby, H. R.; Louka, S. F.; Pohare, M.; Wolverson, P.; Zhang, P.; MacIntyre-Cockett, G.; Trebes, A.; Moll, R. J.; Ferguson, L.; Goldstein, E. J.; Maclean, A.; Tomb, R.; Starinskij, I.; Thomson, L.; Southgate, J.; Kraemer, M. U. G.; Raghwani, J.; Zarebski, A. E.; Boyd, O.; Geidelberg, L.; Illingworth, C. J.; Jackson, C.; Pascall, D.; Vattipally, S.; Freeman, T. M.; Hsu, S. N.; Lindsey, B. B.; James, K.; Lewis, K.; Tonkin-Hill, G.; Tovar-Corona, J. M.; Cox, M.; Abudahab, K.; Menegazzo, M.; Taylor, B. E. W.; Yeats, C. A.; Mukaddas, A.; Wright, D. W.; de Oliveira Martins, L.; Colquhoun, R.; Hill, V.; Jackson, B.; McCrone, J. T.; Medd, N.; Scher, E.; Keatley, J. P.; Curran, T.; Morgan, S.; Maxwell, P.; Smith, K.; Eldirdiri, S.; Kenyon, A.; Holmes, A. H.; Price, J. R.; Wyatt, T.; Mather, A. E.; Skvortsov, T.; Hartley, J. A.; Guest, M.; Kitchen, C.; Merrick, I.; Munn, R.; Bertolusso, B.; Lynch, J.; Vernet, G.; Kirk, S.; Wastnedge, E.; Stanley, R.; Idle, G.; Bradley, D. T.; Poyner, J.; Mori, M.; Jones, O.; Wright, V.; Brooks, E.; Churcher, C. M.; Fragakis, M.; Galai, K.; Jermy, A.; Judges, S.; McManus, G. M.; Smith, K. S.; Westwick, E.; Attwood, S. W.; Bolt, F.; Davies, A.; De Lacy, E.; Downing, F.; Edwards, S.; Meadows, L.; Jeremiah, S.; Smith, N.; Foulser, L.; Charalampous, T.; Patel, A.; Berry, L.; Boswell, T.; Fleming, V. M.; Howson-Wells, H. C.; Joseph, A.; Khakh, M.; Lister, M. M.; Bird, P. W.; Fallon, K.; Helmer, T.; McMurray, C. L.; Odedra, M.; Shaw, J.; Tang, J. W.; Willford, N. J.; Blakey, V.; Raviprakash, V.; Sheriff, N.; Williams, L. A.; Feltwell, T.; Bedford, L.; Cargill, J. S.; Hughes, W.; Moore, J.; Stonehouse, S.; Atkinson, L.; Lee, J. C. D.; Shah, D.; Alcolea-Medina, A.; Ohemeng-Kumi, N.; Ramble, J.; Sehmi, J.; Williams, R.; Chatterton, W.; Pusok, M.; Everson, W.; Castigador, A.; Macnaughton, E.; Bouzidi, K. El, Lampejo, T.; Sudhanva, M.; Breen, C.; Sluga, G.; Ahmad, S. S. Y.; George, R. P.; Machin, N. W.; Binns, D.; James, V.; Blacow, R.; Coupland, L.; Smith, L.; Barton, E.; Padgett, D.; Scott, G.; Cross, A.; Mirfenderesky, M.; Greenaway, J.; Cole, K.; Clarke, P.; Duckworth, N.; Walsh, S.; Bicknell, K.; Impey, R.; Wyllie, S.; Hopes, R.; Bishop, C.; Chalker, V.; Harrison, I.; Gifford, L.; Molnar, Z.; Auckland, C.; Evans, C.; Johnson, K.; Partridge, D. G.; Raza, M.; Baker, P.; Bonner, S.; Essex, S.; Murray, L. J.; Lawton, A. I.; Burton-Fanning, S.; Payne, B. A. I.; Waugh, S.; Gomes, A. N.; Kimuli, M.; Murray, D. R.; Ashfield, P.; Dobie, D.; Ashford, F.; Best, A.; Crawford, L.; Cumley, N.; Mayhew, M.; Megram, O.; Mirza, J.; Moles-Garcia, E.; Percival, B.; Driscoll, M.; Ensell, L.; Lowe, H. L.; Maftei, L.; Mondani, M.; Chaloner, N. J.; Cogger, B. J.; Easton, L. J.; Huckson, H.; Lewis, J.; Lowdon, S.; Malone, C. S.; Munemo, F.; Mutingwende, M.; et al..
Embase;
Preprint in English | EMBASE | ID: ppcovidwho-326811

ABSTRACT

The scale of data produced during the SARS-CoV-2 pandemic has been unprecedented, with more than 5 million sequences shared publicly at the time of writing. This wealth of sequence data provides important context for interpreting local outbreaks. However, placing sequences of interest into national and international context is difficult given the size of the global dataset. Often outbreak investigations and genomic surveillance efforts require running similar analyses again and again on the latest dataset and producing reports. We developed civet (cluster investigation and virus epidemiology tool) to aid these routine analyses and facilitate virus outbreak investigation and surveillance. Civet can place sequences of interest in the local context of background diversity, resolving the query into different 'catchments' and presenting the phylogenetic results alongside metadata in an interactive, distributable report. Civet can be used on a fine scale for clinical outbreak investigation, for local surveillance and cluster discovery, and to routinely summarise the virus diversity circulating on a national level. Civet reports have helped researchers and public health bodies feedback genomic information in the appropriate context within a timeframe that is useful for public health.

3.
Blood ; 138:3906, 2021.
Article in English | EMBASE | ID: covidwho-1582273

ABSTRACT

The introduction of post-transplant cyclophosphamide (PTCy) has circumvented the need for T-cell depletion following haploidentical stem cell transplantation (SCT). By expanding the donor pool for patients from certain ethnic minorities, this has addressed to some degree an important health care disparity issue in SCT. However, a recent registry study showed increased incidence GvHD and inferior outcomes in patients receiving haploidentical SCT with PTCy, tacrolimus and mycophenolate mofetil for GvHD prevention as opposed to matched unrelated donor SCT with PTCy-based GvHD prevention. Seeking to improve the results of GvHD prevention in the setting of haploidentical SCT, we examined a combination of PTCy, abatacept and a short course of tacrolimus (CAST). Abatacept is a recombinant soluble fusion protein composed of the extracellular domain of cytotoxic T-lymphocyte associated antigen-4 (CTLA-4) fused to the Fc region of IgG1. Abatacept blocks CD28-CD80I86 axis and prevents T-cell co-stimulation. In early studies, abatacept has shown promising results when added to methotrexate and tacrolimus in matched and mismatched donor SCT. We initiated a phase Ib-II clinical trial for patients with hematological malignancies undergoing haploidentical SCT. Patients received G-CSF mobilized peripheral blood grafts from related haploidentical donors. GvHD prevention consisted of PTCy 50mg/kg IV on day +3 and +4 with forced hydration, abatacept 10mg/kg IV on day +5, +14 and +28 and tacrolimus. Tacrolimus was started on day +5 at 0.02mg/kg/day by continuous IV and adjusted thereafter to maintain a trough level of 5-12ng/mL. Tacrolimus taper was planned to begin on day +60 and complete by day +90 in the absence of GvHD. All patients received standard supportive care including levofloxacin until neutrophil engraftment, posaconazole until day +75, acyclovir for 1 year and, if CMV positive by serology, letermovir until day +100. Pneumocystis Jiroveci prophylaxis was started after neutrophil engraftment and continued until 6 months post-transplant. G-CSF was administered routinely until neutrophil engraftment. Since September 2020, 19 patients were enrolled. Three patients are too early in their post-transplant course and were excluded from this analysis. Patients' characteristics are summarized in the table. All but 2 patients received cryopreserved products. Median times to ANC and platelet engraftment were 18.5 days (14-30) and 28.5 (16-61). All 16 patients achieved full whole blood donor chimerism by day +30. There was no secondary graft failure. With a median follow-up was 149.5 days (41-308) with 10 patients having >120 days and 8 >180 days of follow-up, 4 patients developed skin acute GvHD (all grade I). No patient developed grade II-IV acute GvHD. Two patients developed skin chronic GvHD (limited, both moderate). Both cases were diagnosed following COVID-19 vaccination. Fifteen patients completed tacrolimus taper by day +90. Two patients received systemic steroids, one for treatment of cGvHD. The remaining patients required no further immunosuppressive therapy beyond day +90. CMV activation rate was 25%. One patient had EBV reactivation and required preemptive therapy with 2 weekly rituximab doses. There were no cases of adenovirus, HHV-6 virus or BK virus reactivation. Four patients developed renal insufficiency (3 in the setting of acute sepsis and 1 with thrombotic microangiopathy, which resolved after tapering off tacrolimus. One patient with adult T-cell leukemia/lymphoma relapsed and died. All other patients are alive and well. In summary, our preliminary results suggest that CAST with shortened course of tacrolimus is feasible and seems to offer very promising outcomes with low rates of acute GvHD. The study is accruing actively and the results of a larger cohort with longer follow-up will be presented at the meeting. If confirmed, by improving the outcomes of haploidentical SCT, this regimen may further address a health care disparity issue, offering almost every patient in need of allogeneic SCT an alternative donor op ion with equal outcomes. [Formula presented] Disclosures: Al-Homsi: Daichii Sanyko: Consultancy;Celyad: Other: Advisory Board. Abdul-Hay: Abbvie: Consultancy;Servier: Other: Advisory Board, Speakers Bureau;Jazz: Other: Advisory Board, Speakers Bureau;Takeda: Speakers Bureau;Amgen: Membership on an entity's Board of Directors or advisory committees. OffLabel Disclosure: Abatacept - off label use as GvHD prevention Cyclophosphamide - off label use as GvHD prevention

4.
Sleep ; 44(SUPPL 2):A266, 2021.
Article in English | EMBASE | ID: covidwho-1402641

ABSTRACT

Introduction: We explore the impact of obstructive sleep apnea (OSA) and positive airway pressure (PAP) therapy on novel coronavirus (COVID-19) infection rate and severity. Methods: Retrospective analysis was performed utilizing a database of patients evaluated by Kaiser Permanente Southern California sleep medicine between 2015-2020 (includes sleep study, daily PAP, and electronic health record data.) Adult patients were analyzed if: on March 1, 2020 patient was alive, had ≥1 month health-plan enrollment, and had sleep diagnostic or PAP data. PAP adherence was calculated between March 1, 2020 to COVID-19 confirmation, death, disenrollment or study end date (July 31, 2020), whichever came earlier. COVID-19 outcomes were evaluated based on OSA status and PAP adherence: patients with PAP <2 hours/ night were considered “untreated”;≥2 hours/night were “treated”;2-3.9 hours/night were “moderately-treated”;≥4 hours/night were “well-treated”. Apnea hypopnea index (AHI) defined OSA severity. Multiple logistic regression evaluated the association of various demographic/clinical factors. Results: Of 81,932 patients (39.8% female, age 54.0±14.9 years) analyzed, 1493 (1.8%) had COVID-19 with 224 (0.3%) hospitalizations and 61 (0.07%) resulting in intensive care or death. Increased severity of “Untreated” OSA was associated with higher COVID-19 rate and lower when “treated” [No OSA 1.7%;Mild 2%;Moderate 2%;Severe 2.4%;OSA unknown severity 2%;Treated 1.4%;p<0.0001]. Better PAP adherence was associated with reduced infection rate [“untreated” 2.1%;“moderately-treated” 1.7%, “well-treated” 1.3%, No OSA 1.7%;p=<0.0001]. Multivariable analysis confirmed increased infection rate with OSA versus no OSA [OR 0.82(0.70,0.96)] and the benefit of good PAP adherence versus “untreated” [“moderately-treated” OR 0.82 (0.65, 1.03);“well-treated” OR (0.69 (0.59, 0.80)]. Increased infection rate was also associated with obesity, higher Charlson Comorbidity score, Black and Hispanic ethnicities, and Medicaid enrollment;increasing age was associated with reduced infection rate. Separate multivariable analysis showed dose-response association of OSA severity on infection rate [Mild OR 1.21 (1.01,1.44 95%CI);Moderate- Severe OR 1.27 (1.07,1.51) versus no OSA]. Neither OSA presence nor PAP adherence significantly impacted rate of hospitalization nor intensive care or death. Conclusion: Significant associations emerged with OSA increasing and PAP therapy reducing COVID-19 infection rate. Findings support continued PAP use during the pandemic.

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