Abiraterone acetate plus prednisolone for metastatic patients starting hormone therapy: 5-year follow-up results from the STAMPEDE randomised trial (NCT00268476) (2022)

Type of publication:Randomised controlled trial

Author(s):James N.D.; Clarke N.W.; Cook A.; Ali A.; Hoyle A.P.; Attard G.; Brawley C.D.; Chowdhury S.; Cross W.R.; Dearnaley D.P.; de Bono J.S.; Montana C.D.; Gilbert D.; Gillessen S.; Gilson C.; Jones R.J.; Langley R.E.; Malik Z.I.; Matheson D.J.; Millman R.; Parker C.C.; Pugh C.; Rush H.; Russell J.M.; Berthold D.R.; Buckner M.L.; Mason M.D.; Ritchie A.W.; Birtle A.J.; Brock S.J.; Das P.; Ford D.; Gale J.; Grant W.; Gray E.K.; Hoskin P.; Khan M.M.; Manetta C.; McPhail N.J.; O'Sullivan J.M.; Parikh O.; Perna C.; Pezaro C.J.; Protheroe A.S.; Robinson A.J.; Rudman S.M.; Sheehan D.J.; *Srihari N.N.; Syndikus I.; Tanguay J.; Thomas C.W.; Vengalil S.; Wagstaff J.; Wylie J.P.; Parmar M.K.; Sydes M.R.

Citation:
International Journal of Cancer. 151(3) (pp 422-434), 2022. Date of Publication: 01 Aug 2022.

Abstract:Abiraterone acetate plus prednisolone (AAP) previously demonstrated improved survival in STAMPEDE, a multi-arm, multi-stage platform trial in men starting long-term hormone therapy for prostate cancer. This long-term analysis in metastatic patients was planned for 3yrs after the first results. Standard-of-care (SOC) was androgen deprivation therapy. The comparison randomized patients 1:1 to SOC-alone with or without daily abiraterone acetate 1000mg+prednisolone 5mg (SOC+AAP), continued until disease progression. The primary outcome measure was overall survival. Metastatic disease risk group was classified retrospectively using baseline CT and bone scans by central radiological review and pathology reports. Analyses used Cox proportional hazards & flexible parametric models, adjusted for baseline stratification factors. 1003 patients were contemporaneously randomized (Nov-2011–Jan-2014): median age 67yr; 94% newly-diagnosed; metastatic disease risk group: 48% high, 44% low, 8% un-assessable; median PSA 97ng/mL. At 6.1yr median follow-up, 329 SOC-alone deaths (118 low-risk, 178 high-risk) and 244 SOC+AAP deaths (75 low-risk, 145 high-risk) were reported. Adjusted HR = 0.60 (95%CI:0.50-0.71; P =0.31×10-9 ) favoured SOC+AAP, with 5-yr survival improved from 41% SOC-alone to 60% SOC+AAP. This was similar in low-risk (HR = 0.55; 95%CI:0.41-0.76) and high-risk (HR = 0.54; 95%CI:0.43-0.69) patients. Median and current maximum time on SOC+AAP was 2.4yr and 8.1yr. Toxicity at 4yr post-randomisation was similar, with 16% patients in each group reporting grade 3 or higher toxicity. A sustained and substantial improvement in overall survival of all metastatic prostate cancer patients was achieved with SOC+abiraterone acetate + prednisolone, irrespective of metastatic disease risk group.

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Patient Outcomes Related to In-Hospital Delays in Appendicectomy for Appendicitis: A Retrospective Study (2022)

Type of publication:
Journal article

Author(s):
Claydon O; Down B; *Kumar S

Citation:
Cureus, 2022 Mar 10; Vol. 14 (3), pp. e23034

Abstract:
Background and objective In many hospitals, the availability of operating theatres and access to senior surgical and anaesthetic support diminish during night hours. Therefore, urgent surgery is sometimes postponed until the following morning rather than performed overnight, if it is judged to be safe. In this study, we aimed to determine if a delay in laparoscopic appendicectomy in cases of acute appendicitis of over 12 hours, analogous to an overnight delay, correlated with worse patient outcomes. Our primary outcome was delayed discharge from the hospital. Our secondary outcomes were appendicitis severity, conversions, and postoperative complications. Methods We undertook a retrospective review of the medical records of patients who underwent laparoscopic appendicectomy for appendicitis at a UK district general hospital between 01/01/2018 and 30/08/2019. For each patient, clinical and demographic information, and time of hospital admission, surgery, and discharge were collected. Delayed discharge was defined as "time to discharge" >24 hours after surgery. Results A total of 446 patients were included in the study. In 137 patients (30.7%), "time to surgery" was under 12 hours; in 309 patients (69.3%) "time to surgery" was over 12 hours. Of note, 319 patients (71.5%) had a delayed discharge; 303 patients (67.9%) had complicated appendicitis, and 143 patients had severe appendicitis (32.1%). No statistically significant association between "time to surgery" and delayed discharge, appendicitis severity, conversion, or 30-day re-presentations was observed. Conclusion Time from admission to the start of appendicectomy did not affect patient outcomes. Short in-hospital delays in appendicectomy, such as an overnight delay, may be safe in certain patients and should be determined based on clinical judgement.

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Common, low-frequency, rare, and ultra-rare coding variants contribute to COVID-19 severity (2022)

Type of publication:
Journal article

Author(s):
Fallerini C.; Picchiotti N.; Baldassarri M.; Zguro K.; Daga S.; Fava F.; Benetti E.; Amitrano S.; Bruttini M.; Palmieri M.; Croci S.; Lista M.; Beligni G.; Valentino F.; Meloni I.; Tanfoni M.; Minnai F.; Colombo F.; Cabri E.; Fratelli M.; Gabbi C.; Mantovani S.; Frullanti E.; Gori M.; Crawley F.P.; Butler-Laporte G.; Richards B.; Zeberg H.; Lipcsey M.; Hultstrom M.; Ludwig K.U.; Schulte E.C.; Pairo-Castineira E.; Baillie J.K.; Schmidt A.; Frithiof R.; Mari F.; Renieri A.; Furini S.; Montagnani F.; Tumbarello M.; Rancan I.; Fabbiani M.; Rossetti B.; Bergantini L.; D'Alessandro M.; Cameli P.; Bennett D.; Anedda F.; Marcantonio S.; Scolletta S.; Franchi F.; Mazzei M.A.; Guerrini S.; Conticini E.; Cantarini L.; Frediani B.; Tacconi D.; Raffaelli C.S.; Feri M.; Donati A.; Scala R.; Guidelli L.; Spargi G.; Corridi M.; Nencioni C.; Croci L.; Caldarelli G.P.; Spagnesi M.; Romani D.; Piacentini P.; Bandini M.; Desanctis E.; Cappelli S.; Canaccini A.; Verzuri A.; Anemoli V.; Pisani M.; Ognibene A.; Pancrazzi A.; Lorubbio M.; Vaghi M.; Monforte A.D.; Miraglia F.G.; Mondelli M.U.; Girardis M.; Venturelli S.; Busani S.; Cossarizza A.; Antinori A.; Vergori A.; Emiliozzi A.; Rusconi S.; Siano M.; Gabrieli A.; Riva A.; Francisci D.; Schiaroli E.; Paciosi F.; Tommasi A.; Scotton P.G.; Andretta F.; Panese S.; Baratti S.; Scaggiante R.; Gatti F.; Parisi S.G.; Castelli F.; Quiros-Roldan E.; Antoni M.D.; Zanella I.; Monica M.D.; Piscopo C.; Capasso M.; Russo R.; Andolfo I.; Iolascon A.; Fiorentino G.; Carella M.; Castori M.; Aucella F.; Raggi P.; Perna R.; Bassetti M.; Biagio A.D.; Sanguinetti M.; Masucci L.; Guarnaccia A.; Valente S.; Vivo O.D.; Doddato G.; Tita R.; Giliberti A.; Mencarelli M.A.; Rizzo C.L.; Pinto A.M.; Perticaroli V.; Ariani F.; Carriero M.L.; Sarno L.D.; Alaverdian D.; Bargagli E.; Mandala M.; Giorli A.; Salerni L.; Zucchi P.; Parravicini P.; Menatti E.; Trotta T.; Giannattasio F.; Coiro G.; Lena F.; Lacerenza L.G.; Coviello D.A.; Mussini C.; Martinelli E.; Mancarella S.; Tavecchia L.; Belli M.A.; Crotti L.; Parati G.; Sanarico M.; Raimondi F.; Biscarini F.; Stella A.; Rizzi M.; Maggiolo F.; Ripamonti D.; Suardi C.; Bachetti T.; Rovere M.T.L.; Sarzi-Braga S.; Bussotti M.; Capitani K.; Dei S.; Ravaglia S.; Artuso R.; Andreucci E.; Gori G.; Pagliazzi A.; Fiorentini E.; Perrella A.; Bianchi F.; Bergomi P.; Catena E.; Colombo R.; Luchi S.; Morelli G.; Petrocelli P.; Iacopini S.; Modica S.; Baroni S.; Segala F.V.; Menichetti F.; Falcone M.; Tiseo G.; Barbieri C.; Matucci T.; Grassi D.; Ferri C.; Marinangeli F.; Brancati F.; Vincenti A.; Borgo V.; Stefania L.; Lenzi M.; Pietro M.A.D.; Vichi F.; Romanin B.; Attala L.; Costa C.; Gabbuti A.; Roberto M.; Zuccon U.; Vietri L.; Ceri S.; Pinoli P.; Casprini P.; Merla G.; Squeo G.M.; Maffezzoni M.; Bruno R.; Vecchia M.; Colaneri M.; Ludovisi S.; Marincevic-Zuniga Y.; Nordlund J.; Luther T.; Larsson A.; Hanslin K.; Gradin A.; Galien S.; Anderberg S.B.; Rosen J.; Rubertsson S.; Clohisey S.; Horby P.; Millar J.; Knight J.; Montgomery H.; Maslove D.; Ling L.; Nichol A.; Walsh T.; Hinds C.; Semple M.G.; Openshaw P.J.M.; Ho A.; McAuley D.; Ponting C.; Rowan K.; Griffiths F.; Oosthuyzen W.; Meikle J.; Finernan P.; Furniss J.; Mcmaster E.; Law A.; Paterson T.; Wackett T.; Armstrong R.; Murphy L.; Fawkes A.; Coutts A.; Donnelly L.; Gilchrist T.; Hafezi K.; Macgillivray L.; Maclean A.; McCafferty S.; Morrice K.; Weaver J.; Boz C.; Golightly A.; Ward M.; Mal H.; Szoor-McElhinney H.; Hendry R.; Stenhouse A.; Cullum L.; Law D.; Law S.; Law R.; Swets M.; Day N.; Taneski F.; Duncan E.; Zechner M.; Parkinson N.; Klaric L.; Bretherick A.D.; Rawlik K.; Pasko D.; Walker S.; Fourman M.H.; Russell C.D.; Richmond A.; Gountouna E.; Harrison D.; Wang B.; Wu Y.; Meynert A.; Kousathanas A.; Moutsianas L.; Yang Z.; Zhai R.; Zheng C.; Grimes G.; Shih B.; Yang J.; Shen X.; Ponting C.P.; Tenesa A.; Vitart V.; Wilson J.F.; Wood S.; Zak A.; Borra C.; Matharu M.; May P.; Alldis Z.; Mitchelmore O.; Bowles R.; Easthorpe A.; Bibi F.; Lancoma-Malcolm I.; Gurasashvili J.; Pheby J.; Shiel J.; Bolton M.; Patel M.; Zongo O.; Ebano P.; Harding P.; Astin-Chamberlain R.; Choudhury Y.; Cox A.; Kallon D.; Burton M.; Hall R.; Blowes S.; Prime Z.; Biddle J.; Prysyazhna O.; Newman T.; Tierney C.; Kassam J.; Shankar-Hari M.; Ostermann M.; Campos S.; Bociek A.; Lim R.; Grau N.; Jones T.O.; Whitton C.; Marotti M.; Arbane G.; Bonner S.; Hugill K.; Reid J.; Welters I.; Waugh V.; Williams K.; Shaw D.; Fernandez Roman J.; Lopez Martinez M.; Johnson E.; Waite A.; Johnson B.; Hamilton O.; Mulla S.; McPhail M.; Smith J.; Barclay L.; Hope D.; McCulloch C.; McQuillan L.; Clark S.; Singleton J.; Priestley K.; Rea N.; Callaghan M.; Andrew G.; Marshall L.; McKechnie S.; Hutton P.; Bashyal A.; Davidson N.; Summers C.; Polgarova P.; Stroud K.; Pathan N.; Elston K.; Agrawal S.; Battle C.; Newey L.; Rees T.; Harford R.; Brinkworth E.; Williams M.; Murphy C.; White I.; Croft M.; Bandla N.; Gellamucho M.; Tomlinson J.; Turner H.; Hussain I.; Thompson C.; Parker H.; Bradley R.; Griffiths R.; Gill J.; Puxty A.; Cathcart S.; Turner L.; Duffy K.; Puxty K.; Joseph A.; Herdman-Grant R.; Simms R.; Swain A.; Naranjo A.; Crowe R.; Sollesta K.; Loveridge A.; Baptista D.; Morino E.; Davey M.; Golden D.; Moreno Cuesta J.; Haldeos A.; Bakthavatsalam D.; Vincent R.; Elhassan M.; Xavier K.; Ganesan A.; Purohit D.; Abdelrazik M.; Morgan J.; Akeroyd L.; Bano S.; Warren D.; Bromley M.; Sellick K.; Gurr L.; Wilkinson B.; Nagarajan V.; Szedlak P.; Cupitt J.; Stoddard E.; Benham L.; Preston S.; Slawson N.; Bradshaw Z.; Brown J.; Caswell M.; Melling S.; Bamford P.; Faulkner M.; Cawley K.; Jeffrey H.; London E.; Sainsbury H.; Nagra I.; Nasir F.; Dunmore C.; Jones R.; Abraheem A.; Al-Moasseb M.; Girach R.; Brantwood C.; Alexander P.; Bradley-Potts J.; Allen S.; Felton T.; Manna S.; Farnell-Ward S.; Leaver S.; Queiroz J.; Maccacari E.; Dawson D.; Castro Delgado C.; Pepermans Saluzzio R.; Ezeobu O.; Ding L.; Sicat C.; Kanu R.; Durrant G.; Texeira J.; Harrison A.; Samakomva T.; Willis H.; Hopkins B.; Thrasyvoulou L.; Jackson M.; Zaki A.; Tibke C.; Bennett S.; Woodyatt W.; Kent A.; Goodwin E.; Brandwood C.; Clark R.; Smit L.; Rooney K.; Thomson N.; Rodden N.; Hughes E.; McGlynn D.; Clark C.; Clark P.; Abel L.; Sundaram R.; Gemmell L.; Brett M.; Hornsby J.; MacGoey P.; Price R.; Digby B.; O'Neil P.; McConnell P.; Henderson P.; Henderson S.; Sim M.; Kennedy-Hay S.; Rooney L.; Baxter N.; Pogson D.; Rose S.; Daly Z.; Brimfield L.; Phull M.K.; Hussain M.; Pogreban T.; Rosaroso L.; Salciute E.; Grauslyte L.; Wraith E.; MacCallum N.; Bercades G.; Hass I.; Smyth D.; Reyes A.; Martir G.; Clement I.D.; Webster K.; Hays C.; Gulati A.; Hodgson L.; Margarson M.; Gomez R.; Baird Y.; Thirlwall Y.; Folkes L.; Butler A.; Meadows E.; Moore S.; Raynard D.; Fox H.; Riddles L.; King K.; Kimber S.; Hobden G.; McCarthy A.; Cannons V.; Balagosa I.; Chadbourn I.; Gardner A.; Horner D.; McLaughlanv D.; Charles B.; Proudfoot N.; Marsden T.; McMorrow L.; Blackledge B.; Pendlebury J.; Harvey A.; Apetri E.; Basikolo C.; Catlow L.; Doonan R.; Knowles K.; Lee S.; Lomas D.; Lyons C.; Perez J.; Poulaka M.; Slaughter M.; Slevin K.; Thomas V.; Walker D.; Harris J.; Drummond A.; Tully R.; Dearden J.; Philbin J.; Munt S.; Rishton C.; O'Connor G.; Mulcahy M.; Dobson E.; Cuttler J.; Edward M.; Sloan B.; Buckley S.; Brooke H.; Smithson E.; Charlesworth R.; Sandu R.; Thirumaran M.; Wagstaff V.; Cebrian Suarez J.; Kaliappan A.; Vertue M.; Riches J.; Solesbury A.; Kittridge L.; Forsey M.; Maloney G.; Cole J.; Davies M.; Davies R.; Hill H.; Thomas E.; Duffin D.; Player B.; Radhakrishnan J.; Gibson S.; Lyle A.; McNeela F.; Patel B.; Gummadi M.; Sloane G.; Dormand N.; Salmi S.; Farzad Z.; Cristiano D.; Liyanage K.; Thwaites V.; Varghese M.; Meredith M.; Mills G.; Willson J.; Harrington K.; Lenagh B.; Cawthron K.; Masuko S.; Raithatha A.; Bauchmuller K.; Ahmad N.; Barker J.; Jackson Y.; Kibutu F.; Bird S.; Watson G.; Martin J.; Bevan E.; Wrey Brown C.; Trodd D.; English K.; Bell G.; Wilcox L.; Katary A.; Gopal S.; Lake V.; Harris N.; Metherell S.; Radford E.; Scriven J.; Moore F.; Bancroft H.; Daglish J.; Sangombe M.; Carmody M.; Rhodes J.; Bellamy M.; Garg A.; Kuravi A.; Virgilio E.; Ranga P.; Butler J.; Botfield L.; Dexter C.; Fletcher J.; Shanmugasundaram P.; Hambrook G.; Burn I.; Manso K.; Thornton D.; Tebbutt J.; Penn R.; Hulme J.; Hussain S.; Maqsood Z.; Joseph S.; Colley J.; Hayes A.; Ahmed C.; Haque R.; Clamp S.; Kumar R.; Purewal M.; Baines B.; Frise M.; Jacques N.; Coles H.; Caterson J.; Gurung Rai S.; Brunton M.; Tilney E.; Keating L.; Walden A.; Antcliffe D.; Gordon A.; Templeton M.; Rojo R.; Banach D.; Sousa Arias S.; Fernandez Z.; Coghlan P.; Williams D.; Jardine C.; Bewley J.; Sweet K.; Grimmer L.; Johnson R.; Garland Z.; Gumbrill B.; Ortiz-Ruiz de Gordoa L.; Peasgood E.; Tridente A.; Shuker K.; Greer S.; Lynch C.; Turner K.; Singh J.; Sera Howe G.; Paul P.; Gill M.; Wynter I.; Ratnam V.; Shelton S.; Naisbitt J.; Melville J.; Baruah R.; Morrison S.; McGregor A.; Mpelembue M.; Srikaran S.; Dennis C.; Sukha A.; Williams A.; Verlande M.; Holding K.; Riches K.; Downes C.; Swan C.; Rostron A.; Roy A.; Woods L.; Cornell S.; Wakinshaw F.; Creagh-Brown B.; Blackman H.; Salberg A.; Smith E.; Donlon S.; Mtuwa S.; Michalak-Glinska N.; Stone S.; Beazley C.; Pristopan V.; Nikitas N.; Lankester L.; Wells C.; Raj A.S.; Fletcher K.; Khade R.; Tsinaslanidis G.; McMahon M.; Fowler S.; Coventry T.; Stewart R.; Wren L.; Mwaura E.; Mew L.; Rose A.; Scaletta D.; Williams F.; Inweregbu K.; Nicholson A.; Lancaster N.; Cunningham M.; Daniels A.; Harrison L.; Hope S.; Jones S.; Crew A.; Wray G.; Matthews J.; Crawley R.; Carter J.; Birkinshaw I.; Ingham J.; Scott Z.; Howard K.; Joy R.; Roche S.; Purvis S.; Morrison A.; Strachan D.; Clements S.; Black K.; Parmar C.; Altabaibeh A.; Mostoles L.; Gilbert K.; Ma L.; Alvaro A.; Thomas M.; Faulkner B.; Worner R.; Hayes K.; Gendall E.; Blakemore H.; Borislavova B.; Goff E.; Vuylsteke A.; Mwaura L.; Zamikula J.; Garner L.; Mitchell A.; Mepham S.; Cagova L.; Fofano A.; Holcombe H.; Praman K.; Szakmany T.; Heron A.E.; Cherian S.; Cutler S.; Roynon-Reed A.; Randell G.; Convery K.; Stammers K.; Fottrell-Gould D.; Hudig L.; Keshetprice J.; Peters M.; O'Neill L.; Ray S.; Belfield H.; McHugh T.; Jones G.; Akinkugbe O.; Tomas A.; Abaleke E.; Beech E.; Meghari H.; Yussuf S.; Bamford A.; Hairsine B.; Dooks E.; Farquhar F.; Packham S.; Bates H.; McParland C.; Armstrong L.; Kaye C.; Allan A.; Medhora J.; Liew J.; Botello A.; Anderson F.; Cusack R.; Golding H.; Prager K.; Williams T.; Leggett S.; Golder K.; Male M.; Jones O.; Criste K.; Marani M.; Anumakonda V.; Amin V.; Karthik K.; Kausar R.; Anastasescu E.; Reid K.; Jacqui M.; Hormis A.; Walker R.; Collier D.; Duncan T.; Uriel A.; Ustianowski A.; T-Michael H.; Bruce M.; Connolly K.; Smith K.; Partridge R.; Griffin D.; McDonald M.; Muchenje N.; Martin D.; Filipe H.; Eastgate C.; Jackson C.; Gratrix A.; Foster L.; Martinson V.; Stones E.; Abernathy C.; Parkinson P.; Reed A.; Prendergast C.; Rogers P.; Woodruff M.; Shokkar R.; Kaul S.; Barron A.; Collins C.; Beavis S.; Whileman A.; Dale K.; Hawes J.; Pritchard K.; Gascoyne R.; Stevenson L.; Jha R.; Lim L.; Krishnamurthy V.; Parker R.; Turner-Bone I.; Wilding L.; Reddy A.; Whiteley S.; Wilby E.; Howcroft C.; Aspinwall A.; Charlton S.; Ogg B.; Menzies D.; Pugh R.; Allan E.; Lean R.; Davies F.; Easton J.; Qiu X.; Kumar S.; Darlington K.; Houston G.; O'Brien P.; Geary T.; Allan J.; Meikle A.; Hughes G.; Balasubramaniam M.; Latham S.; McKenna E.; Flanagan R.; Sathe S.; Davies E.; Roche L.; Chablani M.; Kirkby A.; Netherton K.; Archer S.; Yates B.; Ashbrook-Raby C.; Cole S.; Cabrelli L.; Chapman S.; Casey M.; Austin P.; Hutcheon A.; Whyte C.; Almaden-Boyle C.; Pattison N.; Cruz C.; Vochin A.; Kent H.; Murdoch S.; David B.; Penacerrada M.; Lubimbi G.; Bastion V.; Wulandari R.; Valentine J.; Clarke D.; Serrano-Ruiz A.; Hierons S.; Ramos L.; Demetriou C.; Mitchard S.; White K.; White N.; Pitts S.; Branney D.; Frankham J.; Watters M.; Langton H.; Prout R.; Page V.; Varghes T.; Kay A.; Potts K.; Birt M.; Kent M.; Wilkinson A.; Jude E.; Turner V.; Savill H.; McCormick J.; Clark M.; Coulding M.; Siddiqui S.; Mercer O.; Rehman H.; Potla D.; *Capps N.; *Donaldson D.; *Jones J.; *Button H.; *Martin T.; *Hard K.; *Agasou A.; *Tonks L.; *Arden T.; *Boyle P.; *Carnahan M.; Strickley J.; Adams C.; Childs D.; *Rikunenko R.; *Leigh M.; *Breekes M.; *Wilcox R.; *Bowes A.; *Tiveran H.; *Hurford F.; *Summers J.; *Carter A.; *Hussain Y.; *Ting L.; *Javaid A.; *Motherwell N.; *Moore H.; *Millward H.; *Jose S.; *Schunki N.; *Noakes A.; *Clulow C.; Sadera G.; Jacob R.; Jones C.; Blunt M.; Coton Z.; Curgenven H.; Mohamed Ally S.; Beaumont K.; Elsaadany M.; Fernandes K.; Ali Mohamed Ali I.; Rangarajan H.; Sarathy V.; Selvanayagam S.; Vedage D.; White M.; Smith M.; Truman N.; Chukkambotla S.; Keith S.; Cockerill-Taylor J.; Ryan-Smith J.; Bolton R.; Springle P.; Dykes J.; Thomas J.; Khan M.; Hijazi M.T.; Massey E.; Croston G.; Reschreiter H.; Camsooksai J.; Patch S.; Jenkins S.; Humphrey C.; Wadams B.; Bhatia N.; Msiska M.; Adanini O.; Attwood B.; Parsons P.; Tatham K.; Jhanji S.; Black E.; Dela Rosa A.; Howle R.; Thomas B.; Bemand T.; Raobaikady R.; Saha R.; Staines N.; Daniel A.; Finn J.; Hutter J.; Doble P.; Shovelton C.; Pawley C.; Kannan T.; Hill M.; Combes E.; Monnery S.; Joefield T.; Popescu M.; Thankachen M.; Oblak M.; Little J.; McIvor S.; Brady A.; Whittle H.; Prady H.; Chan R.; Ahmed A.; Morris A.; Gibson C.; Gordon E.; Keenan S.; Quinn H.; Benyon S.; Marriott S.; Zitter L.; Park L.; Baines K.; Lyons M.; Holland M.; Keenan N.; Young M.; Garrioch S.; Dawson J.; Tolson M.; Scholefield B.; Bi R.; Richardson N.; Schumacher N.; Cosier T.; Millen G.; Higham A.; Simpson K.; Turki S.; Allen L.; Crisp N.; Hazleton T.; Knight A.; Deery J.; Price C.; Turney S.; Tilbey S.; Beranova E.; Wright D.; Georg L.; Twiss S.; Cowton A.; Wadd S.; Postlethwaite K.; Gondo P.; Masunda B.; Kayani A.; Hadebe B.; Whiteside J.; Campbell R.; Clarke N.; Donnison P.; Trim F.; Leadbitter I.; O'Sullivan S.; Purewal B.; Bell S.; Rivers V.; O'Leary R.; Collins E.; Anderson S.; Hammerton K.; Andrews E.; Burns K.; Edmond I.; Salutous D.; Todd A.; Donnachie J.; Turner P.; Prentice L.; Symon L.; Runciman N.; Auld F.; Halkes M.; Mercer P.; Thornton L.; Debreceni G.; Wilkins J.; Crickmore V.; Subramanian G.; Marshall R.; Jennings C.; Latif M.; Bunni L.; Spivey M.; Bean S.; Burt K.; Linnett V.; Ritzema J.; Sanderson A.; Bokhari M.; Kapoor R.; Loader D.; Ayers A.; Harrison W.; North J.; Belagodu Z.; Parasomthy R.; Olufuwa O.; Gherman A.; Fuller B.; Stuart C.; Kelsall O.; Davis C.; Wild L.; Wood H.; Thrush J.; Durie A.; Austin K.; Archer K.; Anderson P.; Vigurs C.; Thorpe C.; Thomas A.; Knights E.; Boyle N.; Price A.; Kubisz-Pudelko A.; Wood D.; Lewis A.; Board S.; Pippard L.; Perry J.; Beesley K.; Rattray A.; Lee E.; Lennon L.; Douglas K.; Bell D.; Boyle R.; Nauman Akhtar M.; Dent K.; Potoczna D.; Pearson S.; Horsley E.; Spencer S.; Phillips C.; Mullan D.; Skinner D.; Gaylard J.; Ortiz-Ruizdegordoa L.; Barber R.; Hewitt C.; Hilldrith A.; Shepardson S.; Wills M.; Jackson-Lawrence K.; Gupta A.; Easthope A.; Timlick E.; Gorman C.; Otaha I.; Gales A.; Coetzee S.; Raj M.; Peiu M.; Parris V.; Quaid S.; Watson E.; Elliott K.; Mallinson J.; Chandler B.; Turnbull A.; Quinn A.; Finch C.; Holl C.; Cooper J.; Evans A.; Collins A.; Treus Gude E.; Love N.; van Koutrik L.; Hunt J.; Kaye D.; Fisher E.; Brayne A.; Tuckey V.; Jackson P.; Parkin J.; Brealey D.; Raith E.; Tariq A.; Houlden H.; Tucci A.; Hardy J.; Moncur E.; Highgate J.; Cowley A.; Mitra A.; Stead R.; Behan T.; Burnett C.; Newton M.; Heeney E.; Pollard R.; Hatton J.; Patel A.; Kasipandian V.; Allibone S.; Genetu R.M.; Otahal I.; O'Brien L.; Omar Z.; Perkins E.; Davies K.; Tetla D.; Pothecary C.; Deacon B.; Shelley B.; Irvine V.; Williams S.; Williams P.; Birch J.; Goodsell J.; Tutton R.; Bough L.; Winter-Goodwin B.; Kitson R.; Pinnell J.; Wilson A.; Nortcliffe T.; Wood T.; Home M.; Holdroyd K.; Robinson M.; Shaw R.; Greig J.; Brady M.; Haigh A.; Matupe L.; Usher M.; Mellor S.; Dale S.; Gledhill L.; Shaw L.; Turner G.; Kelly D.; Anwar B.; Riley H.; Sturgeon H.; Ali A.; Thomis L.; Melia D.; Dance A.; Hanson K.; Humphreys S.; Frost I.; Gopal V.; Godden J.; Holden A.; Swann S.; Clapham M.; Poultney U.; Harper R.; Rice P.; Khaliq W.; Reece-Anthony R.; Gurung B.; Moultrie S.; Odam M.; Mayer A.; Bellini A.; Pickard A.; Bryant J.; Roe N.; Sowter J.; Butcher D.; Lang K.; Taylor J.; Barry P.; Hobrok M.; Tench H.; Wolf-Roberts R.; McGuinness H.; Loosley R.; Hawcutt D.; Rad L.; O'Malley L.; Saunderson P.; Seddon G.; Anderson T.; Rogers N.; Ruddy J.; Harkins M.; Taylor M.; Beith C.; McAlpine A.; Ferguson L.; Grant P.; MacFadyen S.; McLaughlin M.; Baird T.; Rundell S.; Glass L.; Welsh B.; Hamill R.; Fisher F.; Smith T.; Gregory J.; Brown A.; Rolker S.; Nothen M.M.; Fazaal J.; Keitel V.; Jensen B.; Feldt T.; Knopp L.; Schroder J.; Maj C.; Brand F.; Berger M.M.; Brenner T.; Hinney A.; Witzke O.; Bals R.; Herr C.; Ludwig N.; Walter J.; Schneider J.; Erber J.; Spinner C.D.; Wendtner C.M.; Winter C.; Protzer U.; Casadei N.; Ossowski S.; Motameny S.; Riess O.H.; Kwasniewski M.; Korotko U.; Chwialkowska K.; Niemira M.; Jaroszewicz J.; Sobala-Szczygiel B.; Puzanowska B.; Parfieniuk-Kowerda A.; Martonik D.; Moniuszko-Malinowska A.; Pancewicz S.; Zarebska-Michaluk D.; Simon K.; Pazgan-Simon M.; Mozer-Lisewska I.; Bura M.; Adamek A.; Tomasiewicz K.; Pawlowska M.; Piekarska A.; Berkan-Kawinska A.; Horban A.; Kowalska J.; Podlasin R.; Wasilewski P.; Azzadin A.; Czuczwar M.; Czaban S.; Olszewski P.; Bogocz J.; Ochab M.; Kruk A.; Uszok S.; Bielska A.; Szalkowska A.; Raczkowska J.; Sokolowska G.; Chorostowska-Wynimko J.; Jezela-Stanek A.; Rozy A.; Lechowicz U.; Polowianiuk U.; Grubczak K.; Starosz A.; Eljaszewicz A.; Izdebska W.; Kretowski A.; Flisiak R.; Moniuszko M.; Abedalthagafi M.; Alaamery M.; Massadeh S.; Fawzy M.; AlBardis H.; Aljawini N.; Alsuwailm M.; Almalki F.; Mangul S.; Jung J.; Mbarek H.; Saad C.; Al-Sarraj Y.; Al-Muftah W.; Badji R.; Thani A.A.; Ismail S.I.;

Citation:
Human Genetics. 2022, Vol 141(1) (pp 147-173)

Abstract:
The combined impact of common and rare exonic variants in COVID-19 host genetics is currently insufficiently understood. Here, common and rare variants from whole-exome sequencing data of about 4000 SARS-CoV-2-positive individuals were used to define an interpretable machine-learning model for predicting COVID-19 severity. First, variants were converted into separate sets of Boolean features, depending on the absence or the presence of variants in each gene. An ensemble of LASSO logistic regression models was used to identify the most informative Boolean features with respect to the genetic bases of severity. The Boolean features selected by these logistic models were combined into an Integrated PolyGenic Score that offers a synthetic and interpretable index for describing the contribution of host genetics in COVID-19 severity, as demonstrated through testing in several independent cohorts. Selected features belong to ultra-rare, rare, low-frequency, and common variants, including those in linkage disequilibrium with known GWAS loci. Noteworthily, around one quarter of the selected genes are sex-specific. Pathway analysis of the selected genes associated with COVID-19 severity reflected the multi-organ nature of the disease. The proposed model might provide useful information for developing diagnostics and therapeutics, while also being able to guide bedside disease management.

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Learning curves in minimally invasive pancreatic surgery: a systematic review (2022)

Type of publication:Systematic Review

Author(s):Fung, Gayle; Sha, Menazir; Kunduzi, Basir; Froghi, Farid; *Rehman, Saad; Froghi, Saied

Citation:
Langenbeck's Archives of Surgery. 407(6) (pp 2217-2232), 2022. Date of Publication: September 2022.

Abstract:BACKGROUND The learning curve of new surgical procedures has implications for the education, evaluation and subsequent adoption. There is currently no standardised surgical training for those willing to make their first attempts at minimally invasive pancreatic surgery. This study aims to ascertain the learning curve in minimally invasive pancreatic surgery.
METHODS A systematic search of PubMed, Embase and Web of Science was performed up to March 2021. Studies investigating the number of cases needed to achieve author-declared competency in minimally invasive pancreatic surgery were included.
RESULTS In total, 31 original studies fulfilled the inclusion criteria with 2682 patient outcomes being analysed. From these studies, the median learning curve for distal pancreatectomy was reported to have been achieved in 17 cases (10-30) and 23.5 cases (7-40) for laparoscopic and robotic approach respectively. The median learning curve for pancreaticoduodenectomy was reported to have been achieved at 30 cases (4-60) and 36.5 cases (20-80) for a laparoscopic and robotic approach respectively. Mean operative times and estimated blood loss improved in all four surgical procedural groups. Heterogeneity was demonstrated when factoring in the level of surgeon's experience and patient's demographic.
CONCLUSIONS There is currently no gold standard in the evaluation of a learning curve. As a result, derivations are difficult to utilise clinically. Existing literature can serve as a guide for current trainees. More work needs to be done to standardise learning curve assessment in a patient-centred manner.

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Mapping the human genetic architecture of COVID-19 (2021)

Type of publication:Journal article

Author(s):

COVID-19 Host Genetics Initiative. Includes James Moon, Nigel Capps, Sanal Jose, Colene Adams, Anita Agasou, Amy Bowes, Pauline Boyle, Mandy Carnahan, Anne Carter, Danielle Childs, Kelly Hard, Yasmin Hussain, Michael Leigh, Rachel Rikunenko, Jo Stickley, Helen Tivenan, Rebecca Wilcox, Tracie Arden, Mandy Beekes, Heather Button, Denise Donaldson, Fran Hurford, Ayesha Javaid, James Jones, Terry Martin, Helen Millward, Nichola Motherwell, Julie Summers, Louise Ting & Louise Tonks of Shrewsbury and Telford Hospital NHS Trust

Citation:Nature. 2021, Vol. 600(7889) (pp 472-477)

Abstract:The genetic make-up of an individual contributes to the susceptibility and response to viral infection. Although environmental, clinical and social factors have a role in the chance of exposure to SARS-CoV-2 and the severity of COVID-19<sup>1,2</sup>, host genetics may also be important. Identifying host-specific genetic factors may reveal biological mechanisms of therapeutic relevance and clarify causal relationships of modifiable environmental risk factors for SARS-CoV-2 infection and outcomes. We formed a global network of researchers to investigate the role of human genetics in SARS-CoV-2 infection and COVID-19 severity. Here we describe the results of three genome-wide association meta-analyses that consist of up to 49,562 patients with COVID-19 from 46 studies across 19 countries. We report 13 genome-wide significant loci that are associated with SARS-CoV-2 infection or severe manifestations of COVID-19. Several of these loci correspond to previously documented associations to lung or autoimmune and inflammatory diseases<sup>3-7</sup>. They also represent potentially actionable mechanisms in response to infection. Mendelian randomization analyses support a causal role for smoking and body-mass index for severe COVID-19 although not for type II diabetes. The identification of novel host genetic factors associated with COVID-19 was made possible by the community of human genetics researchers coming together to prioritize the sharing of data, results, resources and analytical frameworks. This working model of international collaboration underscores what is possible for future genetic discoveries in emerging pandemics, or indeed for any complex human disease.

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Mifepristone and misoprostol versus placebo and misoprostol for resolution of miscarriage in women diagnosed with missed miscarriage: The MifeMiso RCT (2021)

Type of publication:Journal article

Author(s):Devall A.; Chu J.; Gallos I.; Coomarasamy A.; Beeson L.; Cheed V.; Sun Y.; Roberts T.; Ogwulu C.O.; Williams E.; Jones L.; La Fontaine Papadopoulos J.; Hardy P.; Bender-Atik R.; Brewin J.; Hinshaw K.; Ahmed A.; Choudhary M.; Naftalin J.; Nunes N.; Oliver A.; Izzat F.; Bhatia K.; Hassan I.; Jeve Y.; Hamilton J.; Deb S.; Bottomley C.; Ross J.; Watkins L.; *Underwood M.; Cheong Y.; Kumar C.; Gupta P.; Small R.; Pringle S.; Hodge F.; Shahid A.; Horne A.; Quenby S.

Citation:Health Technology Assessment; 2021; vol. 25 (no. 68), p. 1-114

Abstract:Background Miscarriage is the most common complication of pregnancy. As many as 15-25% of pregnancies end in a miscarriage, and the number of miscarriages in England is estimated to be approximately 125,000 per year. Management of miscarriage can be expectant (i.e. waiting for natural miscarriage), medical (i.e. with drugs) or surgical. About 25% of women opt for medical management; however, there is uncertainty about the optimal drug regimens for medical management. Before National Institute for Health and Care Excellence (NICE) guideline CG154 was published in 2012, it was common practice to use a combination of mifepristone (Mifegyne, Exelgyn, Paris, France) and misoprostol. The 2012 guideline, however, recommended that misoprostol alone should be given to women having medical management. This recommendation was based on very limited evidence, from one study of 115 women, which found no difference between a combination of mifepristone and misoprostol and misoprostol alone. Recognising the limited available evidence, NICE and the National Institute for Health Research (NIHR) Health Technology Assessment (HTA) called for a trial. Objectives The primary objective was to test the hypothesis that treatment with mifepristone plus misoprostol is superior to treatment with misoprostol alone for the resolution of miscarriage within 7 days in women diagnosed by pelvic ultrasound scan with a missed miscarriage in the first 14 weeks of pregnancy. The key secondary objective aimed to test the hypothesis that the addition of mifepristone reduces the need for surgical intervention to resolve the miscarriage. Other secondary objectives aimed to evaluate if the addition of mifepristone reduces the need for further doses of misoprostol, to evaluate if the addition of mifepristone improves other clinical outcomes [including surgical intervention up to and including 7 days post randomisation and after 7 days post randomisation, duration of bleeding, infection, negative pregnancy test at 21 days post randomisation, time from randomisation to discharge from early pregnancy unit (EPU) care, side effects and complications], to evaluate if the addition of mifepristone improves patient satisfaction and acceptability of management and to assess the cost-effectiveness of the combination of mifepristone and misoprostol in the medical management of missed miscarriage. Methods Participants were randomised online in a 1: 1 ratio via a secure internet facility through an Integrated Trial Management System. Minimisation was implemented for maternal age (< 30 or >= 30 years), body mass index (< 35 or >= 35 kg/m2), previous parity (nulliparous or parous women), gestational age (< 70 or >= 70 days), amount of bleeding (Pictorial Blood loss Assessment Chart score; <= 2 or >= 3) and randomising centre. Clinical data were collected up to discharge from EPU care. Participants who agreed to participate in the qualitative study were interviewed by telephone or videoconference or face to face within approximately 6 weeks of their discharge date. The primary analysis was by intention to treat. A withintrial cost-effectiveness study and a nested qualitative study were also conducted as part of the trial. Results A total of 711 women, from 28 hospitals in the UK, received either mifepristone plus misoprostol (357 women) or placebo plus misoprostol (354 women). The follow-up rate for the primary outcome was 98% (696 of 711 women). The risk of failure to pass the gestational sac within 7 days was 17% (59 of 348 women) in the mifepristone plus misoprostol group, compared with 24% (82 out of 348 women) in the placebo plus misoprostol group [risk ratio (RR) 0.73, 95% confidence interval (CI) 0.54 to 0.98; p = 0.04]. Surgical intervention to resolve the miscarriage was needed in 17% (62 out of 355 women) in the mifepristone plus misoprostol group, compared with 25% (87 out of 353 women) in the placebo plus misoprostol group (RR 0.70, 95% CI 0.52 to 0.94; p = 0.02). There was no evidence of a difference in the incidence of adverse events between the two groups. A total of 42 women, 19 in the mifepristone plus misoprostol group and 23 in the placebo plus misoprostol group, took part in an interview.Women appeared to have a preference for active management of their miscarriage, to help bring a timely resolution to the physical process. Overall, when women experienced care that supported their psychological well-being throughout the care pathway, and information was delivered in a skilled and sensitive manner such that women felt informed and in control, they were more likely to express satisfaction with medical management. The within-trial cost-effectiveness analysis found that the use of mifepristone and misoprostol resulted in an absolute effect difference of 6.6% (95% CI 0.7% to 12.5%). The average cost per woman was lower in the mifepristone and misoprostol (MifeMiso) group than in the placebo and misoprostol group, with a cost saving of 182 (95% CI 26 to 338). Hence the use of mifepristone and misoprostol for the medical management of a missed miscarriage dominated the use of misoprostol alone. The modelbased analysis, that compared the trial intervention with other existing possible interventions for the management of miscarriage not analysed in the trial, showed that the MifeMiso intervention is dominant when compared with expectant management and the current medical management strategy. However, the intervention is a less effective, although less costly, strategy than surgical management. Conclusions Our trial showed that pre-treatment with mifepristone followed by misoprostol resulted in a higher rate of resolution of missed miscarriage than misoprostol treatment alone. Women were largely satisfied with medical management of missed miscarriage and would choose it again.

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Mifepristone and misoprostol versus misoprostol alone for the management of missed miscarriage (MifeMiso): a randomised, double-blind, placebo-controlled trial (2021)

Type of publication:
Randomised controlled trial

Author(s):
Devall A.; Chu J.; Beeson L.; Hardy P.; Cheed V.; Sun Y.; Roberts T.; Ogwulu C.O.; Williams E.; Jones L.; Papadopoulos J.F.; Bender-Atik R.; Brewin J.; Hinshaw K.; Choudhary M.; Ahmed A.; Naftalin J.; Nunes N.; Oliver A.; Izzat F.; Bhatia K.; Hassan I.; Jeve Y.; Hamilton J.; Deb S.; Bottomley C.; Ross J.; Watkins L.; *Underwood M.; Cheong Y.; Kumar C.; Gupta P.; Small R.; Pringle S.; Hodge F.; Shahid A.; Gallos I.; Horne A.; Quenby S.; Coomarasamy A.

Citation:

Health Technology Assessment, November 2021, 25(68) (pp 1-114)

Abstract:
TRIAL DESIGN: A randomised, parallel-group, double-blind, placebo-controlled multicentre study with health economic and nested qualitative studies to determine if mifepristone (Mifegyne, Exelgyn, Paris, France) plus misoprostol is superior to misoprostol alone for the resolution of missed miscarriage. METHOD(S): Women diagnosed with missed miscarriage in the first 14 weeks of pregnancy were randomly assigned (1:1 ratio) to receive 200mg of oral mifepristone or matched placebo, followed by 800mug of misoprostol 2 days later. A web-based randomisation system allocated the women to the two groups, with minimisation for age, body mass index, parity, gestational age, amount of bleeding and randomising centre. The primary outcome was failure to pass the gestational sac within 7 days after randomisation. The prespecified key secondary outcome was requirement for surgery to resolve the miscarriage. A within-trial cost-effectiveness study and a nested qualitative study were also conducted. Women who completed the trial protocol were purposively approached to take part in an interview to explore their satisfaction with and the acceptability of medical management of missed miscarriage. RESULT(S): A total of 711 women, from 28 hospitals in the UK, were randomised to receive either mifepristone plus misoprostol (357 women) or placebo plus misoprostol (354 women). The follow-up rate for the primary outcome was 98% (696 out of 711 women). The risk of failure to pass the gestational sac within 7 days was 17% (59 out of 348 women) in the mifepristone plus misoprostol group, compared with 24% (82 out of 348 women) in the placebo plus misoprostol group (risk ratio 0.73, 95% confidence interval 0.54 to 0.98; p=0.04). Surgical intervention to resolve the miscarriage was needed in 17% (62 out of 355 women) in the mifepristone plus misoprostol group, compared with 25% (87 out of 353 women) in the placebo plus misoprostol group (risk ratio 0.70, 95% confidence interval 0.52 to 0.94; p=0.02). There was no evidence of a difference in the incidence of adverse events between the two groups. A total of 42 women, 19 in the mifepristone plus misoprostol group and 23 in the placebo plus misoprostol group, took part in an interview. Women appeared to have a preference for active management of their miscarriage. Overall, when women experienced care that supported their psychological well-being throughout the care pathway, and information was delivered in a skilled and sensitive manner such that women felt informed and in control, they were more likely to express satisfaction with medical management. The use of mifepristone and misoprostol showed an absolute effect difference of 6.6% (95% confidence interval 0.7% to 12.5%). The average cost per woman was lower in the mifepristone plus misoprostol group, with a cost saving of 182 (95% confidence interval 26 to 338). Therefore, the use of mifepristone and misoprostol for the medical management of a missed miscarriage dominated the use of misoprostol alone. LIMITATIONS: The results from this trial are not generalisable to women diagnosed with incomplete miscarriage and the study does not allow for a comparison with expectant or surgical management of miscarriage. FUTURE WORK: Future work should use existing data to assess and rank the relative clinical effectiveness and safety profiles for all methods of management of miscarriage. CONCLUSION(S): Our trial showed that pre-treatment with mifepristone followed by misoprostol resulted in a higher rate of resolution of missed miscarriage than misoprostol treatment alone. Women were largely satisfied with medical management of missed miscarriage and would choose it again. The mifepristone and misoprostol intervention was shown to be cost-effective in comparison to misoprostol alone.

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Myomectomy during cesarean section or non-caesarean myomectomy in reproductive surgery: This is the dilemma. (2021)

Type of publication:
Journal article

Author(s):
Tinelli A.; Nezhat C.H.; Likic-Ladjevic I.; Andjic M.; Tomasevic D.; *Papoutsis D.; Stefanovic R.; Sparic R.

Citation:
Clinical and Experimental Obstetrics and Gynecology. December 2021, 48(6) (pp 1250-1258)

Abstract:
Nowadays it is quite common to encounter pregnants over 35 years with uterine fibroids (UFs), requiring cesarean section (CS). Large UFs may cause severe complications during delivery, as bleeding and hemorrhage, during vaginal or cesarean delivery. Frequently, the caesarean myomectomy (CM) is recommended, but generally obstetricians are reluctant to perform CM, since literature data do not agree on its surgical recommendation. CM is jet particularly controversial, due to increased risk of perioperative hemorrhage and cesarean hysterectomy, and UFs are often left in situ during cesarean section (CS). CM investigations are generally directed to myomectomy associated issues, whereas CS complications without CM are largely underreported. The risks of leaving UF for an interval myomectomy is underestimated and large UFs, left in uterus during CS, might cause significant early and late postoperative complications, even necessitating a relaparotomy and/or a subsequent hysterectomy. CM would be mandatory in some instances, whatever the UF diameter, to avoid further damage or complications. UFs management prior to CS should include a full counselling on pro and cons on the possible consequences of surgical decisioning. To illustrate what was discussed above, authors performed a narrative review with an expert opinion, reporting a case of a 31-year-old woman with a large UF who underwent a CS without myomectomy. Nine hours after CS, puerpera was submitted, for a massive postoperative hemorrhage and hemorrhagic shock, to an emergency relaparotomy with total hysterectomy without salpingo-oophorectomy

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Timing of surgery following SARS-CoV-2 infection: an international prospective cohort study (2021)

Type of publication:
Journal article

Author(s):
COVIDSurg Collaborative; GlobalSurg Collaborative (COVIDSurg Collaborative includes *Yen Nee Jenny Bo, *Mohammad Iqbal, *Aarti Lakhiani, *Guleed Mohamed, *William Parry-Smith, *Banchhita Sahu of Shrewsbury and Telford Hospital NHS Trust)

Citation:
Anaesthesia, June 2021, Volume 76, Issue 6, Pages 748-758

Abstract:
Peri-operative SARS-CoV-2 infection increases postoperative mortality. The aim of this study was to determine the optimal duration of planned delay before surgery in patients who have had SARS-CoV-2 infection. This international, multicentre, prospective cohort study included patients undergoing elective or emergency surgery during October 2020. Surgical patients with pre-operative SARS-CoV-2 infection were compared with those without previous SARS-CoV-2 infection. The primary outcome measure was 30-day postoperative mortality. Logistic regression models were used to calculate adjusted 30-day mortality rates stratified by time from diagnosis of SARS-CoV-2 infection to surgery. Among 140,231 patients (116 countries), 3127 patients (2.2%) had a pre-operative SARS-CoV-2 diagnosis. Adjusted 30-day mortality in patients without SARS-CoV-2 infection was 1.5% (95%CI 1.4–1.5). In patients with a pre-operative SARS-CoV-2 diagnosis, mortality was increased in patients having surgery within 0–2 weeks, 3–4 weeks and 5–6 weeks of the diagnosis (odds ratio (95%CI) 4.1 (3.3–4.8), 3.9 (2.6–5.1) and 3.6 (2.0–5.2), respectively). Surgery performed ≥ 7 weeks after SARS-CoV-2 diagnosis was associated with a similar mortality risk to baseline (odds ratio (95%CI) 1.5 (0.9–2.1)). After a ≥ 7 week delay in undertaking surgery following SARS-CoV-2 infection, patients with ongoing symptoms had a higher mortality than patients whose symptoms had resolved or who had been asymptomatic (6.0% (95%CI 3.2–8.7) vs. 2.4% (95%CI 1.4–3.4) vs. 1.3% (95%CI 0.6–2.0), respectively). Where possible, surgery should be delayed for at least 7 weeks following SARS-CoV-2 infection. Patients with ongoing symptoms ≥ 7 weeks from diagnosis may benefit from further delay.

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SARS-CoV-2 vaccination modelling for safe surgery to save lives: data from an international prospective cohort study (2021)

Type of publication:
Journal article

Author(s):
COVIDSurg Collaborative, GlobalSurg Collaborative (COVIDSurg Collaborative includes *Yen Nee Jenny Bo, *Mohammad Iqbal, *Aarti Lakhiani, *Guleed Mohamed, *William Parry-Smith, *Banchhita Sahu of Shrewsbury and Telford Hospital NHS Trust)

Citation:
British Journal of Surgery. 2021 Sep 27;108(9):1056-1063

Abstract:
Background: Preoperative SARS-CoV-2 vaccination could support safer elective surgery. Vaccine numbers are limited so this study aimed to inform their prioritization by modelling.
Methods: The primary outcome was the number needed to vaccinate (NNV) to prevent one COVID-19-related death in 1 year. NNVs were based on postoperative SARS-CoV-2 rates and mortality in an international cohort study (surgical patients), and community SARS-CoV-2 incidence and case fatality data (general population). NNV estimates were stratified by age (18–49, 50–69, 70 or more years) and type of surgery. Best- and worst-case scenarios were used to describe uncertainty.
Results: NNVs were more favourable in surgical patients than the general population. The most favourable NNVs were in patients aged 70 years or more needing cancer surgery (351; best case 196, worst case 816) or non-cancer surgery (733; best case 407, worst case 1664). Both exceeded the NNV in the general population (1840; best case 1196, worst case 3066). NNVs for surgical patients remained favourable at a range of SARS-CoV-2 incidence rates in sensitivity analysis modelling. Globally, prioritizing preoperative vaccination of patients needing elective surgery ahead of the general population could prevent an additional 58 687 (best case 115 007, worst case 20 177) COVID-19-related deaths in 1 year.
Conclusion: As global roll out of SARS-CoV-2 vaccination proceeds, patients needing elective surgery should be prioritized ahead of the general population.

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