Vpliv anatomskih razmer na čas klemanja aorte pri minimalno invazivni zamenjavi aortne zaklopke

Jug, Jure

Vpliv anatomskih razmer na čas klemanja aorte pri minimalno invazivni zamenjavi aortne zaklopke
ID Jug, Jure (Author), ID Geršak, Borut (Mentor) More about this mentor... This link opens in a new window

, ID Štor, Zdravko (Comentor)

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Abstract

Uvod Daljši časi operativnega posega so ena izmed slabosti minimalno invazivne zamenjave aortne zaklopke, saj sta tako čas klemanja aorte (XCL) kot čas izventelesnega krvnega obtoka (CPB) znana dejavnika tveganja za pooperativne zaplete in povečano umrljivost. Dosedanje raziskave so bile usmerjene predvsem v poenostavitev in skrajšanje posega z uporabo brezšivnih umetnih aortnih zaklopk. Za nekatere minimalno invazivne kirurške pristope so sicer priporočeni anatomski kriteriji za predoperativni izbor bolnikov. Dosedanje raziskave o vplivu anatomskih razmer v prsnem košu na čase operativnega posega pa so redke in imajo pomembne omejitve. Prav tako ni znana učna krivulja minimalno invazivnega posega ob neugodnih anatomskih razmerah in njen vpliv na XCL in CPB. Namen prvega dela raziskave je opredeliti anatomske spremenljivke, ki vplivajo na XCL in CPB pri minimalno invazivni menjavi aortne zaklopke. Namen drugega dela raziskave je ugotoviti morebitno podaljšanje učne krivulje posega ob neugodnih anatomskih razmerah. Metode V raziskavo smo vključili 68 bolnikov, ki so imeli opravljeno minimalno invazivno zamenjavo aortne zaklopke z brezšivnimi aortnimi zaklopkami in s kirurškima pristopoma mini-sternotomijo (MS) ali mini-torakotomijo (RT). Vsi posegi so bili standardizirani in opravljeni s strani istega kirurga z obsežnimi izkušnjami v minimalno invazivni kirurgiji aortne zaklopke. V prvem delu smo izvedli retrospektivno raziskavo. Bolnike smo razporedili v dve skupini glede na vrsto minimalno invazivnega kirurškega pristopa. Meritve anatomskih spremenljivk, poimensko; položaj ascendentne aorte v koronarni ravnini, globino ascendentne aorte, odklon ascendentne aorte od mediane ravnine, dolžino ascendentne aorte, razdaljo med kožo in ascendentno aorto, ter debelino stene prsnega koša smo opravili na predoperativnih računalniško tomografskih (CT) posnetkih prsnega koša. Meritve premera aortne zaklopke pa so bile izvedene med samimi posegi. Meritve XCL in CPB smo povzeli iz dokumentacije. V drugem delu smo izvedli retrospektivno raziskavo, identificirali bolnike z neugodnimi anatomskimi razmerami za minimalno invazivno menjavo aortne zaklopke z RT pristopom, ter jih kronološko razvrstili v tri skupine. Med skupinami smo primerjali XCL in CPB. Rezultati V MS skupini je bil XCL statistično značilno krajši v primerjavi z RT skupino (41,1 min proti 52,3 min; p <0,001). CPB se med skupinama ni statistično značilno razlikoval (65 min proti 75 min; p = 0,08). Bivariatna analiza celotne kohorte je prikazala daljša XCL in CBP pri manjših premerih aortne zaklopke (r = -0,245, p = 0,046 in r = -0,318, p = 0,009), krajši XCL pri krajši razdalji med kožo in ascendentno aorto (r = 0,296, p = 0,041), ter daljša XCL in CBP ob medialnih in skrajno lateralnih legah ascendetne aorte v koronarni ravnini (r = 0,248, p = 0,042 in r = 0,284, p = 0,019). V MS skupini ni bilo statistično značilnih odvisnosti med anatomskimi spremenljivkami in časi operativnega posega. V RT skupini smo ugotovili statistično značilno odvisnost med položajem ascendentne aorte v koronarni ravnini in XCL in CBP (r = 0,358; p = 0,015 in r = 0,347; p = 0,018), ter med naklonom ascendente aorte in CPB (r = 0,381; p = 0,009). Glede na rezultate multivariatne analize v RT skupini (p= 0,018) je položaj ascendetne aorte v koronarni ravnini statistično značilen in neodvisen napovedni dejavnik za XCL in CBP (p = 0,005 in p = 0,003). Linearna regresija je predvidela 90 s daljši XCL in 231 s daljši CPB za vsak milimeter manjši premer aortne zaklopke, 12 s daljši XCL za vsak milimeter daljšo razdaljo med kožo in ascendentno aorto, ter 24 s daljši XCL in 60 s daljši CPB za vsak milimeter odstopanja od optimalnega položaja ascendentne aorte v koronarni ravnini, ki je glede na regresijski model 9 mm lateralno od desnega roba prsnice. V drugem delu raziskave med skupinami ni bilo statistično značilnega učinka učne krivulje na XCL (p = 0,16), CBP pa se je med skupinami statistično značilno razlikoval (p = 0,017). Zaključki Pri minimalno invazivni menjavi aortne zaklopke anatomski spremenljivki: premer fibroznega aortnega obročka in položaj ascendentne aorte v koronarni ravnini vplivata na XCL in CBP. Razdalja med kožo in ascendentno aorto pa vpliva na XCL. Daljšemu XCL se ni mogoče izogniti kljub naraščajočim izkušnjam kirurga z neugodnimi anatomskimi razmerami. Glede na ugotovitve raziskave je smiselno predoperativno planiranje in izbor minimalno invazivnih pristopov glede na anatomske značilnosti bolnika.

Language:	Slovenian
Keywords:	Zamenjava aortne zaklopke, Minimalno invazivna kirurgija, Računalniška tomografija, Čas klemanja aorte, Zaščita srčne mišice, Brezšivne zaklopke
Work type:	Doctoral dissertation
Organization:	MF - Faculty of Medicine
Year:	2023
PID:	20.500.12556/RUL-148186
Publication date in RUL:	29.07.2023
Views:	616
Downloads:	27
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Abstract:
Language:	English
Title:	Influence of anatomical circumstances on aortic cross clamp time in minimally invasive aortic valve replacement
Introduction Prolonged aortic cross-clamp time (XCL) and cardiopulmonary bypass time (CPB), potentially leading to increased morbidity and mortality, are a possible drawback of minimally invasive aortic valve replacement. To date, studies has mainly focused on facilitating the procedure with sutureless prosthetic valves. Although anatomical selection criteria are recommended for some minimally invasive surgical approaches, research on the influence of anatomic circumstances in the thorax on operative times is rare and limited. It is also unknown whether the learning curve of the procedure is prolonged in the presence of unfavourable anatomical circumstances. The aim of the first part of this study was to identify the anatomical variables that influence XCL and CPB in minimally invasive aortic valve replacement and to determine the extent of the effect. The second part of the study aims to determine the potential prolongation of the procedure learning curve in the presence of unfavourable anatomical circumstances. Methods 68 patients undergoing minimally invasive aortic valve replacement with sutureless aortic valves and the surgical approaches mini-sternotomy (MS) or mini-thoracotomy (RT) were included in the study. All procedures were standardised and performed by the same surgeon with extensive experience in minimally invasive aortic valve surgery. In the first part, we performed a retrospective study. Patients were allocated into two groups according to the type of minimally invasive surgical approach. Measurements of anatomical variables, namely; aortic dextroposition, aortic depth, aortic inclination, aortic length, skin-to-ascending aorta distance and the thoracic-wall thickness, were performed on preoperative computed tomographic (CT) scans of the thorax. Measurements of the aortic annulus diameter were taken during the surgery. XCL and CPB measurements were obtained from the documentation. In the second part, we performed a retrospective study. Patients with unfavourable anatomical circumstances for minimally invasive aortic valve replacement via the RT approach were identified, chronologically classified and allocated into three groups. XCL and CPB were compared between the groups. Results XCL was shorter in those having MS approach than in those having RT approach (41.1 min vs. 52.3 min; p < 0.001). CPB was not significantly different between groups (p = 0.09). In bivariate analysis of the entire cohort, XCL and CBP were prolonged in smaller aortic annulus (r = -0.245, p = 0.046 and r = -0.318, p = 0.009, respectively), XCL was shorter at a shorter skin-to-ascending aorta distance (r = 0.296, p = 0.041), and XCL and CBP were longer at the medial and most lateral positions of the ascending aorta in the coronal plane (r = 0.248, p = 0.042 and r = 0.284, p = 0.019, respectively). A multivariable (including aortic depth, aortic dextroposition, aortic angulation and aortic annulus diameter variables) linear-regression analysis of the RT group (p = 0.018) found aortic dextroposition was a statistically significant predictor of XCL and CPB (p = 0.005 and p = 0.003, respectively). A linear-regression models predicted 90 s longer XCL and 231 s longer CPB for every 1 mm smaller aortic annulus diameter, 12 s longer XCL for every 1 mm longer skin-to-ascending aorta distance. The optimal aortic position for the RT approach was a 9 mm dextroposition to the sternal edge. A 1 mm deviation from that position prolonged XCL for 24 s and CPB for 60 s. In the second part of the study, there was no statistically significant learning curve effect on XCL (p = 0.16) while CBP was statistically significantly different between groups (p = 0.017). Conclusion In minimally invasive aortic valve replacement, the aortic annulus diameter and the position of the ascending aorta in the coronary plane influence XCL and CBP. The skin-to-ascending aorta distance influences XCL. A prolonged XCL is unavoidable despite the surgeon's increasing experience with unfavourable anatomical circumstances. Considering these results, preoperative planning and selection of minimally invasive approaches according to the anatomical characteristics of the patients is reasonable.
Keywords:	Aortic valve replacement, Minimally invasive surgery, Computed tomography, Aortic cross-clamp time, Myocardial protection, Sutureless valves

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