Alfonso de Jesus Flores Rodriguez, Enrique Monares Zepeda, Karla Joselyne Manríquez- Marines, Mariana Elisa Guillen Camacho, Javier Vazquez Falconi Justiniani, R. D. R. Morelos, Paulina Carpinteyro Espin
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Material And Methods: Material And Methods: A descriptive, observational, single-center, and retrospective study was carried out undergoing living donor kidney transplant patients between June 2022-2023 at the Hospital Juarez de Mexico. Results: 54 patient records were examined, 24 with exclusion criteria. Remaining 30, 18 were female (60%) and 12 were male (40%); Receiver: Age 30.46±11.68 years; Weight: 59.93±11.87kg; Size: 156.20±18.74cm; Hemoglobin: 9.87±1.62g/dl. Prior hemodynamic values to reperfusion: CaO2 (arterial content) 13.44 ± 2.22, CvO2 (venous content) 9.07 ± 2.20, Da-vO2 (arterio-venous difference) 3.67 ± 1.48, CO (cardiac output) 5.65 ± 3.13, VS ( stroke volume) 76.05±41.73, SVR(systemic vascular resistance) 852.61±396.72, DO2(oxygen delivery) 770.89±444.07, VO2(oxygen consumption) 239.33±29.38, EO2(oxygen extraction) 26.83±9.82, PMSF (mean systemic filling pressure) 17.47±3.09 mm Hg with Student's T con values of p<0.05 statistically significant; Hemodynamic values after reperfusion: CaO2 13.3±2.18, CvO2 8.11±1.61, Da-vO2 5.03±1.04, CO 4.57±1.26, VS 62.32±17.41, SVR 1265.97±419.41, DO2 621.66±150.83, VO2 239.33±29.38, EO2 37.62 ±5.28, PMSF 14.27±2.44 mm Hg with Student's T statistically significant values of p<0.05. Conclusions: Undergoing kidney transplantation patients strategies that include the optimization of PMSF, CO and EO2 based on their determinants can be implemented to improve perfusion and oxygenation of kidney transplanted prior kidney graft reperfusion, which in turn contributes to longterm viability and improved quality of life for the transplant recipient.","PeriodicalId":335261,"journal":{"name":"International Journal Of Medical Science And Clinical Research Studies","volume":"5 3","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-02-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Changes in the Gasometric and Hemodynamic Profile upon Graft Reperfusion in Living Donor Kidney Transplant Patients\",\"authors\":\"Alfonso de Jesus Flores Rodriguez, Enrique Monares Zepeda, Karla Joselyne Manríquez- Marines, Mariana Elisa Guillen Camacho, Javier Vazquez Falconi Justiniani, R. D. R. Morelos, Paulina Carpinteyro Espin\",\"doi\":\"10.47191/ijmscrs/v4-i02-29\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Introduction: In the field of medicine, the study of hemodynamics is fundamental to understanding the functioning of the cardiovascular system and its impact on tissue oxygenation. Within this context, crucial parameters such as mean systemic filling pressure (MSFP), cardiac output (CO) and oxygen extraction rate (EO2) play essential roles in regulating tissue perfusion and oxygen delivery to the lungs the vital organs. In the case of kidney transplant recipient patients, the interaction between these parameters acquires unique relevance, given the intimate relationship between cardiovascular function and the new implanted kidney. Material And Methods: Material And Methods: A descriptive, observational, single-center, and retrospective study was carried out undergoing living donor kidney transplant patients between June 2022-2023 at the Hospital Juarez de Mexico. Results: 54 patient records were examined, 24 with exclusion criteria. Remaining 30, 18 were female (60%) and 12 were male (40%); Receiver: Age 30.46±11.68 years; Weight: 59.93±11.87kg; Size: 156.20±18.74cm; Hemoglobin: 9.87±1.62g/dl. Prior hemodynamic values to reperfusion: CaO2 (arterial content) 13.44 ± 2.22, CvO2 (venous content) 9.07 ± 2.20, Da-vO2 (arterio-venous difference) 3.67 ± 1.48, CO (cardiac output) 5.65 ± 3.13, VS ( stroke volume) 76.05±41.73, SVR(systemic vascular resistance) 852.61±396.72, DO2(oxygen delivery) 770.89±444.07, VO2(oxygen consumption) 239.33±29.38, EO2(oxygen extraction) 26.83±9.82, PMSF (mean systemic filling pressure) 17.47±3.09 mm Hg with Student's T con values of p<0.05 statistically significant; Hemodynamic values after reperfusion: CaO2 13.3±2.18, CvO2 8.11±1.61, Da-vO2 5.03±1.04, CO 4.57±1.26, VS 62.32±17.41, SVR 1265.97±419.41, DO2 621.66±150.83, VO2 239.33±29.38, EO2 37.62 ±5.28, PMSF 14.27±2.44 mm Hg with Student's T statistically significant values of p<0.05. Conclusions: Undergoing kidney transplantation patients strategies that include the optimization of PMSF, CO and EO2 based on their determinants can be implemented to improve perfusion and oxygenation of kidney transplanted prior kidney graft reperfusion, which in turn contributes to longterm viability and improved quality of life for the transplant recipient.\",\"PeriodicalId\":335261,\"journal\":{\"name\":\"International Journal Of Medical Science And Clinical Research Studies\",\"volume\":\"5 3\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2024-02-22\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"International Journal Of Medical Science And Clinical Research Studies\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.47191/ijmscrs/v4-i02-29\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"International Journal Of Medical Science And Clinical Research Studies","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.47191/ijmscrs/v4-i02-29","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
摘要
导言:在医学领域,血液动力学研究是了解心血管系统功能及其对组织氧合影响的基础。在此背景下,平均全身充盈压(MSFP)、心输出量(CO)和析氧率(EO2)等关键参数在调节组织灌注和向肺部等重要器官输送氧气方面发挥着至关重要的作用。鉴于心血管功能与新植入肾脏之间的密切关系,这些参数之间的相互作用对肾移植受体患者具有独特的意义。材料和方法材料与方法:2022 年 6 月至 2023 年 6 月期间,墨西哥华雷斯医院对活体肾移植患者进行了一项描述性、观察性、单中心和回顾性研究。研究结果共检查了 54 份病历,其中 24 份符合排除标准。其余 30 例中,18 例为女性(占 60%),12 例为男性(占 40%);受者:年龄:30.46±11.68 岁;体重:59.93±11.87 千克;身高:156.20±18.74 厘米;血红蛋白:9.87±1.62 克/分升。再灌注前的血流动力学值:CaO2(动脉含量)13.44±2.22,CvO2(静脉含量)9.07±2.20,Da-vO2(动静脉差)3.67±1.48,CO(心输出量)5.65±3.13,VS(每搏量)76.05±41.73,SVR(全身血管阻力)852.61±396.72,DO2(氧输送量)770.89±444.07, VO2(oxygen consumption) 239.33±29.38, EO2(oxygen extraction) 26.83±9.82, PMSF(mean systemic filling pressure) 17.47±3.09 mm Hg with Student's T con values of p<0.05 statistically significant; Hemodynamic values after reperfusion:CaO2为13.3±2.18,CvO2为8.11±1.61,Da-vO2为5.03±1.04,CO为4.57±1.26,VS为62.32±17.41,SVR为1265.97±419.41,DO2为621.66±150.83,VO2为239.33±29.38,EO2为37.62±5.28,PMSF为14.27±2.44 mm Hg,Student's T con值为p<0.05,有统计学意义。结论接受肾移植的患者可根据PMSF、CO和EO2的决定因素实施包括优化PMSF、CO和EO2在内的策略,以改善肾移植再灌注前肾脏的灌注和氧合,进而有助于移植受体的长期存活和生活质量的改善。
Changes in the Gasometric and Hemodynamic Profile upon Graft Reperfusion in Living Donor Kidney Transplant Patients
Introduction: In the field of medicine, the study of hemodynamics is fundamental to understanding the functioning of the cardiovascular system and its impact on tissue oxygenation. Within this context, crucial parameters such as mean systemic filling pressure (MSFP), cardiac output (CO) and oxygen extraction rate (EO2) play essential roles in regulating tissue perfusion and oxygen delivery to the lungs the vital organs. In the case of kidney transplant recipient patients, the interaction between these parameters acquires unique relevance, given the intimate relationship between cardiovascular function and the new implanted kidney. Material And Methods: Material And Methods: A descriptive, observational, single-center, and retrospective study was carried out undergoing living donor kidney transplant patients between June 2022-2023 at the Hospital Juarez de Mexico. Results: 54 patient records were examined, 24 with exclusion criteria. Remaining 30, 18 were female (60%) and 12 were male (40%); Receiver: Age 30.46±11.68 years; Weight: 59.93±11.87kg; Size: 156.20±18.74cm; Hemoglobin: 9.87±1.62g/dl. Prior hemodynamic values to reperfusion: CaO2 (arterial content) 13.44 ± 2.22, CvO2 (venous content) 9.07 ± 2.20, Da-vO2 (arterio-venous difference) 3.67 ± 1.48, CO (cardiac output) 5.65 ± 3.13, VS ( stroke volume) 76.05±41.73, SVR(systemic vascular resistance) 852.61±396.72, DO2(oxygen delivery) 770.89±444.07, VO2(oxygen consumption) 239.33±29.38, EO2(oxygen extraction) 26.83±9.82, PMSF (mean systemic filling pressure) 17.47±3.09 mm Hg with Student's T con values of p<0.05 statistically significant; Hemodynamic values after reperfusion: CaO2 13.3±2.18, CvO2 8.11±1.61, Da-vO2 5.03±1.04, CO 4.57±1.26, VS 62.32±17.41, SVR 1265.97±419.41, DO2 621.66±150.83, VO2 239.33±29.38, EO2 37.62 ±5.28, PMSF 14.27±2.44 mm Hg with Student's T statistically significant values of p<0.05. Conclusions: Undergoing kidney transplantation patients strategies that include the optimization of PMSF, CO and EO2 based on their determinants can be implemented to improve perfusion and oxygenation of kidney transplanted prior kidney graft reperfusion, which in turn contributes to longterm viability and improved quality of life for the transplant recipient.
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