Intraoperative blood salvage in proximal femur epiphysiolysis surgical treatment with hip controlled dislocation technique: a case series study

Colares, Paulo Giordano Baima; Carlos, Luciana Maria de Barros; Ramos, Melina Cristino de Menezes Frota; Campos, Caio Prado Siqueira; Nascimento, Velma Dias do; Cassiano, Janete Galvão Martins; Valente, Thiago Maciel

doi:10.1016/j.bjane.2021.02.061

Abstract

Objectives

To report a case series of Intraoperative Blood Salvage (IOS) in surgeries during the treatment for Slipped Capital Femoral Epiphysis (SCFE) with controlled dislocation of the hip, identifying its efficacy, complications, and the profile of patients with SCFE.

Methods

Descriptive study reporting a case series, comprising patients seen between January 2016 and March 2018, diagnosed with SCFE, and treated with controlled surgical dislocation of the hip using IOS.

Results

Sample comprised of 15 patients, with a mean age of 13.1 years. The most affected side was the left with 8 cases. None of the patients required allogeneic blood in the postoperative period. Mean pre- and postoperative hemoglobin were 13.2 and 11.2 g.dL^-1, respectively, and mean hemoglobin difference was 1.8 g.dL^-1. Mean pre- and postoperative hematocrit were 39.13% and 33.20%, respectively, and mean hematocrit difference was 5.52%. No intraoperative complications were observed. One patient presented vomiting and another one, wound infection in the postoperative period.

Conclusion

IOS was an alternative blood salvage approach and prevented allogeneic blood transfusion, enabling reduction of potential complications.

Keywords
Epiphysis, slipped; Blood transfusion, autologous; Operative blood salvage

Introduction

Slipped Capital Femoral Epiphysis (SCFE) is a condition that affects the hip of pre-adolescents and adolescents, characterized by an anterior slippage of the metaphysis of the femur neck on the subjacent proximal epiphysis due to a damaged physis. If untreated, the two major risks of the condition are: (1) progression to slipping and deformity, and (2) femoroacetabular impingement with consequent degeneration and progression to early hip arthrosis.¹1 Loder RT, Aronsson DD, Dobbs MB, Weinstein SL. Slipped capital femoral epiphysis. JBJS. 2000;82:1170.^,²2 Crestani MV, Telöken MA, Gusmão PDF. Impacto femoroacetabular: uma das condições precursoras da osteoartrose do quadril. Rev Bras Ortop. 2006;41:285-293.

Several techniques are used for adult patients to attempt to reduce blood loss and consequently reduce homologous blood transfusion requirements during major surgeries with anticipated large blood loss, such as: (1) acute normovolemic hemodilution, (2) hypervolemic hemodilution, (3) controlled hypotension, (4) antifibrinolytics, (5) autologous blood transfusion, and (6) intraoperative blood salvage (IOS).³3 Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Pediatr Anesth. 2011;21:14-24. These techniques tend to be neglected, however for pediatric patients.⁴4 Conceição MJD. Blood transfusion in pediatric patients and strategies to decrease it: a reevaluation. Rev Bras Anestesiol. 2004;54:276-282.

IOS is a technique that uses dedicated equipment that enables blood to be collected from the surgical wound and infused back to the circulatory system of the patient, intraoperatively.⁵5 Davies L, Brown TJ, Haynes S, Payne K, Elliott RA, McCollum C. Cost-effectiveness of cell salvage and alternative methods of minimising perioperative allogeneic blood transfusion: a systematic review and economic model. Health Technol Assess. 2006;10:1-210. The technique has proved to be an effective method to avoid allogenic blood transfusion,⁵5 Davies L, Brown TJ, Haynes S, Payne K, Elliott RA, McCollum C. Cost-effectiveness of cell salvage and alternative methods of minimising perioperative allogeneic blood transfusion: a systematic review and economic model. Health Technol Assess. 2006;10:1-210.^,⁶6 Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. Cochrane Database Syst Rev. 2010;4:. and has been employed with satisfactory results in orthopedic surgeries both for adults⁶6 Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. Cochrane Database Syst Rev. 2010;4:.^,⁷7 Buget MI, Dikici F, Edipoğlu İS, Yıldız E, Valiyev N, Kucukay S. Dois anos de experiência com recuperação intraoperatória de sangue em artroplastia total do quadril. Braz J Anesthesiol. 2016;66:276-282. and pediatric patients.⁸8 Bowen RE, Gardner S, Scaduto AA, Eagan M, Beckstead J. Efficacy of intraoperative cell salvage systems in pediatric idiopathic scoliosis patients undergoing posterior spinal fusion with segmental spinal instrumentation. Spine. 2010;35:246-251.^–¹⁰10 Nicolai P, Leggetter PP, Glithero PR, Bhimarasetty CR. Autologous transfusion in acetabuloplasty in children. J Bone Joint Surg Br. 2004;86:110-112. Its use is substantiated in pediatrics when an appropriate strategy is required to avoid blood loss.¹¹11 Samnaliev M, Tran CM, Sloan SR, Gasior I, Lightdale JR, Brustowicz RM. Economic evaluation of cell salvage in pediatric surgery. Pediatr Anesth. 2013;23:1027-1034.^,¹²12 Oliveira JA, Façanha Filho FA, Fernandes FV, Almeida PC, Oliveira VF, Verde SRL. Is cell salvage cost-effective in posterior arthrodesis for adolescent idiopathic scoliosis in the public health system?. J Spine Surg. 2017;3:2. Therefore, it does not seem to bring about a negative impact on the clinical outcome of these patients.⁶6 Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. Cochrane Database Syst Rev. 2010;4:.

Despite the benefits of using IOS in orthopedic surgeries already described in the medical literature, there is lack of data as to its use in hip surgeries and, more specifically, in controlled hip surgical dislocation for SCFE, a major surgery with major blood loss. The present report aimed to describe and analyze the experience of a series of cases with IOS during surgeries to treat SCFE using controlled surgical dislocation of the hip, regarding clinical and economical aspects, and assessing its efficacy.

Methods

The study is a case series based on the recommendations of the Case Report (CARE) guidelines.¹³13 Riley DS, Barber MS, Kienle GS, Aronson JK, von Schoen-Angerer T, Tugwell P. CARE guidelines for case reports: explanation and elaboration document. J Clin Epidemiol. 2017;89:218-235. It was carried out at a tertiary trauma hospital, with a sample comprised of patients seen in the period between January 2016 and March 2018, all diagnosed with SCFE and classified as both stable and unstable, and severe (slip angle > 50).¹⁴14 Loder RT, Richards BS, Shapiro PS, Reznick LR, Aronson DD. Acute slipped capital femoral epiphysis: the importance of physeal stability. J Bone Joint Surg Am. 1993;75:1134-1140.^,¹⁵15 Southwick WO. Compression fixation after biplane intertrochanteric osteotomy for slipped capital femoral epiphysis: a technical improvement. JBJS. 1973;55:1218-1224. All were submitted to treatment by controlled dislocation of the hip using the Ganz technique and blood reinfusion by IOS during surgery.

Exclusion criteria considered were patients in whom IOS was not used, and those treated by other surgical techniques. The present work was submitted to and approved by the Institutional Ethics and Research Committee of Hospital Instituto Doutor José Frota.

The transfusion team responsible for using the IOS equipment took part in the surgical planning for each surgery. The equipment model used was the Autolog®. Intraoperative bleeding of each patient was collected, processed by the equipment, and afterwards reinfused to patients’ circulatory system, by the anesthesia team, right after the end of the surgical stages with major risks of blood loss, that is, at the final moments of the surgical act. It is important to underscore that autologous blood, after processed, occasionally can be infused early in case of intraoperative hemodynamic instability, a scenario that did not occur during the surgeries of the patients of the present sample. It is also convenient to point out that all patients were operated on by the same surgeon.

The medical charts of patients who met inclusion criteria were analyzed, including clinical data and laboratory tests, such as preoperative and 6-h postoperative hemoglobin and hematocrit values.

Finally, data was collected at the blood center regarding costs related to IOS procedure and costs related to the transfusion of packed Red Blood Cell (RBC) bags, allowing for the comparison of intrinsic costs of both procedures. Data collected were analyzed using the Excel program after structuring tables.

Results

During the period analyzed, 17 surgical procedures were performed on 16 patients to treat SCFE using IOS in the trans-operative period. We excluded one patient who was not submitted to blood salvage due to low-rate intraoperative bleeding, and the blood collected was not sufficient to fill one bowl – part of the equipment that works as a recipient, directing what is collected to the centrifuge. Thus, there was a total of 15 procedures on 15 patients (Table 1).

Thumbnail

Table 1
Patients that comprised the sample.

The mean patient age observed was 13.1 years (9–17 years), with a predominance of men, 11 cases (78%), and the left hip was more frequently affected in 8 cases (53%).

Of the 15 procedures in which blood was salvaged, the mean re-infused volume was 216.06 mL (119 to 369 mL) from a mean volume suctioned from the surgical wound of 442.2 mL (250 to 550). Mean preoperative and postoperative hemoglobin were 13.2 g.dL^-1 (12 to 14.4) and 11.2 g.dL^-1 (9.1 to 15.3), respectively. The mean difference in hemoglobin variation was 1.80 g.dL^-1 (-0.9 to 3.2) for patients for which there was intraoperative blood salvage. Mean preoperative and postoperative hematocrit were 39.13% (34.4 to 44.4), and 33.20% (29 to 46.9), respectively. The mean difference in hematocrit variation for patients with blood salvage was 5.52% (-3.3 to 9.8). The results of means and differences in hemoglobin and hematocrit are presented in Table 2.

Thumbnail

Table 2
Values and differences in Hemoglobin (Hb) and Hematocrit (Ht).

It is worth underlining that a higher level of postoperative hematocrit and hemoglobin were observed in comparison to preoperative measurements for 2 patients of the study who received IOS.

No intraoperative events were found, albeit, 1 (7.1%) patient presented vomiting on the first postoperative day, and 1 (7.1%) patient presented surgical wound infection after 3 days. It is worth to point out that none of the patients in the study required allogenic blood transfusion during the postoperative period, and none of the limbs required reoperation.

Total costs of the IOS procedure were R$751.62 (approximately US$141 according to quote of September 14, 2020) per procedure, including prices of material used and professional fees.

Discussion

The treatment of SCFE is surgical, mainly aimed at avoiding progression of deformity.¹⁶16 Ravinsky R, Rofaiel J, Escott BG, Lim Z, Ravi B, Howard A. Epidemiology of slipped capital femoral epiphysis in Ontario, Canada. J Pediatr Orthop. 2019;39:E165-7. The controlled surgical dislocation of the hip is a procedure to rebuild and stabilize slipping of the proximal femoral epiphysis in order to restore full functionality. The surgical technique has a long learning curve, and is considered a major surgical procedure, anticipating major trans-operative bleeding. Thus, it is indispensable to use blood salvage strategies.

In a Cochrane review that analyzed 75 randomized studies between 1979 and 2008, orthopedic surgeries that used IOS presented a 54% reduction in allogenic transfusion requirements.¹⁷17 Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. In: Carless PA, editor. Cochrane Database of Systematic Reviews [Internet]. Chichester, UK: John Wiley & Sons, Ltd; 2010 [cited 2020 Jan 16]. Available from: http://doi.wiley.com/10.1002/14651858.CD001888.pub3
http://doi.wiley.com/10.1002/14651858.CD... Less allogenic transfusions proved beneficial to prevent using low quality red blood cells with less flexible membranes, lower levels of enzymes responsible for oxygen delivery and more likely to undergo hemolysis, when compared to RBC collected during IOS.¹⁸18 Frank SM, Abazyan B, Ono M, et al. Decreased erythrocyte deformability after transfusion and the effects of erythrocyte storage duration. Anesth Analg [Internet]. 2013;116:975-981.^–²⁰20 Frank SM, Sikorski RA, Konig G, et al. Clinical utility of autologous salvaged blood: a review. J Gastrointest Surg. 2020;24:464-472.

Decrease in allogenic blood use also has advantages by decreasing patient exposure to post blood transfusion complications. Among them, we point out infections such as HIV or hepatitis B and C; and non-infectious complications, associated with a higher mortality risk,²²22 Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Paediatr Anaesth. 2011;21:14-24. such as anaphylactic reaction, acute pulmonary injury, immunosuppression, and acute or late transfusion hemolytic reaction.²¹21 Machado S, Pinto R, Araújo F, Coutinho AM, Seara M, Moura AM, Oliveira P. Impacto da re-infusão de sangue autólogo na necessidade de transfusão de sangue alogénico após Artroplastia Total do Joelho: Resultados de um ensaio clínico controlado e randomizado. Rev Port Ortop Traum. 2017;25:283-291. Children are more susceptible to adverse effects, given individuals under 18 years present an incidence of 18 per 100 thousand transfusions, and the reported incidence in children under 1 year, is 37 per 100 thousand transfusions.²³23 Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Pediatr Anesth. 2011;21:14-24.

Although IOS is a procedure with visible benefits, it is not exempt of risks and rare complications. Potential incidents have been described, such as hydro electrolytic disorders, gas or fat embolism and coagulation disorders, given platelets and coagulation factors are not recovered.²⁴24 Kuppurao L, Wee M. Perioperative cell salvage. Contin Educ Anaesthesia. Crit Care Pain. 2010;10:104-108. Notwithstanding, in the abovementioned Cochrane review, adverse effects and complications were not statistically relevant to establish an association with IOS, or the need for new surgeries, thromboses, or extended length of hospital stay.¹⁷17 Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. In: Carless PA, editor. Cochrane Database of Systematic Reviews [Internet]. Chichester, UK: John Wiley & Sons, Ltd; 2010 [cited 2020 Jan 16]. Available from: http://doi.wiley.com/10.1002/14651858.CD001888.pub3
http://doi.wiley.com/10.1002/14651858.CD... None of the patients of the present study presented any of the complications mentioned.

In our study, one of the patients presented vomiting in the postoperative period, that was controlled with antiemetic medication. Another patient presented seropurulent exudate in the surgical wound, that improved clinically with intravenous antibiotics. It is important to point out that there were no hematological complications, such as hemolysis.

Indication of IOS is considered for patients with risks of bleeding above 10% of the blood volume, that is, generally, about 500 mL.²⁵25 Klein AA, Bailey CR, Charlton AJ, et al. Association of anaesthetists guidelines: cell salvage for peri-operative blood conservation 2018. Anaesthesia [Internet]. 2018;73:1141-1150.^,²⁶26 Esper SA, Waters JH. Intra-operative cell salvage: A fresh look at the indications and contraindications. Blood Transfus. 2011;9:139-147. In pediatrics, in turn, indication is for patients with an estimated loss above 8 mL.kg^-1 for children over 10 years of age.²⁵25 Klein AA, Bailey CR, Charlton AJ, et al. Association of anaesthetists guidelines: cell salvage for peri-operative blood conservation 2018. Anaesthesia [Internet]. 2018;73:1141-1150. Moreover, another indication would be patients who cannot undergo allogenic transfusion for religious imposition, and IOS is an alternative.²⁶26 Esper SA, Waters JH. Intra-operative cell salvage: A fresh look at the indications and contraindications. Blood Transfus. 2011;9:139-147. There are no absolute contraindications for performing IOS.²⁶26 Esper SA, Waters JH. Intra-operative cell salvage: A fresh look at the indications and contraindications. Blood Transfus. 2011;9:139-147.

In a controlled study of 2019 with IOS in hip surgeries, the authors observed a higher mean in the levels of blood hemoglobin (11.2 g.dL^-1) in the group in which IOS was used, than in the control group that did not use it (8.2 g.dL^-1). Mean hematocrit levels in the group with IOS was 33%, while for the control group, mean hematocrit value was 25%.²⁷27 Nunes NG, Alberto J, Oliveira A, et al. A recuperação intraoperatória de células sanguíneas é eficaz em cirurgias de quadril? In: Ã Is Intraoperative Blood Cell Salvage Effective in Hip Surgery?; 2019 [cited 2020 Jan 16]. However, several surgical techniques and age groups were assessed, making the comparison limited for the study. Literature data on the treatment of scoliosis also have shown that IOS is capable of providing higher postoperative hemoglobin levels than in the control group.²⁸28 Liu JM, Fu BQ, Chen WZ, Chen JW, Huang SH, Liu ZL. Cell salvage used in scoliosis surgery: is it really effective?. World Neurosurg. 2017;101:568-576.

Due to ethical limitations, the present study could not use a control group for comparison, given there is no standard procedure in the literature besides the technique used. Despite the limitation, the authors reported the excluded patient in the analysis, given the patient did not receive intraoperative IOS reinfusion and presented the highest variation in the level of pre and postoperative hemoglobin and hematocrit, with a 4.3 g.dL^-1 and 11.9% decrease, respectively.

From what has been shown form the costs standpoint, IOS seems to have an economic advantage for the health system, reducing costs in pediatric surgeries and in spine surgeries in adolescents.¹¹11 Samnaliev M, Tran CM, Sloan SR, Gasior I, Lightdale JR, Brustowicz RM. Economic evaluation of cell salvage in pediatric surgery. Pediatr Anesth. 2013;23:1027-1034.^,¹²12 Oliveira JA, Façanha Filho FA, Fernandes FV, Almeida PC, Oliveira VF, Verde SRL. Is cell salvage cost-effective in posterior arthrodesis for adolescent idiopathic scoliosis in the public health system?. J Spine Surg. 2017;3:2. Fixed intrinsic costs of the IOS procedure are equivalent to the costs of producing packed RBC when the amount of blood salvaged is approximately 2.35 units of RBC (each unit has an average 280 mL).¹²12 Oliveira JA, Façanha Filho FA, Fernandes FV, Almeida PC, Oliveira VF, Verde SRL. Is cell salvage cost-effective in posterior arthrodesis for adolescent idiopathic scoliosis in the public health system?. J Spine Surg. 2017;3:2. IOS was observed to be more economical when bleeding was approximately 500 to 600 mL in another study in spine surgeries.²⁹29 Gum JL, Carreon LY, Kelly MP, et al. Cell Saver for adult spinal deformity surgery reduces cost. Spine Deform. 2017;5:272-276.

Similar results were found in the present study. Total costs of IOS were calculated as approximately R$751,00 (roughly US$141, on September 14, 2020) per procedure. Therefore, this figure is equivalent to the costs of 2.38 units packed RBC, given the cost of one unit of packed RBC is R$315.18 (approximately US$59 on the same date above) Therefore, in major surgeries, such as in controlled surgical dislocation of the hip, when more than one bag of RBC is required for hemodynamic stabilization of the patient, IOS can be a beneficial strategy.

However, in addition to comparison of financial costs between IOS and transfusion of allogenic RBC, there are also factors for which pricing is challenging. The difficulty is inherent to collecting RBC, because it depends on donors, which makes it a low availability resource in the health system, mainly for less prevalent blood types and for patients with blood incompatibility factors.

Conclusion

This case series suggests IOS as an efficient alternative to decrease allogenic blood transfusion during surgical repair of slipped capital femoral epiphysis. The study showed that IOS is a safe technique with minimum complications and can be an alternative to reduce costs when re-infusion of higher volumes of blood are required. Furthermore, we suggest the need for further studies to better characterize IOS as an efficient, safe and cost-beneficial technique for several surgical procedures.

References

¹
Loder RT, Aronsson DD, Dobbs MB, Weinstein SL. Slipped capital femoral epiphysis. JBJS. 2000;82:1170.
²
Crestani MV, Telöken MA, Gusmão PDF. Impacto femoroacetabular: uma das condições precursoras da osteoartrose do quadril. Rev Bras Ortop. 2006;41:285-293.
³
Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Pediatr Anesth. 2011;21:14-24.
⁴
Conceição MJD. Blood transfusion in pediatric patients and strategies to decrease it: a reevaluation. Rev Bras Anestesiol. 2004;54:276-282.
⁵
Davies L, Brown TJ, Haynes S, Payne K, Elliott RA, McCollum C. Cost-effectiveness of cell salvage and alternative methods of minimising perioperative allogeneic blood transfusion: a systematic review and economic model. Health Technol Assess. 2006;10:1-210.
⁶
Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. Cochrane Database Syst Rev. 2010;4:.
⁷
Buget MI, Dikici F, Edipoğlu İS, Yıldız E, Valiyev N, Kucukay S. Dois anos de experiência com recuperação intraoperatória de sangue em artroplastia total do quadril. Braz J Anesthesiol. 2016;66:276-282.
⁸
Bowen RE, Gardner S, Scaduto AA, Eagan M, Beckstead J. Efficacy of intraoperative cell salvage systems in pediatric idiopathic scoliosis patients undergoing posterior spinal fusion with segmental spinal instrumentation. Spine. 2010;35:246-251.
⁹
Mirza AH, Aldlyami E, Bhimarasetty C, Thompson AG, Spilsbury J, Marks DS. The role of peri-operative cell salvage in instrumented anterior correction of thoracolumbar scoliosis: a case-controlled study. Acta Orthop Belg. 2009;75:87-93.
¹⁰
Nicolai P, Leggetter PP, Glithero PR, Bhimarasetty CR. Autologous transfusion in acetabuloplasty in children. J Bone Joint Surg Br. 2004;86:110-112.
¹¹
Samnaliev M, Tran CM, Sloan SR, Gasior I, Lightdale JR, Brustowicz RM. Economic evaluation of cell salvage in pediatric surgery. Pediatr Anesth. 2013;23:1027-1034.
¹²
Oliveira JA, Façanha Filho FA, Fernandes FV, Almeida PC, Oliveira VF, Verde SRL. Is cell salvage cost-effective in posterior arthrodesis for adolescent idiopathic scoliosis in the public health system?. J Spine Surg. 2017;3:2.
¹³
Riley DS, Barber MS, Kienle GS, Aronson JK, von Schoen-Angerer T, Tugwell P. CARE guidelines for case reports: explanation and elaboration document. J Clin Epidemiol. 2017;89:218-235.
¹⁴
Loder RT, Richards BS, Shapiro PS, Reznick LR, Aronson DD. Acute slipped capital femoral epiphysis: the importance of physeal stability. J Bone Joint Surg Am. 1993;75:1134-1140.
¹⁵
Southwick WO. Compression fixation after biplane intertrochanteric osteotomy for slipped capital femoral epiphysis: a technical improvement. JBJS. 1973;55:1218-1224.
¹⁶
Ravinsky R, Rofaiel J, Escott BG, Lim Z, Ravi B, Howard A. Epidemiology of slipped capital femoral epiphysis in Ontario, Canada. J Pediatr Orthop. 2019;39:E165-7.
¹⁷
Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. In: Carless PA, editor. Cochrane Database of Systematic Reviews [Internet]. Chichester, UK: John Wiley & Sons, Ltd; 2010 [cited 2020 Jan 16]. Available from: http://doi.wiley.com/10.1002/14651858.CD001888.pub3
» http://doi.wiley.com/10.1002/14651858.CD001888.pub3
¹⁸
Frank SM, Abazyan B, Ono M, et al. Decreased erythrocyte deformability after transfusion and the effects of erythrocyte storage duration. Anesth Analg [Internet]. 2013;116:975-981.
¹⁹
Scott AV, Nagababu E, Johnson DJ, et al. 2,3-Diphosphoglycerate concentrations in autologous salvaged versus stored red blood cells and in surgical patients after transfusion. Anesth Analg [Internet]. 2016;122:616-623.
²⁰
Frank SM, Sikorski RA, Konig G, et al. Clinical utility of autologous salvaged blood: a review. J Gastrointest Surg. 2020;24:464-472.
²¹
Machado S, Pinto R, Araújo F, Coutinho AM, Seara M, Moura AM, Oliveira P. Impacto da re-infusão de sangue autólogo na necessidade de transfusão de sangue alogénico após Artroplastia Total do Joelho: Resultados de um ensaio clínico controlado e randomizado. Rev Port Ortop Traum. 2017;25:283-291.
²²
Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Paediatr Anaesth. 2011;21:14-24.
²³
Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Pediatr Anesth. 2011;21:14-24.
²⁴
Kuppurao L, Wee M. Perioperative cell salvage. Contin Educ Anaesthesia. Crit Care Pain. 2010;10:104-108.
²⁵
Klein AA, Bailey CR, Charlton AJ, et al. Association of anaesthetists guidelines: cell salvage for peri-operative blood conservation 2018. Anaesthesia [Internet]. 2018;73:1141-1150.
²⁶
Esper SA, Waters JH. Intra-operative cell salvage: A fresh look at the indications and contraindications. Blood Transfus. 2011;9:139-147.
²⁷
Nunes NG, Alberto J, Oliveira A, et al. A recuperação intraoperatória de células sanguíneas é eficaz em cirurgias de quadril? In: Ã Is Intraoperative Blood Cell Salvage Effective in Hip Surgery?; 2019 [cited 2020 Jan 16].
²⁸
Liu JM, Fu BQ, Chen WZ, Chen JW, Huang SH, Liu ZL. Cell salvage used in scoliosis surgery: is it really effective?. World Neurosurg. 2017;101:568-576.
²⁹
Gum JL, Carreon LY, Kelly MP, et al. Cell Saver for adult spinal deformity surgery reduces cost. Spine Deform. 2017;5:272-276.

Publication Dates

Publication in this collection
20 Sept 2021
Date of issue
Sep-Oct 2021

History

Received
5 May 2020
Accepted
6 Feb 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] ¹
Loder RT, Aronsson DD, Dobbs MB, Weinstein SL. Slipped capital femoral epiphysis. JBJS. 2000;82:1170.

[2] ²
Crestani MV, Telöken MA, Gusmão PDF. Impacto femoroacetabular: uma das condições precursoras da osteoartrose do quadril. Rev Bras Ortop. 2006;41:285-293.

[3] ³
Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Pediatr Anesth. 2011;21:14-24.

[4] ⁴
Conceição MJD. Blood transfusion in pediatric patients and strategies to decrease it: a reevaluation. Rev Bras Anestesiol. 2004;54:276-282.

[5] ⁵
Davies L, Brown TJ, Haynes S, Payne K, Elliott RA, McCollum C. Cost-effectiveness of cell salvage and alternative methods of minimising perioperative allogeneic blood transfusion: a systematic review and economic model. Health Technol Assess. 2006;10:1-210.

[6] ⁶
Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. Cochrane Database Syst Rev. 2010;4:.

[7] ⁷
Buget MI, Dikici F, Edipoğlu İS, Yıldız E, Valiyev N, Kucukay S. Dois anos de experiência com recuperação intraoperatória de sangue em artroplastia total do quadril. Braz J Anesthesiol. 2016;66:276-282.

[8] ⁸
Bowen RE, Gardner S, Scaduto AA, Eagan M, Beckstead J. Efficacy of intraoperative cell salvage systems in pediatric idiopathic scoliosis patients undergoing posterior spinal fusion with segmental spinal instrumentation. Spine. 2010;35:246-251.

[9] ⁹
Mirza AH, Aldlyami E, Bhimarasetty C, Thompson AG, Spilsbury J, Marks DS. The role of peri-operative cell salvage in instrumented anterior correction of thoracolumbar scoliosis: a case-controlled study. Acta Orthop Belg. 2009;75:87-93.

[10] ¹⁰
Nicolai P, Leggetter PP, Glithero PR, Bhimarasetty CR. Autologous transfusion in acetabuloplasty in children. J Bone Joint Surg Br. 2004;86:110-112.

[11] ¹¹
Samnaliev M, Tran CM, Sloan SR, Gasior I, Lightdale JR, Brustowicz RM. Economic evaluation of cell salvage in pediatric surgery. Pediatr Anesth. 2013;23:1027-1034.

[12] ¹²
Oliveira JA, Façanha Filho FA, Fernandes FV, Almeida PC, Oliveira VF, Verde SRL. Is cell salvage cost-effective in posterior arthrodesis for adolescent idiopathic scoliosis in the public health system?. J Spine Surg. 2017;3:2.

[13] ¹³
Riley DS, Barber MS, Kienle GS, Aronson JK, von Schoen-Angerer T, Tugwell P. CARE guidelines for case reports: explanation and elaboration document. J Clin Epidemiol. 2017;89:218-235.

[14] ¹⁴
Loder RT, Richards BS, Shapiro PS, Reznick LR, Aronson DD. Acute slipped capital femoral epiphysis: the importance of physeal stability. J Bone Joint Surg Am. 1993;75:1134-1140.

[15] ¹⁵
Southwick WO. Compression fixation after biplane intertrochanteric osteotomy for slipped capital femoral epiphysis: a technical improvement. JBJS. 1973;55:1218-1224.

[16] ¹⁶
Ravinsky R, Rofaiel J, Escott BG, Lim Z, Ravi B, Howard A. Epidemiology of slipped capital femoral epiphysis in Ontario, Canada. J Pediatr Orthop. 2019;39:E165-7.

[17] ¹⁷
Carless PA, Henry DA, Moxey AJ, O’Connell D, Brown T, Fergusson DA. Cell salvage for minimising perioperative allogeneic blood transfusion. In: Carless PA, editor. Cochrane Database of Systematic Reviews [Internet]. Chichester, UK: John Wiley & Sons, Ltd; 2010 [cited 2020 Jan 16]. Available from: http://doi.wiley.com/10.1002/14651858.CD001888.pub3
» http://doi.wiley.com/10.1002/14651858.CD001888.pub3

[18] ¹⁸
Frank SM, Abazyan B, Ono M, et al. Decreased erythrocyte deformability after transfusion and the effects of erythrocyte storage duration. Anesth Analg [Internet]. 2013;116:975-981.

[19] ¹⁹
Scott AV, Nagababu E, Johnson DJ, et al. 2,3-Diphosphoglycerate concentrations in autologous salvaged versus stored red blood cells and in surgical patients after transfusion. Anesth Analg [Internet]. 2016;122:616-623.

[20] ²⁰
Frank SM, Sikorski RA, Konig G, et al. Clinical utility of autologous salvaged blood: a review. J Gastrointest Surg. 2020;24:464-472.

[21] ²¹
Machado S, Pinto R, Araújo F, Coutinho AM, Seara M, Moura AM, Oliveira P. Impacto da re-infusão de sangue autólogo na necessidade de transfusão de sangue alogénico após Artroplastia Total do Joelho: Resultados de um ensaio clínico controlado e randomizado. Rev Port Ortop Traum. 2017;25:283-291.

[22] ²²
Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Paediatr Anaesth. 2011;21:14-24.

[23] ²³
Lavoie J. Blood transfusion risks and alternative strategies in pediatric patients. Pediatr Anesth. 2011;21:14-24.

[24] ²⁴
Kuppurao L, Wee M. Perioperative cell salvage. Contin Educ Anaesthesia. Crit Care Pain. 2010;10:104-108.

[25] ²⁵
Klein AA, Bailey CR, Charlton AJ, et al. Association of anaesthetists guidelines: cell salvage for peri-operative blood conservation 2018. Anaesthesia [Internet]. 2018;73:1141-1150.

[26] ²⁶
Esper SA, Waters JH. Intra-operative cell salvage: A fresh look at the indications and contraindications. Blood Transfus. 2011;9:139-147.

[27] ²⁷
Nunes NG, Alberto J, Oliveira A, et al. A recuperação intraoperatória de células sanguíneas é eficaz em cirurgias de quadril? In: Ã Is Intraoperative Blood Cell Salvage Effective in Hip Surgery?; 2019 [cited 2020 Jan 16].

[28] ²⁸
Liu JM, Fu BQ, Chen WZ, Chen JW, Huang SH, Liu ZL. Cell salvage used in scoliosis surgery: is it really effective?. World Neurosurg. 2017;101:568-576.

[29] ²⁹
Gum JL, Carreon LY, Kelly MP, et al. Cell Saver for adult spinal deformity surgery reduces cost. Spine Deform. 2017;5:272-276.

Patients	Sex	Hb (g.dL^-1)		Total volume suction from wound (mL)	Volume recovered (mL)	Age	Side
Patients	Sex	Preoperative	Postoperative	Total volume suction from wound (mL)	Volume recovered (mL)	Age	Side
1	Male	12.5	11.6	544	140	13	Right
2	Female	12.8	10.3	479	157	13	Left
3	Male	12.3	10.2	550	192	13	Left
4	Male	13.2	10	468	338	15	Right
5	Male	13	11.9	549	220	9	Left
6	Male	13.8	11.6	532	334	15	Left
7	Male	13.1	11.6	413	128	14	Right
8	Female	12	10.2	363	213	11	Right
9	Male	14	11.3	250	119	16	Right
10	Male	13.5	11.6	549	369	14	Left
11	Male	14.4	15.3	371	204	17	Left
12	Female	13.2	9.7	379	200	13	Right
13	Female	12.8	10	315	147	11	Left
14	Male	13.5	11.5	534	315	14	Left
15	Male	13.7	14	338	165	12	Right

	Mean	Variation
Pre Hb (g.dL^-1)	13.2	12 to 14.4
Post Hb (g.dL^-1)	11.2	9.1 to 15.2
Difference in Hb (g.dL^-1)	1.8	-0.9 to 4.3
Pre Ht (%)	39.13	34.3 to 44.4
Post Ht (%)	33.2	29 to 46.9
Difference in Ht (%)	5.52	-3.3 to 11.9

Brasil

Brasil

Intraoperative blood salvage in proximal femur epiphysiolysis surgical treatment with hip controlled dislocation technique: a case series study

Abstract

Objectives

Methods

Results

Conclusion

Introduction

Methods

Results

Discussion

Conclusion

References

Publication Dates

History