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Case Reports  |   February 1999
Application of Cell-salvage during Cesarean Section 
Author Notes
  • (Potter, Waters, Burger) Staff Anesthesiologist, Cleveland Clinic Foundation.
  • (Mraovic) Staff Anesthesiologist, General Hospital ibenik, ibenik, Croatia.
Article Information
Case Reports
Case Reports   |   February 1999
Application of Cell-salvage during Cesarean Section 
Anesthesiology 2 1999, Vol.90, 619-621. doi:
Anesthesiology 2 1999, Vol.90, 619-621. doi:
THE use of cell salvage in obstetrics has been controversial because of theoretical concerns of aspirating and reinfusing amniotic fluid. Amniotic fluid is known to contain lanugo hair, vernix caseosa, meconium, fetal cellular debris, and tissue factor, any or all of which can cause the symptoms of amniotic fluid embolism resulting in cardiovascular collapse and disseminated intravascular coagulopathy. Support for the use of cell salvage in obstetric hemorrhage is scant [1] but justification for its use can be argued in the case of life-threatening postpartum hemorrhage. In this case report, the uncomplicated application of cell salvage in a high-risk obstetric patient is discussed.
Case Report
A 40-yr-old woman, gravida 2 para 1, presented to the operating room for elective cesarean section. The pregnancy was complicated by a complete placental previa. Her surgical history included a previous cesarean section with a placental previa that involved bleeding (estimated to be 3,000 ml), multiple transfusions, disseminated intravascular coagulopathy, and congestive heart failure. She had also undergone uterine myomectomy previously. Her medical history included class A2diabetes mellitus and morbid obesity (118 kg, 1.73 m). Her airway examination revealed a Mallampati class III airway with full neck range of motion and full dentition. With this history it was thought that she was at high risk of having a placenta accreta and significant perioperative blood loss.
A combined spinal-epidural anesthetic was performed with a 25-gauge Sprotte needle through an 18-gauge Tuohy needle. After injection of 12 mg hyperbaric bupivacaine, an epidural catheter was placed. A T4level was obtained and a cesarean section was performed. At amniotomy, the amniotic fluid was suctioned to the wall suction and then switched to suction connected to the cell saver. This was done to minimize the amniotic fluid contamination of the salvaged blood. A viable female infant was delivered who was subsequently given APGAR scores of 7 and 9 at 1 and 5 min, respectively. No meconium was noted at delivery. The placenta was delivered with little difficulty; however, attempts to externalize the uterus for repair were hindered by multiple adhesions of the bowel to the uterus. These adhesions led to continuous wound oozing. During the course of uterine repair, approximately 1,800 ml blood was lost and salvaged into a reservoir with a 40-[micro sign]m screen. This blood was washed with a Medtronic Sequestra 1000 (Medtronic, Minneapolis, MN). The Latham-design centrifuge bowl was filled at a speed of 500 ml/min, the wash rate was 300 ml/min, and the total normal saline wash volume was 1,500 ml. During the wash, the centrifuge speed was intermittently slowed from 5,600 to 4,800 rpm. This was performed to achieve a better-quality wash by reordering the cell pack. Salvage resulted in 250 ml blood with a hematocrit concentration of 65% being returned to the patient. In addition to the washed blood, the patient also received 4 l of Ringer's lactate solution. No colloid solution for volume resuscitation was administered. Laboratory values were obtained serially during the procedure and postoperatively. Hemoglobin level was measured via a B-Hemoglobin photometer (Hemocue AB, Angelholm, Sweden), prothrombin time and partial thromboplastin time were measured using a Coaguchek (Boehringer Mannheim, Indianapolis, IN;Table 1). Platelet function and dynamic assessment of coagulation function was performed using both a Litton Datamedix Thromboelastograph D (Haemoscope, Skokie, IL;Table 2) and a Sonoclot II Surgical analyzer (Sienco, Morrison, CO;Table 3). The surgical procedure lasted 2 h 10 min with no dosing of the epidural catheter needed to extend the anesthetic.
Table 1. Values of Hemoglobin (Hgb), Prothrombin Time (PT), and Partial Thromboplastin Time (PTT)
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Table 1. Values of Hemoglobin (Hgb), Prothrombin Time (PT), and Partial Thromboplastin Time (PTT)
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Table 2. TEG Parameters
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Table 2. TEG Parameters
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Table 3. Sonoclot Results
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Table 3. Sonoclot Results
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Postoperatively, fever developed in the patient (38 [degree sign]C) on the first postoperative day, which extended through the third postoperative day. Blood and urine cultures were obtained. The urine culture was positive for Escherichia coli. The blood culture was negative. Her presumptive diagnosis was endomyometritis attributed to an inability to express the uterus at the end of the surgical procedure. The patient was treated with antibiotics at the time of culture with subsequent resolution of the fever. She was discharged to home on the fourth postoperative day with a hemoglobin level of 9.6 gm/dl.
Discussion
This patient's history suggested that significant, and potentially life-threatening, perioperative blood loss could occur. Anecdotal reports of cell-salvage use in the obstetric patient led us to believe that with careful cell washing, this patient could be safely treated with this technology. Because the application of this technology had not been previously reported, careful monitoring of this patient's hemodynamic and coagulation function was applied. No significant changes in blood pressure or heart rate were seen during or after the transfusion, nor were changes in coagulation function observed.
When applying cell-salvage technology in the obstetric patient, an understanding of the risks needs to be considered. When first analyzing this issue, the first question to ask is, “How effective is the cell washing?.” Recently, Bernstein and colleagues [2] demonstrated that active tissue factor is totally eliminated from blood contaminated with amniotic fluid. This was the first study that looked at the effectiveness of washing blood contaminated with amniotic fluid. Amniotic fluid-derived tissue factor is thought to be a potent initiator of coagulation and a component of amniotic fluid embolism leading to disseminated intravascular coagulopathy. Unfortunately, tissue factor may be one of many components that lead to the syndrome of amniotic fluid embolism. [3] Therefore, washing of this tissue factor would not guarantee that amniotic fluid embolism would not occur.
Several studies [4,5] assessing the removal of free hemoglobin, bromocreosol green dye, and heparin from salvaged blood would suggest that if one factor is effectively removed, than the other factors are equally removed. Therefore, if tissue factor is effectively removed from blood contaminated with amniotic fluid, these previous studies would suggest that the other components of amniotic fluid would also be similarly removed or reduced significantly in concentration.
In the efficacy studies referenced, [4,5] the authors used the elimination of 95-98% of contaminants as a goal. By using separate suction devices, one for amniotic fluid obtained at amniotomy and the other for blood obtained during all other times, the contamination of the salvaged blood is minimized. The smaller the overall contamination of the salvaged erythrocytes, the lower the resultant concentration in the washed product. This would add an additional factor of safety to the technique.
The alternative to cell-salvaged blood is the traditional transfusion of allogeneic blood. Allogeneic blood carries risks of its own, including immunosuppression, alloimmunization, [6] and viral infection. [7] Probably the most important effect is that of immunosuppression. Some studies have shown that a 5- to 10-fold increase in postoperative infection occurs in patients who have received allogeneic blood products. In the patient who has undergone cesarean section, who already experiences a high rate of infection of 5-25%, [8] an increase such as this significantly increases peripartum morbidity. [9] 
Although this case report does not, by any means, prove the safety of cell salvage in obstetrics, it supports its consideration in the face of life-threatening obstetric hemorrhage. Currently, the paucity of data regarding this technique in the obstetric setting makes meaningful risk--benefit analysis impossible. Extensive prospective studies of its safety still need to be performed.
REFERENCES
Jackson SH, Lonser RE: Safety and effectiveness of intracesarean blood salvage. Transfusion 1993; 33:181
Bernstein HH, Rosenblatt MA, Gettes M, Lockwood C: The ability of the Haemonetics 4 cell saver system to remove tissue factor from blood contaminated with amniotic fluid. Anesth Analg 1997; 85:831-3
Morgan M: Amniotic fluid embolism. Anaesthesia 1979; 34:20-32
Kling D, Borner U, Bormann v. B, Hempelmann G: Heparin-elimination und freies Hamoglobin nach Zellseparation und waschen autologen blutes mit dem Cell Saver [registered sign] 4. Anaesth Intensivther Notfallmed 1988; 23:88-90
Umlas J, O'Neill TP: Heparin removal in an autotransfusor device. Transfusion 1981; 21:70-3
Lostumbo MM, Holland PV, Schmidt PJ: Isoimmunization after multiple transfusions. N Engl J Med 1966; 275:141-4
Klein HG: Allogeneic transfusion risks in the surgical patient. Am J Surg 1995; 170:21S-6
Mathelier AC: A comparison of postoperative morbidity following prophylactic antibiotic administration by combined irrigation and intravenous route or by intravenous route alone during cesarean section. J Perinat Med 1992; 20:177-82
Di Lieto A, Albano G, Cimmino E, Pontillo M, Gallo F, Micalef R, Paladini A: Retrospective study of postoperative infectious morbidity following cesarean section. Minerva Ginecol 1996; 48:85-92
Table 1. Values of Hemoglobin (Hgb), Prothrombin Time (PT), and Partial Thromboplastin Time (PTT)
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Table 1. Values of Hemoglobin (Hgb), Prothrombin Time (PT), and Partial Thromboplastin Time (PTT)
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Table 2. TEG Parameters
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Table 2. TEG Parameters
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Table 3. Sonoclot Results
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Table 3. Sonoclot Results
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