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J Thorac Cardiovasc Surg 1999;118:955-956
© 1999 Mosby, Inc.

BRIEF COMMUNICATIONS

DISAPPEARANCE OF SYMPTOMATIC VENOUS THROMBOSIS AFTER NEONATAL CARDIAC OPERATIONS DURING ANTITHROMBIN III SUBSTITUTION

From Children’s Hospital, University of Helsinki, Helsinki, Finland.

Address for reprints: Jari Petäjä, MD, PhD, Children’s Hospital, University of Helsinki, Stenbäckinkatu 11, FIN-00290 Helsinki, Finland.

Venous thrombosis (VT) of the central intrathoracic veins is a significant complication after cardiac operations. ¹ In neonates, secondary antithrombin III (AT III) deficiency is one component of a complicated postoperative coagulopathy contributing to the thrombogenesis. ^2-4 We previously suggested that substitution therapy with AT III concentrate might be a viable approach to reducing the incidence of VT. ² Accordingly, we now report our experience after 3 years of applying a systematic AT III substitution policy in postoperative neonatal care. It seems that AT III substitution helps to avoid symptomatic VT.

Patients and methods
AT III substitution policy.
Since March 1995, systematic daily follow-up of plasma AT III levels was recommended in the Children’s Hospital, University of Helsinki, during the postoperative intensive care of neonates who have undergone cardiac operations. Likewise, substitution with AT III concentrate (Atenative, Pharmacia & Upjohn, Finland) for levels below 50% of the adult mean was encouraged. The dose was calculated on the basis of the AT III level but was typically about 50 IU/kg, with the aim of a postinfusion AT III level between 80% and 100%. However, the decision to both measure AT III and prescribe the substitute was left to the anesthesiologist responsible for the particular patient. The result was 90% coverage of eligible patients (see below) and minor variation in the AT III levels used as the indication for AT III substitution.

Historical controls.
The control group consisted of 160 neonates who underwent cardiac operations between January 1985 and February 1995.

Study cohort.
Between March 1995 and June 1998, 102 neonates underwent a cardiac operation. During this period, an active operative approach was also applied to patients with severe hypoplastic left heart syndrome. Eleven such patients died during the immediate perioperative period before first postoperative AT III measurement, and these patients were excluded from the study cohort. An additional group of 9 surviving patients was excluded from the study because AT III was not measured during the postoperative intensive care period. The study cohort thus consisted of 82 neonates. Phlebography was performed if symptoms of venous stasis were suspected. The right atrium was repeatedly visualized in routine postoperative cardiac echocardiograms.

Results.
The plasma AT III level was measured 455 times in the study cohort. The AT III level was below 41% of the adult mean (lower limit of normal for neonates) ⁵ in 47 (57%), 14 (17%), and 14 (17%) during postoperative days 1 to 3, 4 to 6, and 7 to 10, respectively. Using the 50% cutoff for secondary AT III deficiency, the frequencies were 68 (83%), 33 (40%), and 24 (29%) during postoperative days 1 to 3, 4 to 6, and 7 to 10, respectively. Sixty-eight (83%) patients received a total of 62,965 IU of AT III concentrate (mean ± standard deviation 768 ± 119 IU per cohort patient)(Fig 1).

View larger version (80K): [in this window] [in a new window]   Fig. 1. The administration of antithrombin III (AT III) concentrate in the cohort of 82 neonates undergoing cardiac operations. On the basis of plasma AT III determinations, 14 patients did not receive AT III concentrate. Sixty-one percent of the cumulative dose was given between postoperative days 1 and 5. Day 0 indicates the day of operation.

In a patient with transposition of the great arteries (TGA) and the arterial switch operation, a small mural thrombus in the right atrium was observed by echocardiography on postoperative day 14. No treatment was considered necessary, and the patient made an uneventful recovery. Despite AT III substitution, however, the patient had an AT III level below 51% on 7 occasions between postoperative days 1 and 9. In another patient undergoing arterial switch for TGA, the postoperative course was first complicated by cardiac tamponade after removal of a catheter from the left pulmonary artery on postoperative day 3. After the resternotomy, the patient had signs of a septic infection. On postoperative day 9, his condition deteriorated and an abdominal catastrophe was suspected. Strangulation of the small intestine was discovered at laparotomy. Extensive intestinal resection was performed, but immediately after the operation his hemodynamic condition deteriorated and the patient died. An autopsy showed severe damage to the remaining gut, and changes consistent with ischemic multiorgan failure were also evident in the kidneys and liver. The abdominal arterial and venous circulations were free of thrombi. A fresh, short VT was discovered in the superior vena cava. It was concluded that the patient died of the intestinal catastrophe unrelated to the VT. Despite AT III substitution, plasma AT III was below 51% on 5 occasions between postoperative days 1 and 7. The lowest AT III level in this patient was 18% on postoperative day 4, even though he received an 83 IU/kg dose of AT III concentrate on day 3.

Discussion.
AT III substitution for secondary postoperative AT III deficiency in neonatal cardiac operations was associated with abrupt disappearance of symptomatic VT. Our reasons for undertaking this practice were multiple. First, previous work showed that neonates had up to a 10-fold risk of VT compared with older children undergoing cardiac operations. ¹ Second, thrombogenesis in this patient group was associated with multiple prothrombotic alterations in coagulation, including a transient AT III deficiency preceding symptomatic VT. ² Third, little could be done to reduce the thrombogenic burden caused by indwelling catheters, surgical trauma, and postoperative hemodynamic changes. Research proof of both efficacy and safety of alternative VT prophylaxis by heparin or oral anticoagulants in neonates is also lacking. Finally, AT III substitution was feasible because of the transient nature of postoperative AT III decrease and the availability of a virus-inactivated concentrate.

In the absence of observed AT III–induced bleeding complications, cost-benefit becomes a central issue. At Finnish prices for AT III concentrate and AT III determinations, the estimated cost of the AT III substitution for the study cohort was $40,000 (US currency). The figures inTable I show that this should be compared with the estimated benefit of avoiding 5 clinically significant VTs. Since $8000 (US currency) per avoided VT corresponds to the cost of 4 to 5 days of intensive care, we believe that AT III substitution for the cohort of 82 neonates was medically beneficial in a cost-neutral way.

Since the current study was neither randomized nor blinded, several possible biases exist, but for certain central issues bias is unlikely. First, since all neonatal cardiac operations in Finland are performed at the Children’s Hospital, there is no patient selection bias. If anything, more moribund patients like those with severe hypoplastic left heart syndrome have recently been included. Second, no major changes in the perfusion techniques or the perfusion team have taken place since 1995. Finally, no significant changes concerning the types and care (including heparinization of the infused solutions) of central venous catheters have taken place during the 1990s. Thus we hope that our observational data and experience prove sufficiently provocative to stimulate randomized VT prophylaxis studies in neonatal cardiac surgery.

References

1. Petäjä J, Lundström U, Sairanen H, Marttinen E, Griffin JH. Central venous thrombosis after cardiac surgery in children. J Thorac Cardiovasc Surg 1996;112:883-9.[Abstract/Free Full Text]
   
2. Petäjä J, Peltola K, Sairanen H, Leijala M, Kekomäki R, Vahtera E, et al. Fibrinolysis, antithrombin III, and protein C in neonates during cardiac operations. J Thorac Cardiovasc Surg 1996;112:665-71.[Abstract/Free Full Text]
   
3. Kern FH, Morana NJ, Sears JJ, Hickey PR. Coagulation defects in neonates during cardiopulmonary bypass. Ann Thorac Surg 1992;54:541-6.[Abstract/Free Full Text]
   
4. Boldt J, Knothe C, Schindler E, Welters A, Dapper F, Hempelmann G. Thrombomodulin in pediatric cardiac surgery. Ann Thorac Surg 1994;57:1584-9.[Abstract/Free Full Text]
   
5. Andrew M, Paes B, Johnston M. Development of the hemostatic system in the neonate and young infant. Am J Pediatr Hematol Oncol 1990;12:95-104.[Medline]
   

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