Bidirectional Glenn Procedure Improves the Mechanical Efficiency of a Total Cavopulmonary Connection in High-Risk Fontan Candidates

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Circulation. 2001;103:2176-2180

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	Pediatric and congenital heart disease, including cardiovascular surgery

(Circulation. 2001;103:2176.)
© 2001 American Heart Association, Inc.

Clinical Investigation and Reports

Bidirectional Glenn Procedure Improves the Mechanical Efficiency of a Total Cavopulmonary Connection in High-Risk Fontan Candidates

Yoshihisa Tanoue, MD; Akira Sese, MD; Yasutaka Ueno, MD; Kunitaka Joh, MD; Takayuki Hijii, MD

From the Department of Cardiovascular Surgery and Pediatric Cardiology, Kyushu Kosei-Nenkin Hospital, Kitakyushu, Japan.

Correspondence to Yoshihisa Tanoue, MD, Department of Cardiovascular Surgery, Kyushu University, 3-1-1 Maidashi, Higashi-ku, Fukuoka 812-8582, Japan. E-mail tanoue{at}heart.med.kyushu-u.ac.jp

Background—A total cavopulmonary connection (TCPC) isa widely performed surgical procedure for Fontan candidates.High-risk candidates who have undergone the bidirectional Glennprocedure (BDG) before TCPC have shown good results. The exactmechanism of this procedure, however, is still poorly understood.We hypothesized that a volume reduction with BDG improved ventricularcontractility, thereby optimizing mechanical efficiency after TCPC.

Methods and Results—We measured percent normal systemicventricular end-diastolic volume (%N-EDV), contractility (end-systolicelastance; E_es), afterload (effective arterial elastance; E_a),and mechanical efficiency (ventriculoarterial coupling; E_a/E_es)on the basis of the cardiac catheterization data before andafter TCPC. Eighteen patients who underwent staged TCPC afterBDG (staged group) were compared with 29 patients who underwentprimary TCPC (primary group). E_es and E_a were approximated asfollows: E_es=mean arterial pressure/minimal ventricular volume, andE_a=maximal ventricular pressure/(maximal ventricular volume-minimal ventricularvolume), and E_a/E_es was then calculated. The ventricular volumewas normalized with the body surface area. A canine experimentalmodel with conductance catheter was used to validate the accuracyof this approximation of E_es and E_a. %N-EDV decreased afterTCPC in both groups. In the staged group, a smaller ventricularvolume resulted in better contractility (E_es). Although afterload(E_a) increased in both groups, the increment of E_a was smallerin the staged group. These changes resulted in an improvementof E_a/E_es in the staged group, whereas E_a/E_es increased in theprimary group.

Conclusions—The volume reduction of BDG preceding TCPCallows for any afterload mismatch to be corrected, thereby improvingventricular energetics after TCPC.

Key Words: Glenn • mechanics • cavopulmonary • Fontan

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