Yoshihiro Ko

Studies of isolated global brain ischaemia: II. Controlled reperfusion provides complete neurologic recovery following 30 min of warm ischaemia – the importance of perfusion pressure

OBJECTIVES Neurologic injury after sudden death is likely due to a reperfusion injury following prolonged brain ischaemia, and remains problematic, especially if the cardiac arrest is unwitnessed. This study applies a newly developed isolated model of global brain ischaemia (simulating unwitnessed sudden death) for 30 min to determine if controlled reperfusion permits neurologic recovery. METHODS Among the 17 pigs undergoing 30 min of normothermic global brain ischaemia, 6 received uncontrolled reperfusion with regular blood (n = 6), and 11 were reperfused for 20 min with a warm controlled blood reperfusate containing hypocalcaemia, hyper-magnesemia, alkalosis, hyperosmolarty and other constituents that were passed through a white blood cell filter and delivered at flow rates of 350 cc/min (n = 3), 550 cc/min (n = 2) or 750 cc/min (n = 6). Neurologic deficit score (NDS) evaluated brain function (score 0 = normal, 500 = brain death) 24 h post-reperfusion and 2,3,5-triphenyltetrazolium chloride (TTC) staining determined brain infarction. RESULTS Regular blood (uncontrolled) reperfusion caused negligible brain O(2) uptake by IN Vivo Optical Spectroscopy (INVOS) (<10-15% O(2) extraction), oxidant damage demonstrated by raised conjugated diene (CD) levels (1.78 ± 0.13 A233 mn), multiple seizures, 1 early death from brain herniation, high NDS (249 ± 39) in survivors, brain oedema (84.4 ± 0.6%) and extensive cerebral infarctions. Conversely, controlled reperfusion restored surface brain oxygen saturation by INVOS to normal (55-70%), but the extent of neurologic recovery was determined by the brain reperfusion pressure. Low pressure reperfusion (independent of flow) produced the same adverse functional, metabolic and anatomic changes that followed uncontrolled reperfusion in seven pigs (three at 350 cc/min, two at 550 and two at 750 cc/min). Conversely, higher reperfusion pressure in four pigs (all at 750 cc/min) resulted in NDS of 0-70* indicating complete (n = 2) or near complete (n = 2) neurological recovery, negligible CDs production (1.29 ± 0.06 A233mn)*, minimal brain oedema (80.6 ± 0.2%)* and no infarction by TTC stain. CONCLUSIONS Brain injury can be avoided after 30 min of normothermic cerebral ischaemia if controlled reperfusion pressure is >50 mmHg, but the lower pressure (<50 mmHg) controlled reperfusion that is useful in other organs cannot be transferred to the brain. Moreover, INVOS is a poor guide to the adequacy of cerebral perfusion and the capacity of controlled brain reperfusion to restore neurological recovery. *P < 0.001 versus uncontrolled or low pressure controlled reperfusion.

Studies of isolated global brain ischaemia: III. Influence of pulsatile flow during cerebral perfusion and its link to consistent full neurological recovery with controlled reperfusion following 30 min of global brain ischaemia

OBJECTIVE Brain damage is universal in the rare survivor of unwitnessed cardiac arrest. Non-pulsatile-controlled cerebral reperfusion offsets this damage, but may simultaneously cause brain oedema when delivered at the required the high mean perfusion pressure. This study analyses pulsatile perfusion first in control pigs and then using controlled reperfusion after prolonged normothermic brain ischaemia (simulating unwitnessed arrest) to determine if it might provide a better method of delivery for brain reperfusion. METHODS Initial baseline studies during isolated brain perfusion in 12 pigs (six non-pulsatile and six pulsatile) examined high (750 cc/min) then low (450 cc/min) fixed flow before and after transient (30 s) ischaemia, while measuring brain vascular resistance and oxygen metabolism. Twelve subsequent pigs underwent 30 min of normothermic global brain ischaemia followed by either uncontrolled reperfusion with regular blood (n = 6) or pulsatile-controlled reperfusion (n = 6) before unclamping brain inflow vessels. Functional neurological deficit score (NDS; score: 0, normal; 500, brain death) was evaluated 24 h post-reperfusion. RESULTS High baseline flow rates with pulsatile and non-pulsatile perfusion before and after transient ischaemia maintained normal arterial pressures (90-100 mmHg), surface oxygen levels IN Vivo Optical Spectroscopy (INVOS) and oxygen uptake. In contrast, oxygen uptake fell after 30 s ischaemia at 450 cc/min non-pulsatile flow, but improved following pulsatile perfusion, despite its delivery at lower mean cerebral pressure. Uncontrolled (normal blood) reperfusion after 30 min of prolonged ischaemia, caused negligible INVOS O(2) uptake (<10-15%), raised conjugated dienes (CD; 1.75 ± 0.15 A(233 mn)), one early death, multiple seizures, high NDS (243 ± 16) and extensive cerebral infarcts (2,3,5-triphenyl tetrazolium chloride stain) and oedema (84.1 ± 0.6%). Conversely, pulsatile-controlled reperfusion pigs exhibited normal O(2) uptake, low CD levels (1.31 ± 0.07 A(233 mn); P < 0.01 versus uncontrolled reperfusion), no seizures and a low NDS (32 ± 14; P < 0.001 versus uncontrolled reperfusion); three showed complete recovery (NDS = 0) and all could sit and eat. Post-mortem brain oedema was minimal (81.1 ± 0.5; P < 0.001 versus uncontrolled reperfusion) and no infarctions occurred. CONCLUSIONS Pulsatile perfusion lowers cerebral vascular resistance and improves global O(2) uptake to potentially offset post-ischaemic oedema following high-pressure reperfusion. The irreversible functional and anatomic damage that followed uncontrolled reperfusion after a 30-min warm global brain ischaemia interval was reversed by pulsatile-controlled reperfusion, as its delivery resulted in consistent near complete neurological recovery and absent brain infarction.

Studies of isolated global brain ischaemia: I. A new large animal model of global brain ischaemia and its baseline perfusion studies

OBJECTIVES Neurological injury after global brain ischaemia (i.e. sudden death) remains problematic, despite improving cardiac survival. Unfortunately, sudden death models introduce unwanted variables for studying the brain because of multiple organ injury. To circumvent this, a new minimally invasive large animal model of isolated global brain ischaemia, together with baseline perfusion studies is described. METHODS The model employs neck and small (3-4 inches) supra-sternal incisions to block inflow from carotid and vertebral arteries for 30 min of normothermic ischaemia. Neurological changes after 24 h in six pigs was compared with six Sham pigs assessing neurological deficit score (NDS, 0 = normal, 500 = brain death), brain oedema and cerebral infarction by 2,3,5-triphenyltetrazolium chloride (TTC) stain. Six other pigs had baseline perfusion characteristics in this new model evaluated at carotid flows of 750, 550 and 450 cc/min, with cerebral perfusion pressure, cerebral oximeter saturation [IN Vivo Optical Spectroscopy (INVOS)] and transcranial O(2) uptake measurements. RESULTS The model never altered cardiac or pulmonary function, and six Sham pigs had normal (NDS = 0) neurological recovery without brain injury. Conversely, 24 h analysis showed that 30 min of global normothermic brain ischaemia caused multiple post-reperfusion seizures (P < 0.001 versus Sham), raised NDS (231 ± 16; P < 0.001 versus Sham) in four of six survivors and caused marked post-brain oedema (P < 0.001 versus Sham) and extensive cerebral infarctions (TTC stain; P < 0.001 versus Sham). Baseline perfusion showed 750 cc/min flow rate produced normal INVOS levels and O(2) consumption at mean 90-100 mmHg carotid pressure. Carotid pressure and INVOS fell at mid- and low-flow rates. Although INVOS did not change, 450 cc/min flow lowered global O(2) consumption, which further decreased after transient ischaemia (30 s) and 5 min of reperfusion. CONCLUSIONS This new isolated global brain model consistently caused anatomic, biochemical and functional neurological damage in pigs after 30 min of ischaemia. Flows of 750 cc/min maintained normal mean systemic arterial (90-100 mmHg) pressure, INVOS levels and O(2) consumption. Cerebral pressure and INVOS fell in mid- and low-flow studies. A disparity existed between INVOS oxygen saturation and global O(2) consumption at lower flow rates of 450 cc/min following transient ischaemia, indicating that surface oxygen saturation measurement does not reflect global brain O(2) consumption.

Aberrant right subclavian artery with preductal coarctation of the aorta

A 9-day-old boy diagnosed with an aberrant right subclavian artery, a preductal coarctation, and a ventricular septal defect underwent a subclavian flap coarctectomy. Subsequently, he underwent surgical closure of the ventricular septal defect at the age of 11 months. This case is extremely rare with regard to having an aberrant right subclavian artery originating from the proximal site of a preductal coarctation of the aorta.

New coronary transfer technique for transposition of the great arteries with a single coronary artery

From the Department of Cardiovascular Surgery, Saitama Children’s Medical Center, Saitama, Japan. Disclosures: Authors have nothing to disclose with regard to commercial support. Received for publication Sept 23, 2016; revisions received Oct 14, 2016; accepted for publication Oct 20, 2016; available ahead of print Dec 18, 2016. Address for reprints: Yoshihiro Ko,MD, Department of Cardiovascular Surgery, Saitama Children’sMedical Center, 2100 Magome, Iwatsuki-city, Saitama 339-0077, Japan (E-mail: koyoshihiro@yahoo.co.jp). J Thorac Cardiovasc Surg 2017;153:1150-2 0022-5223/

Double switch operation for congenitally corrected transposition of the great arteries after two-staged pulmonary artery banding

36.00 Copyright 2016 by The American Association for Thoracic Surgery http://dx.doi.org/10.1016/j.jtcvs.2016.10.068

Right ventricular dynamic cardiomyoplasty for the univentricular heart with pulmonary hypertension

We describe a case of congenitally corrected transposition of the great arteries (cc-TGA) successfully performed by the double switch operation after two-staged pulmonary artery banding (PAB). An eleven-year old boy diagnosed with cc-TGA underwent the first PAB at that age, followed by the second PAB one year later. Because of severe ventricular dysfunction and arrhythmia of the anatomic left ventricle, the intension of one-stage PAB was abandoned. Cardiac catheterization data from after the adequate second PAB provided the surgical indication for the anatomical correction and double switch operation (Senning+Jatene procedure) and this was successfully performed at age 14. Although cardioversion was required to treat supraventricular tachycardia in the early period after surgery, the patient was discharged from hospital and remains in good clinical condition at the last follow-up at 5 years with normal sinus rhythm and good biventricular function.

Aortic sinus pouch technique for transposition of the great arteries with intramural coronary artery

OBJECTIVES We conducted an acute experimental study to test the feasibility of dynamic cardiomyoplasty in a setting of modified Fontan procedure for univentricular heart with pulmonary hypertension to obtain a possible proxy for high-risk Fontan candidates. METHODS After electrical preconditioning of the left latissimuss dorsi for 6 weeks in 8 dogs, the right ventricular cavity was totally obliterated with concomittent closure of the tricuspid valve and right pulmonary artery. Modified Fontan circulation was established with the aortic homograft anastomosed between the right atrium and pulmonary trunk, incorporated with a pericardial pouch as a compression chamber (neoright ventricle) fixed onto the epicardial surface of the ventricle. After cardiopulmonary bypass termination, a latissimus dorsi was applied to wrap the pericardial pouch and ventricle clockwise and stimulated with a trained-pulse (25 Hz) at 1:1 synchronization ratio with cardiac beats. RESULTS Profound right heart failure was noted during Fontan circulation in increased pulmonary vascular resistance (11 +/- 3.2 Wood units), whereas graft pacing showed significant augmentation of systolic pulmonary pressure by 54 +/- 12%, the mean pulmonary flow by 68 +/- 23%, and aortic pressure by 23 +/- 5% at a physiological range of central venous pressure (13.2 +/- 0.7 mmHg). Right heart function curve analysis confirmed marked augmentation of right heart performance, restoring almost normal pulmonary circulation. These functional benefits were sustained up to 4 hours in 4 animals until experiments were terminated. CONCLUSIONS Dynamic cardiomyoplasty in a modified Fontan procedure is a viable surgical option for univentricular heart, not a Fontan candidate.

Inflammatory Response to Hyperoxemic and Normoxemic Cardiopulmonary Bypass in Acyanotic Pediatric Patients

From the Department of Cardiovascular Surgery, Saitama Children’s Medical Center, Saitama, Japan. Disclosures: Authors have nothing to disclose with regard to commercial support. Received for publication Oct 12, 2017; accepted for publication Oct 22, 2017. Address for reprints: Yoshihiro Ko,MD, Department of Cardiovascular Surgery, Saitama Children’sMedical Center, 1-2 Shintoshin, Chuou-ku, Saitama 330-8777, Japan (E-mail: koyoshihiro@yahoo.co.jp). J Thorac Cardiovasc Surg 2017;-:e1-3 0022-5223/

Three Dimensional Visualization of Human Cardiac Conduction Tissue in Whole Heart Specimens by High-Resolution Phase-Contrast CT Imaging Using Synchrotron Radiation:

36.00 Copyright 2017 by The American Association for Thoracic Surgery https://doi.org/10.1016/j.jtcvs.2017.10.073