Humans ; Percutaneous Coronary Intervention ; methods ; Radial Artery ; surgery

BACKGROUND: Discrepancy of central-peripheral arterial pressure after cardiopulmonary bypass may affect the reliability of arterial pressure waveform derived cardiac index (APCI) monitoring. METHODS: In 15 elective cardiac surgeries employing moderate hypothermic cardiopulmonary bypass (CPB), APCI from radial arterial cannula and pulmonary artery catheter derived cardiac index from thermodilution method (PACI) were measured 1) after anesthesia induction (T1), 2) before CPB (T2), 3) immediately after CPB (T3) and 4) 1 hour after CPB (T4). APCI and PACI were analyzed by using the Bland-Altman analysis. RESULTS: Biases of APCI and PACI at T1, T2, T3 and T4 were 0.093 L/min/m2, -0.053 L/min/m2, 0.485 L/min/m2 and -0.09 L/min/m2, respectively. The limits of agreement (2 SD) at T1, T2, T3 and T4 were from -2.285 to 2.471 L/min/m2, -2.475 to 2.369 L/min/m2, -2.255 to 3.225 L/min/m2 and -2.609 to 2.423 L/min/m2, respectively. Bias of APCI and PACI during entire period (T1-T4) was 0.095 L/min/m2 and 2 SD was from -2.387 to 2.557 L/min/m2. However, mean error % (2 SD/mean) of APCI at T1, T2, T3, and T4 were greater than 30%. CONCLUSIONS: Our results were not able to show that APCI measured from radial artery is comparable to PACI for hemodynamic monitoring during cardiac surgery employing moderate hypothermic CPB. Considering the limitations of PACI as a gold standard of hemodynamic monitoring in a certain clinical circumstance, further investigation employing other monitoring method than PACI may be followed to get more definitive conclusion.
Anesthesia ; Arterial Pressure ; Bias (Epidemiology) ; Cardiopulmonary Bypass ; Catheters ; Hemodynamics ; Pulmonary Artery ; Radial Artery ; Thermodilution ; Thoracic Surgery

OBJECTIVETo introduce treatment method of replantation of severed thumb trauma with proximal arterial, and to evaluate its efficacy.

METHODSFrom February 2007 to March 2009,13 patients with severed thumb in serious injury of proximal arterial were treated with vein graft of volar forearm,bridging between dorsal carpal branch of radial artery on nasopharyngeal fossa and distal stump of ulnar proper digital artery. Among them, there were 11 males and 2 females with an average age of 34.5 years ranging from 16 to 50 years. Seven cases were in the left thumb,6 in the right thumb. Eight cases were complete separation, incomplete separation in 5 cases. Ten cases recieved emergency reimplantation, 3 cases with the arterial crisis after conventional replantation were explorated and repaired.

RESULTSThumb of 13 cases all survived. All patients were followed-up for 8 to 17 months (averaged, 11 months). Replantation thumb obtained satisfactory appearance. According to Chinese Medical Association Society of Hand Surgery Trial criteria, the results were excellent in 9 fingers, good in 3 fingers, 1 poor finger. Two point discrimination of finger pulp was 5 to 8 mm (averaged 6.5 mm).

CONCLUSIONBy repairing artery of thumb with vein graft of volar forearm, bridging between dorsal carpal branch of radial artery on nasopharyngeal fossa and distal stump of ulnar proper digital artery,complex severed thumb replants on surgery position comfortable,without affecting the blood supply of the hand, expanding the indications for replantation and improving the success rate of replantation.

Adult ; Female ; Humans ; Male ; Middle Aged ; Radial Artery ; surgery ; Replantation ; methods ; Thumb ; blood supply ; surgery ; Ulnar Artery ; surgery ; Young Adult

Adult ; Catheter Ablation ; methods ; Humans ; Male ; Radial Artery ; surgery ; Tachycardia, Supraventricular ; surgery

BACKGROUNDTransradial approach catheterization is now widely used in coronary angiography and angioplasty. The ulnar artery, which is one of the two terminal branches of the brachial artery, may be a potential approach for cardiac catheterization. The aim of this study was to evaluate the safety and feasibility of a transulnar approach for coronary catheterization in non-selective patients.

METHODSA total of 535 consecutive patients were randomly assigned to transulnar approach (TUA) group (n = 271) or transradial approach (TRA) group (n = 264) upon arrival at the catheterization laboratory. Allen's test and inverse Allen's test were not routinely performed. Ultrasound-Doppler assessment of the forearm artery was performed before the procedure, two days after the procedure, and 30 days after the procedure. The primary endpoints of study were the rate of successful artery cannulation and the access-site related complications. The secondary endpoints included the number of needle punctures, total time for the procedure, and major adverse cardiac events (MACE).

RESULTSSuccessful puncture of the objective artery was obtained in 91.5% of the patients in the TUA group, and 95.1% of the patients in the TRA group (P > 0.05). There was no significant difference in hematoma complications between the two groups (7.7% vs. 4.2%, P = 0.100). A motor abnormality of the hand was observed in one patient in the TUA group. There were no arteriovenous fistula or pseudoaneurysm observed in our study. Three (1.1%) patients in the TUA group and 8 (3.0%) patients in the TRA group had occlusion of the access artery (P = 0.137), but none of the patients had symptoms or signs of hand ischemia. There were no significant differences in MACE between the two groups during follow-up.

CONCLUSIONThe transulnar approach is an effective and safe technique for coronary catheterization in non-selective patients.

Aged ; Cardiac Catheterization ; methods ; Coronary Angiography ; methods ; Female ; Humans ; Male ; Middle Aged ; Radial Artery ; surgery ; Ulnar Artery ; surgery

Differences of usual relationship between aortic and radial artery pressure was evaluated in 14 patients at pre-and post cardiopulmonary bypass (CPB) period, post-CPB, 5 min and10 min after open heart surgery. Radial arterial systolic pressure were lower, (range 0-44 mmHg, mean 17 mmHg) relative to aortic preasure, after CPB than before CPB in all 14 patient studied. In 9 patients post-CPB radial mean arterial pressure were lower than mean aortic pressure in the range of 5-25 mmHg. These data indicate that the low radial pressure measured at post-CPB did not represent the true aortic pressure in the immediate postbypaas period. In conclusion, we recommend direct measurement of the aortic pressure following CPB whenever radial arterial pressure is low enough that treatment is contemplat-ed, since aortic pressure may in fact be adequate.
Aorta* ; Arterial Pressure ; Blood Pressure* ; Cardiopulmonary Bypass* ; Humans ; Radial Artery* ; Thoracic Surgery

radial forearm free flap (RFFF) is a thin, pliable soft tissue flap with large-caliber vessels for microvascular anastomosis. Its additional advantages include consistent flap vascular anatomy, acceptable donor site morbidity and the ability to perform simultaneous flap harvest with a tumor resection. For a better understanding of RFFF as a routine reconstructive procedure in oral and maxillofacial surgery, the constant anatomical findings must be learned and memorized by young doctors during the special curriculum periods for the Korean national board of oral and maxillofacial surgery. This review article discusses the anatomical basis of RFFF in the Korean language.]]>
Curriculum ; Forearm ; Free Tissue Flaps ; Humans ; Mouth ; Radial Artery ; Surgery, Oral ; Tissue Donors

BACKGROUND: Appropriate placement of aortic and venous cannulas is important to ensure effective systemic perfusion. The malposition of the aortic cannula may promote preferential flow down the aorta or induce flow to aortic arch vessels causing pressure gradient between mean radial arterial pressure (RAP) and femoral arterial pressure (FAP). In this study we compared mean radial to femoral artery pressure gradient before and immediately after aortic cannulation and during cardiopulmonary bypass (CPB). METHODS: Ninety two pediatric patients undergoing open heart surgery were examined. After induction of anesthesia RAP and FAP were measured. The pressure gradient was measured before and after aortic cannulation, 15, 30 and 60 minutes after aortic cross clamping (ACC). When the pressure gradient of more than 10 mmHg developed, the surgeon was recommended to manipulate position of the aortic cannula. If the pressure gradient returned to pre-CPB level after manipulation, the pressure gradient was considered to develop due to aortic cannula. The age, presence of cyanosis, adjustment of shape of aortic cannula tip before cannulation and side of radial artery cannulation as factors developing pressure gradient were examined. RESULTS: Fifteen patients (16.3%) developed pressure gradient due to position of aortic cannula. Two patients (2.2%) developed immediately after aortic cannulation and fourteen patients (15.2%) during CPB. There was no statistically significant factor developing pressure gradient except non-cyanotic disease. CONCLUSIONS: The pediatric patient could develop pressure gradient due to malposition of aortic cannula frequently during CPB. Therefore, the simultaneous monitoring of RAP and FAP may be beneficial for managing CPB in pediatric cardiac surgery.
Anesthesia ; Aorta ; Aorta, Thoracic ; Arterial Pressure ; Cardiopulmonary Bypass ; Catheterization ; Catheters* ; Constriction ; Cyanosis ; Femoral Artery* ; Humans ; Perfusion ; Radial Artery ; Thoracic Surgery*

BACKGROUND: Continuous arterial blood pressure monitoring is a highly effective method in an operation and the intensive care unit. However, the accuracy of the monitoring system could be influenced by the radius and longitude of the catheter. This study was executed to examine the effects of the radius and longitude of a catheter. METHODS: Forty-two pediatric patients scheduled to undergo open heart surgery were selected. After induction of anesthesia, the radial artery pressure was measured by a 22-gauge (1 inch) catheter and the femoral artery pressure was measured by a 20-gauge (1.16 inch) catheter, 22-gauge catheter and 20-gauge (12 cm) catheter in succession. Influences of the radius and longitude were analysed respectively. All values are expressed as mean +/- SD and analysed using the paired t-test; P < 0.05 was considered significant. RESULTS: The systolic pressure of the 20-gauge (1.16 inch) catheter was higher than that of the 22- gauge (1 inch) catheter. The systolic pressure of the 20-gauge (1.16 inch) catheter was higher than that of the 20-gauge (12 cm) catheter. Mean and diastolic pressures were low in the 20-gauge (1.16 inch) catheter, compared with the 20-gauge (12 cm) catheter. CONCLUSIONS: Shorter and/or larger radius catheters could increase the pulse pressure in pediatric patients.
Anesthesia ; Arterial Pressure* ; Blood Pressure ; Catheters* ; Femoral Artery ; Humans ; Intensive Care Units ; Radial Artery ; Radius* ; Thoracic Surgery

BACKGROUND: It has been known that a reversal of usual relationship between aortic and radial artery pressures(RAP) can occur in adult patients following cardiopulmonary bypass(CPB). The phenomenon of a pressure gradient between RAP and femoral artery pressure(FAP) were evaluated in pediatric patients before and after CPB. METHODS: 141 perdiatric patients undergoing open heart surgery were allocated into 2 groups. Group 1(n=77): infant's body weight was below 10kg. Group 2(n=64): child's body weight was between 10 and 20kg. After induction of anesthesia RAP was measured through 22G(1 inch) or 24G(3/4 inch) catheters and FAP was measured through 20G(2 inch) or 22G(1 inch) catheters using calibrated transducers. Hematocrit, rectal and nasopharyngeal temperature and left atrial pressure(LAP) were recorded 10 min after induction, immediately, l5, 30 and 60 min after CPB. Values are expressed as mean+/-SD and analysed using paired and unpaired t-test; p<0.05 was considered significant. RESULT: Systolic femoral arterial pressure(SFAP) was higher than radial arterial pressure(SRAP) before CPB in both groups. After CPB, the pressure gradient persisted in group 2 but was reversed with statistical significance in group l. CONCLUSION: When hypotension occurs during cardiac surgery, a comparison is recommended between radial and femoral or aortic pressure before treatment for hypotension is contemplated.
Adult ; Anesthesia ; Arterial Pressure* ; Blood Pressure ; Body Weight ; Catheters ; Femoral Artery ; Heart* ; Hematocrit ; Humans ; Hypotension ; Radial Artery ; Thoracic Surgery* ; Transducers