[Comparison [corrected] of Chiari I malformation treatment using suboccipital craniectomy and posterior arch of C1 resection with or without dural graft]

There are various surgical approaches to treat Chiari I malformation. In spite of the good clinical results that are reported with most of them, there is still controversy about the optimal treatment of this pathology.

OBJECTIVE

To compare the clinical and radiological results of surgical treatment of the Chiari I malformation with suboccipital craniectomy, posterior arch of C1 resection with or without dural graft, analyzing clinical and radiological findings and describing the complications.

MATERIAL AND METHODS

Retrospectively clinical cases series of patients who underwent Chiari I malformation surgery between 1998 and 2006 in the Hospital Germans Trias i Pujol in Badalona. The inclusion criteria consisted in: patients older than 18 years, who have had surgery in our hospital, detailed neurological examination before and after surgery (calculating the EDSS scale punctuation), craniospinal magnetic resonance imaging before and after surgery and minimal follow up period of 6 months. The election of the surgical approach was left to the discretion of the main surgeon. Patients were divided in two groups depending of the surgical technique: Group A (with dural graft) and Group B (without dural graft). To evaluate the morphological results in both groups, measurements of the position of the fastigium above a basal line in the midsagittal T1 weighted magnetic resonance images were obtained. In patients with syringomyelia, siringo-to-cord ratio was measured before and after surgery. To evaluate the clinical results, neurological examination was recorded in both groups before and after surgery.

RESULTS

The mean age of Group A patients was 47 (-/+12.89) years, and of Group B was 38.3 (-/+7.77) years. Mean follow up period was 2.48 (-/+2.44) years in Group A and 4.2 (-/+4.46) in Group B. Creation of an artificial cisterna magna was observed en 35.7% of Group A patients and only in 3.5% of Group B patients (p=0.022). In 8 patients front Group A, 8 patients (28.6%) an upward migration of the cerebellum was seen, whereas any of the Group B patients presented it (p=0.022) Siringo-to-cord ratios were decreased in both groups without significant differences. All of the Group A patients improved their clinical exploration. In Group B, 60% of the patients improved and the 40% left maintained clinical stability. Any patient worsened. All patients that maintained clinical stability belonged to Group B, the differences between the two groups were statistically significant (p=0.04). Five patients presented immediate surgical complications (2 pseudomeningoceles, 2 meningitis and 1 hydrocephalus). All this patients where operated with dural graft (p=0.049).

CONCLUSIONS

According to our study, suboccipital craniectomy with resection of the posterior arch of C1 and dural graft shows better clinical and radiological results than without dural graft. Nevertheless this technique can increase the incidence of surgical complications.

Acid-base status of blood from intraosseous and mixed venous sites during prolonged cardiopulmonary resuscitation and drug infusions

OBJECTIVES

a) To determine the relationship of acid-base balance (pH, PCO2) of blood samples from the intraosseous and the mixed venous route during prolonged cardiopulmonary resuscitation; b) to compare the effect of separate infusions of epinephrine, fluid boluses, or sodium bicarbonate through the intraosseous sites on the acid-base status of intraosseous and mixed venous blood during cardiopulmonary resuscitation; and c) to compare pH and Pco2 of intraosseous and mixed venous blood samples after sequential infusions of fluid, epinephrine, and sodium bicarbonate through a single intraosseous site.

DESIGN

Prospective, randomized study.

SETTING

Animal laboratory at a university center.

SUBJECTS

Thirty-two mixed-breed piglets (mean weight, 30 kg).

INTERVENTIONS

Piglets were anesthetized and prepared for blood sampling and cardiopulmonary resuscitation. After anoxic cardiac arrest, ventilation was resumed and chest compression was resumed. Blood gas samples from the pulmonary artery and both intraosseous sites were obtained simultaneously at baseline, at cardiac arrest, and at 5, 10, 15, 20, and 30 mins of cardiopulmonary resuscitation for group 1 (control group) and after drug (epinephrine and sodium bicarbonate) and saline infusions via one of the intraosseous cannulas in groups 2 through 5.

MEASUREMENTS AND MAIN RESULTS

We found no differences between intraosseous and mixed venous pH and Pco2 during periods of <15 mins of cardiopulmonary resuscitation. However, this relationship was not maintained during prolonged cardiopulmonary resuscitation and after bicarbonate infusion. After large volume saline infusion, the pH and Pco2 of mixed venous and intraosseous blood were similar. During epinephrine infusion, the relationship between intraosseous and mixed venous pH and Pco2 was similar to that found in the control group.

CONCLUSIONS

The intraosseous blood sample could be used to assess central acid-base balance in the early stage of arrest and cardiopulmonary resuscitation of <15 mins. However, during cardiopulmonary resuscitation of longer duration, drug infusions may render the intraosseous site inappropriate for judging central acidosis.

Use of intraosseous blood to assess blood chemistries and hemoglobin during cardiopulmonary resuscitation with drug infusions

OBJECTIVE

To compare intraosseous with central venous blood samples for biochemical analyses and hemoglobin levels during cardiopulmonary resuscitation (CPR) and during cardiopulmonary resuscitation with infusion of sodium bicarbonate, epinephrine, and saline boluses through the intraosseous site.

DESIGN

Prospective, complete repeated measures study.

SETTING

An animal laboratory at a university medical center.

SUBJECTS

Thirty-two piglets (mean weight, 30 [range, 24-35] kg).

INTERVENTIONS

Animals were anesthetized, instrumented, and subjected to hypoxic cardiac arrest. An intraosseous cannula was inserted into the tibia, and animals were randomly assigned to one of five groups: heparinized saline (n = 6), epinephrine infusions only (n = 6), saline infusions only (n = 6), sodium bicarbonate infusions only (n = 8), and epinephrine, saline, and sodium bicarbonate infusions through the same site (n = 6). CPR (chest compressions and mechanical ventilation) was performed in all groups. Simultaneous blood samples were taken from the central venous and intraosseous sites before arrest and after 5 and 30 mins of CPR.

MEASUREMENTS AND MAIN RESULTS

There were no differences (p < .05) in sodium, potassium, magnesium, lactate, and calcium values of intraosseous and central venous blood at the baseline and during 5 mins of CPR with infusions through the intraosseous cannula. At 30 mins, differences were apparent in magnesium, potassium, and sodium values between groups when the intraosseous cannula was used for infusions as well as sampling. Intraosseous potassium, glucose, and magnesium values were lower and sodium values were higher than central venous blood levels. No differences were seen at all sampling intervals if small-volume heparinized saline was given through the intraosseous site. Hemoglobin values were lower in the intraosseous group after 30 mins of CPR and infusions through the intraosseous site. After 30 mins of CPR, all hemoglobin values from the intraosseous site were <10 g/100 mL.

CONCLUSION

Intraosseous and central venous blood biochemical and hemoglobin values were similar during hemodynamic stability and throughout 30 mins of resuscitation if no drugs were given through the intraosseous site. However, differences existed after 30 mins of CPR and infusions through the intraosseous site. Laboratory values may be erroneous when intraosseous blood is used during periods of resuscitation of >5 mins if drugs and fluid boluses have also been infused through the site. For reliable values, an intraosseous site for sampling only may be reasonable.

Fat embolism with the use of intraosseous infusion during cardiopulmonary resuscitation

The objective of this prospective study was to assess the incidence and magnitude of fat emboli after cardiopulmonary resuscitation and intraosseous infusions. An animal laboratory at a university center was used to study 33 mixed-breed piglets. The piglets underwent hypoxic cardiac arrest followed by chest compressions and mechanical ventilation for a minimum of 30 minutes. The animals were divided in groups: group 1 (n = 5), which had no intraosseous cannulas, group 2 (n = 6), which had intraosseous cannulas with infusion, groups 3 (n = 6), 4 (n = 6), and 5 (n = 8), which had intraosseous cannulas with infusion of epinephrine, normal saline, and sodium bicarbonate respectively, and group 6 (n = 2), which was a sham group with no intraosseous cannulas and no cardiopulmonary resuscitation. At cessation of cardiopulmonary resuscitation, representative lung samples were collected from upper and lower lobes of each lung and observed for fat globules and bone marrow elements. Fat globules were seen in the peribronchial blood vessels and intravascular areas throughout all lung fields of groups 1 through 5. There was no difference in appearance or distribution of fat globules among the 5 treatment groups. Analysis of variance showed no statistical significance (P < 0.05) within or among groups 1 through 5. The use of the intraosseous cannula for infusion of emergency drugs and fluids did not increase the magnitude of fat embolization over cardiopulmonary resuscitation alone in this animal model. The benefits of using this procedure in critically ill children as a means of rapid vascular access for resuscitation is well established. However, the risk of fat embolism in this population needs further study.