Data supporting neoadjuvant chemotherapy of high grade upper tract urothelial carcinoma are scant. In this multi-institution, prospective, phase II trial we investigated pathological complete responses after neoadjuvant chemotherapy of high grade upper tract urothelial carcinoma.Patients with high grade upper tract urothelial carcinoma in whom nephroureterectomy was planned were assigned to 4 neoadjuvant chemotherapy cycles of accelerated methotrexate, vinblastine, doxorubicin and cisplatin in those with baseline creatinine clearance greater than 50 ml per minute or gemcitabine and carboplatin in those with creatinine clearance 30 to 50 ml per minute or less. The study primary end point was a pathological complete response (ypT0N0). The accrual goal was 30 patients per arm. An 18% pathological complete response was considered worth further study while a 4% pathological complete response would not have justified pursuing this regimen. With 28 eligible patients per arm success was defined as 3 or more pathological complete responses (10.7%) in a given arm. Secondary end points included safety, renal function and oncologic outcomes.A total of 30 patients enrolled in the accelerated methotrexate, vinblastine, doxorubicin and cisplatin arm from 2015 to 2017. Six patients enrolled in the gemcitabine and carboplatin arm, which closed due to poor accrual. Of the 29 patients eligible for accelerated methotrexate, vinblastine, doxorubicin and cisplatin, including 23 men and 6 women with a median age of 65 years (range 40 to 84), 80% completed all planned treatments, 3 (10.3%) achieved ypT0N0 and 1 achieved ypT0Nx for a pathological complete response in 13.8% (90% CI 4.9-28.8). In 1 patient receiving accelerated methotrexate, vinblastine, doxorubicin and cisplatin nephroureterectomy was deferred due to grade 4 sepsis. The grade 3-4 toxicity rate was 23% in the accelerated methotrexate, vinblastine, doxorubicin and cisplatin arm with no grade 5 event.Accelerated methotrexate, vinblastine, doxorubicin and cisplatin neoadjuvant chemotherapy in patients with high grade upper tract urothelial carcinoma and creatinine clearance greater than 50 ml per minute was safe and demonstrated predefined activity with a 14% pathological complete response rate. Final pathological stage ypT1 or less in more than 60% of patients is encouraging. Together the results of this prospective trial support the use of neoadjuvant chemotherapy in eligible patients with high grade upper tract urothelial carcinoma.
Locked in syndrome is typically associated with significant morbidity and mortality. We report a patient who had an unusually good recovery from locked in syndrome due to pontine infarction. The good recovery exhibited by our patient may have resulted from resolution of oedema at the site of infarction and brainstem plasticity being augmented by initial supportive measures in the intensive care unit and early, intensive rehabilitation.
Background Deep hypothermic circulatory arrest (DHCA), as used in infant heart surgery, carries a risk of brain injury. In a piglet DHCA model, neocortical neurons appear to undergo apoptotic death. Caspases, cytochrome c, tumor necrosis factor (TNF), and Fas play a role in apoptosis in many ischemic models. This study examined the expression of these factors in a DHCA piglet model. Methods Thirty-nine anesthetized piglets were studied. After cardiopulmonary bypass (CPB) cooling of the brain temperature to 19 degrees C, DHCA was induced for 90 min, followed by CPB rewarming. After separation from CPB, piglets were killed at 1, 4, 8, 24, and 72 h and 1 week. Caspase-8 and -3 activity, and concentrations of TNF-alpha, Fas, Fas-ligand, cytochrome c, and adenosine triphosphate (ATP) were measured in the neocortex by enzymatic assay and Western blot analysis. Caspase-8 and -3 activity and cell death were examined histologically. Significance was set at P < 0.05. Results In neocortex, damaged neurons were not observed in control (no CPB), rarely observed in CPB (no DHCA), and rarely observed in the DHCA 1-h, 4-h, and 1-week reperfusion groups. However, they were seen frequently in the DHCA 8-, 24-, and 72-h reperfusion groups. Although neuronal death was widespread 8-72 h after DHCA, cortical ATP concentrations remained unchanged from control. Both caspase-3 and -8 activities were significantly increased at 8 h after DHCA, and caspase-3 concentration remained elevated for as long as 72 h. Caspase-3 and -8 activity was also observed in damaged neocortical neurons. Cytosolic cytochrome c and Fas were significantly expressed at 1 h and 4 h after DHCA, respectively. Fas-ligand and TNF-alpha were not observed in any group. Conclusion After DHCA, induction of apoptosis in the neocortex occurs within a few hours of reperfusion and continues for several days. Increased Fas, cytochrome c, and caspase concentrations, coupled with normal brain ATP concentrations and apoptotic histologic appearance, are consistent with the occurrence of apoptotic cell death.
In Brief BACKGROUND: Detection of cerebral hypoxia-ischemia (H-I) and prevention of brain injury remains problematic in critically ill neonates. Near-infrared spectroscopy (NIRS), a noninvasive bedside technology could fill this role, although NIRS cerebral O2 saturation (ScO2) viability-time thresholds for brain injury have not been determined. We investigated the relationship between H-I duration at ScO2 35%, a viability threshold which causes neurophysiological impairment, to neurological outcome. METHODS: Forty-six fentanyl-midazolam anesthetized piglets were equipped with NIRS and cerebral function monitor (CFM) to record ScO2 and electrocortical activity (ECA). After carotid occlusion, inspired O2 was adjusted to produce H-I (ScO2 35% with decreased ECA) for 1, 2, 3, 4, 6 or 8 h in different groups, followed by survival to assess neurological outcome by behavioral and histological examination. RESULTS: For H-I lasting 1 or 2 h, ECA and ScO2 during reperfusion rapidly returned to normal and neurological outcomes were normal. For H-I more than 2–3 h, ECA was significantly decreased and ScO2 was significantly increased during reperfusion, suggesting continued depression of tissue O2 metabolism. As H-I increased beyond 2 h, the incidence of neurological injury increased linearly, approximately 15% per h. CONCLUSION: A viability-time threshold for H-I injury is ScO2 of 35% for 2–3 h, heralded by abnormalities in NIRS and CFM during reperfusion. These findings suggest that NIRS and CFM might be used together to predict neurological outcome, and illustrate that there is a several hour window of opportunity during H-I to prevent neurological injury. IMPLICATIONS: Near-infrared spectroscopy, electrocortical activity and neurological outcome were monitored in piglets subjected to mild hypoxia-ischemia from 1 to 8 h. Neurological injury began to occur after 2 h of hypoxia-ischemia and was heralded by abnormalities in near-infrared spectroscopy and electrocortical activity during reperfusion, suggesting that there is a time window to prevent neurological injury and that these monitors might be used together to predict outcome.
Society of Critical Care Medicine; 28th Educational and Scientific Symposium; San Francisco, California, USA; January 23-27, 1999: Poster Presentations: Poster Hall
'%3e%3cpath fill='%23012169' d='M0 0v30h60V0z'/%3e%3cpath stroke='%23fff' stroke-width='6' d='m0 0 60 30m0-30L0 30'/%3e%3cpath stroke='%23C8102E' stroke-width='4' d='m0 0 60 30m0-30L0 30' clip-path='url(%23b)'/%3e%3cpath stroke='%23fff' stroke-width='10' d='M30 0v30M0 15h60'/%3e%3cpath stroke='%23C8102E' stroke-width='6' d='M30 0v30M0 15h60'/%3e%3c/g%3e%3c/svg%3e)