RESUMO
Background: Patients presenting with large cell neuroendocrine carcinomas (LCNECs) comprise a small minority of total colon and rectal cancers (1-2%) with poor prognostic outcomes in lieu of late diagnosis and metastasis at the point of diagnosis. Case Description: We report a case presentation of a 69-year-old male presenting with diffuse, non-severe upper abdominal pain and a positive at-home colon cancer screening test. At the time of presentation, the patient was negative for constipation or blood in stool. The patient underwent a colonoscopy with biopsy results positive for LCNEC within the proximal ascending colon. A right hemicolectomy was performed with subsequent pathology indicating a poorly differentiated LCNEC with 4/18 positive nodes and final pathology showing stage IIIA (T3, N1, M0) with Ki-67 index at 70%. Post-operative intervention included two cycles of carboplatin and etoposide as well as routine follow-up for labs, imaging, and pharmacological management. Conclusions: LCNECs are highly aggressive with poor prognostic outcomes and high mortality rates on both 1- and 5-year survival scales. Prior studies and reports indicated a need for further research and data investigating treatment standardization for patients diagnosed with LCNECs. In lieu of this, this study provides a potential standardized treatment modality combining both European Neuroendocrine Tumor Society (ENETS) and North American Neuroendocrine Tumor Society (NANETS) consensus guidelines.
RESUMO
Platelets are known primarily for their role in blood clotting; however, it is becoming clear that they play diverse roles beyond that of haemostasis. Exercise has been shown to activate platelets and stimulate neurogenesis, neuroplasticity and improve cognitive function, highlighting a potentially powerful link between platelet function and brain health. Despite this clear link between platelets and the brain, very little is known about the behaviour of platelets through the cerebral circulation in humans. We examined platelet concentration across the brain in exercising humans at sea level (340 m) and high altitude (6-8 days at 3800 m; a stimulus known to modify platelet function). During intense exercise at sea level, platelet concentration increased similarly by 27 ± 17% in the arterial and internal jugular venous circulations (exercise: P < 0.001, interaction: P = 0.262), indicating no uptake or release of platelets into/from the brain. At high altitude, resting platelet concentrations were similar to sea level values in both the arterial and jugular venous circulations (P = 0.590); however, intense exercise at high altitude caused a 31 ± 35% decrease in platelet concentration across the brain (P = 0.016). This divergent response across the brain was not observed in any other haematological or metabolic variables. These data highlight a unique situation where the combination of intense exercise and high altitude hypoxia cause a decrease in platelet concentration across the cerebral circulation. The physiological implications and mechanisms that might influence platelet function across the brain during exercise at high altitude remain to be established. KEY POINTS: Platelets are known primarily for their role in blood clotting; however, it is becoming clear that they play diverse roles beyond that of haemostasis. Exercise has been shown to activate platelets, which in turn stimulate neurogenesis, neuroplasticity and improve cognitive function, highlighting a powerful link between platelet function and brain health. At sea level, platelet concentration in blood going into and out of the brain was similar at rest, during maximal exercise and in recovery from exercise. During maximal exercise at high altitude, platelet concentration was 31% lower in the blood exiting the brain; the final destination of these platelets is unknown. The physiological implications and mechanisms that might influence platelet function across the cerebral circulation during exercise at high altitude remain to be established.
