A new study in Communications Biology provides evidence that a psychedelic drug induces a hybrid sleep-wake state in active mice. This unusual brain activity suggests a potential mechanism for how psychedelics might help remodel neural connections.

Ploidy and neuron size impact nervous system development and function in Xenopus.

Liu et al. use triploid Xenopus as a model to characterize effects of neuron size on vertebrate nervous system development and function. They report association between neuron size, cell proliferation, brain activity, and tadpole swimming behavior.

SA-CME credits are available for this article here.

Ever since the first proton beam therapy (PBT) treatment in 1954 at University of California, Berkley, the use of PBT worldwide has rapidly increased.¹ Due to the depth-dose characteristics of protons that allow for steep fall-off just distal to the tumor target, PBT can reduce unnecessary radiation dose to nearby normal tissues and allow for safer dose escalation in select clinical scenarios. Superior normal tissue avoidance can lead to reductions in acute and late toxicities, safe dose escalation can lead to improved local control, and the combination of both factors has the potential to impact overall survival (OS).

Early data have suggested that PBT led to improved clinical outcomes in the treatment of various pediatric cancers, ocular melanomas, sarcomas of the paravertebral region, and brain tumors when compared with traditional photon-based radiation.² Historically, fewer studies evaluated the utility of PBT in the treatment of gastrointestinal (GI) malignancies; however, retrospective studies in the setting of gastroesophageal cancer and pancreatic cancer show that preoperative PBT may reduce postoperative complications and definitive PBT may improve outcomes for those with unresectable disease.^3–6 Even fewer studies have evaluated the role of PBT in the primary or neoadjuvant treatment of colorectal cancer (CRC), but there have been published clinical outcomes in the treatment of recurrent disease as well as liver metastases. The aim of this review is to discuss the existing dosimetric and clinical data for PBT in the treatment of patients with CRC.