Chemotherapy-induced cognitive impairments: A systematic review of the animal literature.

Whilst chemotherapy is a widely used anti-cancer treatment, a subset of patients experience cognitive decline. However, cancer type, treatment regimen, fatigue and anxiety can influence cognitive status. Rodent research has overcome these confounds to systematically evaluate cognitive domains and underlying neural mechanisms disrupted by chemotherapy treatment. Therefore, a systematic review was conducted in June 2017 to examine the relationship between chemotherapy and cognitive decline in animal models. A comprehensive literature search was performed in PubMed, PsycInfo, Web of Science, Scopus and Medline databases. A quality assessment yielded a total of 83 papers to be considered for the review. A critical assessment of research papers indicated that cisplatin, CMF and MTX + 5-FU chemotherapy regimens produced strong deficits in short term memory, long term memory and executive control. An assessment of specific cognitive domains illustrated that short term memory was strongly impaired by chemotherapy treatment, often associated with impaired neurogenesis, inflammation and mitochondrial dysfunction in the hippocampus. Pharmacological treatments were the most common intervention to reduce the prevalence of chemobrain.

Invited review: The evolution of cattle bioacoustics and application for advanced dairy systems.

Vocalisations are commonly expressed by gregarious animals, including cattle, as a form of short- and long-distance communication. They can provide conspecifics with meaningful information about the physiology, affective state and physical attributes of the caller. In cattle, calls are individually distinct meaning they assist animals to identify specific individuals in the herd. Consequently, there is potential for these vocalisations to be acoustically analysed to make inferences about how individual animals or herds are coping with their external surroundings, and then act on these signals to improve feed conversion efficiency, reproductive efficiency and welfare. In the case of dairy farming, where herd sizes are expanding and farmers are becoming more reliant on technologies to assist in the monitoring of cattle, the study of vocal behaviour could provide an objective, cost effective and non-invasive alternative to traditional measures of welfare. The vocalisations of cattle in response to calf separation, social isolation and painful husbandry procedures, alongside changes to feeding and oestrous activity are here reviewed. For future application of sound technology, research is first necessary to analyse the acoustic structure of cattle vocalisations and determine the specific information they encode. This review draws together the latest research in field of cattle bioacoustics highlighting how the source-filter theory and affective state dimensional approach can be adopted to decode this information and improve on-farm management.

Chemotherapy-induced cognitive impairments: White matter pathologies.

Whilst chemotherapeutic agents show promising results in the amelioration of cancerous tumors, patients often experience cognitive disturbances associated with chemotherapy long after treatment has ceased. Research has suggested that the structural integrity of white matter fibres in the brain are susceptible to the harmful effects of chemotherapy. Post-chemotherapy, white matter tracts often display altered morphology with a reduction in glial cells such as oligodendrocytes. Demyelination, gliosis and leukoencephalopathy during or post chemotherapy is associated with changes in processing speed and IQ. Thus, understanding the relationship between chemotherapy, white matter damage and cognition is warranted. This review presents evidence for chemotherapy induced white matter damage highlighting the importance of implementing behavioral and pharmological strategies to prevent or reverse such acute toxicity in the brain.

Chemotherapy and cognitive impairment: treatment options.

Chemotherapy has improved survival rates in patients with many of the common cancers. However, there is reliable evidence that, as a result of treatment, a subset of cancer survivors experience cognitive problems that can last for many years after the completion of chemotherapy. The etiology of this phenomenon is largely unknown, and currently there are no proven treatments. This article explores the clinical and preclinical literature on potential therapies for chemotherapy-induced cognitive impairments. Emerging results suggest that both pharmacological and behavioral approaches may offer patients some benefits. However, research in this area has been limited and is sometimes fraught with methodological flaws. As a result, it is difficult to draw definite conclusions regarding treatment efficacy. These issues, along with predictors of cognitive decline, are discussed in the light of possible interventions.

A peripheral, intracerebral, or intrathecal administration of an opioid receptor antagonist blocks illness-induced hyperalgesia in the rat.

We used the tail-flick response of rats to study the role of opioid receptors in illness-induced hyperalgesia. An intraperitoneal injection of lithium chloride (LiCl) produced hyperalgesia that was blocked in a dose-dependent manner by subcutaneous injection of the opioid antagonist naloxone. Neither hyperalgesia nor its blockade by naloxone were due to variations in tail-skin temperature induced by LiCl. Hyperalgesia was also blocked when opioid receptor antagonism was restricted to (a) the periphery, by intraperitoneal administration of the quaternary opioid receptor antagonist naloxone methiodide; (b) the brain, by intracerebroventricular microinjection of naloxone; or (c) the spinal cord, by intrathecal microinjection of naloxone. These results document a pain facilitatory role of opioid receptors in both the peripheral and central nervous systems and are discussed with reference to their analgesic and motivational functions.