Furthermore, we showed that CWI strongly modified the white blood cell counts, with changes reaching a peak between 1 and 2 h after the CWI.The World Health Organization (WHO) assigns International Nonproprietary Names (INN) to pharmaceutical substances, including advanced therapy medicinal products, to ensure that each substance is globally recognized by a unique name. The majority of INN are published in the WHO Drug Information in accordance with the nomenclature rules of the International Union of Pure and Applied Chemistry. However, advanced therapy medicinal products, and in particular cell therapy and cell-based gene therapy substances, cannot be defined by such chemical nomenclature. Instead, they are published together with a textual definition paragraph to unambiguously describe their characteristics.  https://www.selleckchem.com/products/5-ethynyluridine.html  These definitions are an integral part of the INN nomenclature system, and their presence contributes to pharmacovigilance and patient safety, as they help to distinguish regulated substances from cell-based interventions that have no INN and are marketed without regulatory oversight. Particular attention is therefore allocated to these descriptive paragraphs, as they form the basis for defining the uniqueness of a particular cell substance. This review describes the INN nomenclature system for cell-based substances and focuses on the progress made by the WHO INN Programme to develop and harmonize these definition paragraphs, which is reflected in a newly revised INN application form for cell therapy substances.Eukaryotic cells are usually diploid, meaning they contain two copies of each chromosome. However, aberrant chromosome numbers due to both, chromosome gains and losses, are often observed in nature. They can occur as a planned developmental step, but are more often an uninvited result of mitotic failure. Recent discoveries have improved our understanding of the cellular effects of aneuploidy - uneven chromosome numbers, and polyploidy - multiplication of entire sets of chromosomes - in eukaryotic cells. The results show that mitotic errors lead to rapid and extensive modifications of many cellular processes and affect proliferation, proteome balance, genome stability and more. The findings picture the cellular response to aneuploidy and polyploidy as a complex, tissue and context dependent network of events. Here I review the latest discoveries, with an emphasis on pathological aspects of aneuploidy and polyploidy in human cells.
  With growing support of perioperative chemotherapy for upper tract urothelial carcinoma (UTUC), current biopsy methods are challenging, and little is known as to the degree to which patients would appropriately receive neoadjuvant chemotherapy (NAC) from biopsy alone. Herein, we sought to assess the rates of appropriate clinical use of NAC and identify clinicopathologic factors associated with aggressive UTUC amongst patients undergoing radical nephroureterectomy (RNU) for clinically localized disease.
 
  From 2004 to 2013, we identified all treatment naïve patients diagnosed with clinically localized, high grade UTUC (cTa-4Nx) who underwent RNU from the National Cancer Database (NCDB). Pathologic criteria for NAC (pT2-4N0,x; pTanyN1) from RNU represented the primary outcome. Bivariate and multivariable analyses were utilized to identify covariates associated with primary outcome to determine appropriate use of NAC.
 
  During the study interval, 5,362 patients were diagnosed with clinically localized UTUC and underwent RNU. Overall, 49.1% of patients presented with an unknown primary tumor stage (Tx) and 24.5% had invasive UTUC from biopsy. On multivariable analysis, upper tract tumor size was associated with invasive UTUC eligible for NAC (all P &lt; 0.05). Amongst patients with cTx UTUC from biopsy, half of patients had pathologic noninvasive UTUC (pTa,is,1) from RNU and would be overtreated with NAC.
 
  Significant uncertainty persists in assigning primary upper tract tumor depth and represents a key barrier to widespread implementation of NAC for patients with high grade UTUC. Further research is needed to more accurately determine clinical criteria to identify patients for NAC.
 Significant uncertainty persists in assigning primary upper tract tumor depth and represents a key barrier to widespread implementation of NAC for patients with high grade UTUC. Further research is needed to more accurately determine clinical criteria to identify patients for NAC.
  Proton beam therapy (PBT) has increasingly been applied for the treatment of young children when radiotherapy is needed. The treatment requires intensive multimodality care and is logistically demanding. In this analysis, we evaluated our experiences in treating infants with tumours of the central nervous system with PBT.
 
  Children younger than 2 years of age treated with PBT for central nervous system tumours enrolled in the prospective registry study KiProReg were retrospectively analysed. Information on patient characteristics, treatment, toxicities and outcome were evaluated. Adverse events were classified according to the National Cancer Institute Common Terminology Criteria for Adverse Events (CTCAE V4.0) before, during and after PBT.
 
  Between September 2013 and June 2018, 51 infants were eligible. The median age was 19 months (range 11-23 months) at the time of PBT. Tumour entities were ependymoma (51.0%), atypical teratoid rhabdoid tumour (39.0%), high-grade glioma (6.0%), pineoblastoma (2.0%) andldren with central nervous system tumours, at least in the short term. However, it requires challenging interdisciplinary medical care and high logistical effort. For evaluation of late effects, longer follow-up and evaluation of neurocognitive outcome are desirable. More data have to be gathered to further define the role of radiotherapy in infants over time.
 Our study indicates that PBT is feasible for very young children with central nervous system tumours, at least in the short term. However, it requires challenging interdisciplinary medical care and high logistical effort. For evaluation of late effects, longer follow-up and evaluation of neurocognitive outcome are desirable. More data have to be gathered to further define the role of radiotherapy in infants over time.