Julie Mycroft scite author profile

The majority of chemotherapy regimens and trials specify doses of cytotoxic drugs normalized to body surface area. Estimation of BSA in paediatric patients is particularly problematic, as conventional nomograms require accurate determination of both height and weight. The chemotherapy standards group of the UKCCSG (United Kingdom Children's Cancer Study Group) has evaluated a method for calculation of body surface area (BSA) estimation, based solely on patient weight. In comparison with BSA estimations using 2 commonly used methods, which require both weight and height measurements, deviation in the estimate of BSA was less than 10%. This method may be extended to the dosing of chemotherapeutic agents in infants of body weight less than 10 kg, with appropriate recommendations for dose modification. Until better correlates of drug clearance, such as GFR for carboplatin, are identified BSA is used to standardize doses for most chemotherapeutic agents. The formula presented here provides a more robust and reliable method of calculation of BSA from weight alone. Although this approach has been shown to be equivalent to other currently used methods, care should be taken extending this calculation of BSA to children less than 10 kg, to obese patients and to those with cachexia. © 2001 Cancer Research Campaign http://www.bjcancer.com

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Efficacy and tolerability of high‐dose methotrexate in central nervous system positive or relapsed lymphoproliferative disease following liver transplant in children

Taj

Messahel

Mycroft

et al. 2007

Br J Haematol

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SummaryChildhood post-transplant lymphoproliferative disease (PTLD) is a heterogeneous condition in which treatment varies, from the reduction of immunosuppression to moderately intensive chemotherapy. While lowdose chemotherapy/rituximab has been found to be effective, moderately intensive chemotherapy is required for patients who relapse, have classic nonHodgkin lymphoma or have fulminant PTLD. Methotrexate (Mtx) is highly effective in lymphomas and crosses the blood-brain barrier. However, there are no data in the literature regarding its safety in post-liver transplant patients. We describe four cases of high-grade lymphomas (three diffuse large B cell and one T-cell lymphoblastic), post-liver transplant, for which chemotherapy including high-dose Mtx (HDMTX) was the treatment of choice. In total, 20 doses of HDMTX (1-5 g/m 2 ) were given. The treatment was well tolerated and all four patients had a good response. One case of central nervous system (CNS) diffuse large B-cell lymphoma was treated with HDMTX alone. We conclude that, in the absence of significant organ damage, HDMTX can safely be given to liver transplant patients, but should only be administered in specialist oncology units. Proof of effectiveness as a single agent in CNS lymphoma needs further studies.

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Craniospinal irradiation with concomitant and adjuvant temozolomide—a feasibility assessment of toxicity in patients with glioblastoma with a PNET component

et al. 2016

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There is no standard treatment for glioblastoma with elements of PNET (GBM-PNET). Conventional treatment for glioblastoma is surgery followed by focal radiotherapy with concurrent temozolomide. Given the increased propensity for neuroaxial metastases seen with GBM-PNETs, craniospinal irradiation (CSI) with temozolomide (TMZ) could be a feasible treatment option but little is known regarding its toxicity. The clinical records of all patients treated at two UK neuro-oncology centres with concurrent CSI and TMZ were examined for details of surgery, radiotherapy, chemotherapy and toxicities related to the CSI-TMZ component of their treatment. Eight patients were treated with CSI-TMZ, the majority (6/8) for GBM-PNET. All patients completed radiotherapy to the craniospinal axis 35-40 Gy in 20-24 daily fractions with a focal boost to the tumour of 14-23.4 Gy in 8-13 daily fractions. Concurrent TMZ was administered at 75 mg/m(2) for seven of the cohort, with the other patient receiving 50 mg/m(2). The most commonly observed non-haematological toxicities were nausea and vomiting, with all patients experiencing at least grade 2 symptoms of either or both. All patients had at least grade 3 lymphopaenia. Two patients experience grade 4 neutropaenia and grade 3 thrombocytopaenia. Three of the eight patients required omission of TMZ for part of their chemoradiotherapy and 3/8 required hospital admission at some point during chemoradiotherapy. The addition of TMZ to CSI did not interrupt radiotherapy. Principal toxicities were neutropaenia, lymphopaenia, thrombocytopaenia, nausea and vomiting. Treatment with CSI-TMZ merits further investigation and may be suitable for patients with tumours at high-risk of metastatic spread throughout the CNS who have TMZ-sensitive pathologies.

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Pharmacotherapy update in the management of paediatric cancer

Mycroft

2010

Pharm World Sci

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Great advances in the treatment of childhood cancer have been made over the last 30 years because of developments in supportive care, the increasing use of advanced technology to detect and diagnose disease, developments in the understanding and relevance of cell biology and by the successful recruitment of children into nationally co-coordinated clinical trials. For some childhood malignancies where the survival rate is high, trials are ongoing to see if treatment can be stratified and directed according to patient risk, with those that fall into a favourable risk category potentially being cured with less treatment and therefore less short term and long term toxicity.

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Julie Mycroft

Body surface area estimation in children using weight alone: application in paediatric oncology

Efficacy and tolerability of high‐dose methotrexate in central nervous system positive or relapsed lymphoproliferative disease following liver transplant in children

Craniospinal irradiation with concomitant and adjuvant temozolomide—a feasibility assessment of toxicity in patients with glioblastoma with a PNET component

Pharmacotherapy update in the management of paediatric cancer

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