Robert F W Moulds
Royal Melbourne Hospital
63 Papers
555 Citations
Robert F W Moulds is an academic researcher from Royal Melbourne Hospital. The author has contributed to research in topics: Phenylephrine & Platelet. The author has an hindex of 18, co-authored 63 publications.
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Papers
Cerebral haemorrhage in a "health centre".
Peter G. Shaw,Robert F W Moulds +1 more
TL;DR: A case of cerebral haemorrhage in a 20‐year‐old man, which occurred during a "workout" at a “health centre”, is described and the possibility of grave consequences of rapid changes in blood pressure produced by thermal stress is emphasised.
Relationship between nifedipine sensitivity of aortae and blood pressure of stroke‐prone spontaneously hypertensive rats
TL;DR: Whether changes in blood pressure change the sensitivity to nifedipine and K+ of aortic rings from normotensive (Wistar‐Kyoto rats, WKY) and stroke‐prone spontaneously hypertensive rats (SHRSP).
Hospitalisation for adverse events related to drug therapy: incidence, avoidability and costs
Jonathan Dartnell,Robert P. Anderson,Veronica Chohan,Kirsten Galbraith,Moira E H Lyon,Peter J. Nestor,Robert F W Moulds +6 more
TL;DR: To determine the incidence of hospital admissions for adverse events related to drug therapy, and to assess whether these drug‐related admissions (DRAs) could have been reasonably prevented, data are collected on patients admitted to hospital for drug therapy-related adverse events between January and June of each year.
•Journal Article
Australian National Health and Medical Research Council dietary salt study in mild hypertension.
John Chalmers,Trefor Morgan,A Doyle,B Dickson,John L. Hopper,John D. Mathews,Gerald Matthews,Robert F W Moulds,John B. Myers,Caryl A. Nowson +9 more
TL;DR: Factorial analysis confirmed that the falls in pressure attributable to the low-sodium diet and high-potassium diet were not additive, and the diet phase of 12 weeks was concluded.
A study of the action of caffeine, halothane, potassium chloride and procaine on normal human skeletal muscle.
TL;DR: The effects of caffeine, halothane, potassium chloride and procaine have been studied on normal human skeletal muscle in vitro and particular emphasis has been given to the role played by extracellular calcium ions in producing these effects.