Hopkins Ca scite author profile

Hopkins Ca

4Publications

33Citation Statements Received

18Citation Statements Given

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Wellcome Centre for Molecular Parasitology, University of Glasgow

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The migration of Hymenolepis diminuta in the rat's intestine during normal development and following surgical transplantation

Bråten

1969

Parasitology

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The normal position of attachment of the scolex of H. diminuta from day 6 to day 27 in single worm infections in male Wistar rats was determined. A migration forward from a position of attachment 30–40% down the length of the small intestine to the 10–20% region during day 7 to day 14 was confirmed. A concomitant and slightly faster movement backwards of the posterior of the worm led to the mid-point of the strobila changing from 35 to 50% down the intestine. By day 18 the worms were mature and occupied the whole small intestine except the anterior 10% and the posterior 5–10%. The worms weighed approximately 350 mg dry weight (= 1550 mg fresh weight) at maturity, no significant weight increase occurred thereafter.6½ and 7½ day-old worms were transplanted from donor rats into the duodenum or posterior ileum. Nearly 100% recovery of the single worm transplants in recipient rats was obtained. Both anterior and posterior implanted worms returned to the region of the intestine from which they had been removed. Migration was measured over periods of 13–72 h and was found to be complete within 24 h. Worms transplanted into the duodenum continued to grow at nearly the normal rate but worm transplants into the posterior ileum lost nearly a day's growth. The significance of this point is discussed.Opium was found to prevent migration of the tapeworm, but ligation of the bile duct did not prevent the tapeworm migrating forward from a point of insertion near the ileo-caecal junction.The evidence confirms the concept that a tapeworm is a dynamic organism capable of recognizing a specific region of the intestine, of detecting when it is not in this region, of being able to interpret one or more stimuli to indicate direction and of having a motor system sufficiently coordinated to overcome peristalsis.We gratefully acknowledge financial support by the Medical Research Council (London) and technical assistance from Miss Helen Stallard, B.Sc., Miss Pat Grant and Miss Gillian Moore. One of us (Trond Braten) wishes also to thank the University of Glasgow for the award of a Visiting Fellowship.

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Methionine flux between a tapeworm (Hymenolepis diminuta) and its environment

Ca¹,

Ll²

1965

Parasitology

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In the course of work designed to measure the extent to which methionine absorbed in one region of a tapeworm became distributed throughout the strobila, it was observed that, whereas, in saline, Hymenolepis diminuta lost previously absorbed methionine slowly, in the intestine of a rat the methionine was lost very rapidly. The fact that two worms containing initially the same amount of free methionine should, after a short period in different environments, contain utterly different quantities of methionine indicated that the quantity of a free amino acid present at any time is not simply dependent on the amount previously absorbed less the amount metabolized.This observation has a bearing on several aspects of tapeworm physiology. Do tapeworms normally absorb amino acids from the intestine during periods of high concentration and release them when the concentration falls? If they do, the presence of tapeworms in the intestine could be beneficial to the host by extending the period over which an amino acid is available to the host, an important point as a mammal is unable to store amino acids for more than a few hours (Gitler, 1964). A knowledge of the environmental conditions which influence the level of free amino acids in a tapeworm, and thereby its ability to synthesize proteins, is obviously also of critical importance to workers attempting to grow worms in vitro.

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The in vitro cultivation of strigeid trematodes. III. Yeast as a medium constituent

Mo¹,

Ca²,

Mr³

1961

Experimental Parasitology

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Immunological Memory in Mice to Adult Hymenolepis diminuta (Cestoda)

Ca¹

1982

The Journal of Parasitology

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Following a primary infection with Hymenolepsis diminuta mice were found to be strongly resistant to a challenge infection over a period of eight months. Challenge was by three cysticercoids administered orally, or by inserting into the duodenum one 7-day-old strobilate worm recovered from a donor mouse. Autopsy of immunized mice 6, 8, and 9 days after challenge showed that challenge worms established but that, with few exceptions, only shunted or destrobilated worms remained. Autopsy of recently immunized mice, at daily intervals following challenge, confirmed that transplanted worms establish as well in immunized as in naive mice, and showed that worms grow normally for the first 48 hr but between 48 to 120 hr most worms destrobilate or are lost. In naive mice, transplanted worms survive and grow, approximately doubling their weight daily for at least 6 days (144 hr). The results provide insight to the problem of developing a useful vaccine and the location of memory cells.

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Hopkins Ca

The migration of Hymenolepis diminuta in the rat's intestine during normal development and following surgical transplantation

Methionine flux between a tapeworm (Hymenolepis diminuta) and its environment

The in vitro cultivation of strigeid trematodes. III. Yeast as a medium constituent

Immunological Memory in Mice to Adult Hymenolepis diminuta (Cestoda)

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