Observations on the onset of rigor mortis

doi:10.1098/rspb.1926.0034

Cited by 30 publications

(5 citation statements)

References 17 publications

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“…Many factors such as exercise, cause of death, temperature and nourishment affect the onset or progress of rigor mortis of the whole body [9,33,[42][43][44]. Concerning rigor mortis in each joint, of course we have to consider that it is not just one muscle that moves a joint.…”

Section: Discussionmentioning

confidence: 98%

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Does the sequence of onset of rigor mortis depend on the proportion of muscle fibre types and on intra-muscular glycogen content?

Kobayashi

Takatori

Nakajima

et al. 1999

International Journal of Legal Medicine

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We examined the postmortem changes in the levels of ATP, glycogen and lactic acid in two masticatory muscles and three leg muscles of rats. The proportion of fibre types of the muscles was determined with NIH image software. The ATP levels in the white muscles did not decrease up to 1 h after death, and the ATP levels 1 and 2 h after death in the white muscles were higher than those in the red muscles with a single exception. The glycogen level at death and 1 h after death and the lactic acid level 1 h after death in masticatory muscles were lower than in the leg muscles. It is possible that the differences in the proportion of muscle fibre types and in glycogen level in muscles influences the postmortem change in ATP and lactic acid, which would accelerate or retard rigor mortis of the muscles.

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Section: Discussionmentioning

confidence: 98%

“…Glycogen is the most important substrate for ATP formation by glycolysis in postmortem muscles [3,9,33] and the final product of glycolysis is lactic acid. Postmortem glycogenolysis in a single muscle has been studied in detail [34,35] but never in different muscles.…”

Section: Discussionmentioning

confidence: 99%

Does the sequence of onset of rigor mortis depend on the proportion of muscle fibre types and on intra-muscular glycogen content?

Kobayashi

Takatori

Nakajima

et al. 1999

International Journal of Legal Medicine

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“…None of the normal frogs of Ochoa (30) and of Gemmill (10) had muscles that contracted anaerobically without glycolysis, although some of those treated with insulin did so. These three workers and Hoet and Marks (15) consider that a necessary and sufficient condition for anaerobic contraction without glycolysis is depletion of the muscle stores of carbohydrate. Gemmill (10) implied that the capacity of the muscle to do work anaerobically is directly proportional to the carbohydrate level, the important carbohydrate being glycogen.…”

Section: Experiments With Fatigued Musclesmentioning

confidence: 99%

“…If sartorii and gastrocnemii of R. temporaria and R. esculenta have low carbohydrate reserves, they can contract aerobically on sources of energy only partly carbohydrate (30,10). When mammalian muscles are rendered low in glycogen by the use of insulin or thyroid, rigor mortis in them is not accompanied by glycogenolysis or by lactate production (15). Olmsted and his colleagues (31,32) were the first to use insulin convulsions for rendering muscles of R. pipiens and R. catesbiana nearly free of glycogen; muscles so prepared contracted anaerobically without glycogenolysis or lactate production.…”

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confidence: 99%

Anaerobic Glycogenolysis in the Muscles of Rana Pipiens Living at Low Temperatures

Barger

Johnson²

1941

Journal of General Physiology

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When attempts failed (16) to produce glycolytically active extracts from the muscles of winter frogs stored at 4°C., and when lactate production at 0°C. by their gastrocnemii could not be detected (12, 17) we began to study the glycogen metabolism during fatigue of the muscles from such frogs. Previous workers have shown alterations in the carbohydrate metabofism of frog muscles with low glycogen contents, and also seasonal variations in the carbohydrate metabolism of frogs.If sartorii and gastrocnemii of R. temporaria and R. esculenta have low carbohydrate reserves, they can contract aerobically on sources of energy only partly carbohydrate (30, 10). When mammalian muscles are rendered low in glycogen by the use of insulin or thyroid, rigor mortis in them is not accompanied by glycogenolysis or by lactate production (15). Olmsted and his colleagues (31, 32) were the first to use insulin convulsions for rendering muscles of R. pipiens and R. catesbiana nearly free of glycogen; muscles so prepared contracted anaerobically without glycogenolysis or lactate production. Ochoa (30) and Gemmill (10) extended these observations to R. temporaria and R. esculenta.It has been known for a long time that there is marked seasonal variation in the carbohydrate metabolism of frogs' tissues. Schiff (36) in 1859 observed that there is little postmortem glycogenolysis at 23°C. by the livers of frogs caught in the winter. Grode and Lesser (13) set up uninjured livers and muscles of frogs for 4 hours at 22-23°C. in Ringer's solution under aerobic conditions. In November and December such preparations showed only very slight decreases in glycogen, despite initial concentrations of 0.75 to 1.24 per cent. At other times of the year, decreases of 15-20 per cent of the initial value were observed. If in November or December the organs were cut or severely injured, marked glycogenolysis took place. Lesser (21) analyzed whole frogs for glycogen. In the summer, anaerobiosis of 2 hours led to marked glycogenolysis. A subsequent 24 hours of aerobiosis led to restitution of most of the glycogen. In November and December, anaerobiosis of 2 hours did not produce glycogenolysis.

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“…Although much of the early work on rigor mortis attributed carcass stiffening after death to lactic acid production and the resultant drop in pH, Hoet and Marks (1926) suggested that this was not the fundamental reason for carcass stiffening. They concluded that lactic acid would not cause rigor by itself but that it would affect the amount of shortening and tension produced.…”

Section: Post-mortem Musclementioning

confidence: 99%

Subcellular events associated with the development and release of isometric tension in post-mortem bovine, rabbit and porcine skeletal muscle

Busch

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Observations on the onset of rigor mortis

Cited by 30 publications

References 17 publications

Does the sequence of onset of rigor mortis depend on the proportion of muscle fibre types and on intra-muscular glycogen content?

Does the sequence of onset of rigor mortis depend on the proportion of muscle fibre types and on intra-muscular glycogen content?

Anaerobic Glycogenolysis in the Muscles of Rana Pipiens Living at Low Temperatures

Subcellular events associated with the development and release of isometric tension in post-mortem bovine, rabbit and porcine skeletal muscle

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