Muscle Physiology

Riding the tides: [K+] and volume regulation by muscle Na+-K+-2Cl- cotransport activity

News Physiol Sci 18:196-200
Gosmanov AR, Lindinger MI, Thomason DB.

K+ transport and volume regulatory response by NKCC in resting rat hindlimb skeletal muscle

Cell Physiol Biochem 12:279-292
Lindinger MI, Hawke TJ, Lipskie SL, Schaefer HD, Vickery L.

An integrative, in situ approach to examining K+ flux in resting skeletal muscle

Can J Physiol Pharmacol 79:996-1006
Lindinger MI, Hawke TJ, Vickery L, Bradford L, Lipskie SL.

Ouabain stimulates unidirectional and net potassium efflux in resting mammalian skeletal muscle

Can J Physiol Pharmacol 79:932-941
Hawke TJ, Lessard S, Vickery L, Lipskie SL, Lindinger MI.

Paraxanthine, a caffeine metabolite, dose dependently increases [Ca2+]i in skeletal muscle

J Appl Physiol 89:2312-2317
Hawke TJ, Allen DG, Lindinger MI.

K+ transport in resting rat hind-limb skeletal muscle in response to paraxanthine, a caffeine metabolite

Can J Physiol Pharmacol 77:835-843
Hawke TJ, Willmets RG, Lindinger MI.

Increased flow rate and papaverine increase K+ exchange in perfused rat hindlimb skeletal muscle

Can J Physiol Pharmacol 77:536-543
Lindinger MI, Hawke TJ.

Role of skeletal muscle in plasma ion and acid-base regulation after NaHCO3 and KHCO3loading in humans

Am J Physiol 276:R32-R43
Lindinger MI, Franklin TW, Lands LC, Pedersen PK, Welsh DG, Heigenhauser GJF.

Distribution of lactate and other ions in inactive skeletal muscle: influence of hyperkalemic lactacidosis

Can J Physiol Pharmacol 75:1375-1386
Chin ER, Lindinger MI, Heigenhauser GJF.

Metabolite accumulation increases adenine nucleotide degradation and decreases glycogenolysis in ischemic rat skeletal muscle

Acta Physiol Scand 161:203-210
Welsh DG, Lindinger MI.

L-type Ca2+channel and Na+/Ca2+exchange inhibitors reduce Ca2+accumulation in reperfused skeletal muscle

J Appl Physiol 80:1263-1269
Welsh DG, Lindinger MI.

Stimulation of Na+,K+ pump activity in skeletal muscle by methylxanthines: evidence and proposed mechanisms

Acta Physiol Scand 156:347-353
Lindinger MI, Willmets RG, Hawke TJ.
1996 (Review)

Origins of [H+] changes in exercising skeletal muscle

Can J Physiol Pharmacol 20:359-370
Lindinger MI.

Skeletal muscle ion, acid-base and metabolic regulation during exercise and recovery

Trends in Comparative Biochemistry & Physiology, Vol. 1
Lindinger MI.

Energy metabolism and adenine nucleotide degradation in twitch stimulated rat skeletal muscle during ischemia and reperfusion

Am J Physiol 264:E655-E661

Lactate metabolism in inactive skeletal muscle during lactacidosis

Am J Physiol 261:R98-R105
Chin ER, Lindinger MI, Heigenhauser GJF.

The roles of ion fluxes in skeletal muscle fatigue

Can J Physiol Pharmacol 69:246-253
Lindinger MI, Heigenhauser GJF.

Role of non-working muscle on blood metabolites and electrolytes during and following intense intermittent exercise

Am J Physiol 258:R1486-R1494
Lindinger MI, Heigenhauser GJF, McKelvie RS, Jones NL.

Effects of alkalosis on muscle ions at rest and with intense exercise

Can J Physiol Pharmacol 68:820-829
Lindinger MI, Heigenhauser GJF, Spriet LL.

Acid-base systems in skeletal muscle and their response to exercise

Biochemistry of Exercise VII
Lindinger MI, Heigenhauser GJF.

Ion fluxes during tetanic stimulation in the isolated perfused rat hindlimb

Am J Physiol 254:R117-R126
Lindinger MI, Heigenhauser GJF.

The total ionic status of muscle during intense exercise

Oxygen Transfer from Atmosphere to Tissues
Heigenhauser GJF, Lindinger MI.

Effects of intense swimming exercise and tetanic electrical stimulation on skeletal muscle ions and metabolites

J Appl Physiol 63:2331-2339
Lindinger MI, Heigenhauser GJF, Spriet LL.

Intracellular ion content of skeletal muscle measured by instrumental neutron activation analysis

J Appl Physiol 63:426-433
Lindinger MI, Heigenhauser GJF.

Effects of alkalosis on skeletal muscle metabolism and performance during exercise

Am J Physiol 251:R833-R839
Spriet LL, Lindinger MI, Heigenhauser GJF, Jones NL.

Acid-base and respiratory properties of a buffered bovine erythrocyte perfusion medium

Can J Physiol Pharmacol 64:550-555
Lindinger MI, Heigenhauser GJF, Jones NL.