Miklos Szekely's publications with FeverLab

Steiner AA, Molchanova AY, Dogan MD, Patel S, Pétervári E, Balaskó M, Wanner SP, Eales J, Oliveira DL, Gavva NR, Almeida MC, Székely M, Romanovsky AA. The hypothermic response to bacterial lipopolysaccharide critically depends on brain CB1, but not CB2 or TRPV1, receptors. J Physiol 589: 2415-2431, 2011.

Dogan MD, Patel S, Rudaya AY, Steiner AA, Szekely M, Romanovsky AA. Lipopolysaccharide fever is initiated via a capsaicin-sensitive mechanism independent of the subtype-1 vanilloid receptor. Br J Pharmacol 143: 1023-1032, 2004.

Szelenyi Z, Szekely M, Hummel Z, Balasko M, Romanovsky AA, Petervari E. Cholecystokinin: possible mediator of fever and hypothermia. Front Biosci 9: 301-308, 2004.

Dogan MD, Kulchitsky VA, Patel S, Petervari E, Szekely M, Romanovsky AA. Bilateral splanchnicotomy does not affect lipopolysaccharide-induced fever in rats. Brain Res 993: 227-229, 2003.

Romanovsky AA, Ivanov AI, Szekely M. Neural route of pyrogen signaling to the brain. Clin Infect Dis 31: S162-S167, 2000.

Simons CT, Kulchitsky VA, Sugimoto N, Homer LD, Szekely M, Romanovsky AA. Signaling the brain in systemic inflammation: which vagal branch is involved in fever genesis? Am J Physiol 275: R63-R68, 1998.

Szekely M, Balasko M, Kulchitsky VA, Simons CT, Ivanov AI, Romanovsky AA. Multiple neural mechanisms of fever. Auton Neurosci 85: 78-82, 2000.

Romanovsky AA, Szekely M. Fever and hypothermia: two adaptive thermoregulatory responses to systemic inflammation. Med Hypotheses 50: 219-226, 1998.

Szekely M, Romanovsky AA. Pyretic and antipyretic signals within and without fever: a possible interplay. Med Hypotheses 50: 213-218, 1998.

Romanovsky AA, Simons CT, Kulchitsky VA, Sugimoto N, Szekely M. Vagus nerve in fever: recent developments. Ann N Y Acad Sci 856: 298-299, 1998.

Romanovsky AA, Simons CT, Szekely M, Kulchitsky VA. The vagus nerve in the thermoregulatory response to systemic inflammation. Am J Physiol 273: R407-R413, 1997.

Romanovsky AA, Kulchitsky VA, Simons CT, Sugimoto N, Szekely M. Cold defense mechanisms in vagotomized rats. Am J Physiol 273: R784-R789, 1997.

Romanovsky AA, Simons CT, Szekely M, Kulchitsky VA. Febrile irresponsiveness of vagotomized rats to a pyrogenic signal. Non-sensing brain or non-heating body? Ann N Y Acad Sci 813: 437-444, 1997.

Szekely M, Balasko M, Romanovsky AA. Peripheral neural inputs. Their role in fever development. Ann N Y Acad Sci 813: 427-434, 1997.

Szekely M, Simons CT, Kulchitsky VA, Romanovsky AA. The abdominal vagus: its presumed role in fever and non-febrile temperature regulation. In: Thermal Physiology 1997, ed. by Nielsen Johannsen B, Nielsen R. Copenhagen, Denmark: TAKI, 1997, p. 289-292.

Szelenyi Z, Bartho L, Szekely M, Romanovsky AA. Cholecystokinin octapeptide (CCK-8) injected into a cerebral ventricle induces a fever-like thermoregulatory response mediated by type B CCK-receptors in the rat. Brain Res 638: 69-77, 1994.

Szelenyi Z, Szekely M, Romanovskii AA. The central thermoregulatory action of cholecystokinin-8 and prostaglandin E₁ (in Russian). Fiziol Zh SSSR Im I M Sechenova 78: 94-101, 1992.

Free PDFs of the publications listed above can be downloaded or requested from the Publications page.