Pubblicazioni sulla Ipertermia Total Body

Author

Title

Journal

1

Hughes, Repasky, Bankert,

Effects of Hyperthermia on Spectrin Expression Patterns of Murine Lymphocytes

RADIATION RESEARCH 112, 116-123 (1987)

Johnson, Subjeck

2

Sakaguchi, Makino, Kaneko,

Therapeutic Efficacy of Long Duration – Low Temperature Whole Body Hyperthermia When Combined with Tumor

CANCER RESEARCH 54, 2223-2227, April 15, 1994

Stephens, Strebel, Danhauser,

Necrosis Factor and Carboplatin in Rats

Jenkins, Bull

4

Matsuda, Strebel, Kaneko,

Long Duration - Mild Whole Body Hyperthermia of up to 12 hours in Rats: Feasibility, and Efficacy on Primary Tumour

INT. J. HYPERTHERMIA, 1997, VOL. 13. NO. 1. 89-98

Danhauser, Jenkins, Toyota, Bull

and Axillary Lymph Node Metastases of a Mammary Adenocarcinoma: Implications for adjuvant Therapy

5

Toyota, Strebel, Stephens,

Long Duration - Mild Whole Body Hyperthermia with Cisplatin: Tumour Response and Kinetics of Apoptosis and Necrosis

INT. J. HYPERTHERMIA, 1997, VOL. 13. NO. 5. 497-506

Matsuda, Bull

in a Metastatic at Mammary Adenocarcinoma

6

Di, Repasky, Subjeck

Distribution of HSP70, Protein Kinase C, and Spectrin Is Altered in Lymphocytes During a Fever-Like Hyperthermia

JOURNAL OF CELLULAR PHYSIOLOGY 172:44-54

Exposure

(1997)

7

Burd, Dziedzic, Yan Xu, Caligiuri,

Tumor Cell Apoptosis, Lymphocyte Recruitment and Tumor Vascular Changes Are Induced by Low Temperature, Long

JOURNAL OF CELLULAR PHYSIOLOGY 177:137-147

Subjeck, Repasky

Duration (Fever-Like) Whole Body Hyperthermia

(1998)

8

Wang, Goldman, Schleider,

Fever-range Hyperthermia Enhances L-Selectin-Dependent Adhesion of Lymphocytes to Vascular Endothelium

JOURNAL OF IMMUNOLOGY, 160, 961-969

Appenheimer, Subjeck, Repasky,

Evans

9

Toyota, Strebel, Stephens,

Therapeutic Efficacy and Apoptosis and Necrosis Kinetics of Doxorubicin Compared with Cisplatin, Combined with

INT.J.CANCER; 76, 499-505, 1998

Matsuda, Oshiro, Jenkins, Bull

Whole-Body Hyperthermia in a Rat Mammary Adenocarcinoma

16

Repasky, Tims, Pritchard, Burd

Characterization of Mild Whole Body Hyperthermia Protocols Using Human Breast, Ovarian, and Colon Tumors Grown in

Infectious Diseases in Obstetrics and Gynecology 7:91-97

Severe Combined Immunodeficient Mice

(1999)

17

Wang, Ostberg, Repasky

Effect of Fever-like Whole Body Hyperthermia on Lymphocyte Spectrin Distribution, Protein Kinase C Activity, and

THE JOURNAL OF IMMUNOLOGY; 1999, 162: 3378-3387

Uropod Formation

18

Ostberg, Repasky

Comparison of the Effects of Two Different WBH protocols on the Distribution of Murine Leukozyte Populations

INT. J. HYPERTHERMIA, 2000, VOL. 16. NO. 1. 29-43

19

Evans, Bain, Wang

Fever-Range Hyperthermia Stimulates Integrin-Dependent Lymphocyte-Endothelial Adhesion

INT. J. HYPERTHERMIA, 2000, VOL. 16. NO. 1. 45-59

20

Ostberg, Repasky

Use of mild, whole body hyperthermia in cancer therapy

IMMUNOLOGICAL INVEST., 29(2), 139-142 (2000)

21

Wang, Kazim, Repasky, Subjeck

Characterization of Heat Shock Protein 110 and Glucose-Regulated Protein 170 as Cancer Vaccines and the Effect of

THE JOURNAL OF IMMUNOLOGY; 2001, 165: 490-497

Fever-Range Hyperthermia on Vaccine Activity

23

Ostberg, Patel, Repasky

Regulation of immuneactivity by mild (fever-range) whole body hyperthermia: effects on epidermal Langerhans cells

Cell Stress & Chaperones (2000) 5 (5), 458-461

24

Ostberg, Taylor, Baumann,

Regulatory effects of fever-range whole body hyperthermia on the LPS-induced acute inflammatory response

Journal of Leukozyte Biology, Volume 68, Dec. 2000: 815-

Repasky

820

25

Evans, Wang, Bain, Burd, Ostberg,

Fever-range hyperthermia dynamically regulates lymphocyte delivery to high endothelial venules

BLOOD, 1 May 2001, Volume 97, No.9

Repasky

26

Ostberg, Gellin, Patel, Repasky

Regulatory Potential of Fever-Range Whole Body Hyperthermia on Langerhans Cells and Lymphocytes in an Antigen-

THE JOURNAL OF IMMUNOLOGY; 2001, 167: 2666-2670

Dependant Cellular Immune Response

27

Kraybill, Olenki, Evans, Ostberg,

A phase I study of fever-range whole-body hyperthermia (FR-WBH) in patients with advanced solid tumours: correlation

INT. J. HYPERTHERMIA, 2002, VOL. 18. NO. 3. 253-266

May 2016, Page 2 of 4

O’Leary, Gibbs, Repasky

with mouse models

28

Shah, Unger, Bain, Bruce, Bodkin,

Cytokine and adhesion molecule expression in primary human endothelial cells stimulated with fever-range hyperthermia

INT. J. HYPERTHERMIA, 2002, VOL. 18. NO. 6. 534-551

Ginnetti, Wang, Seon, Stewart,

Evans

29

Ostberg, Kaplan, Repasky

Induction of stress proteins in a panel of mouse tissues by fever-range whole body hyperthermia

INT. J. HYPERTHERMIA, 2002, VOL. 18. NO. 3. 552-562

30

Sumiyoshi, Strebel, Rowe, Bull

The effect of whole-body hyperthermia combined with ‚metronomic‘ chemotherapy on rat mammary adenocarcinoma

INT. J. HYPERTHERMIA, 2003, VOL. 19. NO. 2. 103-118

metastases

31

Ostberg, Kabingu, Repasky

Thermal regulation of dendritic cell activation and migration from skin plants

INT. J. HYPERTHERMIA, 2003, VOL. 19. NO. 5. 520-533

32

Pritchard, Ostberg, Evans, Burd,

Protocols for simulating the thermal component of fever: preclinical and clinical experience

Methods 32 (2004) 54-62

Kraybill, Bull, Repasky

41

Ostberg, Ertel, Lanphere

An Important Role for Granulocytes in the Thermal Regulation of Colon Tumor Growth

Immunological Investigations, 34:259-272,2005

42

Ostberg, Repasky

Emerging evidence indicates that physiologically relevant thermal stress regulates dendritic cell function

Cancer Immunol Immunother. 2006 Mar, 55(3):292-8

43

Pritchard, Wolf, Kraybill, Repasky

The Anti-Tunor Effect of Interleukin-12 is Enhanced by Mild (Fever-range) Thermal Therapy

Immunological Investigations, 34:361-380, 2005

44

Pritchard, Li, Repasky

Nitric Oxide Production is Regulated by Fever-range Thermal Stimulation of Murine Macrophages

Journal of Leukocyte Biology, Vol.78(3), 630-638, 2005

45

Appenheimer, Chen, Girard, Wang,

Impact of Fever-Range Thermal Stress on Lymphocyte-Endothelial Adhesion and Lymphocyte Trafficking

Immunological Investigations, 34:295-323, 2005

Evans

46

Chen, Evans

Thermal regulation of lymphozyte trafficking: Hot spots of the immune response

INT. J. HYPERTHERMIA, 2005, VOL. 21. NO. 8. 723-729

47

Chen, Fisher, Kucinska, Wang,

Dynamic Control of Lymphocyte Trafficking by Fever-Range Thermal Stress

Cancer Immunology, Immunotherapy, CII, Vol.55(3),

Evans

299-311, 2006

57

Rowe-Horwege

Hyperthermia, Systemic

Enceclopedia of Medical Devices and Instrumentation,

Second Edition, 2006 John Woley & Sons, Inc.

58

Chen, Fisher, Clancy, Gauguet,

Fever-range thermal stress promotes lymphocyte trafficking across high endothelial venules via an interleukin 6 trans-

NATURE IMMUNOLOGY, Vol. 7, M° 12, Dec. 2006

Wang, Unger, Rose-John, von

signaling mechanism

Andrian, Baumann, Evans

76

Xu, Choi, Hylander, Sen, Evans,

Fever range whole body hyperthermia increases the number of perfused tumor blood vessels and therapeutic efficacy of

INT. J. HYPERTHERMIA, 2007, VOL. 23. NO. 6. 513-527

Kraybill, Repasky

liposomally encapsulated doxorubicin

77

Ostberg, Dayanc, Yuan, Oflazoglu,

Enhancement of natural killer (NK) cell cytotoxicity by fever-range thermal stress is dependant on NKG2D function and is

Journal of Leukocyte Biology, Vol 82, November 2007,

Repasky

associated with plasma membrane NKG2D clustering and increased expression of MICA on target cells

1322-1331

78

Dayanc, Beachy, Ostberg, Repasky

Dissecting the role of hyperthermia in natural killer cell mediated anti-tumor response

INT. J. HYPERTHERMIA, 2008, VOL. 24. NO. 1. 41-56

79

Evans, Fisher, Skitzki, Chen

Targeted regulation of a lymphocyte-endothelial-interleukin-6 axis by thermal stress

INT. J. HYPERTHERMIA, 2008, VOL. 24. NO. 1. 67-78

80

Capitano, Ertel, Repasky, Ostberg

Fever-range whole body hyperthermia prevents the onset of type 1 diabetes in non-obese diabetic mice

INT. J. HYPERTHERMIA, 2008, VOL. 24. NO. 2. 141-149

81

Bull, Strebel, Jenkins, Deng, Rowe

The importance of schedule in whole body thermochemotherapy

INT. J. HYPERTHERMIA, 2008, VOL. 24. NO. 2. 171-181

91

Bull, Scott, Strebel, Nagle, Oliver,

Fever-range whole-body thermal therapy combined with cisplatin, gemcitabine, and daily interferon-α: A description of a

INT. J. HYPERTHERMIA, 2008, VOL. 24. NO. 8. 649-662

Redwine, Rowe, Ahn, Koch

phase I-II protocol

92

Chen, Appenheimer, Muhitch,

Thermal Facilitation of Lymphocyte Trafficking Involves Temporal Induction of Intravascular ICAM-1

Microcirculation. 2009 Feb;16(2):143-58.

Fisher, Clancy, Miecznikowski,

Wang, Evans

109

Skitzki, Repasky, Evans

Hyperthermia as an immunotherapy strategy for cancer

Current Opinion in Investigational Drugs - 2009 10(6):550-

558

110

Peer, Grimm, Zynda, Repasky

Diverse immune mechanisms may contribute to the survival benefit seen in cancer patients receiving hyperthermia

Immunol Res (2010) 46:137–154

May 2016, Page 3 of 4

111

Fisher, Vardam, Muhitch, Evans

Fine-tuning immune surveillance by fever-range thermal stress

Immunol Res (2010) 46:177–188

125

Lee, Mace, Repasky

Hypoxia-driven immunosuppression: A new reason to use thermal therapy in the treatment of cancer ?

INT. J. HYPERTHERMIA, 2010, VOL. 26. NO. 3. 232-246

130

Rowe, Strebel, Proett, Deng, Chan,

Fever range whole body thermal therapy with oxaliplatin: A curative regimen in a pre-clinical breast cancer model

INT. J. HYPERTHERMIA, 2010, VOL. 26. NO. 6. 565-576

He, Siddik, Bull

131

Streckfus, Brown, Bull

Proteomics, morphoproteomics, saliva and breast cancer: An emerging approach to guide the delivery of individualised

INT. J. HYPERTHERMIA, 2010, VOL. 26. NO. 7. 649-661

thermal therapy, thermochemotherapy and monitor therapy response

132

Kokolus, Hong, Repasky

Feeling too hot or cold after breast cancer: Is it just a nuisance or a potentially important prognostic factor ?

INT. J. HYPERTHERMIA, 2010, VOL. 26. NO. 7. 662-680

133

Katkere, Rosa, Caballero, Repasky,

Physiological-range temperature changes modulate cognate antigen processing and presentation mediated by lipid raft-

J Immunol. 2010 Nov 1;185(9):5032-9

Drake

restricted ubiquitinated B cell receptor molecules

148

Sen, Capitano, Spernyak,

Mild elevation of body temperature reduces tumor interstitial fluid pressure and hypoxia and enhances efficacy of

Cancer Res. 2011 Jun 1;71(11):3872-80.

Schueckler, Thomas, Singh, Evans,

radiotherapy in murine tumor models.

Hylander, Repasky

149

Beachy, Repasky

Toward establishment of temperature thresholds for immunological impact of heat exposure in humans

Int J Hyperthermia. 2011;27(4):344-52.

150

Fisher, Chen, Skitzki, Muhitch,

IL-6 trans-signaling licenses mouse and human tumor microvascular gateways for trafficking of cytotoxic T cells

J Clin Invest. 2011 Oct;121(10):3846-59

Zhou, Appenheimer, Vardam, Weis,

Passanese, Wang, Gollnick,

Dewhirst, Rose-John, Repasky,

Baumann , Evans

151

Mace, Zhong, Kilpatrick, Zynda,

Differentiation of CD8+ T cells into effector cells is enhanced by physiological range hyperthermia

J Leukoc Biol. 2011 Nov;90(5):951-62

Lee, Capitano , Minderman,

Repasky

159

Mace, Zhong, Kokolus, Repasky

Effector CD8+ T cell IFN-γ production and cytotoxicity are enhanced by mild hyperthermia

Int J Hyperthermia., 2012, Vol. 28, No. 1 : Pages 9-18

160

Lee, Zhong, Mace, Repasky

Elevation in body temperature to Fever range enhances and prolongs subsequent responsiveness of macrophages to

PLoS One. 2012;7(1):e30077. Epub 2012 Jan 10

endotoxin challenge

161

Capitano, Nemeth, Mace, Salisbury-

Elevating body temperature enhances hematopoiesis and neutrophil recovery after total body irradiation in an IL-1 -, IL-

blood, 2012 120: 2600-2609

Ruf, Segal, McCarthy, Repasky

17-, and G-CSF- dependent manner

162

Lee, Repasky

Opposing roles for heat and heat shock proteins in macrophage functions during inflammation: a function of cell

Frontiers in IMMUNOLOGY 01 June 2012

activation state?

163

Oshlag, Devasthanam, Tomasi

Mild hyperthermia enhances the expression and induces oscillations in the Dicer protein

Int J Hyperthermia., 2013, Vol. 29/01: Pages 51-61

164

Mikucki, Fisher, Ku, Appenheimer,

Preconditioning thermal therapy: Flipping the switch on IL-6 on anti-tumor immunity

Int J Hyperthermia., 2013, Vol. 29/05: Pages 464-473

Muhitch, Evans

165

Dayanc, Bansal, Gure, Gollnick,

Enhanced sensitivity of colon tumour cells to natural killer cell cytotoxicity after mild thermal stress is regulated through

Int J Hyperthermia., 2013, Vol. 29/05: Pages 480-490

Repasky

HSF1-mediated expression of MICA

166

Repasky, Evans, Dewhirst

Temperature Matters! And Why It Should Matter to Tumor Immunologists

Cancer Immunol Res 2013;1:210-216.

167

Kokolus, Capitano, Lee, Eng,

Baseline tumor growth and immune control in laboratory mice are significantly influenced by subthermoneutral housing

Proc Natl Acad Sci U S A. 2013 Dec 10;110(50):20176-81

Waight, Hylander, Sexton, Hong,

temperature.

Gordon, Abrams, Repasky

168

Kokolus, Spangler, Povinelli,

Stressful presentations: mild cold stress in laboratory mice influences phenotype of dendritic cells in naïve and tumor-

Front Immunol. 2014 Feb 10;5:23

Farren, Lee, Repasky

bearing mice

169

Gordon, Aydin, Repasky, Kokolus,

Behaviorally mediated, warm adaptation: a physiological strategy when mice behaviorally thermoregulate

J Therm Biol. 2014 Aug;44:41-6.

Dheyongera, Johnstone

170

Messmer, Kokolus, Eng, Abrams,

Mild cold-stress depresses immune responses: Implications for cancer models involving laboratory mice

Bioessays. 2014 Sep;36(9):884-9

Repasky

May 2016, Page 4 of 4

171

Eng, Kokolus, Reed, Hylander, Ma,

A nervous tumor microenvironment: the impact of adrenergic stress on cancer cells, immunosuppression, and

Cancer Immunol Immunother. 2014 Nov;63(11):1115-28.

Repasky

immunotherapeutic response

172

Eng, Reed, Kokolus, Repasky

Housing temperature influences the pattern of heat shock protein induction in mice following mild whole body

Int. J. Hyperthermia. 2014 Dec;30(8):540-6

hyperthermia

173

Eng, Reed, Kokolus, Pitoniak, Utley,

Housing temperature-induced stress drives therapeutic resistance in murine tumour models through β2-adrenergic

Nat Commun. 2015 Mar 10;6:6426

Bucsek, Ma, Repasky, Hylander

receptor activation

174

Povinelli, Kokolus, Eng, Dougher,

Standard Sub-Thermoneutral Caging Temperature Influences Radiosensitivity of Hematopoietic Stem and Progenitor

PLoS One. 2015; 10(3)

Curtin, Capitano, Sailsbury-Ruf,

Cell

Repasky, Nemeth

175

Lee, Kokolus, Leigh, Capitano,

Defining immunological impact and therapeutic benefit of mild heating in a murine model of arthritis

PLoS One. 2015 Mar 20;10(3)

Hylander, Repasky

176

Repasky, Eng, Hylander

Stress, metabolism and cancer: integrated pathways contributing to immune suppression.

Cancer J. 2015 Mar-Apr;21(2):97-103

177

Evans, Repasky, Fisher

Fever and the thermal regulation of immunity: the immune system feels the heat

Nat Rev Immunol. 2015 Jun;15(6):335-49

178

Winslow, Eranki, Ullas, Singh,

A pilot study of the effects of mild systemic heating on human head and neck tumour xenografts: Analysis of tumour

Int. J Hyperthermia. 2015 May 19:1-9

Repasky, Sen

perfusion, interstitial fluid pressure, hypoxia and efficacy of radiation therapy

179

Zynda, Grimm, Yuan, Zhong, Mace,

A role for the thermal environment in defining co-stimulation requirements for CD4(+) T cell activation

Cell Cycle. 2015 Jul 18;14(14):2340-54

Capitano, Ostberg, Lee, Pralle,

Repasky

180

Rich, Winslow, Alberico, Repasky,

Enhanced tumour perfusion following treatment with water-filtered IR-A radiation to the thorax in a patient with head and

Int. J. Hyperthermia. Published online: 2016 May 05

Seshadri, Singh

neck cancer