Andrea Partenheimer scite author profile

Andrea Partenheimer

5Publications

38Citation Statements Received

16Citation Statements Given

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Affiliations

Providence St. Peter Hospital, University of Münster, Johannes Gutenberg University Mainz

Publications

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Music thanatology: Prescriptive harp music as palliative care for the dying patient

Freeman

Caserta

Lund

et al. 2006

Am J Hosp Palliat Care

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Music thanatology represents an emerging area in which the raw materials of music, usually harp and/or voice, assist and comfort the dying patient. During prescriptive "music vigils, " the clinician-musician carefully observes physiological changes, cues, and breathing patterns, thereby synchronizing the music to reflect or support the patient's physiology and overall condition. Using data collected from 65 patients, this study was designed to assess the effectiveness of prescriptive harp music on selected palliative care outcomes using a sample of de-identified data forms from past music vigils. Patients were administered a 25- to 95-minute intervention of prescriptive harp music. Data collected included vital signs and observational indicators before (Ti) and after (T2) the vigil. Patients were more likely to experience decreased levels of agitation and wakefulness while also breathing more slowly and deeply with less effort at the conclusion of the music vigil. Results from this study suggest that a prescriptive vigil conducted by a trained music thanatologist could provide an effective form of palliative care for dying patients.

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Requirements for the growth of T_H1 lymphocyte clones

1990

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Besides the signal generated in a T lymphocyte after triggering the T cell receptor (TcR), most lymphocytes need a "second signal" to become fully activated. The necessity and nature of the "second signal" differs between different types of T cells. At the level of CD4-positive T helper lymphocytes interleukin 1 (IL 1) serves as "second signal" for those of the TH2 subtype (IL4, 5, 6 producer) but not for those of the TH1 subtype (IL 2, IFN-gamma producer). This correlates with the absence of the IL 1 receptor at the surface of TH1 clones. We report herein the further purification of T cell stimulating factor (TSF), a soluble mediator involved in the proliferation of TH1 lymphocytes. A preparation free of detectable IL 1, 2, 4 and IL 6 activity could act as "second signal" required for the growth of TH1 lymphocytes in a TcR-mediated, as well as a TcR-independent activation system. In addition, we suggest that IL 1 can influence the proliferation of TH1 clones in an indirect way, probably via the induction of TSF in accessory cells.

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Different accessory function for T_H1 cells of bone marrow derived macrophages cultured in granulocyte macrophage colony stimulating factor or macrophage colony stimulating factor

Germann¹,

Mattner²,

Partenheimer³

et al. 1992

Int Immunol

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The ability of macrophages to stimulate immune responses is heterogeneous and may have influence on the type of the developing immune response. Therefore, in an attempt to define different functional states of mouse macrophages, we made use of the two macrophage growth factors: macrophage colony stimulating factor (M-CSF) and granulocyte macrophage colony stimulating factor (GM-CSF). Generation of macrophages from freshly isolated bone marrow cells in the presence of GM-CSF results in a population expressing profound antigen presenting function for mouse TH1 cells, resulting in strong lymphokine production and proliferation of the T cells. Furthermore, high amounts of a novel soluble cytokine active on mouse TH1 cells are generated during the interaction of TH1 cells with macrophages elicited with GM-CSF. In contrast, macrophages grown from bone marrow cells for at least 14 days in the presence of M-CSF express only minimal antigen-presenting function for TH1 cells. Treatment of such macrophages for 24 h with either IFN-gamma or GM-CSF allows the distinction between two further functional states. Those treated with IFN-gamma efficiently presented antigen towards TH1 cells. The T cells produced large amounts of lymphokines and proliferate well. However, synthesis of the novel soluble cytokine (active on TH1 cells) was not detectable. The generation of this mediator requires a short-term treatment with GM-CSF of macrophages developed in the presence of M-CSF prior to their interaction with TH1 cells.

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Proteoglycan form of colony-stimulating factor-1 (proteoglycan-100). Stimulation of activity by glycosaminoglycan removal and proteolytic processing.

Partenheimer

Schwarz

Wrocklage

et al. 1995

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A proteoglycan had been isolated from the conditioned media of a human osteosarcoma cell line and had tentatively been named proteoglycan-100 (PG-100) because of the size of its core glycoprotein. Amino acid sequencing of the purified proteoglycan and cDNA analysis were consistent with the assumption that PG-100 is identical with the proteoglycan form of CSF-1 (or macrophage colony-stimulating factor). PG-100 induced mouse macrophage differentiation. Proliferation of macrophages was stimulated in a dose-dependent manner. On a molar basis, however, about 100- to 300-fold higher doses of PG-100 than of recombinant human (rh)CSF-1 were required for the half-maximal growth-stimulating effect. Upon enzymatic removal of the glycosaminoglycan chain, the purified core protein exhibited higher activity, but was still about 20-fold less active than rhCSF-1. Incubation of the purified proteoglycan for 48 h at 37 degrees C led to the formation of a glycosaminoglycan-free 50-kDa fragment either by autoproteolysis or by the action of a protease not yet identified. The purified fragment exhibited almost the same biologic activity as rhCSF-1. The glycosaminoglycan chain of the growth factor was not only shown to inhibit CSF-1 activity but also to increase the stability of the core protein when the CSF-1-producing osteosarcoma cells were maintained in a collagen lattice. These findings provide a link between a soluble, highly active cytokine and its extracellular matrix storage form of comparatively low activity.

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T Helper Target Cell DNA Fragmentation through a CD4-Positive T Suppressor Cell Clone Inducing Specific Unresponsiveness

Becker

Konur

Rademaekers

et al. 1994

Cellular Immunology

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