Probing a ferromagnetic critical regime using nonlinear susceptibility

The second order para-ferromagnetic phase transition in a series of amorphous alloys (Fe{_5}Co{_{50}}Ni{_{17-x}}Cr{_x}B{_{16}}Si{_{12}}) is investigated using nonlinear susceptibility. A simple molecular field treatment for the critical region shows that the third order suceptibility (chi{_3}) diverges on both sides of the transition temperature, and changes sign at T{_C}. This critical behaviour is observed experimentally in this series of amorphous ferromagnets, and the related assymptotic critical exponents are calculated. It is shown that using the proper scaling equations, all the exponents necessary for a complete characterization of the phase transition can be determined using linear and nonlinear susceptiblity measurements alone. Using meticulous nonlinear susceptibility measurements, it is shown that at times chi{_3} can be more sensitive than the linear susceptibility (chi{_1}) in unravelling the magnetism of ferromagnetic spin systems. A new technique for accurately determining T{_C} is discussed, which makes use of the functional form of chi{_3} in the critical region.Comment: 11 Figures, Submitted to Physical Review

Giant cell tumor of the temporal bone – a case report

BACKGROUND: Giant cell tumor is a benign but locally aggressive bone neoplasm which uncommonly involves the skull. The petrous portion of the temporal bone forms a rare location for this tumor. CASE PRESENTATION: The authors report a case of a large giant cell tumor involving the petrous and squamous portions of the temporal bone in a 26 year old male patient. He presented with right side severe hearing loss and facial paresis. Radical excision of the tumor was achieved but facial palsy could not be avoided. CONCLUSION: Radical excision of skull base giant cell tumor may be hazardous but if achieved is the optimal treatment and may be curative

Pressure induced Superconductor-Insulator transition in the spinel compound CuRh2S4

We performed resistivity measurements in CuRh$_{2}$S$_{4}$ under quasi-hydrostatic pressure of up to 8.0 GPa, and found a pressure induced superconductor-insulator (SI) transition. Initially, with increasing pressure, the superconducting transition temperature $T_c$ increases from 4.7 K at ambient pressure to 6.4 K at 4.0 GPa, but decreases at higher pressures. With further compression, superconductivity in CuRh$_{2}$S$_{4}$ disappears abruptly at a critical pressure $P_{\rm SI}$ between 5.0 and 5.6 GPa, when it becomes an insulator.Comment: 4 pages, 4 figure

Adaptive differentiation of H-2- and Igh-restricted B lymphocyte in tetraparental bone marrow chimera.

Abstract Immunization of BALB/c mice with MOPC-104E myeloma protein induced idiotype-specific enhancing B cells that acted on anti-dextran antibody producing B cells. The enhancing cells have the surface phenotype of B cells. With the use of several H-2 or Igh congenic mice, it was found that the cooperation among B cells was controlled by both the major histocompatibility complex (MHC) and Igh. The capability to generate enhancing B cell activity was analyzed by using tetraparental bone marrow chimeras. (C57BL/6 X BALB/c)F1 mice, for example, were lethally irradiated and were reconstituted with C57BL/6 and BALB/c bone marrow cells. Nine to 12 wk after the reconstitution, the chimeras were immunized with the myeloma protein and were tested for their enhancing B cell activity. After the removal of C57BL/6 origin cells by treatment with anti-H-2b + complement, residual cells exhibited enhancing B cell activity on BALB.B, as well as BALB/c antidextran antibody response. This indicates that the generation of H-2-restricted, idiotype-specific enhancing B cell activity differentiated adaptively so as to recognize foreign MHC as self under chimeric conditions. On the other hand, splenic B cells treated with anti-H-2d + complement did not enhance the responses of BALB/c or BALB.B. Even in a chimeric environment, the B cells of C57BL/6 origin could not obtain the ability to generate enhancing B cell activity upon immunization of the idiotype. The results described here, taken in conjunction with our previous studies, suggest that the Ig heavy chain gene(s) predominantly control the Igh restriction properties of enhancing B cells, and the capability of MHC recognition by B cells is selected under chimeric conditions.</jats:p

Regulation of immune responses via genetically-restricted cellular interactions. I. Augmentation of antibody responses by idiotype-specific enhancing B lymphocytes.

Abstract We previously reported that B lymphocytes obtained from BALB/c mice that had been immunized with M104E myeloma protein have an idiotype-specific enhancing activity for anti-dextran B1355S antibody responses in vivo. The enhancing cells were Thy-1-, Lyt-1-,2-, nylon wool-adherent and rabbit anti-mouse immunoglobulin (RAMG) dish adherent. The in vitro analysis described in this report also revealed that the enhancing cells had a B cell phenotype and were specifically enriched in M104E or J558 myeloma protein-coated dishes but not by irrelevant monoclonal antibodies. The significance of these B-B cell interactions were analyzed in vitro by using various Igh-1 and H-2 congeneic strains of mice. The idiotype immune B lymphocytes obtained from BALB/c and BAB-14 could enhance the antidextran antibody responses of BALB/c B lymphocytes in an idiotype-specific manner. On the other hand, C.AL-20 and CB-20 strains could not induce the idiotype-specific enhancing B cell activity in dextran-immune BALB/c B cells. These results suggest that the capability of enhancing B cell induction is related to the producibility of the respective idiotype in that strain of mice. Moreover, the B cells obtained from BALB/c mice immune to the idiotype cooperated well with the dextran-immune B cells of BALB/c but not of BALB.K and vice versa. These results indicate that successful cooperation between those two types of B lymphocytes requires the same MHC haplotype. The roles of these genetically restricted cellular interactions in the immune system are discussed.</jats:p

Acquisition of an anti-idiotypic cytotoxic T lymphocyte repertoire in B cell-transferred or tetraparental bone marrow chimeric mice.

Abstract In previous studies we showed that major histocompatibility complex-restricted cytotoxic T lymphocytes (CTL) specific for the cross-reactive idiotype (CRI) of MOPC-104E myeloma protein could only be induced in BALB/c or BAB-14 mice which have the ability to produce the CRI, but not in C.AL-20 or C.B-20 mice which have no ability to produce the CRI. The strong correlation between CRI-specific CTL responder strains and CRI producers supports the idea that the VH gene products are intrinsic primary antigenic stimuli for the generation of the anti-idiotypic CTL. To investigate the role of B lymphocytes in the selection of T lymphocyte repertoire, the purified B cells of CRI producer strains were repeatedly injected into anti-CRI CTL nonresponder neonatal mice. CRI-specific CTL activity was successfully induced in the CRI nonproducer mice only when they were exposed to CRI producer strain B lymphocytes from neonatal life. When the CTL nonresponder adult mice received CRI producer B lymphocytes, the nonresponder phenotype was not changed into the responder phenotype. Inducibility of CRI-specific CTL was also analyzed in tetraparental bone marrow chimeras. When CRI nonproducer bone marrow cells repopulated along with CRI producer bone marrow cells, the anti-CRI CTL of CRI nonproducer origin were generated. Adaptive differentiation of haplotype preference was also observed. When these observations are taken collectively, we see that the anti-idiotypic T lymphocyte repertoire is not a genetically determined one, but rather that the repertoire of T lymphocytes strongly depends on the postnatal selection process through the intrinsic idiotypic repertoire of B lymphocytes, i.e., internal images.</jats:p

Evidence for idiotypic- and antiidiotypic B-B cellular interaction with the use of cloned antiidiotypic B cell line.

Abstract Immunization of BALB/c mice with MOPC104E myeloma protein induces antiidiotypic B lymphocytes that have Id-specific enhancing activity on antibody production. The B-B cell interaction was restricted to both Igh and class II MHC. However, anti-Thy-1 and C-treated splenic B cells were maintained for more than 1 y in a mixture of Con A-stimulated splenocyte culture supernatant and synthetic medium. In applying the long term culture method, we have established a cloned B cell line named B19-1d, B19-1d cells are specific to MOPC104E or J558 cross-reactive Id and they express surface mu, lambda but no Ly-1. B19-1d do not spontaneously secrete Ig but produce them upon stimulation with bacterial LPS. The effect of B19-1d cell line on idiotypic antibody production was tested. Addition of only 10 to 100 B19-1d cells into dextran-immune B cell culture greatly enhanced the Id+ antidextran antibody responses. On the contrary, the antidextran antibody production was suppressed by the higher doses of B19-1d cells. The effective cooperation between dextran-immune B cells and B19-1d cloned B cells was restricted to class II MHC. The role of idiotypic- and antiidiotypic B-B cell interaction in immune regulation and repertoire generation was suggested.</jats:p