Brain processing of acupuncture stimuli in chronic neuropathic pain patients may underlie its beneficial effects. We used fMRI to evaluate verum and sham acupuncture stimulation at acupoint LI-4 in Carpal Tunnel Syndrome (CTS) patients and healthy controls (HC). CTS patients were retested after 5 weeks of acupuncture therapy. Thus, we investigated both the short-term brain response to acupuncture stimulation, as well as the influence of longer-term acupuncture therapy effects on this short-term response. CTS patients responded to verum acupuncture with greater activation in the hypothalamus and deactivation in the amygdala as compared to HC, controlling for the non-specific effects of sham acupuncture. A similar difference was found between CTS patients at baseline and after acupuncture therapy. For baseline CTS patients responding to verum acupuncture, functional connectivity was found between the hypothalamus and amygdala--the less deactivation in the amygdala, the greater the activation in the hypothalamus, and vice versa. Furthermore, hypothalamic response correlated positively with the degree of maladaptive cortical plasticity in CTS patients (inter-digit separation distance). This is the first evidence suggesting that chronic pain patients respond to acupuncture differently than HC, through a coordinated limbic network including the hypothalamus and amygdala.
Abstract:We image semi-flexible polymer networks under shear at the micrometer scale. By tracking embedded probe particles, we determine the local strain field, and directly measure its uniformity, or degree of affineness, on scales of 2-100 μm. The degree of nonaffine strain depends on polymer length and crosslink density, consistent with theoretical predictions. We also find a direct correspondence between the uniformity of the microscale strain and the nonlinear elasticity of the networks in the bulk.
Miyoshi myopathy (MM) is an early adult-onset, autosomal recessive disorder characterized by weakness and muscular atrophy starting in the distal muscles. The disease locus has been previously mapped by linkage analysis to chromosome 2p using the microsatellite marker D2S291. Initial haplotype analysis of markers in families from three different origins (North American, Japanese, and Tunisian) suggested that the MM gene is located in a 4-cM region flanked by markers D2S292 on the telomeric side and D2S286 on the centromeric side. To delineate critical recombination events revealing a more refined localization of the MM gene, we have determined the pattern of segregation of 12 marker loci in two consanguineous families of Tunisian origin. In this study we have: (1) detected recombination events with the disease locus in one family, placing the MM gene most likely between markers D2S443 (CHLC.GGAA4D07.1876) and D2S2109; (2) generated a yeast artificial chromosome contig that spans approximately 3.8 megabases and extends from marker D2S358 to marker D2S286; (3) physically mapped 21 polymorphic markers, 5 genes, 3 STSs, and 1 EST within this contig; (4) detected and mapped a new polymorphism within this interval, allowing us to further reduce the MM locus to a 360-kilobase segment; (5) mapped the gene for the cytoskeletal protein beta-adducin within the MM candidate region, failing to find a consistent pattern of mutation of this gene in our MM patients; (6) excluded seven other candidate myopathy genes from the Miyoshi locus.
A piezo-driven pipette that includes a small amount of mercury to enhance efficiency is widely used for mouse intracytoplasmic sperm injection (ICSI). Unfortunately, the use of toxic mercury is not permitted in hospital facilities and alternatives to mercury that enhance performance of the device do not work as well in the mouse. We have eliminated mercury toxicity and obtained acceptable ICSI efficiency using a modified conventional method. With this technique, oocyte survival, fertilization (number of 2-cell) and blastocyst rates were 77/126 (61.1%), 65/77 (84.4%), and 45/65 (69.2%), respectively. Eleven live pups were born from the transfer of thirty-two 2- to 4-cell embryos to 2 surrogate mothers. This conventional method is efficient, simple, and does not need the assistance of piezo-driven devices.
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