Germline screening of the NF-2 gene in families with unilateral vestibular schwannoma.

Vestibular schwannoma may present clinically in two forms: sporadic unilateral or hereditary bilateral. Familial transmission of vestibular schwannoma is known to occur only in neurofibromatosis type II (NF-2). We have previously described the clinical characteristics of unilateral vestibular schwannoma presenting in families, in the absence of ther criteria necessary for the diagnosis of NF-2. Polymerase chain reaction-single strand chain polymorphism was used to screen for germline NF-2 gene mutations in six families with unilateral vestibular schwannoma. Direct sequencing of DNA from blood was done in affected subjects from three families. No germline mutations were identified. Because NF-2 gene mutations are detected in only 33% of patients with NF-2, hereditary transmission of mutations cannot be entirely excluded. However, in the absence of germline mutations in the NF-2 gene, familial occurrence of unilateral vestibular schwannoma more likely represents either a chance somatic NF-2 gene mutation or originates from a separate genetic loci.

Total nasal reconstruction with alloplastic and autogenous grafts.

The basic principles of successful total nasal reconstruction include providing a sufficient amount of tissue coverage, creating an adequate structural framework, and fashioning a viable inner lining. Relative uniformity of opinion exists regarding sources for tissue coverage and nasal lining. A variety of options exists, however, regarding the type of material used for nasal framework. Alloplastic metals, such as vitallium or titanium mesh, combined with autogenous soft tissue coverage, are reliable alternatives for use in total nasal reconstruction.

Refinement in the rehabilitation of the paralyzed face using botulinum toxin.

A number of surgical procedures exist to improve facial symmetry for patients with facial paralysis. Whereas static symmetry is often improved, dynamic asymmetry frequently persists because of the imbalance of complex coordinated movements of facial expression. The paralyzed face is often distorted by the excessive pull of the normal contralateral face during emotional expression. This study reports an expanded clinical indication for botulinum toxin in patients with unilateral facial paralysis. Ten patients with facial paralysis and markedly asymmetric smiles were treated with botulinum toxin A injections into the contralateral zygomaticus major, levators labii superioris and angulii oris, or risorius muscles. Eight of the 10 patients noted improvement in the symmetry of their smiles and underwent repeat injections. The onset and duration of effect averaged 5.9 days and 3 months, respectively. Botulinum toxin therapy provides a safe and efficacious modality for refining the appearance of the paralyzed face during mimetic activity.

Familial occurrence of unilateral vestibular schwannoma.

Vestibular schwannoma (VS) may present clinically in one of two forms: sporadic unilateral or hereditary bilateral. Almost all cases of familial transmission have been associated with the diagnosis of neurofibromatosis type II (NF-2). In this report, we describe nine families (18 individuals) presenting with unilateral VS without evidence of NF-2. In four of the nine families, the affected individuals were of parent-offspring relationship, in three families they were cousin-cousin, and in the remaining two families, they were sibling-sibling and aunt-nephew. No other members of the families were diagnosed with NF-2. There was no evidence for gender predilection or genomic imprinting among affected individuals. This study suggests that familial occurrence of unilateral VS may be genetically inherited as it occurs more commonly than would be estimated by chance alone. Future genetic studies will elucidate whether occurrence of unilateral VS in these families represents a variable expression of NF-2, chance occurrence of unilateral VS in families, or a new genetic disorder.

Nasal reconstruction using a combination of alloplastic materials and autogenous tissues: a surgical alternative.

Re-creation of a functional and aesthetically acceptable nose after partial nasal defect requires accurate reproduction of nasal lining, support, and coverage. Most authors recommend an approach to reconstruction with cantilevered bone grafting and paramedian forehead flap placement. The authors propose an alternative approach for selected patients with total or near-total nasal defects combining both alloplastic and autogenous tissues. This method uses vitallium or titanium mesh for the dorsal framework formation, tissue-expanded paramedian forehead flap for soft tissue coverage, and composite chondrocutaneous auricular grafts for tip reconstruction. Nine individuals underwent nasal reconstruction using this method. The indications, details, and potential advantages of this technique are described with accompanying photographic results. A flexible approach using a combination of alloplastic materials and autogenous tissues provides additional reconstructive options for individuals with total or near-total nasal defects.

Keratinocyte growth factor induces pancreatic ductal epithelial proliferation.

Keratinocyte growth factor (KGF) causes a proliferation of pancreatic ductal epithelial cells in adult rats after daily systemic administration for 1 to 2 weeks. Even before the proliferation of intralobular ducts is histologically evident, KGF also induces proliferating cell nuclear antigen expression within the ductal epithelium of intercalated, intralobular, and interlobular ducts. KGF also causes incorporation of 5-bromodeoxyuridine in ductal epithelial cells. Epithelial cell proliferation is histologically most prominent at the level of the intralobular ducts adjacent to and within the islets of Langerhans. Pancreatic ductal proliferation is not histologically apparent in rats sacrificed 7 to 10 days after the cessation of KGF administration. The pancreatic hormones insulin, glucagon, somatostatin, and pancreatic polypeptide are normally distributed within islets that demonstrate intrainsular ductal proliferation. The proliferating ductal epithelium does not show endocrine differentiation as evidenced by the lack of immunoreactivity for pancreatic hormones. KGF is a potent in vivo mitogen for pancreatic ductal epithelial cells.

Keratinocyte growth factor is a growth factor for mammary epithelium in vivo. The mammary epithelium of lactating rats is resistant to the proliferative action of keratinocyte growth factor.

Keratinocyte growth factor (KGF) is a member of the fibroblast growth factor (FGF) family. KGF is secreted by stromal cells and affects epithelial but not mesenchymal cell proliferation. KGF injected intravenously was found to cause dramatic proliferation of mammary epithelium in the mammary glands of rats. KGF causes ductal neogenesis and intraductal epithelial hyperplasia but not lobular differentiation in nulliparous female rats. KGF causes ductal and lobular epithelial hyperplasia in male rats. KGF causes proliferation of ductal and acinar cells in the mammary glands of pregnant rats. On the other hand, the ductal epithelium of lactating postpartum rats is resistant to the proliferative action of KGF. The mammary glands of lactating rats did not express less KGF receptor mRNA than the glands of pregnant rats, suggesting that the resistance of the ductal epithelium to KGF during lactation is not related to KGF receptor mRNA down-regulation. The mammary glands of both pregnant and postpartum lactating rats express KGF mRNA with more KGF present in the glands of lactating rats. In conclusion, the KGF and KGF receptor genes are expressed in rat mammary glands and recombinant KGF is a potent growth factor for mammary epithelium.

Hematologic interactions of endotoxin, tumor necrosis factor alpha (TNF alpha), interleukin 1, and adrenal hormones and the hematologic effects of TNF alpha in Corynebacterium parvum-primed rats.

Endotoxin reduces the release among other cytokines of tumor necrosis factor (TNF) and interleukin 1 (IL-1) and causes peripheral lymphopenia and a dose-response-dependent initial neutropenia followed by a monophasic neutrophilia. TNF alone induces lymphopenia and an initial neutropenia followed by a biphasic neutrophilia. IL-1 alone induces lymphopenia and a monophasic neutrophilia. TNF-plus-IL-1 caused a greater lymphopenia than either monokine alone, suggesting that both monokines contribute to LPS-induced lymphopenia. TNF-plus-IL-1 induced neutropenia similar in magnitude to that induced by TNF alone and induced a neutrophilia significantly greater than that induced by either monokine alone, suggesting that LPS-induced neutropenia is caused by TNF, while LPS-induced neutrophilia is due to the combined effects of TNF and II-1. TNF and IL-1 were administered together with LPS to simulate the in vivo condition of endogenous monokine release during gram-negative bacteremia. TNF combined with LPS increased both the duration and magnitude of LPS-induced lymphopenia, LPS-induced neutropenia, and LPS-induced neutrophilia. TNF-plus-LPS treated rats at 2 hours after injection exhibited a striking 93% decrease in bone marrow neutrophils even though no peripheral neutrophilia was yet apparent, suggesting that the subsequent neutrophilia was due to demargination and recirculation of neutrophils sequestered in the peripheral vasculature immediately after their release from the bone marrow. Epinephrine, which causes neutrophilia by demargination but not by release of marrow neutrophils, reversed the initial neutropenia in TNF-plus-LPS-treated rats and increased the neutrophilia. IL-1 combined with LPS increased LPS-induced neutrophilia, suggesting that endogenous IL-1 also contributed to LPS-induced neutrophilia. Corynebacterium parvum-primed rats with hyperplasia of the monocyte-macrophage system and treated with TNF differed from naive rats treated with TNF in that the second peak was as great as the initial peak of neutrophilia, supporting the hypothesis that the second peak of TNF-induced neutrophilia is due to the release of endogenous monokines. In conclusion, exogenous TNF, IL-1, and adrenal hormones affect circulating numbers of lymphocytes and neutrophils in a fashion consistent with their postulated endogenous role in the regulation of leukocyte trafficking during bacterial infection.

Mechanisms of tumor necrosis factor alpha-induced lymphopenia, neutropenia, and biphasic neutrophilia: a study of lymphocyte recirculation and hematologic interactions of TNF alpha with endogenous mediators of leukocyte trafficking.

Tumor necrosis factor alpha (TNF) induces lymphopenia, neutropenia, and biphasic neutrophilia after intravenous injection of 3,000 U TNF in Lewis rats. The mechanism of TNF-induced lymphopenia was investigated by means of thoracic duct cannulation. Hourly measurements of lymphocyte recirculation via the thoracic duct failed to reveal any significant decrease in lymphocyte recirculation in TNF-treated vs. control rats, suggesting that a decrease in lymphocyte recirculation through the thoracic duct is not the mechanism for TNF-induced lymphopenia. The mechanism of TNF-induced neutropenia was investigated by administering TNF to rats in whom a neutrophilia had been induced with interleukin-1 (IL-1). In rats with neutrophilia, TNF resulted in a sharp decrease in the circulating neutrophil pool, demonstrating that TNF induces neutropenia by causing neutrophils to leave the circulating pool rather than decreasing neutrophil release from the marrow. The mechanism of neutropenia was furthermore shown to be due to the transient intravascular margination of neutrophils by administering epinephrine concomitantly with TNF. Epinephrine, which causes neutrophilia solely by demargination, abrogated the TNF-induced neutropenia and actually resulted in a neutrophilia that was greater than the neutrophilia occurring in epinephrine alone-treated rats, demonstrating both that TNF had already caused release of marrow neutrophils at the time of peripheral neutropenia, and that the paradoxical neutropenia was due to the transient intravascular margination of neutrophils. The known property of epinephrine to cause neutrophilia exclusively by demargination was proved by examination of the bone marrow of epinephrine-treated rats in whom no decrease in marrow neutrophils was observed (in contrast to TNF- and IL-1-treated rats in whom neutrophilia is accompanied by a depletion of marrow neutrophils). The mechanism of TNF-induced neutrophilia was investigated by modulating the magnitude of both the first and second peaks of neutrophilia by priming of rats with daily injections of IFN gamma for 2 days prior to administration of TNF. The first peak of neutrophilia in IFN gamma-primed TNF-treated rats was decreased in comparison to TNF alone-treated rats because of the well-known neutropenic and myelosuppressive effect of IFN gamma, which resulted in a decrease in the number of neutrophils that could be recruited to cause neutrophilia.(ABSTRACT TRUNCATED AT 400 WORDS)