With the beginning of a new year, I’d like to follow the time-honored tradition of outlining a few key New Year’s resolutions for the UAB NF Program in 2016 that will continue to build on our commitment to excellence in patient care, research, and education. First, we continue our important mission of finding and developing new, life-changing therapies for people with NF by expanding and enhancing our program’s innovative research efforts during the upcoming year. As part of this effort, we are actively recruiting an additional faculty member to join our drug discovery initiatives. Also, we continue to make significant progress in animal model development that will allow us to test the effectiveness of potential NF medications more quickly and efficiently. To accomplish this objective, a graduate student in our program has developed new animal models with NF features that develop more rapidly than previous animal models that have neurofibromas, which are often slow-growing. We believe these new models hold promise in allowing for more expeditious drug testing efforts that will enable us to test more medications more quickly.
Also, as part of our ongoing drug discovery efforts in 2016, we continue to test the effectiveness of potential new drug therapies for NF1 using specialized types of cells derived from individuals with the NF1 gene mutation, called induced pluripotent stem (iPS) cells. Using cells from a biopsy taken from either skin or a neurofibroma of a patient with NF1, we can create iPS cells by manipulations that cause them to behave like undifferentiated cells. These patient-specific cell lines can be used to test the effectiveness of potential new drug therapies for NF1. An additional research goal for this year is to launch a clinical trial for skin neurofibromas in 2016. We are currently following patients and collecting data on the growth and progression of their neurofibromas, which is a necessary step before the clinical trial can begin.
In a recent blog post, I mentioned that we have plans to remake a video that was produced while I was Boston more than 10 years ago featuring a counseling session with a family regarding the new diagnosis of NF1 in a child (called “Understanding NF1,” available at (www.understandingnf1.org). Based on that post, we received a response from a family interested in participating and the project is now moving forward. Our Community Advisory Board, which held their initial meeting last October, will meet this spring with the overall objective of providing valuable input and direction regarding patient information, education, support, and coordination of care in our NF Clinic. Based on feedback from the Board, we are currently developing several projects for new approaches to patient education. Also, the Community Advisory Board will play a key role in helping to organize this year’s NF Symposium for patients and families, including providing insight and guidance about topics and speakers to be included.
In continuing our discussion from last month’s blog regarding important issues NF clinicians are focused on during a patient evaluation, I’d like to briefly review what we look for on the skin during an NF clinic visit. While NF1 includes many features, the appearance of multiple flat, brown spots called café-au-lait spots is the most common sign. These spots, which have flat margins and distinct borders, commonly appear in the first few months of life and may continue to increase in number through age two, though they often fade in adulthood. The coloring of café-au-lait spots is typically at least a shade darker than the general pigmentation of the skin. Anyone can have one or two café-au-lait spots without having NF1; however, most people with NF have at least six and most have many more. It’s important to understand that the presence of this feature only suggests the possibility of NF1. Legius Syndrome is another condition that causes café-au-lait spots, although this is a benign condition that does not cause the development of tumors and is much more rare than NF1
Freckling in the skin fold regions is another common NF1 feature that we look for during an exam. This distinctive freckling appears between three and five years of age and most commonly occurs in the groin region, under the arms, at the base of the neck, and under the breasts in women. Unlike typical freckling that occurs on sun-exposed areas of the skin, NF-related freckling manifests as many freckles in the region, as if paint were spattered from a brush. In addition to freckling, we also look for neurofibromas, soft benign tumors that develop under the skin. Although we occasionally see these in young children, the more visible neurofibromas appear later in childhood or adolescence and continue to develop throughout life, especially during pregnancy in women. While the size of neurofibromas can vary, the average size is that of a pencil eraser, though some can be larger or smaller. Skin neurofibromas are generally harmless, although they can be a significant cosmetic concern for individuals who have many neurofibromas distributed over large areas of the body such as the face, neck, and arms. In these cases, treatment involves removal of neurofibromas using either surgery or laser treatment.
Another skin condition that can be detected during an NF exam is a type of lesion called nevus anemicus, which can be associated with NF1. These lesions appear as a flat white patch on the skin, often on the chest or back. They are irregular in shape and sharply marginated. Usually present at birth or early childhood, the lesions seem to be caused by the incomplete formation of blood vessels in the skin and are harmless. Lastly, we sometimes see children with skin nodules called xanthogranulomas that occur more frequently in people with NF1. These appear as small, yellowish-orange bumps on the skin, especially at the hairline, in infants or very young children. Because xanthogranulomas regress spontaneously, they don’t require any special treatment. An experienced NF clinician can provide information and guidance about the clinical significance of the various skin conditions detected during an examination.