From the Department of Medicine
People's College of Medical Sciences
Bhopal, India
Abstract: 12 year old boy with shortness of breath, intermittent chest pains and skin lesions.
History: This 12 year-old boy was admitted to the pediatric service with a three month history of shortness of breath. He has been having sleepless nights and we witnessed his distress in the echo room when he developed severe chest pain ( no sweating etc) and it remarkably subsided after 5 minutes of standing up after the echo examination! He has had skin lesions since the age of four.
O/E: We saw him in the echocardiography room. On examination he had these remarkable cutaneous lesions in the elbows, legs and perianal region and over the Achilles tendons. There were reddish-yellow nodules over the extensor aspects of the knees and elbows and discrete subcutaneous nodules over the Achilles tendons.
Clinical Photos:
Lab: Serum cholesterol 641 mg%. His echo showed a global hyopkinesia with dilated left atrium and ventricles.
Diagnosis: Familial Hypercholesterolemia with Tuberous and Tendon Xanthomas.
Questions:
1. What further diagnostic studies are needed?
2. Do you think this is the homozygous variant?
3. We have yet to find a suitable explanation for his variable chest pain that aggravates only on lying down and subsides on standing. Could it be due to a myxomatous tissue near the coronary ostia?
3. What is the evidence surrounding the efficacy of drugs and even LDL apheresis for familial hypercholesterolemia?
5. What are the chances of failure to respond to therapy and what is the long term prognosis?
References:
1. Christopher Sibley and Neil J Stone . Familial hypercholesterolemia: a challenge of diagnosis and therapy. Cleve Clin J Med. 2006 Jan;73(1):57-64
Abstract
People with familial hypercholesterolemia (FH) have dramatically high levels of low-density lipoprotein cholesterol (LDL-C), which can lead to accelerated atherosclerosis and, if untreated, early cardiovascular death. Although the heterozygous form of FH is often unrecognized, detecting it early can enable risk reduction before premature coronary heart disease occurs. Available Free Full Text on PubMed
2. Beigel R, Beigel Y. Homozygous familial hypercholesterolemia: long term clinical course and plasma exchange therapy for two individual patients and review of the literature. J Clin Apher. 2009;24(6):219-24
Heart Institute, Chaim Sheba Medical Center, Tel-Hashomer, Israel. beigelr@yahoo.com
Abstract
Familial hypercholesterolemia (FH) is an autosomal dominant disease. Homozygous FH (HFH) manifests with severe hypercholesterolemia since birth (cholesterol levels >5-6 the upper normal limit), which, if untreated, leads to early onset accelerated atherosclerosis and premature coronary death, usually before the 2nd or 3rd decades of life. Various invasive procedures (iliocecal bypass, porto-caval shunt, liver transplant, and gene therapy) have been introduced for lowering low density lipoprotein (LDL) aiming at reducing atherosclerosis and improving survival of HFH patients. Of all the various methods, LDL apheresis has become the most attractive. Although its impressive effect on LDL-C reduction is well established, its long-term (of more than 10 year) effect on the atherosclerotic process and specifically cardiac end-points in HFH is hardly documented. We herewith report on the longest term lipophoresis so far reported in two HFH patients, each treated with plasma-exchange and LDL-apheresis for more than 20 years. The observations provide an opportunity to focus on various aspects regarding not only the procedure itself but also its effect on various clinical endpoints. By this description together with reviewing the literature, we discuss several issues, some of them are generalized while others are individualized, dealing with the approach of long term LDL apheresis in HFH.
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Monday, April 26, 2010
Thursday, April 15, 2010
STUMP vs. Melanoma
presented by DJ Elpern and Jag Bhawan
Abstract: 20 yo woman with two month hx of an aggressive melanocytic neoplasm.
HPI: This otherwise healthy 20 yo college student noticed a papule on her right upper back two months before her dermatology visit. It rubbed on her bra and that is how she found it.
O/E: There was a 5 mm diameter brownish papule on the right upper back. It had no play of color, no asymmetry, and the border was fairly sharp. Dermoscopically it was not diagnositic of benign melanocytic neoplasm or melanoma. It was definitely and "outlier" lesion and was rapidly growing. She had an excisional biopsy the next week.
Clinical Photo:.
Pathology:
Excisional biopsy revealed an atypical cellular lesion with a nesting pattern, especially in the upper part of the lesion ( Fig 1,2). The deeper part showed infiltration of reticular dermis (Fig 3 ) as well as arrector pili ( Fig 4 )by islands of atypical cells. The cells were epithelioid, pleomorphic, large with atypical nuclei and several mitoses including in deep dermis ( Fig 5). Focal pigmentation was seen. There was mild epidermal hyperplasia, but no confluence or pagetoid spread of atypical melanocytes was observed. No radial growth phase was noted. These findings were interpreted as malignant melanoma with a depth of 3.5 mm. Lack of inflammatory response, confluence and pagetoid spread raised the possibility of melanocytic tumors of uncertain malignant potential ( MEL-TUMP ).
Two of the 5 sentinel lymph nodes were positive with atypical nests of melanocytes confirmed by MART-1 within the parenchyma of the lymph nodes.
Figures 1 - 5 in sequential order (Courtesy of Jag Bhawan)
Surgery. A wide-local excision and SLN biopsy was done and this showed the tumor was completely excised by the first excision and two of 5 nodes were positive. She will have a PET scan in a few days.
Questions for Panel:
1. Is this a MELTUMP -- Melanocytic tumor of uncertain malignant potential -- also called STUMP Spitzoid tumor of uncertain malignant potential?
2. Does this impart a better prognosis than if this is a MM? Is thickness less important for these lesions as a prognostic tool?
3. Do MELTUMPs have a different biological behaviors than MMs?
4. If PET scan is negative, would you recommend ELND?
5. Should her care be managed at this point by an oncologist with an interest in chemotherapy. Role for interferon? Can this be cured by chemotherapy or is pharmacologic therapy just palliative?
6. Many more questions. Your thoughts are most welcome.
References:
1. Balch CM, et al. Multivariate Analysis of Prognostic Factors Among 2,313 Patients With Stage III Melanoma: Comparison of Nodal Micrometastases Versus Macrometastases. J Clin Oncol. 2010 Apr 5.
Abstract PURPOSE: To determine the survival rates and independent predictors of survival using a contemporary international cohort of patients with stage III melanoma. PATIENTS AND METHODS: Complete clinicopathologic and follow-up data were available for 2,313 patients with stage III disease in an updated and expanded American Joint Committee on Cancer (AJCC) melanoma staging database. Kaplan-Meier and Cox multivariate survival analyses were performed. RESULTS: Among all 2,313 patients with stage III disease, 81% had micrometastases, and 19% had clinically detectable macrometastases. The 5-year overall survival was 63%; it was 67% for patients with nodal micrometastases, and it was 43% for those with nodal macrometastases (P < .001). Tremendous heterogeneity in survival was observed, particularly in the microscopically detected nodal metastasis subset (from 23% to 87% for 5-year survival). Multivariate analysis demonstrated that in patients with nodal micrometastases, number of tumor-containing lymph nodes, primary tumor thickness, patient age, ulceration, and anatomic site of the primary independently predicted survival (all P < .01). When added to the model, primary tumor mitotic rate was the second-most powerful predictor of survival after the number of tumor-containing nodes. In contrast, for patients with nodal macrometastases, the number of tumor-containing nodes, primary ulceration, and patient age independently predicted survival (P < .01). CONCLUSION: In this multi-institutional analysis, we demonstrated remarkable heterogeneity of prognosis among patients with stage III melanoma, especially among those with nodal micrometastases. These results should be incorporated into the design and interpretation of future clinical trials involving patients with stage III melanoma.
2. Soonh SJ etc. Predicting Survival Outcome of Localized Melanoma: An Electronic Prediction Tool Based on the AJCC Melanoma Database. Ann Surg Oncol. 2010 Apr 9. [Epub ahead of print]
Abstract:
BACKGROUND: We sought to develop a reliable and reproducible statistical model to predict the survival outcome of patients with localized melanoma. METHODS: A total of 25,734 patients with localized melanoma from the 2008 American Joint Committee on Cancer (AJCC) Melanoma Database were used for the model development and validation. The predictive model was developed from the model development data set (n = 14,760) contributed by nine major institutions and study groups and was validated on an independent model validation data set (n = 10,974) consisting of patients from a separate melanoma center. Multivariate analyses based on the Cox model were performed for the model development, and the concordance correlation coefficients were calculated to assess the adequacy of the predictive model. RESULTS: Patient characteristics in both data sets were virtually identical, and tumor thickness was the single most important prognostic factor. Other key prognostic factors identified by stratified analyses included ulceration, lesion site, and patient age. Direct comparisons of the predicted 5- and 10-year survival rates calculated from the predictive model and the observed Kaplan-Meier 5- and 10-year survival rates estimated from the validation data set yielded high concordance correlation coefficients of 0.90 and 0.93, respectively. A Web-based electronic prediction tool was also developed ( http://www.melanomaprognosis.org/ ). CONCLUSIONS: This is the first predictive model for localized melanoma that was developed based on a very large data set and was successfully validated on an independent data set. The high concordance correlation coefficients demonstrated the accuracy of the predicted model. This predictive model provides a clinically useful tool for making treatment decisions, for assessing patient risk, and for planning and analyzing clinical trials.
Abstract: 20 yo woman with two month hx of an aggressive melanocytic neoplasm.
HPI: This otherwise healthy 20 yo college student noticed a papule on her right upper back two months before her dermatology visit. It rubbed on her bra and that is how she found it.
O/E: There was a 5 mm diameter brownish papule on the right upper back. It had no play of color, no asymmetry, and the border was fairly sharp. Dermoscopically it was not diagnositic of benign melanocytic neoplasm or melanoma. It was definitely and "outlier" lesion and was rapidly growing. She had an excisional biopsy the next week.
Clinical Photo:.
Pathology:
Excisional biopsy revealed an atypical cellular lesion with a nesting pattern, especially in the upper part of the lesion ( Fig 1,2). The deeper part showed infiltration of reticular dermis (Fig 3 ) as well as arrector pili ( Fig 4 )by islands of atypical cells. The cells were epithelioid, pleomorphic, large with atypical nuclei and several mitoses including in deep dermis ( Fig 5). Focal pigmentation was seen. There was mild epidermal hyperplasia, but no confluence or pagetoid spread of atypical melanocytes was observed. No radial growth phase was noted. These findings were interpreted as malignant melanoma with a depth of 3.5 mm. Lack of inflammatory response, confluence and pagetoid spread raised the possibility of melanocytic tumors of uncertain malignant potential ( MEL-TUMP ).
Two of the 5 sentinel lymph nodes were positive with atypical nests of melanocytes confirmed by MART-1 within the parenchyma of the lymph nodes.
Figures 1 - 5 in sequential order (Courtesy of Jag Bhawan)
Surgery. A wide-local excision and SLN biopsy was done and this showed the tumor was completely excised by the first excision and two of 5 nodes were positive. She will have a PET scan in a few days.
Questions for Panel:
1. Is this a MELTUMP -- Melanocytic tumor of uncertain malignant potential -- also called STUMP Spitzoid tumor of uncertain malignant potential?
2. Does this impart a better prognosis than if this is a MM? Is thickness less important for these lesions as a prognostic tool?
3. Do MELTUMPs have a different biological behaviors than MMs?
4. If PET scan is negative, would you recommend ELND?
5. Should her care be managed at this point by an oncologist with an interest in chemotherapy. Role for interferon? Can this be cured by chemotherapy or is pharmacologic therapy just palliative?
6. Many more questions. Your thoughts are most welcome.
References:
1. Balch CM, et al. Multivariate Analysis of Prognostic Factors Among 2,313 Patients With Stage III Melanoma: Comparison of Nodal Micrometastases Versus Macrometastases. J Clin Oncol. 2010 Apr 5.
Abstract PURPOSE: To determine the survival rates and independent predictors of survival using a contemporary international cohort of patients with stage III melanoma. PATIENTS AND METHODS: Complete clinicopathologic and follow-up data were available for 2,313 patients with stage III disease in an updated and expanded American Joint Committee on Cancer (AJCC) melanoma staging database. Kaplan-Meier and Cox multivariate survival analyses were performed. RESULTS: Among all 2,313 patients with stage III disease, 81% had micrometastases, and 19% had clinically detectable macrometastases. The 5-year overall survival was 63%; it was 67% for patients with nodal micrometastases, and it was 43% for those with nodal macrometastases (P < .001). Tremendous heterogeneity in survival was observed, particularly in the microscopically detected nodal metastasis subset (from 23% to 87% for 5-year survival). Multivariate analysis demonstrated that in patients with nodal micrometastases, number of tumor-containing lymph nodes, primary tumor thickness, patient age, ulceration, and anatomic site of the primary independently predicted survival (all P < .01). When added to the model, primary tumor mitotic rate was the second-most powerful predictor of survival after the number of tumor-containing nodes. In contrast, for patients with nodal macrometastases, the number of tumor-containing nodes, primary ulceration, and patient age independently predicted survival (P < .01). CONCLUSION: In this multi-institutional analysis, we demonstrated remarkable heterogeneity of prognosis among patients with stage III melanoma, especially among those with nodal micrometastases. These results should be incorporated into the design and interpretation of future clinical trials involving patients with stage III melanoma.
2. Soonh SJ etc. Predicting Survival Outcome of Localized Melanoma: An Electronic Prediction Tool Based on the AJCC Melanoma Database. Ann Surg Oncol. 2010 Apr 9. [Epub ahead of print]
Abstract:
BACKGROUND: We sought to develop a reliable and reproducible statistical model to predict the survival outcome of patients with localized melanoma. METHODS: A total of 25,734 patients with localized melanoma from the 2008 American Joint Committee on Cancer (AJCC) Melanoma Database were used for the model development and validation. The predictive model was developed from the model development data set (n = 14,760) contributed by nine major institutions and study groups and was validated on an independent model validation data set (n = 10,974) consisting of patients from a separate melanoma center. Multivariate analyses based on the Cox model were performed for the model development, and the concordance correlation coefficients were calculated to assess the adequacy of the predictive model. RESULTS: Patient characteristics in both data sets were virtually identical, and tumor thickness was the single most important prognostic factor. Other key prognostic factors identified by stratified analyses included ulceration, lesion site, and patient age. Direct comparisons of the predicted 5- and 10-year survival rates calculated from the predictive model and the observed Kaplan-Meier 5- and 10-year survival rates estimated from the validation data set yielded high concordance correlation coefficients of 0.90 and 0.93, respectively. A Web-based electronic prediction tool was also developed ( http://www.melanomaprognosis.org/ ). CONCLUSIONS: This is the first predictive model for localized melanoma that was developed based on a very large data set and was successfully validated on an independent data set. The high concordance correlation coefficients demonstrated the accuracy of the predicted model. This predictive model provides a clinically useful tool for making treatment decisions, for assessing patient risk, and for planning and analyzing clinical trials.
Tuesday, April 06, 2010
Nail Dystrophy in an Eight Year-Old Girl
Introduction: In the past, we published a case of localized acrodermatitis continua. The father of a child with this diagnosis in the U.S. came across our post on VGRD and asked our advice for his daughter. Your opinions may help with the diagnosis and management of this child. One can only imagine how this disorder impacts on a young child. Perhaps, one of us has had a favorable outcome with a similar patient.
History: Please help with an opinion on our eight year-old daughter who has had an acral dermatitis for the past 5 years. The swelling started at the cuticle and slowly moved back towards the first knuckle over the years and was associated with itching. Initially it was diagnosed as insect bites. About a year ago her fingers became more swollen and a doctor made a clinical diagnosis of fungus (no tests were done). She was treated first with vinegar soaks, then triamcinalone cream then Grifulvin 125mg/tsp. None was effective and we then saw a new dermatologist who referred us to a pediatric dermatologist who she made a diagnosis: Acrodermatitis Continua of Hallopeau. She did a fungal culture which grew out a soil contaminant that was not felt to be significant. Our daughter is presently on clobetasol ointment. The nail looks a bit better but not the skin. Treatment discussions so far have included Thalidomide, Psoralen plus UVA or UVB, Acitretin, Methotrexate and others. We know that these medications can have serious side-effects and that this disease can be resistant to treatment. Our daughter has a lot of finger pain and can't pick up thing with her fingers. She is only a child and we'd appreciate your thoughts.
Clinical Photos:
Questions:
1) Are there alternative diagnoses?
2) What therapies have you had success within similar cases?
3) Any further work-up?
History: Please help with an opinion on our eight year-old daughter who has had an acral dermatitis for the past 5 years. The swelling started at the cuticle and slowly moved back towards the first knuckle over the years and was associated with itching. Initially it was diagnosed as insect bites. About a year ago her fingers became more swollen and a doctor made a clinical diagnosis of fungus (no tests were done). She was treated first with vinegar soaks, then triamcinalone cream then Grifulvin 125mg/tsp. None was effective and we then saw a new dermatologist who referred us to a pediatric dermatologist who she made a diagnosis: Acrodermatitis Continua of Hallopeau. She did a fungal culture which grew out a soil contaminant that was not felt to be significant. Our daughter is presently on clobetasol ointment. The nail looks a bit better but not the skin. Treatment discussions so far have included Thalidomide, Psoralen plus UVA or UVB, Acitretin, Methotrexate and others. We know that these medications can have serious side-effects and that this disease can be resistant to treatment. Our daughter has a lot of finger pain and can't pick up thing with her fingers. She is only a child and we'd appreciate your thoughts.
Clinical Photos:
Questions:
1) Are there alternative diagnoses?
2) What therapies have you had success within similar cases?
3) Any further work-up?