Julia Scarisbrick, MD, MBhons, ChB, FRCP, is one of the leaders of the PROCLIPI (Prospective Cutaneous Lymphoma International Prognostic Index) study, a registry of patients with cutaneous T-cell lymphoma (CTCL). Dr. Scarisbrick, Professor of Dermatology, Department of Immunology and Immunotherapy, University of Birmingham, Birmingham, United Kingdom, discusses the study’s objectives, as well as challenges in the diagnosis of CTCL.

Cutaneous T-cell lymphoma (CTCL) is a rare group of skin malignancies that includes aggressive (e.g., Sézary syndrome) and nonaggressive or indolent forms (e.g, mycosis fungoides). However, advanced mycosis fungoides can be a dangerous cutaneous lymphoma.

One of the most important unmet needs in patients with CTCL has been differentiating patients at high risk for poor outcomes from those at lower risk, which can directly affect treatment choices.
The PROCLIPI (Prospective Cutaneous Lymphoma International Prognostic Index) trial, an international registry study, sought to use years of prospectively collected patient data (from 552 patients with advanced stage mycosis fungoides or Sézary syndrome) to develop a prognostic index. An implication of a successful new prognostic index would be an improvement in the existing disease staging algorithm (IA–IVB) to better reflect survival rates.

The use of this new prognostic index will allow physicians to identify the subset of patients at high risk for poor outcomes, which would directly affect treatment decision making.

Another important unmet need in CTCL is improving diagnosis. At present, diagnosis of CTCL depends on a combination of clinical findings, skin biopsies, and genetic tests. A physician who is evaluating a skin lesion may not include CTCL in the differential diagnosis, and as a result, the diagnosis delay can be 3 years or more. A singular diagnostic test would be extremely helpful for family doctors and community dermatologists in considering CTCL as a potential cause and potentially improve the diagnostic yield in the community. The data from this repository of 10 years of patient data may help lead to this diagnostic simplification. Diagnostic delay can result, over time, in T-cell cancer affecting the lymph nodes, blood, and even visceral organs.

CHAPTERS
Introduction 00:00
PROCLIPI Registry Insights 00:19
Reducing Diagnostic Challenges 2:38
Early Skin Symptoms 3:47
Implications on Patient Care 5:21
Impact on Diagnosis, Risk Stratification, and Decision Making 6:16
Take Home Message 7:14

1 0

Carolina Barnett-Tapia, MD, Neuromuscular Neurologist and the University of Toronto, discusses the safety and efficacy of subcutaneous efgartigimod PH20 in ocular myasthenia gravis (oMG).

oMG is a neuromuscular disease characterized by autoantibody production against post-synaptic proteins in the neuromuscular junction. oMG typically presents as almost exclusively ocular symptoms and can evolve into generalized myasthenia gravis (gMG) in about 20% to 60% of cases. Common ocular manifestations include fluctuating ptosis, diplopia, and orbicularis weakness.

The Phase 3 ADAPT OCULUS trial (NCT06558279) is a randomized, double-blind, placebo-controlled, parallel-group design study evaluating the efficacy and safety of efgartigimod PH20 subcutaneous administered by a prefilled syringe in adults with oMG. Efgartigimod PH20 is a human immunoglobulin G1 (IgG1) antibody Fc fragment coformulated with recombinant human hyaluronidase PH20 that selectively reduces IgG levels by blocking neonatal Fc receptor–mediated IgG recycling.

In Part A of this trial, adults with confirmed oMG and a Myasthenia Gravis Impairment Index (MGII) patient-reported outcome subcomponent ocular score of 6 or greater are randomized to receive 4 once-weekly efgartigimod PH20 1000 mg or placebo, followed by 4 weeks of follow-up.

The primary endpoint is change in MGII patient-reported outcome ocular score from baseline to week 4. Key secondary endpoints include changes from baseline to week 4 in MGII ocular score (patient-reported outcome plus physical examination) and MGII total score. Safety assessments include adverse event incidence and severity. Topline results highlighted that the primary endpoint was met.

CHAPTERS
Introduction 00:00
Ocular Myasthenia Gravis 00:13
Susceptibility of Ocular Manifestations 1:53
ADAPT OCULUS Clinical Trial 3:05
Access to Treatment 5:43
Patient Burden 6:48

0 0

Christopher Romero, MD, a pediatric endocrinologist at Mount Sinai Medical Center, New York City, and Associate Professor of Pediatrics at the Icahn School of Medicine at Mount Sinai discusses arginine vasopressin deficiency. The name of the rare disease central diabetes insipidus was changed in 2024 to better reflect its etiology.

Central diabetes insipidus, a rare disease, is unrelated to the common medical problem diabetes mellitus, other than they are both problems related to endocrinologic dysfunction. Whereas diabetes mellitus involves pancreatic function and the production of the hormone insulin, central diabetes insipidus involves the pituitary gland and regulation of the hormone vasopressin. Dr. Romero stated that a new name for central diabetes insipidus was introduced in 2024—arginine vasopressin deficiency (AVP-D) to reflect the difference and relieve misconceptions caused by the traditional naming. 

The central issue with AVP-D is the function of antidiuretic hormone, which regulates water concentrations in the body. Pediatric and adult patients with this vasopressin deficiency (which mediates antidiuretic hormone levels) excrete more urine than patients without the deficiency. “It causes these patients to drink more, to make up for the water loss,” said Dr. Romero, “resulting in kids being thirstier and having to use the bathroom more often.” 

As a result, AVP-D can lead to weight loss and loss of appetite, dehydration, and electrolyte abnormalities. He also pointed out that the abnormal cycle of drinking and urination in children interferes with school work and performance. 

“Unless you’re aware of [AVP-D], you may miss the diagnosis,” said Dr. Romero. The pituitary gland is involved with so many functions, and symptoms only slowly evolve. Issues with the onset of puberty and growth may hint at the pituitary source of the problem. 

Historically, treatment was managed with an oral formulation of vasopressin, which was first available in the 1970s. An intravenous form was available in inpatient settings. A nasal spray formulation was subsequently developed, and is useful particularly with older children. Dr. Romero pointed out, figuring out the correct dosage for an individual pediatric patient is key; every child with AVP-D is different in terms of how much water they lose during the drinking–urination cycle. “Even though the oral form was effective, only two dosages were available. You have to titrate the dose to balance the water loss,” he emphasized.

The introduction of Desmoda in February 2026, an oral solution of desmopressin acetate 0.05 mg/mL, allows for easier titration. The solution may be easier to take than the pills for young children, and caregivers may have a better idea of precisely how much medication the patient is getting. For those reasons, Dr. Romero believes this formulation may be the best option for young pediatric patients with AVP-D.
 

0 0

Robert Rapaport, MD, Professor of Pediatric Endocrinology, and Director of the Comprehensive Growth Center at the Icahn School of Medicine, Mount Sinai Medical Center, New York City, discusses the causes of growth hormone deficiency and its treatment.

Growth failure in children is a considerable challenge for parents and pediatricians, with clinical and social stigma implications that may be avoided with early diagnosis.

The most important issue in young patients with growth failure is to detect it early, according to Dr. Rapaport. “As soon as you see a major deviation from the [expected growth chart] norm, act on it, even at age 2,” he emphasized, “because we know that best outcomes result from early detection.”

A growth failure diagnosis is delayed or underdiagnosed in minority groups; it is underdiagnosed in girls relative to boys. In most cases, children are referred to the Comprehensive Growth Center by pediatricians and primary care physicians, and it should be monitored from birth.

Growth failure in children can be caused by growth hormone (GH) deficiency, malnutrition, celiac disease, pituitary tumor (which suppresses the release of growth hormone) or a very rare genetic deletion. Once the potentially nonendocrine causes of GH deficiency are excluded, then causes related to the hypothalamus–pituitary-thyroid axis should be investigated, said Dr. Rapaport.

Growth hormone stimulation testing and low blood levels of insulin-like growth factor (IGF) and IGF-binding protein concentrations can help confirm GH deficiency as the cause. However, low IGF-1 levels can also be caused by excessively high GH levels.

In children diagnosed with GH deficiency, weekly GH injections are typically prescribed. In addition to monitoring these children for potential side effects of the GH injections, Dr. Rapoport recommended that they should undergo lab testing for IGF-1 blood concentrations every 3 to 6 months, until the bones fuse (signaling the conclusion of growth).

0 0

Robert Rapaport, MD, Professor of Pediatric Endocrinology, and Director of the Comprehensive Growth Center at the Icahn School of Medicine, Mount Sinai Medical Center, New York City, discusses the causes of growth hormone deficiency and its treatment.

Growth failure in children is a considerable challenge for parents and pediatricians, with clinical and social stigma implications that may be avoided with early diagnosis.

The most important issue in young patients with growth failure is to detect it early, according to Dr. Rapaport. “As soon as you see a major deviation from the [expected growth chart] norm, act on it, even at age 2,” he emphasized, “because we know that best outcomes result from early detection.”

A growth failure diagnosis is delayed or underdiagnosed in minority groups; it is underdiagnosed in girls relative to boys. In most cases, children are referred to the Comprehensive Growth Center by pediatricians and primary care physicians, and it should be monitored from birth.

Growth failure in children can be caused by growth hormone (GH) deficiency, malnutrition, celiac disease, pituitary tumor (which suppresses the release of growth hormone) or a very rare genetic deletion. Once the potentially nonendocrine causes of GH deficiency are excluded, then causes related to the hypothalamus–pituitary-thyroid axis should be investigated, said Dr. Rapaport.

Growth hormone stimulation testing and low blood levels of insulin-like growth factor (IGF) and IGF-binding protein concentrations can help confirm GH deficiency as the cause. However, low IGF-1 levels can also be caused by excessively high GH levels.

In children diagnosed with GH deficiency, weekly GH injections are typically prescribed. In addition to monitoring these children for potential side effects of the GH injections, Dr. Rapoport recommended that they should undergo lab testing for IGF-1 blood concentrations every 3 to 6 months, until the bones fuse (signaling the conclusion of growth).

0 0

Robert Rapaport, MD, Professor of Pediatric Endocrinology, and Director of the Comprehensive Growth Center at the Icahn School of Medicine, Mount Sinai Medical Center, New York City, discusses the causes of growth hormone deficiency and its treatment.

Growth failure in children is a considerable challenge for parents and pediatricians, with clinical and social stigma implications that may be avoided with early diagnosis.

The most important issue in young patients with growth failure is to detect it early, according to Dr. Rapaport. “As soon as you see a major deviation from the [expected growth chart] norm, act on it, even at age 2,” he emphasized, “because we know that best outcomes result from early detection.”

A growth failure diagnosis is delayed or underdiagnosed in minority groups; it is underdiagnosed in girls relative to boys. In most cases, children are referred to the Comprehensive Growth Center by pediatricians and primary care physicians, and it should be monitored from birth.

Growth failure in children can be caused by growth hormone (GH) deficiency, malnutrition, celiac disease, pituitary tumor (which suppresses the release of growth hormone) or a very rare genetic deletion. Once the potentially nonendocrine causes of GH deficiency are excluded, then causes related to the hypothalamus–pituitary-thyroid axis should be investigated, said Dr. Rapaport.

Growth hormone stimulation testing and low blood levels of insulin-like growth factor (IGF) and IGF-binding protein concentrations can help confirm GH deficiency as the cause. However, low IGF-1 levels can also be caused by excessively high GH levels.

In children diagnosed with GH deficiency, weekly GH injections are typically prescribed. In addition to monitoring these children for potential side effects of the GH injections, Dr. Rapoport recommended that they should undergo lab testing for IGF-1 blood concentrations every 3 to 6 months, until the bones fuse (signaling the conclusion of growth).

0 0

Robert Rapaport, MD, Professor of Pediatric Endocrinology, and Director of the Comprehensive Growth Center at the Icahn School of Medicine, Mount Sinai Medical Center, New York City, discusses the causes of growth hormone deficiency and its treatment.

Growth failure in children is a considerable challenge for parents and pediatricians, with clinical and social stigma implications that may be avoided with early diagnosis.

The most important issue in young patients with growth failure is to detect it early, according to Dr. Rapaport. “As soon as you see a major deviation from the [expected growth chart] norm, act on it, even at age 2,” he emphasized, “because we know that best outcomes result from early detection.”

A growth failure diagnosis is delayed or underdiagnosed in minority groups; it is underdiagnosed in girls relative to boys. In most cases, children are referred to the Comprehensive Growth Center by pediatricians and primary care physicians, and it should be monitored from birth.

Growth failure in children can be caused by growth hormone (GH) deficiency, malnutrition, celiac disease, pituitary tumor (which suppresses the release of growth hormone) or a very rare genetic deletion. Once the potentially nonendocrine causes of GH deficiency are excluded, then causes related to the hypothalamus–pituitary-thyroid axis should be investigated, said Dr. Rapaport.

Growth hormone stimulation testing and low blood levels of insulin-like growth factor (IGF) and IGF-binding protein concentrations can help confirm GH deficiency as the cause. However, low IGF-1 levels can also be caused by excessively high GH levels.

In children diagnosed with GH deficiency, weekly GH injections are typically prescribed. In addition to monitoring these children for potential side effects of the GH injections, Dr. Rapoport recommended that they should undergo lab testing for IGF-1 blood concentrations every 3 to 6 months, until the bones fuse (signaling the conclusion of growth).

0 0

Robert Rapaport, MD, Professor of Pediatric Endocrinology, and Director of the Comprehensive Growth Center at the Icahn School of Medicine, Mount Sinai Medical Center, New York City, discusses the causes of growth hormone deficiency and its treatment.

Growth failure in children is a considerable challenge for parents and pediatricians, with clinical and social stigma implications that may be avoided with early diagnosis.

The most important issue in young patients with growth failure is to detect it early, according to Dr. Rapaport. “As soon as you see a major deviation from the [expected growth chart] norm, act on it, even at age 2,” he emphasized, “because we know that best outcomes result from early detection.”

A growth failure diagnosis is delayed or underdiagnosed in minority groups; it is underdiagnosed in girls relative to boys. In most cases, children are referred to the Comprehensive Growth Center by pediatricians and primary care physicians, and it should be monitored from birth.

Growth failure in children can be caused by growth hormone (GH) deficiency, malnutrition, celiac disease, pituitary tumor (which suppresses the release of growth hormone) or a very rare genetic deletion. Once the potentially nonendocrine causes of GH deficiency are excluded, then causes related to the hypothalamus–pituitary-thyroid axis should be investigated, said Dr. Rapaport.

Growth hormone stimulation testing and low blood levels of insulin-like growth factor (IGF) and IGF-binding protein concentrations can help confirm GH deficiency as the cause. However, low IGF-1 levels can also be caused by excessively high GH levels.

In children diagnosed with GH deficiency, weekly GH injections are typically prescribed. In addition to monitoring these children for potential side effects of the GH injections, Dr. Rapoport recommended that they should undergo lab testing for IGF-1 blood concentrations every 3 to 6 months, until the bones fuse (signaling the conclusion of growth).

0 0

Robert Rapaport, MD, Professor of Pediatric Endocrinology, and Director of the Comprehensive Growth Center at the Icahn School of Medicine, Mount Sinai Medical Center, New York City, discusses the causes of growth hormone deficiency and its treatment.

Growth failure in children is a considerable challenge for parents and pediatricians, with clinical and social stigma implications that may be avoided with early diagnosis.

The most important issue in young patients with growth failure is to detect it early, according to Dr. Rapaport. “As soon as you see a major deviation from the [expected growth chart] norm, act on it, even at age 2,” he emphasized, “because we know that best outcomes result from early detection.”

A growth failure diagnosis is delayed or underdiagnosed in minority groups; it is underdiagnosed in girls relative to boys. In most cases, children are referred to the Comprehensive Growth Center by pediatricians and primary care physicians, and it should be monitored from birth.

Growth failure in children can be caused by growth hormone (GH) deficiency, malnutrition, celiac disease, pituitary tumor (which suppresses the release of growth hormone) or a very rare genetic deletion. Once the potentially nonendocrine causes of GH deficiency are excluded, then causes related to the hypothalamus–pituitary-thyroid axis should be investigated, said Dr. Rapaport.

Growth hormone stimulation testing and low blood levels of insulin-like growth factor (IGF) and IGF-binding protein concentrations can help confirm GH deficiency as the cause. However, low IGF-1 levels can also be caused by excessively high GH levels.

In children diagnosed with GH deficiency, weekly GH injections are typically prescribed. In addition to monitoring these children for potential side effects of the GH injections, Dr. Rapoport recommended that they should undergo lab testing for IGF-1 blood concentrations every 3 to 6 months, until the bones fuse (signaling the conclusion of growth).

0 0