Clinical practice recommendations on lipoprotein apheresis for children with homozygous familial hypercholesterolaemia: An expert consensus statement from ERKNet and ESPN.

Homozygous familial hypercholesterolaemia is a life-threatening genetic condition, which causes extremely elevated LDL-C levels and atherosclerotic cardiovascular disease very early in life. It is vital to start effective lipid-lowering treatment from diagnosis onwards. Even with dietary and current multimodal pharmaceutical lipid-lowering therapies, LDL-C treatment goals cannot be achieved in many children. Lipoprotein apheresis is an extracorporeal lipid-lowering treatment, which is used for decades, lowering serum LDL-C levels by more than 70% directly after the treatment. Data on the use of lipoprotein apheresis in children with homozygous familial hypercholesterolaemia mainly consists of case-reports and case-series, precluding strong evidence-based guidelines. We present a consensus statement on lipoprotein apheresis in children based on the current available evidence and opinions from experts in lipoprotein apheresis from over the world. It comprises practical statements regarding the indication, methods, treatment goals and follow-up of lipoprotein apheresis in children with homozygous familial hypercholesterolaemia and on the role of lipoprotein(a) and liver transplantation.

Clinical profile, genetic spectrum and therapy evaluation of 19 Chinese pediatric patients with lipoprotein lipase deficiency.

BACKGROUND: Lipoprotein lipase (LPL) deficiency, the most common familial chylomicronemia syndrome (FCS), is a rare autosomal recessive disease characterized by chylomicronemia and severe hypertriglyceridemia (HTG), with limited clinical and genetic characterization. OBJECTIVE: To describe the manifestations and management of 19 pediatric patients with LPL-FCS. METHODS: LPL-FCS patients from 2014 to 2022 were divided into low-fat (LF), very-low-fat (VLF) and medium-chain-triglyceride (MCT) groups. Their clinical data were evaluated to investigate the effect of different diets. The genotype-phenotype relationship was assessed. Linear regression comparing long-chain triglyceride (LCT) intake and TG levels was analyzed. RESULTS: Nine novel LPL variants were identified in 19 LPL-FCS pediatric patients. At baseline, eruptive xanthomas occurred in 3/19 patients, acute pancreatitis in 2/19, splenomegaly in 6/19 and hepatomegaly in 3/19. The median triglyceride (TG) level (30.3 mmol/L) was markedly increased. The MCT group and VLF group with LCT intakes <20 en% (energy percentage) had considerably lower TG levels than the LF group (both p<0.05). The LF group presented with severe HTG and significantly decreased TG levels after restricting LCT intakes to <20 en% (p<0.05). Six infants decreased TG levels to <10 mmol/L by keeping LCT intake <10 en%. TG levels and LCT intake were positively correlated in both patients under 2 years (r=0.84) and those aged 2-9 years (r=0.89). No genotype-phenotype relationship was observed. CONCLUSIONS: This study broadens the clinical and genetic spectra of LPL-FCS. The primary therapy for LPL-FCS pediatric patients is restricting dietary LCTs to <10 en% or <20 en% depending on different ages. MCTs potentially provide extra energy.

Preclinical Development and Characterization of Novel Adeno-Associated Viral Vectors for the Treatment of Lipoprotein Lipase Deficiency.

Lipoprotein lipase deficiency (LPLD) results from mutations within the lipoprotein lipase (LPL) gene that lead to a complete lack of catalytically active LPL protein. Glybera was one of the first adeno-associated virus (AAV) gene replacement therapy to receive European Medicines Agency regulatory approval for the treatment of LPLD. However, Glybera is no longer marketed potentially due to a combination of economical, manufacturing, and vector-related issues. The aim of this study was to develop a more efficacious AAV gene therapy vector for LPLD. Following preclinical biodistribution, efficacy and non-Good Laboratory Practice toxicity studies with novel AAV1 and AAV8-based vectors in mice, we identified AAV8 pVR59. AAV8 pVR59 delivered a codon-optimized, human gain-of-function hLPLS447X transgene driven by a CAG promoter in an AAV8 capsid. AAV8 pVR59 was significantly more efficacious, at 10- to 100-fold lower doses, compared with an AAV1 vector based on Glybera, when delivered intramuscularly or intravenously, respectively, in mice with LPLD. Efficient gene transfer was observed within the injected skeletal muscle and liver following delivery of AAV8 pVR59, with long-term correction of LPLD phenotypes, including normalization of plasma triglycerides and lipid tolerance, for up to 6 months post-treatment. While intramuscular delivery of AAV8 pVR59 was well tolerated, intravenous administration augmented liver pathology. These results highlight the feasibility of developing a superior AAV vector for the treatment of LPLD and provide critical insight for initiating studies in larger animal models. The identification of an AAV gene therapy vector that is more efficacious at lower doses, when paired with recent advances in production and manufacturing technologies, will ultimately translate to increased safety and accessibility for patients.

Long-Term Nutritional Counseling for a Patient with Lipoprotein Lipase Deficiency.

A one-year-and-nine-month-old Japanese boy was admitted with hypertriglyceridemia (fasting triglycerides 2548 mg/dL). After close examination, he was diagnosed with lipoprotein lipase (LPL) deficiency (compound heterozygous) and was immediately started on a fat-restricted dietary therapy. He responded well to the regimen (1200 kcal/day, 20 g fat/day) and his triglycerides decreased to 628 mg/dL within 7 days of starting the dietary therapy. It was decided to manage his illness without using any drugs because he was still an infant and responded well to a fat-restricted diet. During his hospital stay, dietitians provided him with nutritional counseling using a food exchange list, which was designed to easily calculate the fat content by including foods that are commonly served. His family quickly learned the skills to prepare a fat-restricted diet. Moreover, since dietary restrictions may have impaired the child's growth and development, the dietitians continued to intervene regularly after the child was discharged from the hospital. The dietitians confirmed that the patient was receiving nutritional intake appropriate for his growth and discussed the dietary concerns in his daily life and how to participate in school events that involved eating and drinking. Nutritional counseling was provided every 3-4 months from disease onset to age 23 years, except for a 14-month break at age 20 years. The patient grew up without developing acute pancreatitis, a serious complication of LPL deficiency. The long-term intervention of dieticians is necessary to achieve a balance between living on a strict diet for disease management and ensuring appropriate nutritional intakes for growth/development.

Plasma exchange therapy for familial chylomicronemia syndrome in infant: A case report.

INTRODUCTION: Familial chylomicronemia syndrome (FCS) is a rare genetic disease. FCS usually manifests by the age of 10 years, and 25% of cases of FCS occur during infancy. Here we present a case of FCS in a male infant and summarize our experiences on the diagnosis and therapy of this case. PATIENT CONCERNS: A male infant aged 1 month and 8 days had recurrent hematochezia and hyperchylomicronemia. DIAGNOSIS: FCS based on symptoms and genetic test. INTERVENTIONS: Plasma exchange therapy. OUTCOMES: His development was normal with a good spirit and satisfactory weight gain, and no hematochezia occurred again. CONCLUSION: Genetic test is important for accurate diagnosis of FCS, and we identified a new mutation of lipoprotein lipase gene c.88C>A which conformed to autosomal recessive inheritance. Plasma exchange therapy can be applied to infants with FCS with low risk and good outcomes.

Hypertriglyceridaemia: an update.

Triglycerides (TGs) form part of the standard lipid profile. Elevations in TGs are associated with increased cardiovascular disease risk through triglyceride-rich lipoprotein particles found as part of non-HDL cholesterol. Many elevations of TGs are secondary to other causes, but primary hypertriglyceridaemia syndromes need to be identified. The genetic causes of hypertriglyceridaemia range from familial combined hyperlipidaemia through the autosomal recessive remnant hyperlipidaemia (related to apolipoprotein E variants) and familial chylomicronaemia syndromes. Patients with primary hypertriglyceridaemia >10 mmol/L require characterisation and specific intervention. Simple lipid profiles do not provide adequate information for detailed diagnosis and additional assays such as apolipoprotein (apo)B100, apoE genotype and next-generation sequencing may be useful. Management of raised TGs includes optimising diet, reducing exacerbating factors as well as lipid-lowering medications such as statins, fibrates, niacin and omega-3 fatty acids. Novel medications for orphan disease indications such as familial chylomicronaemia syndrome include volanesorsen, evinacumab and other antisense therapeutics. Extreme hypertriglyceridaemia syndromes, especially chylomicronaemia syndromes, which can be exposed by pregnancy or other factors are a medical emergency and require admission and specialist management sometimes including plasma exchange.

Síndrome de quilomicronemia familiar: experiencia pediátrica en Argentina / Familial chylomicronemia syndrome: pediatric experience in Argentina

El síndrome de quilomicronemia familiar (SQF) es unaenfermedad autosómica recesiva rara, con una prevalencia1:200 000 - 1:1 000 000, y se caracteriza por quilomicronemiaen ayunas y niveles muy elevados de triglicéridos (> 880 mg/dl). LPL es el gen más frecuentemente afectado, luego APOC2,GPIHBP1, APOA5 y LMF1; todos ellos comprometen la función de la lipoproteinlipasa endotelial. El SQF suele presentarseen la infancia con dolor abdominal recurrente, xantomaseruptivos, retraso del crecimiento, pancreatitis y, en ocasiones,asintomático. El tratamiento convencional es la restriccióndietética de grasas. Se muestra el resultado clínico de 20 pacientes pediátricoscon SQF reclutados de 4 hospitales en Argentina.

Familial chylomicronemia syndrome (FCS) is a rare autosomalrecessive disease, prevalence 1:200,000 - 1:1,000,000, andis characterized by fasting chylomicrons and very hightriglycerides > 880 mg/dl. LPL is the most frequentlyaffected gene, then APOC2, GPIHBP1, APOA5, LMF1, all ofthem compromising the function of lipoproteinlipase. FCScommonly presents in childhood with recurrent abdominalpain, eruptive xanthomas, failure to thrive, pancreatitis, andsometimes asymptomatic. The conventional treatment isdietetic fat restriction. The clinical outcome of 20 pediatric patients with FCS recruited from 4 hospitals in Argentina is reported.

[Familial chylomicronemia syndrome: pediatric experience in Argentina]. / Síndrome de quilomicronemia familiar: experiencia pediátrica en Argentina.

Familial chylomicronemia syndrome (FCS) is a rare autosomal recessive disease, prevalence 1:200,000 - 1:1,000,000, and is characterized by fasting chylomicrons and very high triglycerides > 880 mg/dl. LPL is the most frequently affected gene, then APOC2, GPIHBP1, APOA5, LMF1, all of them compromising the function of lipoproteinlipase. FCS commonly presents in childhood with recurrent abdominal pain, eruptive xanthomas, failure to thrive, pancreatitis, and sometimes asymptomatic. The conventional treatment is dietetic fat restriction. The clinical outcome of 20 pediatric patients with FCS recruited from 4 hospitals in Argentina is reported.

El síndrome de quilomicronemia familiar (SQF) es una enfermedad autosómica recesiva rara, con una prevalencia 1:200 000 - 1:1 000 000, y se caracteriza por quilomicronemia en ayunas y niveles muy elevados de triglicéridos (> 880 mg/ dl). LPL es el gen más frecuentemente afectado, luego APOC2, GPIHBP1, APOA5 y LMF1; todos ellos comprometen la función de la lipoproteinlipasa endotelial. El SQF suele presentarse en la infancia con dolor abdominal recurrente, xantomas eruptivos, retraso del crecimiento, pancreatitis y, en ocasiones, asintomático. El tratamiento convencional es la restricción dietética de grasas. Se muestra el resultado clínico de 20 pacientes pediátricos con SQF reclutados de 4 hospitales en Argentina.

Causes, clinical findings and therapeutic options in chylomicronemia syndrome, a special form of hypertriglyceridemia.

The prevalence of hypertriglyceridemia has been increasing worldwide. Attention is drawn to the fact that the frequency of a special hypertriglyceridemia entity, named chylomicronemia syndrome, is variable among its different forms. The monogenic form, termed familial chylomicronemia syndrome, is rare, occuring in 1 in every 1 million persons. On the other hand, the prevalence of the polygenic form of chylomicronemia syndrome is around 1:600. On the basis of the genetical alterations, other factors, such as obesity, alcohol consumption, uncontrolled diabetes mellitus and certain drugs may significantly contribute to the development of the multifactorial form. In this review, we aimed to highlight the recent findings about the clinical and laboratory features, differential diagnosis, as well as the epidemiology of the monogenic and polygenic forms of chylomicronemias. Regarding the therapy, differentiation between the two types of the chylomicronemia syndrome is essential, as well. Thus, proper treatment options of chylomicronemia and hypertriglyceridemia will be also summarized, emphasizing the newest therapeutic approaches, as novel agents may offer solution for the effective treatment of these conditions.

Prophylactic therapeutic plasma exchange in pregnant woman with Familial Chylomicronemia Syndrome - A case report.

CONTEXT: Familial Chylomicronemia Syndrome (FCS) is an inherited disease where lack of lipoprotein lipase results in severe hypertriglyceridemia that frequently leads to recurrent acute pancreatitis. Pregnancy in patients with familial chylomicronemia syndrome (FCS) post a risk for mother and baby with potential complications (pancreatitis, miscarriage and death). Therapeutic approach includes strict dietary measures and plasma exchange. Despite the development of new drugs for FCS, their safety in pregnancy has not yet been confirmed. CASE DESCRIPTION: We present a case of a young, pregnant female with FCS who had miscarriage in the past during one episode of acute pancreatitis. Due to the inability to achieve lower TG levels with current therapy, from 27-th week of pregnancy we have started prophylactic therapeutic plasma exchange (two times per week). Patient was followed up until the delivery of a healthy baby boy and did not experience an episode of acute pancreatitis. CONCLUSIONS: With adequate supervision and monitoring therapeutic plasma exchange represents a safe approach in pregnant women with FCS in order to reduce TGs and prevent pancreatitis. Therefore, we prevented potential complications for both mother and child.

Challenges in familial chylomicronemia syndrome diagnosis and management across Latin American countries: An expert panel discussion.

Familial chylomicronemia syndrome (FCS) is a rare genetic disorder characterized by extremely high triglyceride levels due to impaired clearance of chylomicrons from plasma. This paper is the result of a panel discussion with Latin American specialists who raised the main issues on diagnosis and management of FCS in their countries. Overall FCS is diagnosed late on the course of the disease, is characterized by heterogeneity on the occurrence of pancreatitis, and remains a long time in care of different specialists until reaching a lipidologist. Pancreatitis and secondary diabetes are frequently seen, often due to late diagnosis and inadequate care. Molecular diagnosis is unusual; however, loss of function variants on the lipoprotein lipase gene are apparently the most frequent etiology. A founder effect of the glycosylphosphatidylinositol anchored high density lipoprotein binding protein 1 gene has been described in the northeast of Brazil. Low awareness of the disease amongst health professionals contributes to inadequate care and an inadequate patient journey.

Current Diagnosis and Management of Primary Chylomicronemia.

Primary chylomicronemia (PCM) is a rare and intractable disease characterized by marked accumulation of chylomicrons in plasma. The levels of plasma triglycerides (TGs) typically range from 1,000 - 15,000 mg/dL or higher.PCM is caused by defects in the lipoprotein lipase (LPL) pathway due to genetic mutations, autoantibodies, or unidentified causes. The monogenic type is typically inherited as an autosomal recessive trait with loss-of-function mutations in LPL pathway genes (LPL, LMF1, GPIHBP1, APOC2, and APOA5). Secondary/environmental factors (diabetes, alcohol intake, pregnancy, etc.) often exacerbate hypertriglyceridemia (HTG). The signs, symptoms, and complications of chylomicronemia include eruptive xanthomas, lipemia retinalis, hepatosplenomegaly, and acute pancreatitis with onset as early as in infancy. Acute pancreatitis can be fatal and recurrent episodes of abdominal pain may lead to dietary fat intolerance and failure to thrive.The main goal of treatment is to prevent acute pancreatitis by reducing plasma TG levels to at least less than 500-1,000 mg/dL. However, current TG-lowering medications are generally ineffective for PCM. The only other treatment options are modulation of secondary/environmental factors. Most patients need strict dietary fat restriction, which is often difficult to maintain and likely affects their quality of life.Timely diagnosis is critical for the best prognosis with currently available management, but PCM is often misdiagnosed and undertreated. The aim of this review is firstly to summarize the pathogenesis, signs, symptoms, diagnosis, and management of PCM, and secondly to propose simple diagnostic criteria that can be readily translated into general clinical practice to improve the diagnostic rate of PCM. In fact, these criteria are currently used to define eligibility to receive social support from the Japanese government for PCM as a rare and intractable disease.Nevertheless, further research to unravel the molecular pathogenesis and develop effective therapeutic modalities is warranted. Nationwide registry research on PCM is currently ongoing in Japan with the aim of better understanding the disease burden as well as the unmet needs of this life-threatening disease with poor therapeutic options.

Treatment of chylomicronemia. / Tratamiento de la quilomicronemia.

Fasting chylomicronaemia appears in type V (multifactorial chylomicronaemia syndrome, MCS), and in type I (familial chylomicronaemia syndrome, FCS). MCS needs to be treated as in any general hypertriglyceridaemia: low-calorie diet, avoid sugar and alcohol, reduce body weight, control of diabetes and, in some cases, common lipid lowering-drugs, such as fibrates or omega-3 fatty acids. For type I HLP, FCS, patients should adhere to a strict very low fat diet, usually less than 15-20 g per day. In spite of this, many patients with FCS suffer from recurrent abdominal pain and/or acute pancreatitis. Volanesorsen, an antisense oligonucleotide against apolipoprotein C-III, is the only drug approved to control the disease. As shown in the APPROACH study, the administration of volanesorsen at a weekly dose of 285 mg induced at three month a reduction of triglycerides of 77% (primary end-point) and a reduction of 1712 mg/dL from the baseline. Among patient receiving volanesorsen, 77% reached a fasting triglyceride value below 750 mg/dL. The most frequent side effects were a skin reaction at injection site and low platelet levels, which should be monitored.

Management of a pregnant patient with chylomicronemia from a novel mutation in GPIHBP1: a case report.

BACKGROUND: Familial chylomicronemia syndrome (FCS) is a rare autosomal recessive lipid disorder often associated with recurrent episodes of pancreatitis. It is documented in most cases with FCS due to the mutations of key proteins in lipolysis, including LPL, APOC2, APOA5, LMF1 and GPIHBP1. CASE PRESENTATION: We report the successful management of a 35-year-old pregnant woman carrying a novel homozygous frameshift mutation c.48_49insGCGG (p.P17A fs*22) in the GPIHBP1 gene with previous severe episodes of acute pancreatitis triggered by pregnancy, resulting in adverse obstetrical outcomes. With careful monitoring, the patient underwent an uneventful pregnancy and delivered a baby with no anomalies. CONCLUSIONS: The case report contributes to the understanding of GPIHBP1-deficient familial chylomicronemia syndrome (FCS) and highlights gestational management of FCS patient.

Nuevos tratamientos en la hipertrigliceridemia y en la hiperquilomicronemia / Novel therapeutics in hypertriglyceridaemia and chylomicronaemia

Existen evidencias del papel de la hipertrigliceridemia como factor de riesgo independiente de ateromatosis. Cuando es severa, la hiperquilomicronemia puede asociarse a pancreatitis aguda grave y recurrente. En la mayoría de las hipertrigliceridemias se combina una base predisponente poligénica con diversos factores ambientales u otras patologías precipitantes. Algunas hiperquilomicronemias son formas familiares monogénicas autosómicas recesivas. Una característica de los triglicéridos plasmáticos es la marcada variabilidad y su descenso con ajustes en la dieta y el estilo de vida. Los fármacos disponibles contribuyen también a su control, pero es más controvertida la disminución del riesgo vascular o de pancreatitis. Los avances en el conocimiento del metabolismo lipídico a nivel molecular y en la tecnología farmacológica posibilitan el desarrollo de nuevas estrategias terapéuticas que pueden facilitar el tratamiento de pacientes en los que las medidas convencionales no son efectivas. En algunos casos, el elevado coste podría limitar su acceso y su sostenibilidad

Currently there is evidence on hypertriglyceridaemia as an independent risk factor of atherosclerosis. Chylomicronaemia associated with very high concentration of triglycerides may cause severe and recurrent acute pancreatitis. The cause of most cases is a combination of a polygenetic basis with some lifestyles and pathological conditions. Some rare and familial chylomicronaemias are mendelian diseases with an autosomal recessive pattern. On the other hand, plasma triglycerides have considerable biological variability and usually descend with non-pharmacological interventions alone. In some cases, drugs are also required for their control, but their impact on vascular risk reduction or pancreatitis prevention is more controversial. The recent advances in knowledge of molecular lipid metabolism and pharmacological technologies are resulting in the development of new therapeutic strategies, which can be applied to patients with refractory hypertrigliceridaemia. The challenge may be how the health systems can cover its high costs

Familial chylomicronemia syndrome: A rare but devastating autosomal recessive disorder characterized by refractory hypertriglyceridemia and recurrent pancreatitis.

Familial Chylomicronemia Syndrome (FCS) is a rare autosomal recessive lipid disorder characterized by severe hypertriglyceridemia and recurrent pancreatitis. Because the disorder is often misdiagnosed or not diagnosed and because traditional triglyceride lowering medications are often ineffective, the disease leads to a tremendous physical, social and emotional burden on afflicted patients and their caretakers. Mutations in 5 different genes have been implicated in the development of FCS, all of which have an effect on the activity of lipoprotein lipase. Lipoprotein lipase(LPL) is responsible for removing triglycerides from chylomicrons and other triglyceride rich lipoproteins in the circulation, breaking them down into free fatty acids for use as energy. Patients with FCS have loss of function of their LPL leading to severely elevated chylomicrons in the circulation and hence, severe hypertriglyceridemia. The principle treatment for FCS is to reduce chylomicron formation in the gut by placing the patient on an extremely low fat diet. New medications in development hold significant promise for improving the quality of life for FCS patients.

The Chylomicronemia Syndrome Is Most Often Multifactorial: A Narrative Review of Causes and Treatment.

The chylomicronemia syndrome occurs when triglyceride levels are severely elevated (usually >16.95 mmol/L [1500 mg/dL]) and is characterized by such clinical features as abdominal pain, acute pancreatitis, eruptive xanthomas, and lipemia retinalis. It may result from 1 of 3 conditions: the presence of secondary forms of hypertriglyceridemia concurrent with genetic causes of hypertriglyceridemia, termed multifactorial chylomicronemia syndrome (MFCS); a deficiency in the enzyme lipoprotein lipase and some associated proteins, termed familial chylomicronemia syndrome (FCS); or familial partial lipodystrophy. Most chylomicronemia syndrome cases are the result of MFCS; FCS is very rare. In all these conditions, triglyceride-rich lipoproteins accumulate because of impaired plasma clearance. This review describes the 3 major causes of the chylomicronemia syndrome; their consequences; and the approaches to treatment, which differ considerably by group.

Familial Chylomicronemia Syndrome: A Clinical Guide For Endocrinologists.

OBJECTIVE: Familial chylomicronemia syndrome (FCS) is a rare autosomal recessive disorder caused by mutations in lipoprotein lipase, resulting in accumulation of chylomicrons in plasma and hypertriglyceridemia. Elevated triglycerides cause several complications in patients, the most serious being episodes of acute pancreatitis. This review focuses on expert guidance and opinion from an experienced lipidologist and endocrinologist as well as a current review of the literature, as there are no specific guidelines on FCS. METHODS: Discussion of expert guidance and opinion review of current literature. RESULTS: To date, there is no pharmacologic treatment for affected patients, and management options primarily include adoption of an extremely restricted, very-low-fat diet, along with avoidance of certain medications and alcohol. Endocrinologists often diagnose and manage patients with metabolic disorders, including patients with high triglyceride levels, but rare diseases like FCS can be missed or poorly evaluated due to knowledge gaps about disease state. Given endocrinologists' role in the treatment of lipid disorders, it is important that they understand the clinical signs and symptoms of FCS to correctly diagnose patients. Patients with FCS can be identified based on a defined clinical criteria and a thorough review of medical history, after excluding differential diagnoses and secondary factors. Typical manifestations include hypertriglyceridemia characterized by lipemic serum, history of abdominal pain, and acute/recurrent pancreatitis. Secondary factors to be excluded are pregnancy, alcohol abuse, uncontrolled diabetes, and use of certain medications. CONCLUSION: FCS is a rare, inherited lipid disorder disease that often goes underdiagnosed and unmanaged. This review provides a summary of clinical characteristics of FCS that can be potentially used to screen patients in an endocrinologist's office and direct them to the appropriate standard of care. ABBREVIATIONS: apoB = apolipoprotein B; apoC-III = apolipoprotein CIII; ASO = antisense oligonucleotide; FCS = familial chylomicronemia syndrome; HTG = hypertriglyceridemia; LPL = lipoprotein lipase; LPLD = lipoprotein lipase deficiency.