Platelet Storage Pool Deficiency
Blood Platelets
Blood Preservation
Abnormal expression and subcellular distribution of subunit proteins of the AP-3 adaptor complex lead to platelet storage pool deficiency in the pearl mouse. (1/32)
The pearl mouse is a model for Hermansky Pudlak Syndrome (HPS), whose symptoms include hypopigmentation, lysosomal abnormalities, and prolonged bleeding due to platelet storage pool deficiency (SPD). The gene for pearl has recently been identified as the beta3A subunit of the AP-3 adaptor complex. The objective of these experiments was to determine if the expression and subcellular distribution of the AP-3 complex were altered in pearl platelets and other tissues. The beta3A subunit was undetectable in all pearl cells and tissues. Also, expression of other subunit proteins of the AP-3 complex was decreased. The subcellular distribution of the remaining AP-3 subunits in platelets, macrophages, and a melanocyte-derived cell line of pearl mice was changed from the normal punctate, probably endosomal, pattern to a diffuse cytoplasmic pattern. Ultrastructural abnormalities in mutant lysosomes were likewise apparent in mutant kidney and a cultured mutant cell line. Genetically distinct mouse HPS models had normal expression of AP-3 subunits. These and related experiments strongly suggest that the AP-3 complex regulates the biogenesis/function of organelles of platelets and other cells and that abrogation of expression of the AP-3 complex leads to platelet SPD. (+info)Morphological changes of platelets following platelet aggregation induced by collagen in Japanese Black cattle with delta-storage pool deficiency. (2/32)
Electron microscopic observation was performed on platelets activated by collagen stimulation in Japanese Black cattle with delta-storage pool deficiency (delta-SPD) to identify their morphological and functional abnormalities compared from normal bovine platelets. Platelets of normal Japanese Black cattle changed their shapes to spherical and were in the phase of release reactions 5 min after the collagen (90.9 microg/ml) stimulation, and most of platelets were aggregated. On the other hand, in GSPD cattle, most of a granules were still dispersed in activated platelets, although the spherical shape change of the platelets was observed. These results suggested that there are abnormalities in the release reactions in platelets of delta-SPD cattle. (+info)Platelet ultrastructural morphometry for diagnosis of partial delta-storage pool disease in patients with mild platelet dysfunction and/or thrombocytopenia of unknown origin. A study of 24 cases. (3/32)
BACKGROUND AND OBJECTIVE: Exact diagnosis is sometimes difficult in patients presenting with a slight bleeding diathesis, prolonged bleeding times, non-specific aggregometric abnormalities, and/or mild thrombocytopenia. The objective of this study was to evaluate the use of platelet ultrastructural morphometry in detecting a partial d-storage pool disease in such patients. DESIGN AND METHODS: Platelets from 52 patients and 15 controls were fixed immediately in glutaraldehyde in White's saline without anticoagulant and processed for transmission electron microscopy. Using computer-assisted morphometry, the size and shape of the platelets were measured, as were the size and number per platelet of the dense- and a-granules. Ultrastructural morphology of the above and other intraplatelet structures was observed. RESULTS: Twenty-four cases were diagnosed as having a partial d-storage pool disease. Mean platelet area (2.28 microm(2)) and maximum diameter (2.58 microm) were significantly greater in patients than in control subjects (1.64 microm(2) and 2. 25 microm, respectively) but discoid shape was preserved. Mean dense-granule number was decreased, both per platelet and per microm(2) of platelet area (patients 0.22 and 0.09; controls 0.42 and 0.24). Seven patients also had a marked decrease in a-granules, resulting in a significantly lower mean number of granules per microm(2 )(patients 2.43; controls 3.15). Additionally, the patients' platelets had significant increases in both lipid droplets and surface-connected canalicular system. INTERPRETATION AND CONCLUSIONS: A partial dense-granule deficiency, sometimes associated with partial a-granule deficiency, should be borne in mind faced with patients who have a slight bleeding diathesis, non-specific platelet dysfunction tests and/or mild thrombocytopenia of unknown origin. Platelet ultrastructural morphometry is useful in diagnosing this condition. (+info)Hermansky-Pudlak syndrome type 3 in Ashkenazi Jews and other non-Puerto Rican patients with hypopigmentation and platelet storage-pool deficiency. (4/32)
Hermansky-Pudlak syndrome (HPS), consisting of oculocutaneous albinism and a bleeding diathesis due to the absence of platelet dense granules, displays extensive locus heterogeneity. HPS1 mutations cause HPS-1 disease, and ADTB3A mutations cause HPS-2 disease, which is known to involve abnormal intracellular vesicle formation. A third HPS-causing gene, HPS3, was recently identified on the basis of homozygosity mapping of a genetic isolate of HPS in central Puerto Rico. We now describe the clinical and molecular characteristics of eight patients with HPS-3 who are of non-Puerto Rican heritage. Five are Ashkenazi Jews; three of these are homozygous for a 1303+1G-->A splice-site mutation that causes skipping of exon 5, deleting an RsaI restriction site and decreasing the amounts of mRNA found on northern blotting. The other two are heterozygous for the 1303+1G-->A mutation and for either an 1831+2T-->G or a 2621-2A-->G splicing mutation. Of 235 anonymous Ashkenazi Jewish DNA samples, one was heterozygous for the 1303+1G-->A mutation. One seven-year-old boy of German/Swiss extraction was compound heterozygous for a 2729+1G-->C mutation, causing skipping of exon 14, and resulting in a C1329T missense (R396W), with decreased mRNA production. A 15-year-old Irish/English boy was heterozygous for an 89-bp insertion between exons 16 and 17 resulting from abnormal splicing; his fibroblast HPS3 mRNA is normal in amount but is increased in size. A 12-year-old girl of Puerto Rican and Italian background has the 3,904-bp founder deletion from central Puerto Rico on one allele. All eight patients have mild symptoms of HPS; two Jewish patients had received the diagnosis of ocular, rather than oculocutaneous, albinism. These findings expand the molecular diagnosis of HPS, provide a screening method for a mutation common among Jews, and suggest that other patients with mild hypopigmentation and decreased vision should be examined for HPS. (+info)Phosphotyrosine proteins in platelets from patients with storage pool disease: direct relation between granule defects and defective signal transduction. (5/32)
BACKGROUND AND OBJECTIVES: Storage pool diseases (SPD) are heterogeneous disorders associated with an abnormal presence of intraplatelet granules, which cause mild to moderate bleeding diathesis. We investigated signaling through tyrosine phosphorylation of proteins occurring in platelets with total or partial absence of dense- and alpha-granules in response to activation. DESIGN AND METHODS: We included a patient with severe delta-SPD, a patient with severe alpha-SPD or gray platelet syndrome, and six patients with partial deficiency of dense or a-granules. SPD was confirmed by electron microscopy evaluation of platelet ultrastructure. Platelet function was evaluated by bleeding time determination and conventional aggregometry. Platelet suspensions were activated with collagen and thrombin to analyze changes in tyrosine phosphorylation of proteins by electrophoresis and Western-blotting. RESULTS: Bleeding times were prolonged in all the patients included. Aggregation responses were slightly decreased in delta-SPD and normal in the rest of patients. Tyrosine phosphorylation in platelets from patients with partial forms of SPD was equivalent to that observed in control platelets, absent in response to collagen and thrombin activation in delta-SPD, and deficient only to thrombin activation in alpha-SPD. INTERPRETATION AND CONCLUSIONS: Tyrosine phosphorylation of proteins in activated platelets is highly dependent on the substances contained in the dense-granules and moderately dependent on those contained in the alpha-granules. A minimum amount of intraplatelet granules ensures signaling through tyrosine phosphorylation of proteins. (+info)The regulation of platelet-dense granules by Rab27a in the ashen mouse, a model of Hermansky-Pudlak and Griscelli syndromes, is granule-specific and dependent on genetic background. (6/32)
The ashen (ash) mouse, a model for Hermansky-Pudlak syndrome (HPS) and for a subset of patients with Griscelli syndrome, presents with hypopigmentation, prolonged bleeding times, and platelet storage pool deficiency due to a mutation which abrogates expression of the Rab27a protein. Platelets of mice with the ashen mutation on the C3H/HeSnJ inbred strain background have greatly reduced amounts of dense granule components such as serotonin and adenine nucleotides though near-normal numbers of dense granules as enumerated by the dense granule-specific fluorescent dye mepacrine. Thus, essentially normal numbers of platelet dense granules are produced but the granule interiors are abnormal. Collagen-mediated aggregation of mutant platelets is significantly depressed. No abnormalities in the concentrations or secretory rates of 2 other major platelet granules, lysosomes and alpha granules, were apparent. Similarly, no platelet ultrastructural alterations other than those involving dense granules were detected. Therefore, Rab27a regulates the synthesis and secretion of only one major platelet organelle, the dense granule. There were likewise no mutant effects on levels or secretion of lysosomal enzymes of several other tissues. Together with other recent analyses of the ashen mouse, these results suggest a close relationship between platelet dense granules, melanosomes of melanocytes and secretory lysosomes of cytotoxic T lymphocytes, all mediated by Rab27a. Surprisingly, the effects of the ashen mutation on platelet-dense granule components, platelet aggregation, and bleeding times were highly dependent on genetic background. This suggests that bleeding tendencies may likewise vary among patients with Griscelli syndrome and HPS with Rab27a mutations. (+info)A clinical variant of familial Hermansky-Pudlak syndrome. (7/32)
Hermansky-Pudlak syndrome (HPS) is an autosomal recessive inherited disease consisting of (1) partial oculocutaneous albinism (with nystagmus, strabism, and visual acuity loss), (2) platelet storage pool deficiency (with bleeding diathesis), and (3) disorder of "ceroid" metabolism with a multisystem tissue lysosomal ceroid deposition. HPS is less uncommon in Puerto Rico, where the most important studies have been performed, but is a very rare disease in Europe. HPS basic defect remains unknown, even if an HPS-causing gene was identified in chromosome segment 10q23-q23.3, and several mutations have been reported. The aim of this article is to discuss, on the basis of a review of relevant literature, a new familial HPS clinical variant observed in 2 young sisters (aged 16 and 23 years old, respectively), characterized by the typical symptoms of this syndrome. Our patients also suffered from diffuse interstitial pulmonary disease and an unexpectedly increased platelet aggregation and were prone to bacterial infections. Interestingly, we observed urinary tract abnormality in the younger HPS sister and a porencephalic cyst in the older HPS sister; both of these developmental defects have been reported in the Cross syndrome (or oculocerebral hypopigmentation syndrome). It seems that in our patients, an overlapping of the phenotypic manifestations of different rare syndromes may be present. The presence of ceroid-like autofluorescent material in urinary sediment together with the histologic aspects and the autofluorescence of oral mucosa biopsy are consistent with a ceroid-like lipofuscin storage. HPS should be carefully tested for in suspected cases to prevent the severe visual impairment, rapidly progressive pulmonary fibrosis, and other complications associated with this disorder. (+info)Mutation analysis of HPS1, the gene mutated in Hermansky-Pudlak syndrome, in patients with isolated platelet dense-granule deficiency. (8/32)
BACKGROUND AND OBJECTIVES: Isolated platelet dense granule (PDG) deficiency is a heterogeneous disorder frequently found among patients with mild to moderate bleeding diatheses. However, the molecular basis of this disorder is unknown. Genes involved in other rare bleeding disorders with associated reduction in the numbers of platelet dense-granules may play a role in isolated PDG deficiency. Among such genes, HPS1 is known to play a key role in the genesis of PDG and as many as 18 different HPS1 mutations have been identified in patients with Hermansky-Pudlak syndrome. Recently, we have identified subjects with one HPS1 heterozygous mutation displaying significant reductions in PDG without the clinical phenotype of Hermansky-Pudlak syndrome. This suggested that HPS1 mutations could be involved in isolated PDG deficiency. DESIGN AND METHODS: We sequenced all coding exons, and flanking intron regions of HPS1 in 16 patients with mild to severe PDG deficiency, most of whom had mild bleeding episodes. Nine patients reported a familial history of bleeding diathesis with PDG deficiency. We also evaluated the prevalence of HPS1 variations in 215 controls. Transmission electron microscopy was used to evaluate the number and morphology of PDG from patients and selected controls. RESULTS: No patient with PDG deficiency carried severe mutations of the HPS1 gene. We identified 6 previously described and 5 new polymorphisms in the HPS1 gene. Platelet electron microscopy in controls carrying these polymorphisms revealed that they did not significantly modify the number or morphology of PDG. INTERPRETATION AND CONCLUSIONS: Mutations affecting the HPS1 gene play a minor role in isolated PDG deficiency. These results support a molecular heterogeneity responsible for the number and morphology of PDG. (+info)Platelet Storage Pool Deficiency (SPD) is a group of bleeding disorders characterized by a decrease in the number or function of secretory granules (storage pools) within platelets, leading to impaired secretion of granule contents and compromised platelet aggregation, ultimately resulting in increased bleeding tendency.
Platelet Storage Pool Deficiency (PSPD) is a group of bleeding disorders characterized by a decrease in the number or function of secretory granules (storage pools) in platelets, which are small blood cells that play a crucial role in clotting. These granules contain various substances such as ADP (adenosine diphosphate), ATP (adenosine triphosphate), calcium ions, and serotonin, which are released during platelet activation to help promote clot formation.
In PSPD, the quantitative or qualitative deficiency of these granules leads to impaired platelet function and increased bleeding tendency. The condition can be inherited or acquired, and it is often classified based on the type of granule affected: dense granules (delta granules) or alpha granules.
Delta granule deficiency, also known as Dense Granule Deficiency (DGD), results in decreased levels of ADP, ATP, and calcium ions, while alpha granule deficiency leads to reduced levels of von Willebrand factor, fibrinogen, and other clotting factors.
Symptoms of PSPD can vary from mild to severe and may include easy bruising, prolonged bleeding after injury or surgery, nosebleeds, and gum bleeding. The diagnosis typically involves platelet function tests, electron microscopy, and genetic testing. Treatment options depend on the severity of the condition and may include desmopressin (DDAVP), platelet transfusions, or other medications to manage bleeding symptoms.
'Blood Platelet Disorders' refer to conditions characterized by abnormalities in the number, structure, or function of platelets, leading to altered hemostasis which may result in bleeding disorders or thrombotic complications.
Blood platelet disorders are conditions that affect the number and/or function of platelets, which are small blood cells that help your body form clots to stop bleeding. Normal platelet count ranges from 150,000 to 450,000 platelets per microliter of blood. A lower-than-normal platelet count is called thrombocytopenia, while a higher-than-normal platelet count is called thrombocytosis.
There are several types of platelet disorders, including:
1. Immune thrombocytopenia (ITP): A condition in which the immune system mistakenly attacks and destroys platelets, leading to a low platelet count. ITP can be acute (lasting less than six months) or chronic (lasting longer than six months).
2. Thrombotic thrombocytopenic purpura (TTP): A rare but serious condition that causes blood clots to form in small blood vessels throughout the body, leading to a low platelet count, anemia, and other symptoms.
3. Hemolytic uremic syndrome (HUS): A condition that is often caused by a bacterial infection, which can lead to the formation of blood clots in the small blood vessels of the kidneys, resulting in kidney damage and a low platelet count.
4. Hereditary platelet disorders: Some people inherit genetic mutations that can affect the number or function of their platelets, leading to bleeding disorders such as von Willebrand disease or Bernard-Soulier syndrome.
5. Medication-induced thrombocytopenia: Certain medications can cause a decrease in platelet count as a side effect.
6. Platelet dysfunction disorders: Some conditions can affect the ability of platelets to function properly, leading to bleeding disorders such as von Willebrand disease or storage pool deficiency.
Symptoms of platelet disorders may include easy bruising, prolonged bleeding from cuts or injuries, nosebleeds, blood in urine or stools, and in severe cases, internal bleeding. Treatment for platelet disorders depends on the underlying cause and may include medications, surgery, or other therapies.
Blood platelets, also known as thrombocytes, are small anucleate cell fragments derived from megakaryocytes in the bone marrow that play crucial roles in hemostasis, including plug formation at the site of vessel injury and initiation of the coagulation cascade.
Blood platelets, also known as thrombocytes, are small, colorless cell fragments in our blood that play an essential role in normal blood clotting. They are formed in the bone marrow from large cells called megakaryocytes and circulate in the blood in an inactive state until they are needed to help stop bleeding. When a blood vessel is damaged, platelets become activated and change shape, releasing chemicals that attract more platelets to the site of injury. These activated platelets then stick together to form a plug, or clot, that seals the wound and prevents further blood loss. In addition to their role in clotting, platelets also help to promote healing by releasing growth factors that stimulate the growth of new tissue.
'Blood preservation' is the process of keeping blood safe and viable for transfusion purposes through the use of anticoagulants, proper storage conditions, and rigorous testing, maintaining its quality and effectiveness over an extended period.
Blood preservation refers to the process of keeping blood viable and functional outside of the body for transfusion purposes. This is typically achieved through the addition of various chemical additives, such as anticoagulants and nutrients, to a storage solution in which the blood is contained. The preserved blood is then refrigerated or frozen until it is needed for transfusion.
The goal of blood preservation is to maintain the structural integrity and functional capacity of the red blood cells, white blood cells, and platelets, as well as the coagulation factors, in order to ensure that the transfused blood is safe and effective. Different storage conditions and additives are used for the preservation of different components of blood, depending on their specific requirements.
It's important to note that while blood preservation extends the shelf life of donated blood, it does not last indefinitely. The length of time that blood can be stored depends on several factors, including the type of blood component and the storage conditions. Regular testing is performed to ensure that the preserved blood remains safe and effective for transfusion.
Cytoplasmic granules are membrane-bound organelles or inclusions within the cytoplasm, consisting of various biochemical substances, such as proteins, lipids, and carbohydrates, that play crucial roles in cellular functions like secretion, defense, and energy storage.
Cytoplasmic granules are small, membrane-bound organelles or inclusions found within the cytoplasm of cells. They contain various substances such as proteins, lipids, carbohydrates, and genetic material. Cytoplasmic granules have diverse functions depending on their specific composition and cellular location. Some examples include:
1. Secretory granules: These are found in secretory cells and store hormones, neurotransmitters, or enzymes before they are released by exocytosis.
2. Lysosomes: These are membrane-bound organelles that contain hydrolytic enzymes for intracellular digestion of waste materials, foreign substances, and damaged organelles.
3. Melanosomes: Found in melanocytes, these granules produce and store the pigment melanin, which is responsible for skin, hair, and eye color.
4. Weibel-Palade bodies: These are found in endothelial cells and store von Willebrand factor and P-selectin, which play roles in hemostasis and inflammation.
5. Peroxisomes: These are single-membrane organelles that contain enzymes for various metabolic processes, such as β-oxidation of fatty acids and detoxification of harmful substances.
6. Lipid bodies (also called lipid droplets): These are cytoplasmic granules that store neutral lipids, such as triglycerides and cholesteryl esters. They play a role in energy metabolism and intracellular signaling.
7. Glycogen granules: These are cytoplasmic inclusions that store glycogen, a polysaccharide used for energy storage in animals.
8. Protein bodies: Found in plants, these granules store excess proteins and help regulate protein homeostasis within the cell.
9. Electron-dense granules: These are found in certain immune cells, such as mast cells and basophils, and release mediators like histamine during an allergic response.
10. Granules of unknown composition or function may also be present in various cell types.
Platelet storage pool deficiency - Wikipedia
Dense granules δ-Storage pool deficiency Hermansky-Pudlak syndrome Chédiak-Higashi syndrome Platelet storage pool deficiency ... Platelet storage pool deficiency is a type of coagulopathy characterized by defects in the granules in platelets, particularly ... Anemia Decrease mean platelet volume Myelodysplasia The condition of platelet storage pool deficiency can be acquired or ... PubMed Scholia has a topic profile for Platelet storage pool deficiency. (Articles with short description, Short description is ...
Electron-dense chains and clusters in platelets from patients with storage pool-deficiency disorders - PubMed
Recently we have reported that platelets also contain chains and clusters that ar … ... the storage sites for adenine nucleotides and serotonin, which can be identified under the electron microscope without fixation ... Human platelets are known to contain inherently electron-opaque dense bodies, ... Electron-dense chains and clusters in platelets from patients with storage pool-deficiency disorders J G White 1 ...
A Clinical Variant of Familial Hermansky-Pudlak Syndrome.
... platelet storage pool deficiency (with bleeding diathesis), and (3) disorder of "ceroid" metabolism with a multisystem tissue ... platelet storage pool deficiency (with bleeding diathesis); and (3) disorder of "ceroid" metabolism with a multisystem tissue ... platelet-dense granules, and lysosomes).[3,5,6,8,9,12,13,15,16,17,19,20,21,23,27,28,29,30,31] HPS is frequently fatal.[15,32] ... Our patients also suffered from diffuse interstitial pulmonary disease and an unexpectedly increased platelet aggregation and ...
NIH Clinical Center Search the Studies: Study Number, Study Title
Platelet Storage Pool Deficiency;. Metabolic Disease;. Pulmonary Fibrosis;. Inflammatory Bowel Disease;. Natural History ... bleeding problems due to a platelet abnormality (platelet storage pool defect), and storage of an abnormal fat-protein compound ... diagnosed with HPS may be admitted to the protocol based upon the presence of albinism and a platelet storage pool deficiency. ... The diagnosis of HPS is based upon a paucity or deficiency of platelet dense bodies on whole mount electron microscopy or the ...
Pigmented Purpuric Dermatosis Differential Diagnoses
Gray platelet syndrome - Getting a Diagnosis - Genetic and Rare Diseases Information Center
Learn about diagnosis and specialist referrals for Gray platelet syndrome. ... Alpha storage pool deficiency; GPS; Platelet alpha-granule deficiencyAlpha storage pool deficiency; GPS; Platelet alpha-granule ... Because Gray platelet syndrome is considered a genetic disease, you may want to ask your health care team if genetic testing is ... Because Gray platelet syndrome is considered a genetic disease, you may want to ask your health care team if genetic testing is ...
HPS3 gene: MedlinePlus Genetics
... type 3 in Ashkenazi Jews and other non-Puerto Rican patients with hypopigmentation and platelet storage-pool deficiency. Am J ... Platelet alpha granules in BLOC-2 and BLOC-3 subtypes of Hermansky-Pudlak syndrome. Platelets. 2007 Mar;18(2):150-7. doi: ... A different type of LRO is found in platelets, the blood cells involved in normal blood clotting. These LROs, called dense ... The absence of dense granules within platelets leads to bleeding problems in affected individuals. ...
SMART: CCP domain annotation
OMIM:173610: Platelet alpha/delta storage pool deficiency. Complement C2 (P06681) (SMART). OMIM:217000: C2 deficiency. ... Molecular and cellular basis of deficiency of the b subunit for factor XIII secondary to a Cys430-Phe mutation in the seventh ... We studied the defect responsible for deficiency of the b subunit for factor XIII in the first known case of this condition. ... A missense mutation in seventh CCP domain causes deficiency of the b subunit of factor XIII. ...
SMART: CCP domain annotation
OMIM:173610: Platelet alpha/delta storage pool deficiency. Complement C2 (P06681) (SMART). OMIM:217000: C2 deficiency. ... Molecular and cellular basis of deficiency of the b subunit for factor XIII secondary to a Cys430-Phe mutation in the seventh ... We studied the defect responsible for deficiency of the b subunit for factor XIII in the first known case of this condition. ... A missense mutation in seventh CCP domain causes deficiency of the b subunit of factor XIII. ...
Identification of a novel mutation in HPS6 in a patient with hemophilia B and oculocutaneous albinism - PubMed
... is characterized by oculocutaneous albinism and an increased tendency to bleed due to a platelet storage pool defect. We report ... Keywords: Christmas disease; Factor IX deficiency; Hemophilia B; Hermansky-Pudlak syndrome; Oculocutaneous albinism; Platelet ... Botero JP, Chen D, Majerus JA, Coon LM, He R, Warad DM, Pruthi RK, Nichols WL. Botero JP, et al. Platelets. 2018 Jan;29(1):91- ... Genetic sequencing and platelet images of patient with Hermansky-Pudlak syndrome-6 and hemophilia B. (A) F9 chromatogram ...
Platelet Disorders: Overview of Platelet Disorders, Pathophysiology of Platelet Disorders, Autoimmune Thrombocytopenias
The platelets arise from the fragmentation of the cytoplasm of megakaryocytes in the bone marrow and circulate in blood as disc ... The hemostatic system consists of platelets, coagulation factors, and the endothelial cells lining the blood vessels. ... ADP is present in the dense granules of platelets as a storage pool, which is not used in the normal metabolic activity of ... The defects result from either the absence of granules in platelets or the defective storage of ADP. Inherited deficiency of ...
Community Counts Data Visualization Technical Notes | CDC
... platelet function disorder, platelet storage pool disease, platelet release defect or other hereditary functional platelet ... deficiency, Factor VII (7) deficiency, Factor X (10) deficiency, Factor XI (11) deficiency, Factor XIII (13) deficiency, alpha- ... 2 antiplasmin deficiency, or PAI-1 deficiency.. *Platelet Disorders and Other: includes participants with gray platelet ... deficiency), Factor II (2) deficiency, Factor V (5) deficiency, combined Factors V & VIII (5 & 8) ...
Hermansky-Pudlak syndrome and related disorders of organelle formation
Platelet Disorders
Delta storage pool deficiency is a platelet function disorder caused by a lack of dense granules and the chemicals normally ... Storage pool deficiencies are a group of disorders caused by problems with platelet granules. Granules are little sacs inside ... Some storage pool deficiencies are caused by a lack of granules, but the most common ones are caused by a failure of the ... What are platelet function disorders?. Platelet function disorders are conditions in which platelets do not work the way they ...
DeCS
Platelet Storage Pool Disease Storage Pool Deficiencies Storage Pool Deficiency Storage Pool Deficiency, Platelet Storage Pool ... Deficiencies, Storage Pool Deficiency, Platelet Storage Pool Deficiency, Storage Pool Platelet Storage Pool Deficiencies ... Platelet Storage Pool Deficiencies. Platelet Storage Pool Disease. Storage Pool Deficiencies. Storage Pool Deficiency. Storage ... Deficiencies, Storage Pool. Deficiency, Platelet Storage Pool. Deficiency, Storage Pool. Familial Platelet Storage Pool Disease ...
MeSH Browser
Platelet Storage Pool Deficiencies Platelet Storage Pool Disease Storage Pool Deficiency Storage Pool Deficiency, Platelet ... Acquired Storage Pool Disease Deficiency, Platelet Storage Pool Deficiency, Storage Pool Familial Platelet Storage Pool Disease ... Familial Platelet Storage Pool Disease Narrower Concept UI. M0545831. Terms. Familial Platelet Storage Pool Disease Preferred ... Gray Platelet Syndrome [C15.378.140.427] * Platelet Storage Pool Deficiency [C15.378.140.735] * Hermanski-Pudlak Syndrome [ ...
MeSH Browser
Platelet Storage Pool Deficiencies Platelet Storage Pool Disease Storage Pool Deficiency Storage Pool Deficiency, Platelet ... Acquired Storage Pool Disease Deficiency, Platelet Storage Pool Deficiency, Storage Pool Familial Platelet Storage Pool Disease ... Familial Platelet Storage Pool Disease Narrower Concept UI. M0545831. Terms. Familial Platelet Storage Pool Disease Preferred ... Gray Platelet Syndrome [C15.378.140.427] * Platelet Storage Pool Deficiency [C15.378.140.735] * Hermanski-Pudlak Syndrome [ ...
Code System Concept
CDC/NIH Web Information Database|Home|PHGKB
Hermanski-Pudlak Syndrome | Profiles RNS
Syndrome characterized by the triad of oculocutaneous albinism (ALBINISM, OCULOCUTANEOUS); PLATELET STORAGE POOL DEFICIENCY; ... Blood Platelet Disorders [C15.378.140]. *Platelet Storage Pool Deficiency [C15.378.140.735]. *Hermanski-Pudlak Syndrome [ ... Platelet Storage Pool Deficiency [C15.378.100.685]. *Hermanski-Pudlak Syndrome [C15.378.100.685.400] ... Platelet Storage Pool Deficiency [C15.378.463.735]. *Hermanski-Pudlak Syndrome [C15.378.463.735.400] ...
Hereditary Intrinsic Platelet Disorders - Hematology and Oncology - MSD Manual Professional Edition
Hereditary Intrinsic Platelet Disorders - Etiology, pathophysiology, symptoms, signs, diagnosis & prognosis from the MSD ... They may result from decreased ADP in the platelet granules (storage pool deficiency), from an inability to generate ... Platelet adhesion (ie, of platelets to exposed vascular subendothelium) requires von Willebrand factor (VWF) and the platelet ... See also Overview of Platelet Disorders Overview of Platelet Disorders Platelets are circulating cell fragments that function ...
"A Morphometric Analysis of Platelet Dense Granules of Patients with Un" by William T. Gunning III, Meera Raghavan et al.
We have identified a sub-classification of δ-SPD that we have defined as micro-granular storage pool deficiency (δ-MGSPD). ... Total δ-granule storage pool volumes (TDGV)/platelet were calculated using these measurements. Individuals with δ-SPD had half ... Four hundred and ninety-nine had classic dense (delta) granule storage pool deficiency (δ-SPD). Five hundred and eighty-one ... dense granules had a calculated storage pool volume statistically different than controls and essentially the same storage pool ...
Platelet Function Testing: Nucleotide Assays
Storage Pool Disorder. SPD. Description. Dense granule deficiency. Hermansky-Pudlak Syndrome - rare although amongst Puerto ... Idiopathic Dense Deficiency Characteristic Features of Dense granule deficiency:. 1. Light Transmission Aggregometry. Low dose ... Platelet Function Testing: Platelet Nucleotide Assays. Introduction. There are two separate nucleotide pools within platelets: ... In Storage Pool Disorders [SPDs] in which there is a reduction or absence of the Dense bodies - this leads to a reduction in ...
Publications
Plaquetas/ultraestrutura
Platelet storage pool deficiencies are a lesser-known group of bleeding disorders which often go undiagnosed and may account ... We hypothesized that patients with platelet δ-storage pool deficiency might also have a predominance of type O blood. A ... An Investigation of ABO Blood Type and the Platelet Delta Granule Storage Pool. ... storage pool deficiency was performed. Correlations between dense granule numbers, blood type, and von Willebrand factor were ...
Treatment - NHS Southern Haemophilia Network
Storage pool deficiencies. Most people with storage pool deficiencies only need treatment during surgical procedures (including ... Platelet transfusions (only if bleeding is severe). People with inherited platelet function disorders should not take Aspirin®, ... Platelet transfusions (only if bleeding is severe). People with inherited platelet function disorders should not take Aspirin® ... Platelet transfusions. People with inherited platelet function disorders should not take Aspirin®,nonsteroidal anti- ...
A Case of Chronic Thrombocytopenia in a 17-Year-Old Female
A case of gray platelet syndrome, a rare type of thrombocytopenia, is discussed. How is this disorder diagnosed and treated? ... Storage pool deficiency (SPD) is a group of rare platelet disorders that result from deficiencies in α-granules, δ-granules, or ... Thrombospondin receptor deficiency (PLT GPIV deficiency). CD36 (7q21.11). Thrombospondin receptor (GPIV, GPIIb). Autosomal ... platelet; MPV, mean platelet volume; NEU, absolute neutrophil count; LYM, absolute lymphocyte count; MONO, absolute monocyte ...
Protein S Deficiency | Profiles RNS
Platelet Storage Pool Deficiency. *Protein S Deficiency. *Purpura. *Thrombocythemia, Essential. *Vitamin K Deficiency ... and the clinical manifestations of its deficiency are virtually identical to those of protein C deficiency. Treatment with ... "Protein S Deficiency" is a descriptor in the National Library of Medicines controlled vocabulary thesaurus, MeSH (Medical ... This graph shows the total number of publications written about "Protein S Deficiency" by people in this website by year, and ...
Hermansky-Pudlak Syndrome (HPS) | Syndromes: Rapid Recognition and Perioperative Implications, 2e | AccessAnesthesiology |...
This is a result of a combination of impaired platelet function caused by storage pool deficiency and of accumulation of ceroid ... Genetically transmitted metabolic disorder causing albinism, visual impairment, platelet pool storage deficiency resulting in ... Albinism with Hemorrhagic Diathesis; Oculocutaneous Albinism type VIA; Platelet Delta Storage Pool Disease; Albinism ... For proper diagnosis the platelets must be examined by electron microscopy, which reveals the absence of dense bodies. ...
Genetic testing in diffuse parenchymal lung disease | Orphanet Journal of Rare Diseases | Full Text
... bleeding diathesis resulting from platelet storage pool deficiency, and lung fibrosis [55]. The disease, which is caused by ... Once the diagnosis has been confirmed - by demonstration of the absence of platelet dense bodies on whole-mount electron ... Future studies should address these deficiencies. To this end, participation in international consortia of institutions - with ... defects of multiple cytoplasmic organelles, including melanosomes, platelet-dense granules and lysosomes, has a prevalence of 1 ...