$27 100% Waterproof Sofa Slipcover Sofa Cover Right Sectional Couch Home Kitchen Home Décor Products Slipcovers 100% Waterproof Sofa famous Slipcover Cover Couch Right Sectional $27 100% Waterproof Sofa Slipcover Sofa Cover Right Sectional Couch Home Kitchen Home Décor Products Slipcovers Sectional,$27,Sofa,Home Kitchen , Home Décor Products , Slipcovers,Waterproof,Cover,www.san-lorenzo.jp,100%,Sofa,/despiteful1327675.html,Slipcover,Couch,Right 100% Waterproof Sofa famous Slipcover Cover Couch Right Sectional Sectional,$27,Sofa,Home Kitchen , Home Décor Products , Slipcovers,Waterproof,Cover,www.san-lorenzo.jp,100%,Sofa,/despiteful1327675.html,Slipcover,Couch,Right

100% Waterproof Sofa famous Slipcover Cover Couch Right Sectional 70% OFF Outlet

100% Waterproof Sofa Slipcover Sofa Cover Right Sectional Couch

$27

100% Waterproof Sofa Slipcover Sofa Cover Right Sectional Couch

|||

Product Description

  • 100% Waterproof furniture protector freshen up your home décor and protect your furniture, they are the perfect combination of stylish and function
  • Imeticulously engineered to complement your existing home decor, provide guests with a comfortable seating option that's visually appealing
..

H.VERSAILTEX real water proof velvet plush right-arm sectional couch slipcover, with elegant cut flower pattern, fully protecting your sofa furniture away from the stains and imperfections from the daily life

"u"Multiple sizes with the same material are available in H.VERSAILTEX!

. . . .
H.VERSAILTEX 100% Waterproof Soft Velvet Left-Arm Chaise Lounge Slip Cover H.VERSAILTEX 100% Waterproof Soft Velvet Right-Arm Sectional Slipcover H.VERSAILTEX 100% Waterproof Soft Velvet Right-Arm Chaise Lounge Slip Cover H.VERSAILTEX 100% Waterproof Soft Velvet Left-Arm Sectional Slipcover
Fabric Type Real Velvet Plush Real Velvet Plush Real Velvet Plush Real Velvet Plush
Dimensions Fit seat width 36 in Fit seat width 52 in Fit seat width 36 in Fit seat width 52 in
100% Waterproof
Machine Washable
..

Spotlight of our flower slipcover

  • Using updated waterproof technology, this cover will definitely catch your mind of full waterproof while still is airy and soft. Great choice for homes with children and pets.
  • Made of ultra soft and gentle microfiber velvet, rich, thick and comfortable.
  • Sturdy elastic strap make these functional covers non slip and stable, provide a whole protection and compacted effect.
  • Provide guests with a comfortable seating option that's visually appealing. This new version sofa protector showcases an casual and classic pattern, vintage appeal that will enhance the appearance of any room space.
..

  • Available in multiple colors: Grey, Chocolate, Taupe, Ivory, Camel and more new coming
  • Available in 2 sizes to choose: 52" ; 72"
  • We HIGHLY RECOMMEND buying together with same pattern sofa chaise furniture cover to complete your home decor
..

  • Machine washing in cold, do not bleach, tumble dry low and low iron if needed
  • Due to different monitor or screens, colors may be slightly different as you see, but never change itself attractions

100% Waterproof Sofa Slipcover Sofa Cover Right Sectional Couch

CURRENT ISSUE
November, 2021

No. 106 (11)

2020 Impact Factor: 9.941 Submission > Acceptance: 52 days
ARTICLES IN THREE SENTENCES
Article

Transducin β-like protein 1 controls multiple oncogenic networks in diffuse large B-cell lymphoma

Transducin β-like protein 1 (TBL1) plays a crucial role in controlling the stability of regulatory proteins involved in cell proliferation and autophagy induction. This study revealed that, unlike normal B cells, diffuse large B-cell lymphoma cells express abundant levels of TBL1 and its overexpression correlates with poor clinical outcome. Targeting TBL1 promoted lymphoma cell death in vitro and in vivo. These results provide the rationale for targeting TBL1 as a novel therapeutic strategy in diffuse large B-cell lymphoma.

Youssef Youssef et al.

Article

Targeting shear gradient activated von Willebrand factor by the novel single-chain antibody A1 reduces occlusive thrombus formation in vitro

The authors of this study developed a single-chain antibody that targets a shear gradient-specific conformation of von Willebrnad factor (VWF). In vitro studies showed that this antibody specifically reduces VWF-GPIbα binding and thrombus formation at sites of shear rate gradients but does not block platelet deposition and aggregation under constant shear rate. This characteristic places the antibody in a new class of antiplatelet therapy for selective blockade of pathological thrombus formation while maintaining normal hemostasis.

Thomas Hoefer et al.

Case Report

Massive cerebral venous thrombosis due to vaccine-induced immune thrombotic thrombocytopenia

A 26-year-old female developed vaccine-induced immune thrombotic thrombocytopenia (VITT) with cerebral venous thrombosis and bi-hemispheric hemorrhage following the first dose of the ChAdOx1 nCoV-19 vaccine. The treatment protocol, based on intravenous immunoglobulins, dexamethasone and argatroban was successful with almost complete clinical, laboratory and radiological response. This experience supports the application of an early and multidisciplinary therapeutic approach in cases of VITT, with the possibility of avoiding deaths and obtain a resolution of the syndrome.

Sara Bonato et al.

Letter

Allogeneic hematopoietic stem cell transplantation from non-sibling 10/10 HLA-matched related donors: a single-center experience

This retrospective study compared the outcome of allogeneic hematopoietic stem cell transplantation (HSCT) in 23 patients with hematologic malignancies transplanted from non-sibling fully matched related donors to that of patients who underwent conventional haplo-HSCT. Subjects transplanted from fully matched related donors showed trends to a higher relapse rate and lower cumulative incidence of grade II-IV acute graft-versus-host disease, but overall survival was similar. The authors concluded that individualized adjustment of the immunosuppressive treatment is reasonable for this category of patients.

Yaoyao Shen et al.

TAKE ADVANTAGE FROM HAEMATOLOGICA