The poverty impact of rural roads : evidencefrom Bangladesh

The rationale for public investment in rural roads is that households can better exploit agricultural and nonagricultural opportunities to use labor and capital more efficiently. But significant knowledge gaps remain as to how opportunities provided by roads actually filter back into household outcomes and their distributional consequences. This paper examines the impacts of rural road projects using household-level panel data from Bangladesh. Rural road investments are found to reduce poverty significantly through higher agricultural production, higher wages, lower input and transportation costs, and higher output prices. Rural roads also lead to higher girls'and boys'schooling. Road investments are pro-poor, meaning the gains are proportionately higher for the poor than for the non-poor.Transport Economics Policy&Planning,Rural Roads&Transport,Economic Theory&Research,Rural Transport,Rural Poverty Reduction

Natural materials

The use of naturally occurring materials as scaffolds to support cell growth and proliferation significantly impacted the origin and progress of tissue engineering and regenerative medicine. However, the majority of these materials failed to provide adequate cues to guide cell differentiation toward the formation of new tissues. Over the past decade, a new generation of multifunctional and smart natural-based materials has been developed to provide biophysical and biochemical cues intended to specifically guide cell behavior. In this chapter, the use of extracellular matrix proteins and blood-derivatives intrinsic capacity to mimic the biophysical and biological characteristics of native tissues is reviewed. Furthermore, the design of a variety of nanostructures using the well-explored characteristics of nucleic acids is summarized. In the second section, the exploitation of supramolecular chemistry to create new dynamic functional hydrogels that mimic the extracellular matrix structure and/or composition is surveyed. Then, the incorporation of nanoelements in polymeric networks for the design of smart nanocomposite materials with tailored functionalities to guide cell behavior is introduced. Finally, the future perspectives in the development of new biomaterials for tissue engineering and regenerative medicine are presented.Te authors acknowledge the fnancial support of the European Union Framework Programme for Research and Innovation Horizon 2020, under the TEAMING grant agreement No 739572 – Te Discoveries CTR, Marie Skłodowska-Curie grant agreement No 706996 and European Research Council grant agreement No 726178; FCT (Fundação para a Ciência e a Tecnologia) and the Fundo Social Europeu através do Programa Operacional do Capital Humano (FSE/POCH) in the framework of Ph.D. grants PD/BD/113807/2015 (BBM) and PD/BD/129403/2017 (SMB), Post-Doc grant SFRH/ BPD/112459/2015 (RMD) and project SmarTendon (PTDC/NAN-MAT/30595/2017); Project NORTE01-0145-FEDER-000021 supported by Norte Portugal Regional Operational Programme (NORTE 2020), under the PORTUGAL 2020 Partnership Agreement, through the European Regional Development Fund (ERDF

GOAT-A POTENTIAL DAIRY ANIMAL: PRESENT AND FUTURE PROSPECTS

1UAF Sub-Campus Toba Tek Singh, University of Agriculture, Faisalabad Goats are well-admired and documented worldwide for providing food in terms of milk and meat and their products. They are playing a key role in supporting millions of people who are poor, landless and living in the rural areas. Goats are not only well-embedded in the culture but socially acceptable too for reducing global poverty in particularly for the developing nations. A goat is universally called as "Poor man's cow" Globally about 90 % goats are found in the developing world. Asia alone produces about 80 % goat milk. Pakistan at present supports 56.7 millions head of goats consisting of about 25 well-recognized breeds found in different regions of the country. Goats annually contribute approximately 275 thousand tonnes of meat, 851 thousand tonnes of milk, 25 million skins and 21.4 thousand tonnes of hair to the national economy. They are also a source of foreign exchange and contribute 2.5 % of the annual milk production. Majority of goats, however, are meant for meat with the exception of some milch breeds. These typical indigenous milch breeds include Beetal, Dera Din Panah (DDP), Naachi, Damani, and Kamori. These dairy goats constitute about five million of the total goat population in the country. Usually small flocks of sheep and goats are raised together both in plains and subhilly areas. The goats are being kept under three main production systems viz: nomadic, transhumant, sedentary and household. Major feed resources available for goats are mainly ranges (60 %), while other feeding material available to these animals is along canal/river banks; pastures, roadside grazing, crop residues, tree leaves, pods etc. Goats are naturally bred under field conditions. Despite having their crucial role in rural lives throughout the world they have not been properly addressed the way they really deserve. The present paper will review the dairy potential of local dairy goat breeds along with their future scope as a dairy animal

3D biomimetic constructs steer stem cell commitment by synergistic modulation of biophysical cues and growth factor signalling

Tendon diseases are prevalent health concerns for which current therapies present limited success, in part due to the intrinsically low regenerative ability of tendons. Therefore, tissue engineering presents a potential to improve this outcome. Here, we hypothesize that a concurrent control over both biophysical and biochemical stimuli will boost the tenogenic commitment of stem cells, thus promoting regeneration. To achieve this, we combine molecularly imprinted nanoparticles (MINPs), which act as artificial amplifiers for endogenous growth factor (GF) activity, with bioinspired anisotropic hydrogels2 to manufacture 3D tenogenic constructs. MINPs were solid phase-imprinted using a TGF-β3 epitope as template and their affinity for the target was assessed by SPR and dot blot. Magnetically-responsive microfibers were produced by cryosectioning electrospun meshes containing iron oxide nanoparticles. The constructs were prepared by encapsulating adipose tissue-derived stem cells (ASCs), microfibers, and MINPs within gelatin hydrogels, while aligning the microfibers with an external magnetostatic field during gelation. This allows an effective modulation of hydrogel fibrillar topography, mimicking the native tissue's anisotropic architecture. Cell responses were analyzed by multiplex immunoassay, quantitative polymerase chain reaction, and immunocytochemistry. MINPs showed an affinity for the template comparable to monoclonal antibodies. Encapsulated ASCs acquired an elongated shape and predominant orientation along the alignment direction. Cellular studies revealed that combining MINPs with aligned microfibers increased TGF-β signaling via non-canonical Akt/ERK pathways and upregulated tendon-associated gene expression, contrasting with randomly oriented gels. Immunostaining of tendon-related proteins presented analogous outcomes, corroborating our hypothesis. Our results thus demonstrate that microstructural cues and biological signals synergistically direct stem cell fate commitment, suggesting that this strategy holds potential for improving tendon healing and might be adaptable for other biological tissues. The proposed concept highlights the GF-sequestering ability of MINPs which allows a cost-effective alternative to recombinant GF supplementation, potentially decreasing the translational costs of tissue engineering strategies

Guiding stem cell tenogenesis by modulation of growth factor signaling and cell-scale biophysical cues in bioengineered constructs

Tendon injuries and tendinopathies are increasingly prevalent health problems currently lacking effective treatments. Tissue engineering offers promising strategies to boost the low innate regenerative ability of tendons. Within this context, the simultaneous leveraging of both physical and biochemical cues by engineered scaffolding systems can be explored to promote a stronger tenogenic response from stem cells. Here, molecularly imprinted polymeric nanoparticles (MINPs) against transforming growth factor (TGF)-β3 are combined with bioinspired anisotropic hydrogels to produce tenogenesis-inductive constructs. MINPs are first solid phase-imprinted against a TGF-β3 epitope, achieving an affinity comparable to monoclonal antibodies. MINPs and magnetically-responsive microfibers are then encapsulated together with adipose-derived stem cells within gelatin-based hydrogels, applying a magnetostatic field during gelation to align the microfibers. The created anisotropic microstructure guides cell growth and elongation unidirectionally, while MINPs act as artificial receptors for TGF-β3, potentiating its paracrine action in the cellular microenvironment. The combination of both stimuli proves effective at increasing TGF-β signaling, which promotes the expression of tendon-associated genes and corresponding protein synthesis, suggesting that microstructural cues and biomolecule sequestration act in tandem to direct cell fate commitment. Overall, this system recapitulates several elements of tendon development, constituting a promising strategy for the regeneration of this tissue

Internationalization as a strategy for small and medium‐sized enterprises and the impact of regulatory environment: An emerging country perspective

This study focuses on identification, categorisation and comparison of regulatory barriers to internationalisation for the SMEs from an emerging market context. Primary data were collected to develop and validate a structural model to assess the salient regulatory barriers of internationalisation with a particular attention to the SMEs in Bangladesh. Structured questionnaire has been used to collect data from 212 SMEs operating in Bangladesh. The results indicate that both administrative and economic regulatory barriers are significant for the internationalisation of SMEs whereby administrative regulatory barriers are slightly more substantial. This study provides further discussion from both theoretical and methodological aspects. By developing and validating structural model, this study contributes to the literature on small business and regulation with particular attention to the emerging markets