A small tool to view real-world ActivityPub objects as JSON! Enter a URL
or username from Mastodon or a similar service below, and we'll send a
request with
the right
Accept
header
to the server to view the underlying object.
{
"@context": "https://www.w3.org/ns/activitystreams",
"type": "OrderedCollectionPage",
"orderedItems": [
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:615764343933382657",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "<a href=\"https://www.minds.com/blog/view/615764341794287636\" target=\"_blank\">https://www.minds.com/blog/view/615764341794287636</a>",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
"https://www.minds.com/api/activitypub/users/410458547877318656/followers"
],
"tag": [],
"url": "https://www.minds.com/newsfeed/615764343933382657",
"published": "2016-08-26T04:27:39+00:00",
"source": {
"content": "https://www.minds.com/blog/view/615764341794287636",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:615764343933382657/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:608005798802501646",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "The statistical analysis of population averages suppresses valuable individual-specific information. <br /><br /><a href=\"https://www.systemsbiology.org/about/what-is-systems-biology/\" target=\"_blank\">https://www.systemsbiology.org/about/what-is-systems-biology/</a><br /><br />",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
"https://www.minds.com/api/activitypub/users/410458547877318656/followers"
],
"tag": [],
"url": "https://www.minds.com/newsfeed/608005798802501646",
"published": "2016-08-04T18:37:58+00:00",
"source": {
"content": "The statistical analysis of population averages suppresses valuable individual-specific information. \n\nhttps://www.systemsbiology.org/about/what-is-systems-biology/\n\n",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:608005798802501646/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:608002770057830402",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "For example, scientists could use this technique to follow the trajectory of stem cells or other immature cells into differentiated, mature cell types. They could also follow the progression of diseases such as cancer. A recent study has shown that the order in which cancer-causing mutations are acquired can determine the behavior of the disease, including how cancer cells respond to drugs and develop into tumors. Furthermore, engineers could use the state machine platform developed here to program cell functions and differentiation pathways. <br /><br /><br /><a href=\"http://news.mit.edu/2016/biological-circuit-cells-remember-respond-stimuli-0721\" target=\"_blank\">http://news.mit.edu/2016/biological-circuit-cells-remember-respond-stimuli-0721</a>",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
"https://www.minds.com/api/activitypub/users/410458547877318656/followers"
],
"tag": [],
"url": "https://www.minds.com/newsfeed/608002770057830402",
"published": "2016-08-04T18:25:56+00:00",
"source": {
"content": "For example, scientists could use this technique to follow the trajectory of stem cells or other immature cells into differentiated, mature cell types. They could also follow the progression of diseases such as cancer. A recent study has shown that the order in which cancer-causing mutations are acquired can determine the behavior of the disease, including how cancer cells respond to drugs and develop into tumors. Furthermore, engineers could use the state machine platform developed here to program cell functions and differentiation pathways. \n\n\nhttp://news.mit.edu/2016/biological-circuit-cells-remember-respond-stimuli-0721",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:608002770057830402/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:607932089387458576",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "<a href=\"https://www.youtube.com/watch?v=fsDnMsMyFtw\" target=\"_blank\">https://www.youtube.com/watch?v=fsDnMsMyFtw</a>",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
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],
"tag": [],
"url": "https://www.minds.com/newsfeed/607932089387458576",
"published": "2016-08-04T13:45:04+00:00",
"source": {
"content": "https://www.youtube.com/watch?v=fsDnMsMyFtw",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:607932089387458576/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:607858836497244173",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "Two-photon light-sheet microscopy<br /><br />Light-sheet fluorescence microscopy or SPIM (Selective Plane Illumination Microscopy) has gained widespread recognition in recent years, due to its distinct advantages for imaging live organisms with high acquisition speed, large field-of-view and low phototoxicity. However its imaging depth into biological tissues remains a limitation. On the other hand, multiphoton fluorescence microscopy has proven invaluable for tissue studies with its ability to provide 3D micron-scale resolution deep into thick/live samples. As a point-scanning technique, its imaging speed is limited to typically one image per second (a few 10^5 pixels/second). By combining two-photon excited fluorescence and light-sheet illumination, two-photon light-sheet microscopy (or 2P-SPIM, Fig. 1) is emerging as a very efficient method to achieve 50-100x faster two-photon imaging of thick tissues, with the additional benefit of strongly reducing unwanted phototoxic and photobleaching effects.<br /><a href=\"http://willy.supatto.perso.sfr.fr/research07.htm\" target=\"_blank\">http://willy.supatto.perso.sfr.fr/research07.htm</a>",
"to": [
"https://www.w3.org/ns/activitystreams#Public"
],
"cc": [
"https://www.minds.com/api/activitypub/users/410458547877318656/followers"
],
"tag": [],
"url": "https://www.minds.com/newsfeed/607858836497244173",
"published": "2016-08-04T08:53:59+00:00",
"source": {
"content": "Two-photon light-sheet microscopy\n\nLight-sheet fluorescence microscopy or SPIM (Selective Plane Illumination Microscopy) has gained widespread recognition in recent years, due to its distinct advantages for imaging live organisms with high acquisition speed, large field-of-view and low phototoxicity. However its imaging depth into biological tissues remains a limitation. On the other hand, multiphoton fluorescence microscopy has proven invaluable for tissue studies with its ability to provide 3D micron-scale resolution deep into thick/live samples. As a point-scanning technique, its imaging speed is limited to typically one image per second (a few 10^5 pixels/second). By combining two-photon excited fluorescence and light-sheet illumination, two-photon light-sheet microscopy (or 2P-SPIM, Fig. 1) is emerging as a very efficient method to achieve 50-100x faster two-photon imaging of thick tissues, with the additional benefit of strongly reducing unwanted phototoxic and photobleaching effects.\nhttp://willy.supatto.perso.sfr.fr/research07.htm",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:607858836497244173/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594936702317899783",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "Modeling cardiac tissue EP requires the combination of two underlying physics: (1) cell level ion channel mediated currents that can be described as the solution to a set of ordinary differential equations (ODEs); and (2) cell-to-cell diffusion via gap junctions as the solution to a reaction-diffusion partial differential equation (PDE) [6]. In this regard, our group has previously developed, verified, and validated a multiscale model [7] to simulate the EP of a healthy heart. Specifically we have reproduced the correct activation, electrocardiogram (ECG), and wave dynamics in a healthy rabbit heart, including the generation of ventricular fibrillation by an ectopic beat. In the present study, we modified the model to capture the known characteristic features of a failing myocyte and analyze their effect on ventricular EP.<br /><br /><br /><a href=\"http://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004968\" target=\"_blank\">http://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004968</a>",
"to": [
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],
"cc": [
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],
"tag": [],
"url": "https://www.minds.com/newsfeed/594936702317899783",
"published": "2016-06-29T17:06:02+00:00",
"source": {
"content": "Modeling cardiac tissue EP requires the combination of two underlying physics: (1) cell level ion channel mediated currents that can be described as the solution to a set of ordinary differential equations (ODEs); and (2) cell-to-cell diffusion via gap junctions as the solution to a reaction-diffusion partial differential equation (PDE) [6]. In this regard, our group has previously developed, verified, and validated a multiscale model [7] to simulate the EP of a healthy heart. Specifically we have reproduced the correct activation, electrocardiogram (ECG), and wave dynamics in a healthy rabbit heart, including the generation of ventricular fibrillation by an ectopic beat. In the present study, we modified the model to capture the known characteristic features of a failing myocyte and analyze their effect on ventricular EP.\n\n\nhttp://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004968",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594936702317899783/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594567179932807174",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "Agilent<br /><br /><a href=\"http://www.foodqualitynews.com/Lab-Technology/Agilent-and-Qiagen-seal-different-acquisitions\" target=\"_blank\">http://www.foodqualitynews.com/Lab-Technology/Agilent-and-Qiagen-seal-different-acquisitions</a>",
"to": [
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],
"cc": [
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],
"tag": [],
"url": "https://www.minds.com/newsfeed/594567179932807174",
"published": "2016-06-28T16:37:41+00:00",
"source": {
"content": "Agilent\n\nhttp://www.foodqualitynews.com/Lab-Technology/Agilent-and-Qiagen-seal-different-acquisitions",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594567179932807174/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594566423620100101",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "iLab Solutions is the leader in providing web-based management services to academic research institutions with customers that include leading NIH-funded universities, research hospitals, and independent institutes. iLab leverages a scientific advisory team comprised of active PIs with research backgrounds from Brigham & Women's Hospital, Dana-Farber Cancer Institute, EMBL, Harvard University, Huntsman Cancer Institute, Mt. Sinai School of Medicine, Stanford University, University of Melbourne, Vanderbilt University, and Yale University. The iLab leadership team includes executives with experience from Dana-Farber Cancer Institute, Deloitte, Facebook, Genentech, Intel, McKinsey, Microsoft, SAIC, and Vanderbilt University. <br /><br /><a href=\"http://www.ilabsolutions.com/about-ilab/\" target=\"_blank\">http://www.ilabsolutions.com/about-ilab/</a>",
"to": [
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],
"cc": [
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],
"tag": [],
"url": "https://www.minds.com/newsfeed/594566423620100101",
"published": "2016-06-28T16:34:41+00:00",
"source": {
"content": "iLab Solutions is the leader in providing web-based management services to academic research institutions with customers that include leading NIH-funded universities, research hospitals, and independent institutes. iLab leverages a scientific advisory team comprised of active PIs with research backgrounds from Brigham & Women's Hospital, Dana-Farber Cancer Institute, EMBL, Harvard University, Huntsman Cancer Institute, Mt. Sinai School of Medicine, Stanford University, University of Melbourne, Vanderbilt University, and Yale University. The iLab leadership team includes executives with experience from Dana-Farber Cancer Institute, Deloitte, Facebook, Genentech, Intel, McKinsey, Microsoft, SAIC, and Vanderbilt University. \n\nhttp://www.ilabsolutions.com/about-ilab/",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594566423620100101/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594429675040681985",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "Particulate matter along with sulfur oxides and nitrogen oxides were pegged as the most widespread culprits of causing air pollution. Long-term side effects include heart disease and lung cancer whereas these pollutants can also activate deadly diseases like heart attacks.<br /><br /><br /><a href=\"http://www.rdmag.com/article/2016/06/iea-air-pollution-significant-public-health-crisis\" target=\"_blank\">http://www.rdmag.com/article/2016/06/iea-air-pollution-significant-public-health-crisis</a>",
"to": [
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],
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"url": "https://www.minds.com/newsfeed/594429675040681985",
"published": "2016-06-28T07:31:17+00:00",
"source": {
"content": "Particulate matter along with sulfur oxides and nitrogen oxides were pegged as the most widespread culprits of causing air pollution. Long-term side effects include heart disease and lung cancer whereas these pollutants can also activate deadly diseases like heart attacks.\n\n\nhttp://www.rdmag.com/article/2016/06/iea-air-pollution-significant-public-health-crisis",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594429675040681985/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594130636776677376",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "The researchers' findings may also lead to better treatments for other diseases. \"We think that our study is paradigm shifting because we have identified a new biological pathway linking mitochondria to immune mechanisms in Parkinson's disease. This opens the possibility to use therapies based on modulation of the immune system, something already done for the treatment of other diseases,\" says Desjardins. \"Interestingly, the role played by PINK1 and Parkin in limiting the presentation of mitochondrial antigens may not only regulate a process that impact Parkinson's disease, but may also affect other autoimmune diseases like diabetes and lupus, and primary biliary cirrhosis, where a link to mitochondrial antigen presentation has been observed.\"<br /><br /><br /><a href=\"http://medicalxpress.com/news/2016-06-neuron-cell-death-overactive-immune.html\" target=\"_blank\">http://medicalxpress.com/news/2016-06-neuron-cell-death-overactive-immune.html</a>",
"to": [
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],
"cc": [
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],
"tag": [],
"url": "https://www.minds.com/newsfeed/594130636776677376",
"published": "2016-06-27T11:43:02+00:00",
"source": {
"content": "The researchers' findings may also lead to better treatments for other diseases. \"We think that our study is paradigm shifting because we have identified a new biological pathway linking mitochondria to immune mechanisms in Parkinson's disease. This opens the possibility to use therapies based on modulation of the immune system, something already done for the treatment of other diseases,\" says Desjardins. \"Interestingly, the role played by PINK1 and Parkin in limiting the presentation of mitochondrial antigens may not only regulate a process that impact Parkinson's disease, but may also affect other autoimmune diseases like diabetes and lupus, and primary biliary cirrhosis, where a link to mitochondrial antigen presentation has been observed.\"\n\n\nhttp://medicalxpress.com/news/2016-06-neuron-cell-death-overactive-immune.html",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:594130636776677376/activity"
},
{
"type": "Create",
"actor": "https://www.minds.com/api/activitypub/users/410458547877318656",
"object": {
"type": "Note",
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:593675507678060544",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "The implantable triboelectric nanogenerator (iTENG) harnesses the actual physical movement of the heart to produce a current that is then fed into a small computer that controls the monitor. A receiving coil positioned externally of the body captures the data emitted by the cardiac monitor, resulting in a totally self-sustained system that does not need any outside power sources.<br /><a href=\"http://www.medgadget.com/2016/06/new-device-harnesses-heartbeats-to-power-medical-implants.html\" target=\"_blank\">http://www.medgadget.com/2016/06/new-device-harnesses-heartbeats-to-power-medical-implants.html</a>",
"to": [
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"tag": [],
"url": "https://www.minds.com/newsfeed/593675507678060544",
"published": "2016-06-26T05:34:29+00:00",
"source": {
"content": "The implantable triboelectric nanogenerator (iTENG) harnesses the actual physical movement of the heart to produce a current that is then fed into a small computer that controls the monitor. A receiving coil positioned externally of the body captures the data emitted by the cardiac monitor, resulting in a totally self-sustained system that does not need any outside power sources.\nhttp://www.medgadget.com/2016/06/new-device-harnesses-heartbeats-to-power-medical-implants.html",
"mediaType": "text/plain"
}
},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:593675507678060544/activity"
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{
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"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "CDC-recognized Diabetes Prevention Program (DPP) and its diabetes self-management program to more broadly reach the 22 million people in the United States suffering from diabetes, and the 86 million people at risk for developing the disease. <br /><a href=\"http://www.meddeviceonline.com/doc/canary-health-announces-comprehensive-treatment-acuity-0001\" target=\"_blank\">http://www.meddeviceonline.com/doc/canary-health-announces-comprehensive-treatment-acuity-0001</a>",
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"url": "https://www.minds.com/newsfeed/593512609529995264",
"published": "2016-06-25T18:47:13+00:00",
"source": {
"content": "CDC-recognized Diabetes Prevention Program (DPP) and its diabetes self-management program to more broadly reach the 22 million people in the United States suffering from diabetes, and the 86 million people at risk for developing the disease. \nhttp://www.meddeviceonline.com/doc/canary-health-announces-comprehensive-treatment-acuity-0001",
"mediaType": "text/plain"
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},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:593512609529995264/activity"
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{
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"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:593333650611773440",
"attributedTo": "https://www.minds.com/api/activitypub/users/410458547877318656",
"content": "They found that \"integrins\" - proteins on the surface of a cell that bind and communicate with its surroundings - play an important role in the survival of cancer cells after they detach from a primary tumor.<br /><br /><br /><a href=\"http://www.medicalnewstoday.com/articles/311191.php\" target=\"_blank\">http://www.medicalnewstoday.com/articles/311191.php</a>",
"to": [
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"tag": [],
"url": "https://www.minds.com/newsfeed/593333650611773440",
"published": "2016-06-25T06:56:05+00:00",
"source": {
"content": "They found that \"integrins\" - proteins on the surface of a cell that bind and communicate with its surroundings - play an important role in the survival of cancer cells after they detach from a primary tumor.\n\n\nhttp://www.medicalnewstoday.com/articles/311191.php",
"mediaType": "text/plain"
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},
"id": "https://www.minds.com/api/activitypub/users/410458547877318656/entities/urn:activity:593333650611773440/activity"
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